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author | mcampbellsmith <mcampbellsmith@gmail.com> | 2013-11-20 22:34:44 +1100 |
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committer | sbrissen <sbrissen@hotmail.com> | 2013-12-10 14:54:28 -0500 |
commit | 74bcc029c6ab942f252477a74102877f7d093388 (patch) | |
tree | 044bd97b98693c073841663c62f57e1520509109 /drivers/media/video/samsung/mali/common | |
parent | 2a6649bf6aa50c44a05fc02e1efb8b788c58e82b (diff) | |
download | kernel_samsung_smdk4412-74bcc029c6ab942f252477a74102877f7d093388.zip kernel_samsung_smdk4412-74bcc029c6ab942f252477a74102877f7d093388.tar.gz kernel_samsung_smdk4412-74bcc029c6ab942f252477a74102877f7d093388.tar.bz2 |
mali: bulk import of r3p2-01rel3 drivers from i9300-update12
Courtesy of a similar commit from OMNI ROM. Requires updated mali blobs
Change-Id: I9ee55b653b57b7c390f8e0e8cd4fc068f1c751c3
Diffstat (limited to 'drivers/media/video/samsung/mali/common')
62 files changed, 0 insertions, 15604 deletions
diff --git a/drivers/media/video/samsung/mali/common/mali_block_allocator.c b/drivers/media/video/samsung/mali/common/mali_block_allocator.c deleted file mode 100644 index 269e662..0000000 --- a/drivers/media/video/samsung/mali/common/mali_block_allocator.c +++ /dev/null @@ -1,391 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ -#include "mali_kernel_common.h" -#include "mali_kernel_core.h" -#include "mali_kernel_memory_engine.h" -#include "mali_block_allocator.h" -#include "mali_osk.h" - -#define MALI_BLOCK_SIZE (256UL * 1024UL) /* 256 kB, remember to keep the ()s */ - -typedef struct block_info -{ - struct block_info * next; -} block_info; - -/* The structure used as the handle produced by block_allocator_allocate, - * and removed by block_allocator_release */ -typedef struct block_allocator_allocation -{ - /* The list will be released in reverse order */ - block_info *last_allocated; - mali_allocation_engine * engine; - mali_memory_allocation * descriptor; - u32 start_offset; - u32 mapping_length; -} block_allocator_allocation; - - -typedef struct block_allocator -{ - _mali_osk_lock_t *mutex; - block_info * all_blocks; - block_info * first_free; - u32 base; - u32 cpu_usage_adjust; - u32 num_blocks; -} block_allocator; - -MALI_STATIC_INLINE u32 get_phys(block_allocator * info, block_info * block); -static mali_physical_memory_allocation_result block_allocator_allocate(void* ctx, mali_allocation_engine * engine, mali_memory_allocation * descriptor, u32* offset, mali_physical_memory_allocation * alloc_info); -static void block_allocator_release(void * ctx, void * handle); -static mali_physical_memory_allocation_result block_allocator_allocate_page_table_block(void * ctx, mali_page_table_block * block); -static void block_allocator_release_page_table_block( mali_page_table_block *page_table_block ); -static void block_allocator_destroy(mali_physical_memory_allocator * allocator); -static u32 block_allocator_stat(mali_physical_memory_allocator * allocator); - -mali_physical_memory_allocator * mali_block_allocator_create(u32 base_address, u32 cpu_usage_adjust, u32 size, const char *name) -{ - mali_physical_memory_allocator * allocator; - block_allocator * info; - u32 usable_size; - u32 num_blocks; - - usable_size = size & ~(MALI_BLOCK_SIZE - 1); - MALI_DEBUG_PRINT(3, ("Mali block allocator create for region starting at 0x%08X length 0x%08X\n", base_address, size)); - MALI_DEBUG_PRINT(4, ("%d usable bytes\n", usable_size)); - num_blocks = usable_size / MALI_BLOCK_SIZE; - MALI_DEBUG_PRINT(4, ("which becomes %d blocks\n", num_blocks)); - - if (usable_size == 0) - { - MALI_DEBUG_PRINT(1, ("Memory block of size %d is unusable\n", size)); - return NULL; - } - - allocator = _mali_osk_malloc(sizeof(mali_physical_memory_allocator)); - if (NULL != allocator) - { - info = _mali_osk_malloc(sizeof(block_allocator)); - if (NULL != info) - { - info->mutex = _mali_osk_lock_init( _MALI_OSK_LOCKFLAG_ORDERED, 0, _MALI_OSK_LOCK_ORDER_MEM_INFO); - if (NULL != info->mutex) - { - info->all_blocks = _mali_osk_malloc(sizeof(block_info) * num_blocks); - if (NULL != info->all_blocks) - { - u32 i; - info->first_free = NULL; - info->num_blocks = num_blocks; - - info->base = base_address; - info->cpu_usage_adjust = cpu_usage_adjust; - - for ( i = 0; i < num_blocks; i++) - { - info->all_blocks[i].next = info->first_free; - info->first_free = &info->all_blocks[i]; - } - - allocator->allocate = block_allocator_allocate; - allocator->allocate_page_table_block = block_allocator_allocate_page_table_block; - allocator->destroy = block_allocator_destroy; - allocator->stat = block_allocator_stat; - allocator->ctx = info; - allocator->name = name; - - return allocator; - } - _mali_osk_lock_term(info->mutex); - } - _mali_osk_free(info); - } - _mali_osk_free(allocator); - } - - return NULL; -} - -static void block_allocator_destroy(mali_physical_memory_allocator * allocator) -{ - block_allocator * info; - MALI_DEBUG_ASSERT_POINTER(allocator); - MALI_DEBUG_ASSERT_POINTER(allocator->ctx); - info = (block_allocator*)allocator->ctx; - - _mali_osk_free(info->all_blocks); - _mali_osk_lock_term(info->mutex); - _mali_osk_free(info); - _mali_osk_free(allocator); -} - -MALI_STATIC_INLINE u32 get_phys(block_allocator * info, block_info * block) -{ - return info->base + ((block - info->all_blocks) * MALI_BLOCK_SIZE); -} - -static mali_physical_memory_allocation_result block_allocator_allocate(void* ctx, mali_allocation_engine * engine, mali_memory_allocation * descriptor, u32* offset, mali_physical_memory_allocation * alloc_info) -{ - block_allocator * info; - u32 left; - block_info * last_allocated = NULL; - mali_physical_memory_allocation_result result = MALI_MEM_ALLOC_NONE; - block_allocator_allocation *ret_allocation; - - MALI_DEBUG_ASSERT_POINTER(ctx); - MALI_DEBUG_ASSERT_POINTER(descriptor); - MALI_DEBUG_ASSERT_POINTER(offset); - MALI_DEBUG_ASSERT_POINTER(alloc_info); - - info = (block_allocator*)ctx; - left = descriptor->size - *offset; - MALI_DEBUG_ASSERT(0 != left); - - if (_MALI_OSK_ERR_OK != _mali_osk_lock_wait(info->mutex, _MALI_OSK_LOCKMODE_RW)) return MALI_MEM_ALLOC_INTERNAL_FAILURE; - - ret_allocation = _mali_osk_malloc( sizeof(block_allocator_allocation) ); - - if ( NULL == ret_allocation ) - { - /* Failure; try another allocator by returning MALI_MEM_ALLOC_NONE */ - _mali_osk_lock_signal(info->mutex, _MALI_OSK_LOCKMODE_RW); - return result; - } - - ret_allocation->start_offset = *offset; - ret_allocation->mapping_length = 0; - - while ((left > 0) && (info->first_free)) - { - block_info * block; - u32 phys_addr; - u32 padding; - u32 current_mapping_size; - - block = info->first_free; - info->first_free = info->first_free->next; - block->next = last_allocated; - last_allocated = block; - - phys_addr = get_phys(info, block); - - padding = *offset & (MALI_BLOCK_SIZE-1); - - if (MALI_BLOCK_SIZE - padding < left) - { - current_mapping_size = MALI_BLOCK_SIZE - padding; - } - else - { - current_mapping_size = left; - } - - if (_MALI_OSK_ERR_OK != mali_allocation_engine_map_physical(engine, descriptor, *offset, phys_addr + padding, info->cpu_usage_adjust, current_mapping_size)) - { - MALI_DEBUG_PRINT(1, ("Mapping of physical memory failed\n")); - result = MALI_MEM_ALLOC_INTERNAL_FAILURE; - mali_allocation_engine_unmap_physical(engine, descriptor, ret_allocation->start_offset, ret_allocation->mapping_length, (_mali_osk_mem_mapregion_flags_t)0); - - /* release all memory back to the pool */ - while (last_allocated) - { - /* This relinks every block we've just allocated back into the free-list */ - block = last_allocated->next; - last_allocated->next = info->first_free; - info->first_free = last_allocated; - last_allocated = block; - } - - break; - } - - *offset += current_mapping_size; - left -= current_mapping_size; - ret_allocation->mapping_length += current_mapping_size; - } - - _mali_osk_lock_signal(info->mutex, _MALI_OSK_LOCKMODE_RW); - - if (last_allocated) - { - if (left) result = MALI_MEM_ALLOC_PARTIAL; - else result = MALI_MEM_ALLOC_FINISHED; - - /* Record all the information about this allocation */ - ret_allocation->last_allocated = last_allocated; - ret_allocation->engine = engine; - ret_allocation->descriptor = descriptor; - - alloc_info->ctx = info; - alloc_info->handle = ret_allocation; - alloc_info->release = block_allocator_release; - } - else - { - /* Free the allocation information - nothing to be passed back */ - _mali_osk_free( ret_allocation ); - } - - return result; -} - -static void block_allocator_release(void * ctx, void * handle) -{ - block_allocator * info; - block_info * block, * next; - block_allocator_allocation *allocation; - - MALI_DEBUG_ASSERT_POINTER(ctx); - MALI_DEBUG_ASSERT_POINTER(handle); - - info = (block_allocator*)ctx; - allocation = (block_allocator_allocation*)handle; - block = allocation->last_allocated; - - MALI_DEBUG_ASSERT_POINTER(block); - - if (_MALI_OSK_ERR_OK != _mali_osk_lock_wait(info->mutex, _MALI_OSK_LOCKMODE_RW)) - { - MALI_DEBUG_PRINT(1, ("allocator release: Failed to get mutex\n")); - return; - } - - /* unmap */ - mali_allocation_engine_unmap_physical(allocation->engine, allocation->descriptor, allocation->start_offset, allocation->mapping_length, (_mali_osk_mem_mapregion_flags_t)0); - - while (block) - { - MALI_DEBUG_ASSERT(!((block < info->all_blocks) || (block > (info->all_blocks + info->num_blocks)))); - - next = block->next; - - /* relink into free-list */ - block->next = info->first_free; - info->first_free = block; - - /* advance the loop */ - block = next; - } - - _mali_osk_lock_signal(info->mutex, _MALI_OSK_LOCKMODE_RW); - - _mali_osk_free( allocation ); -} - - -static mali_physical_memory_allocation_result block_allocator_allocate_page_table_block(void * ctx, mali_page_table_block * block) -{ - block_allocator * info; - mali_physical_memory_allocation_result result = MALI_MEM_ALLOC_INTERNAL_FAILURE; - - MALI_DEBUG_ASSERT_POINTER(ctx); - MALI_DEBUG_ASSERT_POINTER(block); - info = (block_allocator*)ctx; - - if (_MALI_OSK_ERR_OK != _mali_osk_lock_wait(info->mutex, _MALI_OSK_LOCKMODE_RW)) return MALI_MEM_ALLOC_INTERNAL_FAILURE; - - if (NULL != info->first_free) - { - void * virt; - u32 phys; - u32 size; - block_info * alloc; - alloc = info->first_free; - - phys = get_phys(info, alloc); /* Does not modify info or alloc */ - size = MALI_BLOCK_SIZE; /* Must be multiple of MALI_MMU_PAGE_SIZE */ - virt = _mali_osk_mem_mapioregion( phys, size, "Mali block allocator page tables" ); - - /* Failure of _mali_osk_mem_mapioregion will result in MALI_MEM_ALLOC_INTERNAL_FAILURE, - * because it's unlikely another allocator will be able to map in. */ - - if ( NULL != virt ) - { - block->ctx = info; /* same as incoming ctx */ - block->handle = alloc; - block->phys_base = phys; - block->size = size; - block->release = block_allocator_release_page_table_block; - block->mapping = virt; - - info->first_free = alloc->next; - - alloc->next = NULL; /* Could potentially link many blocks together instead */ - - result = MALI_MEM_ALLOC_FINISHED; - } - } - else result = MALI_MEM_ALLOC_NONE; - - _mali_osk_lock_signal(info->mutex, _MALI_OSK_LOCKMODE_RW); - - return result; -} - - -static void block_allocator_release_page_table_block( mali_page_table_block *page_table_block ) -{ - block_allocator * info; - block_info * block, * next; - - MALI_DEBUG_ASSERT_POINTER( page_table_block ); - - info = (block_allocator*)page_table_block->ctx; - block = (block_info*)page_table_block->handle; - - MALI_DEBUG_ASSERT_POINTER(info); - MALI_DEBUG_ASSERT_POINTER(block); - - - if (_MALI_OSK_ERR_OK != _mali_osk_lock_wait(info->mutex, _MALI_OSK_LOCKMODE_RW)) - { - MALI_DEBUG_PRINT(1, ("allocator release: Failed to get mutex\n")); - return; - } - - /* Unmap all the physical memory at once */ - _mali_osk_mem_unmapioregion( page_table_block->phys_base, page_table_block->size, page_table_block->mapping ); - - /** @note This loop handles the case where more than one block_info was linked. - * Probably unnecessary for page table block releasing. */ - while (block) - { - next = block->next; - - MALI_DEBUG_ASSERT(!((block < info->all_blocks) || (block > (info->all_blocks + info->num_blocks)))); - - block->next = info->first_free; - info->first_free = block; - - block = next; - } - - _mali_osk_lock_signal(info->mutex, _MALI_OSK_LOCKMODE_RW); -} - -static u32 block_allocator_stat(mali_physical_memory_allocator * allocator) -{ - block_allocator * info; - block_info *block; - u32 free_blocks = 0; - - MALI_DEBUG_ASSERT_POINTER(allocator); - - info = (block_allocator*)allocator->ctx; - block = info->first_free; - - while(block) - { - free_blocks++; - block = block->next; - } - return (info->num_blocks - free_blocks) * MALI_BLOCK_SIZE; -} diff --git a/drivers/media/video/samsung/mali/common/mali_block_allocator.h b/drivers/media/video/samsung/mali/common/mali_block_allocator.h deleted file mode 100644 index 6c6f13e..0000000 --- a/drivers/media/video/samsung/mali/common/mali_block_allocator.h +++ /dev/null @@ -1,18 +0,0 @@ -/* - * Copyright (C) 2010, 2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_BLOCK_ALLOCATOR_H__ -#define __MALI_BLOCK_ALLOCATOR_H__ - -#include "mali_kernel_memory_engine.h" - -mali_physical_memory_allocator * mali_block_allocator_create(u32 base_address, u32 cpu_usage_adjust, u32 size, const char *name); - -#endif /* __MALI_BLOCK_ALLOCATOR_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_cluster.c b/drivers/media/video/samsung/mali/common/mali_cluster.c deleted file mode 100644 index f0fb2b6..0000000 --- a/drivers/media/video/samsung/mali/common/mali_cluster.c +++ /dev/null @@ -1,218 +0,0 @@ -/* - * Copyright (C) 2011-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_kernel_common.h" -#include "mali_cluster.h" -#include "mali_osk.h" -#include "mali_group.h" -#include "mali_l2_cache.h" -#include "mali_scheduler.h" - -static struct mali_cluster *mali_global_clusters[MALI_MAX_NUMBER_OF_CLUSTERS] = { NULL, NULL, NULL }; -static u32 mali_global_num_clusters = 0; - -/** - * The structure represents a render cluster - * A render cluster is defined by all the cores that share the same Mali L2 cache - */ -struct mali_cluster -{ - struct mali_l2_cache_core *l2; - u32 number_of_groups; - struct mali_group* groups[MALI_MAX_NUMBER_OF_GROUPS_PER_CLUSTER]; - u32 last_invalidated_id; - mali_bool power_is_enabled; -}; - -struct mali_cluster *mali_cluster_create(struct mali_l2_cache_core *l2_cache) -{ - struct mali_cluster *cluster = NULL; - - if (mali_global_num_clusters >= MALI_MAX_NUMBER_OF_CLUSTERS) - { - MALI_PRINT_ERROR(("Mali cluster: Too many cluster objects created\n")); - return NULL; - } - - cluster = _mali_osk_malloc(sizeof(struct mali_cluster)); - if (NULL != cluster) - { - _mali_osk_memset(cluster, 0, sizeof(struct mali_cluster)); - cluster->l2 = l2_cache; /* This cluster now owns this L2 cache object */ - cluster->last_invalidated_id = 0; - cluster->power_is_enabled = MALI_TRUE; - - mali_global_clusters[mali_global_num_clusters] = cluster; - mali_global_num_clusters++; - - return cluster; - } - - return NULL; -} - -void mali_cluster_power_is_enabled_set(struct mali_cluster * cluster, mali_bool power_is_enabled) -{ - cluster->power_is_enabled = power_is_enabled; -} - -mali_bool mali_cluster_power_is_enabled_get(struct mali_cluster * cluster) -{ - return cluster->power_is_enabled; -} - - -void mali_cluster_add_group(struct mali_cluster *cluster, struct mali_group *group) -{ - MALI_DEBUG_ASSERT_POINTER(cluster); - - if (cluster->number_of_groups < MALI_MAX_NUMBER_OF_GROUPS_PER_CLUSTER) - { - /* This cluster now owns the group object */ - cluster->groups[cluster->number_of_groups] = group; - cluster->number_of_groups++; - } -} - -void mali_cluster_delete(struct mali_cluster *cluster) -{ - u32 i; - - MALI_DEBUG_ASSERT_POINTER(cluster); - - /* Free all the resources we own */ - for (i = 0; i < cluster->number_of_groups; i++) - { - mali_group_delete(cluster->groups[i]); - } - - if (NULL != cluster->l2) - { - mali_l2_cache_delete(cluster->l2); - } - - for (i = 0; i < mali_global_num_clusters; i++) - { - if (mali_global_clusters[i] == cluster) - { - mali_global_clusters[i] = NULL; - mali_global_num_clusters--; - break; - } - } - - _mali_osk_free(cluster); -} - -void mali_cluster_reset(struct mali_cluster *cluster) -{ - u32 i; - - MALI_DEBUG_ASSERT_POINTER(cluster); - - /* Free all the resources we own */ - for (i = 0; i < cluster->number_of_groups; i++) - { - struct mali_group *group = cluster->groups[i]; - - mali_group_reset(group); - } - - if (NULL != cluster->l2) - { - mali_l2_cache_reset(cluster->l2); - } -} - -struct mali_l2_cache_core* mali_cluster_get_l2_cache_core(struct mali_cluster *cluster) -{ - MALI_DEBUG_ASSERT_POINTER(cluster); - return cluster->l2; -} - -struct mali_group *mali_cluster_get_group(struct mali_cluster *cluster, u32 index) -{ - MALI_DEBUG_ASSERT_POINTER(cluster); - - if (index < cluster->number_of_groups) - { - return cluster->groups[index]; - } - - return NULL; -} - -struct mali_cluster *mali_cluster_get_global_cluster(u32 index) -{ - if (MALI_MAX_NUMBER_OF_CLUSTERS > index) - { - return mali_global_clusters[index]; - } - - return NULL; -} - -u32 mali_cluster_get_glob_num_clusters(void) -{ - return mali_global_num_clusters; -} - -mali_bool mali_cluster_l2_cache_invalidate_all(struct mali_cluster *cluster, u32 id) -{ - MALI_DEBUG_ASSERT_POINTER(cluster); - - if (NULL != cluster->l2) - { - /* If the last cache invalidation was done by a job with a higher id we - * don't have to flush. Since user space will store jobs w/ their - * corresponding memory in sequence (first job #0, then job #1, ...), - * we don't have to flush for job n-1 if job n has already invalidated - * the cache since we know for sure that job n-1's memory was already - * written when job n was started. */ - if (((s32)id) <= ((s32)cluster->last_invalidated_id)) - { - return MALI_FALSE; - } - else - { - cluster->last_invalidated_id = mali_scheduler_get_new_id(); - } - - mali_l2_cache_invalidate_all(cluster->l2); - } - return MALI_TRUE; -} - -void mali_cluster_l2_cache_invalidate_all_force(struct mali_cluster *cluster) -{ - MALI_DEBUG_ASSERT_POINTER(cluster); - - if (NULL != cluster->l2) - { - cluster->last_invalidated_id = mali_scheduler_get_new_id(); - mali_l2_cache_invalidate_all(cluster->l2); - } -} - -void mali_cluster_invalidate_pages(u32 *pages, u32 num_pages) -{ - u32 i; - - for (i = 0; i < mali_global_num_clusters; i++) - { - /*additional check for cluster*/ - if (MALI_TRUE == mali_l2_cache_lock_power_state(mali_global_clusters[i]->l2)) - { - mali_l2_cache_invalidate_pages(mali_global_clusters[i]->l2, pages, num_pages); - } - mali_l2_cache_unlock_power_state(mali_global_clusters[i]->l2); - /*check for failed power locking???*/ - } -} diff --git a/drivers/media/video/samsung/mali/common/mali_cluster.h b/drivers/media/video/samsung/mali/common/mali_cluster.h deleted file mode 100644 index 33debdb..0000000 --- a/drivers/media/video/samsung/mali/common/mali_cluster.h +++ /dev/null @@ -1,44 +0,0 @@ -/* - * Copyright (C) 2011-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_CLUSTER_H__ -#define __MALI_CLUSTER_H__ - -#include "mali_osk.h" -#include "mali_l2_cache.h" - -/* Maximum 1 GP and 4 PP for a cluster (Mali-400 Quad-core) */ -#define MALI_MAX_NUMBER_OF_GROUPS_PER_CLUSTER 5 -#define MALI_MAX_NUMBER_OF_CLUSTERS 3 - -struct mali_cluster; -struct mali_group; - -struct mali_cluster *mali_cluster_create(struct mali_l2_cache_core *l2_cache); -void mali_cluster_add_group(struct mali_cluster *cluster, struct mali_group *group); -void mali_cluster_delete(struct mali_cluster *cluster); - -void mali_cluster_power_is_enabled_set(struct mali_cluster * cluster, mali_bool power_is_enabled); -mali_bool mali_cluster_power_is_enabled_get(struct mali_cluster * cluster); - -void mali_cluster_reset(struct mali_cluster *cluster); - -struct mali_l2_cache_core* mali_cluster_get_l2_cache_core(struct mali_cluster *cluster); -struct mali_group *mali_cluster_get_group(struct mali_cluster *cluster, u32 index); - -struct mali_cluster *mali_cluster_get_global_cluster(u32 index); -u32 mali_cluster_get_glob_num_clusters(void); - -/* Returns MALI_TRUE if it did the flush */ -mali_bool mali_cluster_l2_cache_invalidate_all(struct mali_cluster *cluster, u32 id); -void mali_cluster_l2_cache_invalidate_all_force(struct mali_cluster *cluster); -void mali_cluster_invalidate_pages(u32 *pages, u32 num_pages); - -#endif /* __MALI_CLUSTER_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_device_pause_resume.c b/drivers/media/video/samsung/mali/common/mali_device_pause_resume.c deleted file mode 100644 index 6af1279..0000000 --- a/drivers/media/video/samsung/mali/common/mali_device_pause_resume.c +++ /dev/null @@ -1,46 +0,0 @@ -/** - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -/** - * @file mali_device_pause_resume.c - * Implementation of the Mali pause/resume functionality - */ - -#include "mali_gp_scheduler.h" -#include "mali_pp_scheduler.h" -#include "mali_pm.h" - -void mali_dev_pause(mali_bool *power_is_on) -{ - mali_gp_scheduler_suspend(); - mali_pp_scheduler_suspend(); - - /* - * Take and hold the PM lock to be sure we don't change power state as well. - * (it might be unsafe to for instance change frequency if Mali GPU is powered off) - */ - mali_pm_execute_state_change_lock(); - if (NULL != power_is_on) - { - *power_is_on = mali_pm_is_powered_on(); - } -} - -void mali_dev_resume(void) -{ - mali_pm_execute_state_change_unlock(); - mali_gp_scheduler_resume(); - mali_pp_scheduler_resume(); -} - -/* -EXPORT_SYMBOL(mali_dev_pause); -EXPORT_SYMBOL(mali_dev_resume); -*/ diff --git a/drivers/media/video/samsung/mali/common/mali_device_pause_resume.h b/drivers/media/video/samsung/mali/common/mali_device_pause_resume.h deleted file mode 100644 index 6be75b0..0000000 --- a/drivers/media/video/samsung/mali/common/mali_device_pause_resume.h +++ /dev/null @@ -1,31 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_DEVICE_PAUSE_RESUME_H__ -#define __MALI_DEVICE_PAUSE_RESUME_H__ - -#include "mali_osk.h" - -/** - * Pause the scheduling and power state changes of Mali device driver. - * mali_dev_resume() must always be called as soon as possible after this function - * in order to resume normal operation of the Mali driver. - * - * @param power_is_on Receives the power current status of Mali GPU. MALI_TRUE if GPU is powered on - */ -void mali_dev_pause(mali_bool *power_is_on); - -/** - * Resume scheduling and allow power changes in Mali device driver. - * This must always be called after mali_dev_pause(). - */ -void mali_dev_resume(void); - -#endif /* __MALI_DEVICE_PAUSE_RESUME_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_dlbu.c b/drivers/media/video/samsung/mali/common/mali_dlbu.c deleted file mode 100644 index fcc51fa..0000000 --- a/drivers/media/video/samsung/mali/common/mali_dlbu.c +++ /dev/null @@ -1,285 +0,0 @@ -/* - * Copyright (C) 2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_dlbu.h" -#include "mali_memory.h" -#include "mali_pp.h" -#include "mali_group.h" -#include "mali_osk.h" -#include "mali_hw_core.h" - -/** - * Size of DLBU registers in bytes - */ -#define MALI_DLBU_SIZE 0x400 - -u32 mali_dlbu_phys_addr = 0; -static mali_io_address mali_dlbu_cpu_addr = 0; - -static u32 mali_dlbu_tile_position; - -/** - * DLBU register numbers - * Used in the register read/write routines. - * See the hardware documentation for more information about each register - */ -typedef enum mali_dlbu_register { - MALI_DLBU_REGISTER_MASTER_TLLIST_PHYS_ADDR = 0x0000, /**< Master tile list physical base address; - 31:12 Physical address to the page used for the DLBU - 0 DLBU enable - set this bit to 1 enables the AXI bus - between PPs and L2s, setting to 0 disables the router and - no further transactions are sent to DLBU */ - MALI_DLBU_REGISTER_MASTER_TLLIST_VADDR = 0x0004, /**< Master tile list virtual base address; - 31:12 Virtual address to the page used for the DLBU */ - MALI_DLBU_REGISTER_TLLIST_VBASEADDR = 0x0008, /**< Tile list virtual base address; - 31:12 Virtual address to the tile list. This address is used when - calculating the call address sent to PP.*/ - MALI_DLBU_REGISTER_FB_DIM = 0x000C, /**< Framebuffer dimension; - 23:16 Number of tiles in Y direction-1 - 7:0 Number of tiles in X direction-1 */ - MALI_DLBU_REGISTER_TLLIST_CONF = 0x0010, /**< Tile list configuration; - 29:28 select the size of each allocated block: 0=128 bytes, 1=256, 2=512, 3=1024 - 21:16 2^n number of tiles to be binned to one tile list in Y direction - 5:0 2^n number of tiles to be binned to one tile list in X direction */ - MALI_DLBU_REGISTER_START_TILE_POS = 0x0014, /**< Start tile positions; - 31:24 start position in Y direction for group 1 - 23:16 start position in X direction for group 1 - 15:8 start position in Y direction for group 0 - 7:0 start position in X direction for group 0 */ - MALI_DLBU_REGISTER_PP_ENABLE_MASK = 0x0018, /**< PP enable mask; - 7 enable PP7 for load balancing - 6 enable PP6 for load balancing - 5 enable PP5 for load balancing - 4 enable PP4 for load balancing - 3 enable PP3 for load balancing - 2 enable PP2 for load balancing - 1 enable PP1 for load balancing - 0 enable PP0 for load balancing */ -} mali_dlbu_register; - -typedef enum -{ - PP0ENABLE = 0, - PP1ENABLE, - PP2ENABLE, - PP3ENABLE, - PP4ENABLE, - PP5ENABLE, - PP6ENABLE, - PP7ENABLE -} mali_dlbu_pp_enable; - -struct mali_dlbu_core -{ - struct mali_hw_core hw_core; /**< Common for all HW cores */ - u32 pp_cores_mask; /**< This is a mask for the PP cores whose operation will be controlled by LBU - see MALI_DLBU_REGISTER_PP_ENABLE_MASK register */ -}; - -_mali_osk_errcode_t mali_dlbu_initialize(void) -{ - - MALI_DEBUG_PRINT(2, ("Dynamic Load Balancing Unit initializing\n")); - - if (_MALI_OSK_ERR_OK == mali_mmu_get_table_page(&mali_dlbu_phys_addr, &mali_dlbu_cpu_addr)) - { - MALI_SUCCESS; - } - - return _MALI_OSK_ERR_FAULT; -} - -void mali_dlbu_terminate(void) -{ - MALI_DEBUG_PRINT(3, ("Mali DLBU: terminating\n")); - - mali_mmu_release_table_page(mali_dlbu_phys_addr); -} - -struct mali_dlbu_core *mali_dlbu_create(const _mali_osk_resource_t * resource) -{ - struct mali_dlbu_core *core = NULL; - - MALI_DEBUG_PRINT(2, ("Mali DLBU: Creating Mali dynamic load balancing unit: %s\n", resource->description)); - - core = _mali_osk_malloc(sizeof(struct mali_dlbu_core)); - if (NULL != core) - { - if (_MALI_OSK_ERR_OK == mali_hw_core_create(&core->hw_core, resource, MALI_DLBU_SIZE)) - { - if (_MALI_OSK_ERR_OK == mali_dlbu_reset(core)) - { - mali_hw_core_register_write(&core->hw_core, MALI_DLBU_REGISTER_MASTER_TLLIST_VADDR, MALI_DLB_VIRT_ADDR); - - return core; - } - MALI_PRINT_ERROR(("Failed to reset DLBU %s\n", core->hw_core.description)); - mali_hw_core_delete(&core->hw_core); - } - - _mali_osk_free(core); - } - else - { - MALI_PRINT_ERROR(("Mali DLBU: Failed to allocate memory for DLBU core\n")); - } - - return NULL; -} - -void mali_dlbu_delete(struct mali_dlbu_core *dlbu) -{ - mali_dlbu_reset(dlbu); - mali_hw_core_delete(&dlbu->hw_core); - _mali_osk_free(dlbu); -} - -void mali_dlbu_enable(struct mali_dlbu_core *dlbu) -{ - u32 wval = mali_hw_core_register_read(&dlbu->hw_core, MALI_DLBU_REGISTER_MASTER_TLLIST_PHYS_ADDR); - - wval |= 0x1; - mali_hw_core_register_write(&dlbu->hw_core, MALI_DLBU_REGISTER_MASTER_TLLIST_PHYS_ADDR, wval); -} - -void mali_dlbu_disable(struct mali_dlbu_core *dlbu) -{ - u32 wval = mali_hw_core_register_read(&dlbu->hw_core, MALI_DLBU_REGISTER_MASTER_TLLIST_PHYS_ADDR); - - wval |= (wval & 0xFFFFFFFE); - mali_hw_core_register_write(&dlbu->hw_core, MALI_DLBU_REGISTER_MASTER_TLLIST_PHYS_ADDR, wval); -} - -_mali_osk_errcode_t mali_dlbu_enable_pp_core(struct mali_dlbu_core *dlbu, u32 pp_core_enable, u32 val) -{ - u32 wval = mali_hw_core_register_read(&dlbu->hw_core, MALI_DLBU_REGISTER_PP_ENABLE_MASK); - - if((pp_core_enable < mali_pp_get_glob_num_pp_cores()) && ((0 == val) || (1 == val))) /* check for valid input parameters */ - { - if (val == 1) - { - val = (wval | (pp_core_enable <<= 0x1)); - } - if (val == 0) - { - val = (wval & ~(pp_core_enable << 0x1)); - } - wval |= val; - mali_hw_core_register_write(&dlbu->hw_core, MALI_DLBU_REGISTER_PP_ENABLE_MASK, wval); - dlbu->pp_cores_mask = wval; - - return _MALI_OSK_ERR_OK; - } - - return _MALI_OSK_ERR_FAULT; -} - -void mali_dlbu_enable_all_pp_cores(struct mali_dlbu_core *dlbu) -{ - mali_hw_core_register_write(&dlbu->hw_core, MALI_DLBU_REGISTER_PP_ENABLE_MASK, dlbu->pp_cores_mask); -} - -void mali_dlbu_disable_all_pp_cores(struct mali_dlbu_core *dlbu) -{ - mali_hw_core_register_write(&dlbu->hw_core, MALI_DLBU_REGISTER_PP_ENABLE_MASK, 0x0); -} - -void mali_dlbu_setup(struct mali_dlbu_core *dlbu, u8 fb_xdim, u8 fb_ydim, u8 xtilesize, u8 ytilesize, u8 blocksize, u8 xgr0, u8 ygr0, u8 xgr1, u8 ygr1) -{ - u32 wval = 0x0; - - /* write the framebuffer dimensions */ - wval = (16 << (u32)fb_ydim) | (u32)fb_xdim; - mali_hw_core_register_write(&dlbu->hw_core, MALI_DLBU_REGISTER_FB_DIM, wval); - - /* write the tile list configuration */ - wval = 0x0; - wval = (28 << (u32)blocksize) | (16 << (u32)ytilesize) | ((u32)xtilesize); - mali_hw_core_register_write(&dlbu->hw_core, MALI_DLBU_REGISTER_TLLIST_CONF, wval); - - /* write the start tile position */ - wval = 0x0; - wval = (24 << (u32)ygr1 | (16 << (u32)xgr1) | 8 << (u32)ygr0) | (u32)xgr0; - mali_hw_core_register_write(&dlbu->hw_core, MALI_DLBU_REGISTER_START_TILE_POS, wval); -} - -_mali_osk_errcode_t mali_dlbu_reset(struct mali_dlbu_core *dlbu) -{ - _mali_osk_errcode_t err = _MALI_OSK_ERR_FAULT; - MALI_DEBUG_ASSERT_POINTER(dlbu); - - MALI_DEBUG_PRINT(4, ("Mali DLBU: mali_dlbu_reset: %s\n", dlbu->hw_core.description)); - - mali_hw_core_register_write(&dlbu->hw_core, MALI_DLBU_REGISTER_MASTER_TLLIST_PHYS_ADDR, mali_dlbu_phys_addr); - mali_hw_core_register_write(&dlbu->hw_core, MALI_DLBU_REGISTER_TLLIST_VBASEADDR, 0x00); - mali_hw_core_register_write(&dlbu->hw_core, MALI_DLBU_REGISTER_FB_DIM, 0x00); - mali_hw_core_register_write(&dlbu->hw_core, MALI_DLBU_REGISTER_TLLIST_CONF, 0x00); - mali_hw_core_register_write(&dlbu->hw_core, MALI_DLBU_REGISTER_START_TILE_POS, 0x00); - - mali_hw_core_register_write(&dlbu->hw_core, MALI_DLBU_REGISTER_PP_ENABLE_MASK, dlbu->pp_cores_mask); - - err = _MALI_OSK_ERR_OK; - - return err; -} - -_mali_osk_errcode_t mali_dlbu_add_group(struct mali_dlbu_core *dlbu, struct mali_group *group) -{ - _mali_osk_errcode_t err = _MALI_OSK_ERR_FAULT; - u32 wval, rval; - struct mali_pp_core *pp_core = mali_group_get_pp_core(group); - - /* find the core id and set the mask */ - - if (NULL != pp_core) - { - wval = mali_pp_core_get_id(pp_core); - rval = mali_hw_core_register_read(&dlbu->hw_core, MALI_DLBU_REGISTER_PP_ENABLE_MASK); - mali_hw_core_register_write(&dlbu->hw_core, MALI_DLBU_REGISTER_PP_ENABLE_MASK, (wval << 0x1) | rval); - err = _MALI_OSK_ERR_OK; - } - - return err; -} - -void mali_dlbu_set_tllist_base_address(struct mali_dlbu_core *dlbu, u32 val) -{ - mali_hw_core_register_write(&dlbu->hw_core, MALI_DLBU_REGISTER_TLLIST_VBASEADDR, val); -} - -void mali_dlbu_pp_jobs_stop(struct mali_dlbu_core *dlbu) -{ - /* this function to implement (see documentation): - * 1) clear all bits in the enable register - * 2) wait until all PPs have finished - mali_pp_scheduler.c code - this done in interrupts call? - * 3) read the current tile position registers to get current tile positions - - * note that current tile position register is the same as start tile position - perhaps the name should be changed!!! */ - - /* 1) */ - mali_dlbu_disable_all_pp_cores(dlbu); - - /* 3) */ - mali_dlbu_tile_position = mali_hw_core_register_read(&dlbu->hw_core, MALI_DLBU_REGISTER_START_TILE_POS); -} - -void mali_dlbu_pp_jobs_restart(struct mali_dlbu_core *dlbu) -{ - /* this function to implement (see the document): - * 1) configure the dynamic load balancing unit as normal - * 2) set the current tile position registers as read when stopping the job - * 3) configure the PPs to start the job as normal - done by another part of the system - scheduler */ - - /* 1) */ - mali_dlbu_reset(dlbu); - /* ++ setup the needed values - see this */ - - /* 2) */ - mali_hw_core_register_write(&dlbu->hw_core, MALI_DLBU_REGISTER_START_TILE_POS, mali_dlbu_tile_position); -} diff --git a/drivers/media/video/samsung/mali/common/mali_dlbu.h b/drivers/media/video/samsung/mali/common/mali_dlbu.h deleted file mode 100644 index e3c3b9d..0000000 --- a/drivers/media/video/samsung/mali/common/mali_dlbu.h +++ /dev/null @@ -1,45 +0,0 @@ -/* - * Copyright (C) 2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_DLBU_H__ -#define __MALI_DLBU_H__ - -#include "mali_osk.h" -#include "mali_group.h" - -#define MALI_DLB_VIRT_ADDR 0xFFF00000 /* master tile virtual address fixed at this value and mapped into every session */ - -extern u32 mali_dlbu_phys_addr; - -struct mali_dlbu_core; - -_mali_osk_errcode_t mali_dlbu_initialize(void); -void mali_dlbu_terminate(void); - -struct mali_dlbu_core *mali_dlbu_create(const _mali_osk_resource_t * resource); -void mali_dlbu_delete(struct mali_dlbu_core *dlbu); - -void mali_dlbu_enable(struct mali_dlbu_core *dlbu); -void mali_dlbu_disable(struct mali_dlbu_core *dlbu); - -_mali_osk_errcode_t mali_dlbu_enable_pp_core(struct mali_dlbu_core *dlbu, u32 pp_core_enable, u32 val); -void mali_dlbu_enable_all_pp_cores(struct mali_dlbu_core *dlbu); -void mali_dlbu_disable_all_pp_cores(struct mali_dlbu_core *dlbu); - -_mali_osk_errcode_t mali_dlbu_reset(struct mali_dlbu_core *dlbu); -void mali_dlbu_setup(struct mali_dlbu_core *dlbu, u8 fb_xdim, u8 fb_ydim, u8 xtilesize, u8 ytilesize, u8 blocksize, u8 xgr0, u8 ygr0, u8 xgr1, u8 ygr1); - -_mali_osk_errcode_t mali_dlbu_add_group(struct mali_dlbu_core *dlbu, struct mali_group *group); -void mali_dlbu_set_tllist_base_address(struct mali_dlbu_core *dlbu, u32 val); - -void mali_dlbu_pp_jobs_stop(struct mali_dlbu_core *dlbu); -void mali_dlbu_pp_jobs_restart(struct mali_dlbu_core *dlbu); - -#endif /* __MALI_DLBU_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_gp.c b/drivers/media/video/samsung/mali/common/mali_gp.c deleted file mode 100644 index 1624e46..0000000 --- a/drivers/media/video/samsung/mali/common/mali_gp.c +++ /dev/null @@ -1,746 +0,0 @@ -/* - * Copyright (C) 2011-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_gp.h" -#include "mali_hw_core.h" -#include "mali_group.h" -#include "mali_osk.h" -#include "regs/mali_gp_regs.h" -#include "mali_kernel_common.h" -#include "mali_kernel_core.h" -#if MALI_TIMELINE_PROFILING_ENABLED -#include "mali_osk_profiling.h" -#endif - -/** - * Definition of the GP core struct - * Used to track a GP core in the system. - */ -struct mali_gp_core -{ - struct mali_hw_core hw_core; /**< Common for all HW cores */ - struct mali_group *group; /**< Parent group for this core */ - _mali_osk_irq_t *irq; /**< IRQ handler */ - struct mali_gp_job *running_job; /**< Current running job */ - _mali_osk_timer_t *timeout_timer; /**< timeout timer for this core */ - u32 timeout_job_id; /**< job id for the timed out job - relevant only if gp_core_timed_out == MALI_TRUE */ - mali_bool core_timed_out; /**< if MALI_TRUE, this gp core has timed out; if MALI_FALSE, no timeout on this gp core */ - u32 counter_src0; /**< Performance counter 0, MALI_HW_CORE_NO_COUNTER for disabled */ - u32 counter_src1; /**< Performance counter 1, MALI_HW_CORE_NO_COUNTER for disabled */ - u32 counter_src0_used; /**< The selected performance counter 0 when a job is running */ - u32 counter_src1_used; /**< The selected performance counter 1 when a job is running */ -}; - -static struct mali_gp_core *mali_global_gp_core = NULL; - -/* Interrupt handlers */ -static _mali_osk_errcode_t mali_gp_upper_half(void *data); -static void mali_gp_bottom_half(void *data); -static void mali_gp_irq_probe_trigger(void *data); -static _mali_osk_errcode_t mali_gp_irq_probe_ack(void *data); -static void mali_gp_post_process_job(struct mali_gp_core *core, mali_bool suspend); -static void mali_gp_timeout(void *data); - -struct mali_gp_core *mali_gp_create(const _mali_osk_resource_t * resource, struct mali_group *group) -{ - struct mali_gp_core* core = NULL; - - MALI_DEBUG_ASSERT(NULL == mali_global_gp_core); - MALI_DEBUG_PRINT(2, ("Mali GP: Creating Mali GP core: %s\n", resource->description)); - - core = _mali_osk_malloc(sizeof(struct mali_gp_core)); - if (NULL != core) - { - core->group = group; - core->running_job = NULL; - core->counter_src0 = MALI_HW_CORE_NO_COUNTER; - core->counter_src1 = MALI_HW_CORE_NO_COUNTER; - core->counter_src0_used = MALI_HW_CORE_NO_COUNTER; - core->counter_src1_used = MALI_HW_CORE_NO_COUNTER; - if (_MALI_OSK_ERR_OK == mali_hw_core_create(&core->hw_core, resource, MALIGP2_REGISTER_ADDRESS_SPACE_SIZE)) - { - _mali_osk_errcode_t ret; - - mali_group_lock(group); - ret = mali_gp_reset(core); - mali_group_unlock(group); - - if (_MALI_OSK_ERR_OK == ret) - { - /* Setup IRQ handlers (which will do IRQ probing if needed) */ - core->irq = _mali_osk_irq_init(resource->irq, - mali_gp_upper_half, - mali_gp_bottom_half, - mali_gp_irq_probe_trigger, - mali_gp_irq_probe_ack, - core, - "mali_gp_irq_handlers"); - if (NULL != core->irq) - { - /* Initialise the timeout timer */ - core->timeout_timer = _mali_osk_timer_init(); - if(NULL != core->timeout_timer) - { - _mali_osk_timer_setcallback(core->timeout_timer, mali_gp_timeout, (void *)core); - MALI_DEBUG_PRINT(4, ("Mali GP: set global gp core from 0x%08X to 0x%08X\n", mali_global_gp_core, core)); - mali_global_gp_core = core; - - return core; - } - else - { - MALI_PRINT_ERROR(("Failed to setup timeout timer for GP core %s\n", core->hw_core.description)); - /* Release IRQ handlers */ - _mali_osk_irq_term(core->irq); - } - } - else - { - MALI_PRINT_ERROR(("Failed to setup interrupt handlers for GP core %s\n", core->hw_core.description)); - } - } - mali_hw_core_delete(&core->hw_core); - } - - _mali_osk_free(core); - } - else - { - MALI_PRINT_ERROR(("Failed to allocate memory for GP core\n")); - } - - return NULL; -} - -void mali_gp_delete(struct mali_gp_core *core) -{ - MALI_DEBUG_ASSERT_POINTER(core); - - _mali_osk_timer_term(core->timeout_timer); - _mali_osk_irq_term(core->irq); - mali_hw_core_delete(&core->hw_core); - mali_global_gp_core = NULL; - _mali_osk_free(core); -} - -void mali_gp_stop_bus(struct mali_gp_core *core) -{ - MALI_DEBUG_ASSERT_POINTER(core); - - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_CMD, MALIGP2_REG_VAL_CMD_STOP_BUS); -} - -_mali_osk_errcode_t mali_gp_stop_bus_wait(struct mali_gp_core *core) -{ - int i; - const int request_loop_count = 20; - - MALI_DEBUG_ASSERT_POINTER(core); - - /* Send the stop bus command. */ - mali_gp_stop_bus(core); - - /* Wait for bus to be stopped */ - for (i = 0; i < request_loop_count; i++) - { - if (mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_STATUS) & MALIGP2_REG_VAL_STATUS_BUS_STOPPED) - { - break; - } - _mali_osk_time_ubusydelay(10); - } - - if (request_loop_count == i) - { - MALI_PRINT_ERROR(("Mali GP: Failed to stop bus on %s\n", core->hw_core.description)); - return _MALI_OSK_ERR_FAULT; - } - return _MALI_OSK_ERR_OK; -} - -void mali_gp_hard_reset(struct mali_gp_core *core) -{ - const int reset_finished_loop_count = 15; - const u32 reset_wait_target_register = MALIGP2_REG_ADDR_MGMT_WRITE_BOUND_LOW; - const u32 reset_invalid_value = 0xC0FFE000; - const u32 reset_check_value = 0xC01A0000; - const u32 reset_default_value = 0; - int i; - - MALI_DEBUG_ASSERT_POINTER(core); - MALI_DEBUG_PRINT(4, ("Mali GP: Hard reset of core %s\n", core->hw_core.description)); - MALI_ASSERT_GROUP_LOCKED(core->group); - - mali_gp_post_process_job(core, MALI_FALSE); - - mali_hw_core_register_write(&core->hw_core, reset_wait_target_register, reset_invalid_value); - - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_CMD, MALIGP2_REG_VAL_CMD_RESET); - - for (i = 0; i < reset_finished_loop_count; i++) - { - mali_hw_core_register_write(&core->hw_core, reset_wait_target_register, reset_check_value); - if (reset_check_value == mali_hw_core_register_read(&core->hw_core, reset_wait_target_register)) - { - break; - } - } - - if (i == reset_finished_loop_count) - { - MALI_PRINT_ERROR(("Mali GP: The hard reset loop didn't work, unable to recover\n")); - } - - mali_hw_core_register_write(&core->hw_core, reset_wait_target_register, reset_default_value); /* set it back to the default */ - /* Re-enable interrupts */ - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_CLEAR, MALIGP2_REG_VAL_IRQ_MASK_ALL); - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_MASK, MALIGP2_REG_VAL_IRQ_MASK_USED); - -} - -_mali_osk_errcode_t mali_gp_reset(struct mali_gp_core *core) -{ - int i; - const int request_loop_count = 20; - - MALI_DEBUG_ASSERT_POINTER(core); - MALI_DEBUG_PRINT(4, ("Mali GP: Reset of core %s\n", core->hw_core.description)); - MALI_ASSERT_GROUP_LOCKED(core->group); - - mali_gp_post_process_job(core, MALI_FALSE); - - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_MASK, 0); /* disable the IRQs */ - -#if defined(USING_MALI200) - - /* On Mali-200, stop the bus, then do a hard reset of the core */ - - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_CMD, MALIGP2_REG_VAL_CMD_STOP_BUS); - - for (i = 0; i < request_loop_count; i++) - { - if (mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_STATUS) & MALIGP2_REG_VAL_STATUS_BUS_STOPPED) - { - break; - } - _mali_osk_time_ubusydelay(10); - } - - if (request_loop_count == i) - { - MALI_PRINT_ERROR(("Mali GP: Failed to stop bus for core %s, unable to recover\n", core->hw_core.description)); - return _MALI_OSK_ERR_FAULT; - } - - /* the bus was stopped OK, do the hard reset */ - mali_gp_hard_reset(core); - -#elif defined(USING_MALI400) - - /* Mali-300 and Mali-400 have a safe reset command which we use */ - - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_CLEAR, MALI400GP_REG_VAL_IRQ_RESET_COMPLETED); - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_CMD, MALI400GP_REG_VAL_CMD_SOFT_RESET); - - for (i = 0; i < request_loop_count; i++) - { - if (mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_RAWSTAT) & MALI400GP_REG_VAL_IRQ_RESET_COMPLETED) - { - break; - } - _mali_osk_time_ubusydelay(10); - } - - if (request_loop_count == i) - { - MALI_PRINT_ERROR(("Mali GP: Failed to reset core %s, unable to recover\n", core->hw_core.description)); - return _MALI_OSK_ERR_FAULT; - } -#else -#error "no supported mali core defined" -#endif - - /* Re-enable interrupts */ - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_CLEAR, MALIGP2_REG_VAL_IRQ_MASK_ALL); - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_MASK, MALIGP2_REG_VAL_IRQ_MASK_USED); - - return _MALI_OSK_ERR_OK; -} - -void mali_gp_job_start(struct mali_gp_core *core, struct mali_gp_job *job) -{ - u32 startcmd = 0; - u32 *frame_registers = mali_gp_job_get_frame_registers(job); - core->counter_src0_used = core->counter_src0; - core->counter_src1_used = core->counter_src1; - - MALI_DEBUG_ASSERT_POINTER(core); - MALI_ASSERT_GROUP_LOCKED(core->group); - - if (mali_gp_job_has_vs_job(job)) - { - startcmd |= (u32) MALIGP2_REG_VAL_CMD_START_VS; - } - - if (mali_gp_job_has_plbu_job(job)) - { - startcmd |= (u32) MALIGP2_REG_VAL_CMD_START_PLBU; - } - - MALI_DEBUG_ASSERT(0 != startcmd); - - mali_hw_core_register_write_array_relaxed(&core->hw_core, MALIGP2_REG_ADDR_MGMT_VSCL_START_ADDR, frame_registers, MALIGP2_NUM_REGS_FRAME); - -#if PROFILING_PRINT_L2_HITRATE_ON_GP_FINISH - { - /* Read hits and Read misses*/ - mali_l2_cache_core_set_counter_src0(mali_l2_cache_core_get_glob_l2_core(0), 20); - mali_l2_cache_core_set_counter_src1(mali_l2_cache_core_get_glob_l2_core(0), 21); - } -#endif - - /* This selects which performance counters we are reading */ - if (MALI_HW_CORE_NO_COUNTER != core->counter_src0_used || MALI_HW_CORE_NO_COUNTER != core->counter_src0_used) - { - /* global_config has enabled HW counters, this will override anything specified by user space */ - if (MALI_HW_CORE_NO_COUNTER != core->counter_src0_used) - { - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_PERF_CNT_0_SRC, core->counter_src0_used); - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_PERF_CNT_0_ENABLE, MALIGP2_REG_VAL_PERF_CNT_ENABLE); - } - if (MALI_HW_CORE_NO_COUNTER != core->counter_src1_used) - { - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_PERF_CNT_1_SRC, core->counter_src1_used); - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_PERF_CNT_1_ENABLE, MALIGP2_REG_VAL_PERF_CNT_ENABLE); - } - } - else - { - /* Use HW counters from job object, if any */ - u32 perf_counter_flag = mali_gp_job_get_perf_counter_flag(job); - if (0 != perf_counter_flag) - { - if (perf_counter_flag & _MALI_PERFORMANCE_COUNTER_FLAG_SRC0_ENABLE) - { - core->counter_src0_used = mali_gp_job_get_perf_counter_src0(job); - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_PERF_CNT_0_SRC, core->counter_src0_used); - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_PERF_CNT_0_ENABLE, MALIGP2_REG_VAL_PERF_CNT_ENABLE); - } - - if (perf_counter_flag & _MALI_PERFORMANCE_COUNTER_FLAG_SRC1_ENABLE) - { - core->counter_src1_used = mali_gp_job_get_perf_counter_src1(job); - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_PERF_CNT_1_SRC, core->counter_src1_used); - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_PERF_CNT_1_ENABLE, MALIGP2_REG_VAL_PERF_CNT_ENABLE); - } - } - } - - MALI_DEBUG_PRINT(3, ("Mali GP: Starting job (0x%08x) on core %s with command 0x%08X\n", job, core->hw_core.description, startcmd)); - - /* Barrier to make sure the previous register write is finished */ - _mali_osk_write_mem_barrier(); - - /* This is the command that starts the core. */ - mali_hw_core_register_write_relaxed(&core->hw_core, MALIGP2_REG_ADDR_MGMT_CMD, startcmd); - - /* Barrier to make sure the previous register write is finished */ - _mali_osk_write_mem_barrier(); - - /* Setup the timeout timer value and save the job id for the job running on the gp core */ - - _mali_osk_timer_add(core->timeout_timer, _mali_osk_time_mstoticks(mali_max_job_runtime)); - core->timeout_job_id = mali_gp_job_get_id(job); - -#if MALI_TIMELINE_PROFILING_ENABLED - _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_SINGLE | MALI_PROFILING_MAKE_EVENT_CHANNEL_GP(0) | MALI_PROFILING_EVENT_REASON_SINGLE_HW_FLUSH, - job->frame_builder_id, job->flush_id, 0, 0, 0); - _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_START|MALI_PROFILING_MAKE_EVENT_CHANNEL_GP(0), job->pid, job->tid, 0, 0, 0); -#endif - - core->running_job = job; -} - -void mali_gp_resume_with_new_heap(struct mali_gp_core *core, u32 start_addr, u32 end_addr) -{ - u32 irq_readout; - - MALI_DEBUG_ASSERT_POINTER(core); - MALI_ASSERT_GROUP_LOCKED(core->group); - - irq_readout = mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_RAWSTAT); - - if (irq_readout & MALIGP2_REG_VAL_IRQ_PLBU_OUT_OF_MEM) - { - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_CLEAR, (MALIGP2_REG_VAL_IRQ_PLBU_OUT_OF_MEM | MALIGP2_REG_VAL_IRQ_HANG)); - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_MASK, MALIGP2_REG_VAL_IRQ_MASK_USED); /* re-enable interrupts */ - mali_hw_core_register_write_relaxed(&core->hw_core, MALIGP2_REG_ADDR_MGMT_PLBU_ALLOC_START_ADDR, start_addr); - mali_hw_core_register_write_relaxed(&core->hw_core, MALIGP2_REG_ADDR_MGMT_PLBU_ALLOC_END_ADDR, end_addr); - - MALI_DEBUG_PRINT(3, ("Mali GP: Resuming job\n")); - - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_CMD, MALIGP2_REG_VAL_CMD_UPDATE_PLBU_ALLOC); - _mali_osk_write_mem_barrier(); - -#if MALI_TIMELINE_PROFILING_ENABLED - _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_RESUME|MALI_PROFILING_MAKE_EVENT_CHANNEL_GP(0), 0, 0, 0, 0, 0); -#endif - } - /* - * else: core has been reset between PLBU_OUT_OF_MEM interrupt and this new heap response. - * A timeout or a page fault on Mali-200 PP core can cause this behaviour. - */ -} - -void mali_gp_abort_job(struct mali_gp_core *core) -{ - MALI_DEBUG_ASSERT_POINTER(core); - MALI_ASSERT_GROUP_LOCKED(core->group); - - if (_MALI_OSK_ERR_FAULT != mali_gp_reset(core)) - { - _mali_osk_timer_del(core->timeout_timer); - } -} - -u32 mali_gp_core_get_version(struct mali_gp_core *core) -{ - MALI_DEBUG_ASSERT_POINTER(core); - return mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_VERSION); -} - -mali_bool mali_gp_core_set_counter_src0(struct mali_gp_core *core, u32 counter) -{ - MALI_DEBUG_ASSERT_POINTER(core); - - core->counter_src0 = counter; - return MALI_TRUE; -} - -mali_bool mali_gp_core_set_counter_src1(struct mali_gp_core *core, u32 counter) -{ - MALI_DEBUG_ASSERT_POINTER(core); - - core->counter_src1 = counter; - return MALI_TRUE; -} - -u32 mali_gp_core_get_counter_src0(struct mali_gp_core *core) -{ - MALI_DEBUG_ASSERT_POINTER(core); - return core->counter_src0; -} - -u32 mali_gp_core_get_counter_src1(struct mali_gp_core *core) -{ - MALI_DEBUG_ASSERT_POINTER(core); - return core->counter_src1; -} - -struct mali_gp_core *mali_gp_get_global_gp_core(void) -{ - return mali_global_gp_core; -} - -/* ------------- interrupt handling below ------------------ */ -static _mali_osk_errcode_t mali_gp_upper_half(void *data) -{ - struct mali_gp_core *core = (struct mali_gp_core *)data; - u32 irq_readout; - - irq_readout = mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_STAT); - if (MALIGP2_REG_VAL_IRQ_MASK_NONE != irq_readout) - { - /* Mask out all IRQs from this core until IRQ is handled */ - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_MASK, MALIGP2_REG_VAL_IRQ_MASK_NONE); - -#if MALI_TIMELINE_PROFILING_ENABLED - _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_SINGLE|MALI_PROFILING_MAKE_EVENT_CHANNEL_GP(0)|MALI_PROFILING_EVENT_REASON_SINGLE_HW_INTERRUPT, irq_readout, 0, 0, 0, 0); -#endif - - /* We do need to handle this in a bottom half */ - _mali_osk_irq_schedulework(core->irq); - return _MALI_OSK_ERR_OK; - } - - return _MALI_OSK_ERR_FAULT; -} - -static void mali_gp_bottom_half(void *data) -{ - struct mali_gp_core *core = (struct mali_gp_core *)data; - u32 irq_readout; - u32 irq_errors; - -#if MALI_TIMELINE_PROFILING_ENABLED -#if 0 /* Bottom half TLP logging is currently not supported */ - _mali_osk_profiling_add_event( MALI_PROFILING_EVENT_TYPE_START| MALI_PROFILING_EVENT_CHANNEL_SOFTWARE , _mali_osk_get_pid(), _mali_osk_get_tid()+11000, 0, 0, 0); -#endif -#endif - - mali_group_lock(core->group); /* Group lock grabbed in core handlers, but released in common group handler */ - - if ( MALI_FALSE == mali_group_power_is_on(core->group) ) - { - MALI_PRINT_ERROR(("Interrupt bottom half of %s when core is OFF.", core->hw_core.description)); - mali_group_unlock(core->group); - return; - } - - irq_readout = mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_RAWSTAT) & MALIGP2_REG_VAL_IRQ_MASK_USED; - MALI_DEBUG_PRINT(4, ("Mali GP: Bottom half IRQ 0x%08X from core %s\n", irq_readout, core->hw_core.description)); - - if (irq_readout & (MALIGP2_REG_VAL_IRQ_VS_END_CMD_LST|MALIGP2_REG_VAL_IRQ_PLBU_END_CMD_LST)) - { - u32 core_status = mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_STATUS); - if (0 == (core_status & MALIGP2_REG_VAL_STATUS_MASK_ACTIVE)) - { - mali_gp_post_process_job(core, MALI_FALSE); - MALI_DEBUG_PRINT(4, ("Mali GP: Job completed, calling group handler\n")); - mali_group_bottom_half(core->group, GROUP_EVENT_GP_JOB_COMPLETED); /* Will release group lock */ - return; - } - } - - /* - * Now lets look at the possible error cases (IRQ indicating error or timeout) - * END_CMD_LST, HANG and PLBU_OOM interrupts are not considered error. - */ - irq_errors = irq_readout & ~(MALIGP2_REG_VAL_IRQ_VS_END_CMD_LST|MALIGP2_REG_VAL_IRQ_PLBU_END_CMD_LST|MALIGP2_REG_VAL_IRQ_HANG|MALIGP2_REG_VAL_IRQ_PLBU_OUT_OF_MEM); - if (0 != irq_errors) - { - mali_gp_post_process_job(core, MALI_FALSE); - MALI_PRINT_ERROR(("Mali GP: Unknown interrupt 0x%08X from core %s, aborting job\n", irq_readout, core->hw_core.description)); - mali_group_bottom_half(core->group, GROUP_EVENT_GP_JOB_FAILED); /* Will release group lock */ - return; - } - else if (MALI_TRUE == core->core_timed_out) /* SW timeout */ - { - if (core->timeout_job_id == mali_gp_job_get_id(core->running_job)) - { - mali_gp_post_process_job(core, MALI_FALSE); - MALI_DEBUG_PRINT(2, ("Mali GP: Job %d timed out\n", mali_gp_job_get_id(core->running_job))); - mali_group_bottom_half(core->group, GROUP_EVENT_GP_JOB_TIMED_OUT); - } - core->core_timed_out = MALI_FALSE; - return; - } - else if (irq_readout & MALIGP2_REG_VAL_IRQ_PLBU_OUT_OF_MEM) - { - /* GP wants more memory in order to continue. - * - * This must be handled prior to HANG because this actually can - * generate a HANG while waiting for more memory. - * And it must be handled before the completion interrupts, - * since the PLBU can run out of memory after VS is complete; - * in which case the OOM must be handled before to complete the - * PLBU work. - */ - mali_gp_post_process_job(core, MALI_TRUE); - MALI_DEBUG_PRINT(3, ("Mali GP: PLBU needs more heap memory\n")); - mali_group_bottom_half(core->group, GROUP_EVENT_GP_OOM); /* Will release group lock */ - return; - } - else if (irq_readout & MALIGP2_REG_VAL_IRQ_HANG) - { - /* Just ignore hang interrupts, the job timer will detect hanging jobs anyways */ - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_CLEAR, MALIGP2_REG_VAL_IRQ_HANG); - } - - /* - * The only way to get here is if we got a HANG interrupt, which we ignore, or only one of two needed END_CMD_LST interrupts. - * Re-enable interrupts and let core continue to run. - */ - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_MASK, MALIGP2_REG_VAL_IRQ_MASK_USED); - mali_group_unlock(core->group); - -#if MALI_TIMELINE_PROFILING_ENABLED -#if 0 /* Bottom half TLP logging is currently not supported */ - _mali_osk_profiling_add_event( MALI_PROFILING_EVENT_TYPE_STOP| MALI_PROFILING_EVENT_CHANNEL_SOFTWARE , _mali_osk_get_pid(), _mali_osk_get_tid()+11000, 0, 0, 0); -#endif -#endif -} - -static void mali_gp_irq_probe_trigger(void *data) -{ - struct mali_gp_core *core = (struct mali_gp_core *)data; - - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_MASK, MALIGP2_REG_VAL_IRQ_MASK_USED); /* @@@@ This should not be needed */ - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_RAWSTAT, MALIGP2_REG_VAL_CMD_FORCE_HANG); - _mali_osk_mem_barrier(); -} - -static _mali_osk_errcode_t mali_gp_irq_probe_ack(void *data) -{ - struct mali_gp_core *core = (struct mali_gp_core *)data; - u32 irq_readout; - - irq_readout = mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_STAT); - if (MALIGP2_REG_VAL_IRQ_FORCE_HANG & irq_readout) - { - mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_CLEAR, MALIGP2_REG_VAL_IRQ_FORCE_HANG); - _mali_osk_mem_barrier(); - return _MALI_OSK_ERR_OK; - } - - return _MALI_OSK_ERR_FAULT; -} - -/* ------ local helper functions below --------- */ - -static void mali_gp_post_process_job(struct mali_gp_core *core, mali_bool suspend) -{ - MALI_ASSERT_GROUP_LOCKED(core->group); - - if (NULL != core->running_job) - { - u32 val0 = 0; - u32 val1 = 0; -#if MALI_TIMELINE_PROFILING_ENABLED - u32 event_id; -#endif - -#if PROFILING_PRINT_L2_HITRATE_ON_GP_FINISH - { - u32 src0, value0, src1, value1, sum, per_thousand, per_thousand_now, diff0, diff1; - static u32 print_nr=0; - static u32 prev0=0; - static u32 prev1=0; - if ( !(++print_nr&511) ) - { - mali_l2_cache_core_get_counter_values(mali_l2_cache_core_get_glob_l2_core(0), &src0, &value0, &src1, &value1); - MALI_DEBUG_ASSERT( src0==20 ); /* Read hits */ - MALI_DEBUG_ASSERT( src1==21 ); /* Read misses */ - - sum = value0+value1; - if ( sum > 1000000 ) - { - per_thousand = value0 / (sum/1000); - } - else - { - per_thousand = (value0*1000) / (sum); - } - diff0 = value0-prev0; - diff1 = value1-prev1; - - sum = diff0 + diff1 ; - if ( sum > 1000000 ) - { - per_thousand_now = diff0 / (sum/1000); - } - else - { - per_thousand_now = (diff0*1000) / (sum); - } - - prev0=value0; - prev1=value1; - if (per_thousand_now<=1000) - { - MALI_DEBUG_PRINT(2, ("Mali L2: Read hits/misses: %d/%d = %d thousand_parts total, since previous: %d\n", value0, value1, per_thousand, per_thousand_now)); - } - - } - } -#endif - - if (MALI_HW_CORE_NO_COUNTER != core->counter_src0_used) - { - val0 = mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_PERF_CNT_0_VALUE); - if (mali_gp_job_get_perf_counter_flag(core->running_job) && - _MALI_PERFORMANCE_COUNTER_FLAG_SRC0_ENABLE && mali_gp_job_get_perf_counter_src0(core->running_job) == core->counter_src0_used) - { - /* We retrieved the counter that user space asked for, so return the value through the job object */ - mali_gp_job_set_perf_counter_value0(core->running_job, val0); - } - else - { - /* User space asked for a counter, but this is not what we retrived (overridden by counter src set on core) */ - mali_gp_job_set_perf_counter_value0(core->running_job, MALI_HW_CORE_INVALID_VALUE); - } - -#if MALI_TIMELINE_PROFILING_ENABLED - _mali_osk_profiling_report_hw_counter(COUNTER_VP_C0, val0); -#endif - - } - - if (MALI_HW_CORE_NO_COUNTER != core->counter_src1_used) - { - val1 = mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_PERF_CNT_1_VALUE); - if (mali_gp_job_get_perf_counter_flag(core->running_job) && - _MALI_PERFORMANCE_COUNTER_FLAG_SRC1_ENABLE && mali_gp_job_get_perf_counter_src1(core->running_job) == core->counter_src1_used) - { - /* We retrieved the counter that user space asked for, so return the value through the job object */ - mali_gp_job_set_perf_counter_value1(core->running_job, val1); - } - else - { - /* User space asked for a counter, but this is not what we retrieved (overridden by counter src set on core) */ - mali_gp_job_set_perf_counter_value1(core->running_job, MALI_HW_CORE_INVALID_VALUE); - } - -#if MALI_TIMELINE_PROFILING_ENABLED - _mali_osk_profiling_report_hw_counter(COUNTER_VP_C1, val1); -#endif - } - -#if MALI_TIMELINE_PROFILING_ENABLED - if (MALI_TRUE == suspend) - { - event_id = MALI_PROFILING_EVENT_TYPE_SUSPEND|MALI_PROFILING_MAKE_EVENT_CHANNEL_GP(0); - } - else - { - event_id = MALI_PROFILING_EVENT_TYPE_STOP|MALI_PROFILING_MAKE_EVENT_CHANNEL_GP(0); - } - _mali_osk_profiling_add_event(event_id, val0, val1, core->counter_src0_used | (core->counter_src1_used << 8), 0, 0); -#endif - - mali_gp_job_set_current_heap_addr(core->running_job, - mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_PLBU_ALLOC_START_ADDR)); - - if (MALI_TRUE != suspend) - { - /* We are no longer running a job... */ - core->running_job = NULL; - _mali_osk_timer_del(core->timeout_timer); - } - } -} - -/* callback function for gp core timeout */ -static void mali_gp_timeout(void *data) -{ - struct mali_gp_core * core = ((struct mali_gp_core *)data); - - MALI_DEBUG_PRINT(3, ("Mali GP: TIMEOUT callback \n")); - core->core_timed_out = MALI_TRUE; - _mali_osk_irq_schedulework(core->irq); -} - -#if 0 -void mali_gp_print_state(struct mali_gp_core *core) -{ - MALI_DEBUG_PRINT(2, ("Mali GP: State: 0x%08x\n", mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_STATUS) )); -} -#endif - -#if MALI_STATE_TRACKING -u32 mali_gp_dump_state(struct mali_gp_core *core, char *buf, u32 size) -{ - int n = 0; - - n += _mali_osk_snprintf(buf + n, size - n, "\tGP: %s\n", core->hw_core.description); - - return n; -} -#endif diff --git a/drivers/media/video/samsung/mali/common/mali_gp.h b/drivers/media/video/samsung/mali/common/mali_gp.h deleted file mode 100644 index 3175b75..0000000 --- a/drivers/media/video/samsung/mali/common/mali_gp.h +++ /dev/null @@ -1,46 +0,0 @@ -/* - * Copyright (C) 2011-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_GP_H__ -#define __MALI_GP_H__ - -#include "mali_osk.h" -#include "mali_gp_job.h" - -struct mali_gp_core; -struct mali_group; - -_mali_osk_errcode_t mali_gp_initialize(void); -void mali_gp_terminate(void); - -struct mali_gp_core *mali_gp_create(const _mali_osk_resource_t * resource, struct mali_group *group); -void mali_gp_delete(struct mali_gp_core *core); - -void mali_gp_stop_bus(struct mali_gp_core *core); -_mali_osk_errcode_t mali_gp_stop_bus_wait(struct mali_gp_core *core); -void mali_gp_hard_reset(struct mali_gp_core *core); -_mali_osk_errcode_t mali_gp_reset(struct mali_gp_core *core); - -void mali_gp_job_start(struct mali_gp_core *core, struct mali_gp_job *job); -void mali_gp_resume_with_new_heap(struct mali_gp_core *core, u32 start_addr, u32 end_addr); - -void mali_gp_abort_job(struct mali_gp_core *core); - -u32 mali_gp_core_get_version(struct mali_gp_core *core); - -mali_bool mali_gp_core_set_counter_src0(struct mali_gp_core *core, u32 counter); -mali_bool mali_gp_core_set_counter_src1(struct mali_gp_core *core, u32 counter); -u32 mali_gp_core_get_counter_src0(struct mali_gp_core *core); -u32 mali_gp_core_get_counter_src1(struct mali_gp_core *core); -struct mali_gp_core *mali_gp_get_global_gp_core(void); - -u32 mali_gp_dump_state(struct mali_gp_core *core, char *buf, u32 size); - -#endif /* __MALI_GP_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_gp_job.c b/drivers/media/video/samsung/mali/common/mali_gp_job.c deleted file mode 100644 index abe1d93..0000000 --- a/drivers/media/video/samsung/mali/common/mali_gp_job.c +++ /dev/null @@ -1,49 +0,0 @@ -/* - * Copyright (C) 2011-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_gp_job.h" -#include "mali_osk.h" -#include "mali_osk_list.h" -#include "mali_uk_types.h" - -struct mali_gp_job *mali_gp_job_create(struct mali_session_data *session, _mali_uk_gp_start_job_s *args, u32 id) -{ - struct mali_gp_job *job; - - job = _mali_osk_malloc(sizeof(struct mali_gp_job)); - if (NULL != job) - { - _mali_osk_list_init(&job->list); - job->session = session; - job->id = id; - job->user_id = args->user_job_ptr; - _mali_osk_memcpy(job->frame_registers, args->frame_registers, sizeof(job->frame_registers)); - job->heap_current_addr = args->frame_registers[4]; - job->perf_counter_flag = args->perf_counter_flag; - job->perf_counter_src0 = args->perf_counter_src0; - job->perf_counter_src1 = args->perf_counter_src1; - job->perf_counter_value0 = 0; - job->perf_counter_value1 = 0; - - job->pid = _mali_osk_get_pid(); - job->tid = _mali_osk_get_tid(); - job->frame_builder_id = args->frame_builder_id; - job->flush_id = args->flush_id; - - return job; - } - - return NULL; -} - -void mali_gp_job_delete(struct mali_gp_job *job) -{ - _mali_osk_free(job); -} diff --git a/drivers/media/video/samsung/mali/common/mali_gp_job.h b/drivers/media/video/samsung/mali/common/mali_gp_job.h deleted file mode 100644 index 9c29f1c..0000000 --- a/drivers/media/video/samsung/mali/common/mali_gp_job.h +++ /dev/null @@ -1,131 +0,0 @@ -/* - * Copyright (C) 2011-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_GP_JOB_H__ -#define __MALI_GP_JOB_H__ - -#include "mali_osk.h" -#include "mali_osk_list.h" -#include "mali_uk_types.h" -#include "mali_session.h" - -/** - * The structure represends a GP job, including all sub-jobs - * (This struct unfortunatly needs to be public because of how the _mali_osk_list_* - * mechanism works) - */ -struct mali_gp_job -{ - _mali_osk_list_t list; /**< Used to link jobs together in the scheduler queue */ - struct mali_session_data *session; /**< Session which submitted this job */ - u32 id; /**< identifier for this job in kernel space (sequential numbering) */ - u32 user_id; /**< identifier for the job in user space */ - u32 frame_registers[MALIGP2_NUM_REGS_FRAME]; /**< core specific registers associated with this job, see ARM DDI0415A */ - u32 heap_current_addr; /**< Holds the current HEAP address when the job has completed */ - u32 perf_counter_flag; /**< bitmask indicating which performance counters to enable, see \ref _MALI_PERFORMANCE_COUNTER_FLAG_SRC0_ENABLE and related macro definitions */ - u32 perf_counter_src0; /**< source id for performance counter 0 (see ARM DDI0415A, Table 3-60) */ - u32 perf_counter_src1; /**< source id for performance counter 1 (see ARM DDI0415A, Table 3-60) */ - u32 perf_counter_value0; /**< Value of performance counter 0 (to be returned to user space) */ - u32 perf_counter_value1; /**< Value of performance counter 1 (to be returned to user space) */ - u32 pid; /**< Process ID of submitting process */ - u32 tid; /**< Thread ID of submitting thread */ - u32 frame_builder_id; /**< id of the originating frame builder */ - u32 flush_id; /**< flush id within the originating frame builder */ -}; - -struct mali_gp_job *mali_gp_job_create(struct mali_session_data *session, _mali_uk_gp_start_job_s *args, u32 id); -void mali_gp_job_delete(struct mali_gp_job *job); - -MALI_STATIC_INLINE u32 mali_gp_job_get_id(struct mali_gp_job *job) -{ - return (NULL == job) ? 0 : job->id; -} - -MALI_STATIC_INLINE u32 mali_gp_job_get_user_id(struct mali_gp_job *job) -{ - return job->user_id; -} - -MALI_STATIC_INLINE u32 mali_gp_job_get_frame_builder_id(struct mali_gp_job *job) -{ - return job->frame_builder_id; -} - -MALI_STATIC_INLINE u32 mali_gp_job_get_flush_id(struct mali_gp_job *job) -{ - return job->flush_id; -} - -MALI_STATIC_INLINE u32* mali_gp_job_get_frame_registers(struct mali_gp_job *job) -{ - return job->frame_registers; -} - -MALI_STATIC_INLINE struct mali_session_data *mali_gp_job_get_session(struct mali_gp_job *job) -{ - return job->session; -} - -MALI_STATIC_INLINE mali_bool mali_gp_job_has_vs_job(struct mali_gp_job *job) -{ - return (job->frame_registers[0] != job->frame_registers[1]) ? MALI_TRUE : MALI_FALSE; -} - -MALI_STATIC_INLINE mali_bool mali_gp_job_has_plbu_job(struct mali_gp_job *job) -{ - return (job->frame_registers[2] != job->frame_registers[3]) ? MALI_TRUE : MALI_FALSE; -} - -MALI_STATIC_INLINE u32 mali_gp_job_get_current_heap_addr(struct mali_gp_job *job) -{ - return job->heap_current_addr; -} - -MALI_STATIC_INLINE void mali_gp_job_set_current_heap_addr(struct mali_gp_job *job, u32 heap_addr) -{ - job->heap_current_addr = heap_addr; -} - -MALI_STATIC_INLINE u32 mali_gp_job_get_perf_counter_flag(struct mali_gp_job *job) -{ - return job->perf_counter_flag; -} - -MALI_STATIC_INLINE u32 mali_gp_job_get_perf_counter_src0(struct mali_gp_job *job) -{ - return job->perf_counter_src0; -} - -MALI_STATIC_INLINE u32 mali_gp_job_get_perf_counter_src1(struct mali_gp_job *job) -{ - return job->perf_counter_src1; -} - -MALI_STATIC_INLINE u32 mali_gp_job_get_perf_counter_value0(struct mali_gp_job *job) -{ - return job->perf_counter_value0; -} - -MALI_STATIC_INLINE u32 mali_gp_job_get_perf_counter_value1(struct mali_gp_job *job) -{ - return job->perf_counter_value1; -} - -MALI_STATIC_INLINE void mali_gp_job_set_perf_counter_value0(struct mali_gp_job *job, u32 value) -{ - job->perf_counter_value0 = value; -} - -MALI_STATIC_INLINE void mali_gp_job_set_perf_counter_value1(struct mali_gp_job *job, u32 value) -{ - job->perf_counter_value1 = value; -} - -#endif /* __MALI_GP_JOB_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_gp_scheduler.c b/drivers/media/video/samsung/mali/common/mali_gp_scheduler.c deleted file mode 100644 index f06d899..0000000 --- a/drivers/media/video/samsung/mali/common/mali_gp_scheduler.c +++ /dev/null @@ -1,443 +0,0 @@ -/* - * Copyright (C) 2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_gp_scheduler.h" -#include "mali_kernel_common.h" -#include "mali_osk.h" -#include "mali_osk_list.h" -#include "mali_scheduler.h" -#include "mali_gp.h" -#include "mali_gp_job.h" -#include "mali_group.h" -#include "mali_cluster.h" - -enum mali_gp_slot_state -{ - MALI_GP_SLOT_STATE_IDLE, - MALI_GP_SLOT_STATE_WORKING, -}; - -/* A render slot is an entity which jobs can be scheduled onto */ -struct mali_gp_slot -{ - struct mali_group *group; - /* - * We keep track of the state here as well as in the group object - * so we don't need to take the group lock so often (and also avoid clutter with the working lock) - */ - enum mali_gp_slot_state state; - u32 returned_cookie; -}; - -static u32 gp_version = 0; -static _MALI_OSK_LIST_HEAD(job_queue); /* List of jobs with some unscheduled work */ -static struct mali_gp_slot slot; - -/* Variables to allow safe pausing of the scheduler */ -static _mali_osk_wait_queue_t *gp_scheduler_working_wait_queue = NULL; -static u32 pause_count = 0; - -static mali_bool mali_gp_scheduler_is_suspended(void); - -static _mali_osk_lock_t *gp_scheduler_lock = NULL; -/* Contains tid of thread that locked the scheduler or 0, if not locked */ - -_mali_osk_errcode_t mali_gp_scheduler_initialize(void) -{ - u32 i; - - _MALI_OSK_INIT_LIST_HEAD(&job_queue); - - gp_scheduler_lock = _mali_osk_lock_init(_MALI_OSK_LOCKFLAG_ORDERED | _MALI_OSK_LOCKFLAG_NONINTERRUPTABLE, 0, _MALI_OSK_LOCK_ORDER_SCHEDULER); - if (NULL == gp_scheduler_lock) - { - return _MALI_OSK_ERR_NOMEM; - } - - gp_scheduler_working_wait_queue = _mali_osk_wait_queue_init(); - if (NULL == gp_scheduler_working_wait_queue) - { - _mali_osk_lock_term(gp_scheduler_lock); - return _MALI_OSK_ERR_NOMEM; - } - - /* Find all the available GP cores */ - for (i = 0; i < mali_cluster_get_glob_num_clusters(); i++) - { - u32 group_id = 0; - struct mali_cluster *curr_cluster = mali_cluster_get_global_cluster(i); - struct mali_group *group = mali_cluster_get_group(curr_cluster, group_id); - while (NULL != group) - { - struct mali_gp_core *gp_core = mali_group_get_gp_core(group); - if (NULL != gp_core) - { - if (0 == gp_version) - { - /* Retrieve GP version */ - gp_version = mali_gp_core_get_version(gp_core); - } - slot.group = group; - slot.state = MALI_GP_SLOT_STATE_IDLE; - break; /* There are only one GP, no point in looking for more */ - } - group_id++; - group = mali_cluster_get_group(curr_cluster, group_id); - } - } - - return _MALI_OSK_ERR_OK; -} - -void mali_gp_scheduler_terminate(void) -{ - _mali_osk_wait_queue_term(gp_scheduler_working_wait_queue); - _mali_osk_lock_term(gp_scheduler_lock); -} - -MALI_STATIC_INLINE void mali_gp_scheduler_lock(void) -{ - if(_MALI_OSK_ERR_OK != _mali_osk_lock_wait(gp_scheduler_lock, _MALI_OSK_LOCKMODE_RW)) - { - /* Non-interruptable lock failed: this should never happen. */ - MALI_DEBUG_ASSERT(0); - } - MALI_DEBUG_PRINT(5, ("Mali GP scheduler: GP scheduler lock taken\n")); -} - -MALI_STATIC_INLINE void mali_gp_scheduler_unlock(void) -{ - MALI_DEBUG_PRINT(5, ("Mali GP scheduler: Releasing GP scheduler lock\n")); - _mali_osk_lock_signal(gp_scheduler_lock, _MALI_OSK_LOCKMODE_RW); -} - -#ifdef DEBUG -MALI_STATIC_INLINE void mali_gp_scheduler_assert_locked(void) -{ - MALI_DEBUG_ASSERT_LOCK_HELD(gp_scheduler_lock); -} -#define MALI_ASSERT_GP_SCHEDULER_LOCKED() mali_gp_scheduler_assert_locked() -#else -#define MALI_ASSERT_GP_SCHEDULER_LOCKED() -#endif - -static void mali_gp_scheduler_schedule(void) -{ - struct mali_gp_job *job; - - MALI_ASSERT_GP_SCHEDULER_LOCKED(); - - if (0 < pause_count || MALI_GP_SLOT_STATE_IDLE != slot.state || _mali_osk_list_empty(&job_queue)) - { - MALI_DEBUG_PRINT(4, ("Mali GP scheduler: Nothing to schedule (paused=%u, idle slots=%u)\n", - pause_count, MALI_GP_SLOT_STATE_IDLE == slot.state ? 1 : 0)); - return; /* Nothing to do, so early out */ - } - - job = _MALI_OSK_LIST_ENTRY(job_queue.next, struct mali_gp_job, list); - - MALI_DEBUG_PRINT(3, ("Mali GP scheduler: Starting job %u (0x%08X)\n", mali_gp_job_get_id(job), job)); - if (_MALI_OSK_ERR_OK == mali_group_start_gp_job(slot.group, job)) - { - /* Mark slot as busy */ - slot.state = MALI_GP_SLOT_STATE_WORKING; - - /* Remove from queue of unscheduled jobs */ - _mali_osk_list_del(&job->list); - } - else - { - MALI_DEBUG_PRINT(3, ("Mali GP scheduler: Failed to start GP job\n")); - } -} - -static void mali_gp_scheduler_return_job_to_user(struct mali_gp_job *job, mali_bool success) -{ - _mali_osk_notification_t *notobj = _mali_osk_notification_create(_MALI_NOTIFICATION_GP_FINISHED, sizeof(_mali_uk_gp_job_finished_s)); - if (NULL != notobj) - { - _mali_uk_gp_job_finished_s *jobres = notobj->result_buffer; - _mali_osk_memset(jobres, 0, sizeof(_mali_uk_gp_job_finished_s)); /* @@@@ can be removed once we initialize all members in this struct */ - jobres->user_job_ptr = mali_gp_job_get_user_id(job); - if (MALI_TRUE == success) - { - jobres->status = _MALI_UK_JOB_STATUS_END_SUCCESS; - } - else - { - jobres->status = _MALI_UK_JOB_STATUS_END_UNKNOWN_ERR; - } - - jobres->heap_current_addr = mali_gp_job_get_current_heap_addr(job); - jobres->perf_counter0 = mali_gp_job_get_perf_counter_value0(job); - jobres->perf_counter1 = mali_gp_job_get_perf_counter_value1(job); - - mali_session_send_notification(mali_gp_job_get_session(job), notobj); - } - else - { - MALI_PRINT_ERROR(("Mali GP scheduler: Unable to allocate notification object\n")); - } - - mali_gp_job_delete(job); -} - - -void mali_gp_scheduler_do_schedule(void) -{ - mali_gp_scheduler_lock(); - - mali_gp_scheduler_schedule(); - - mali_gp_scheduler_unlock(); -} - -void mali_gp_scheduler_job_done(struct mali_group *group, struct mali_gp_job *job, mali_bool success) -{ - MALI_DEBUG_PRINT(3, ("Mali GP scheduler: Job %u (0x%08X) completed (%s)\n", mali_gp_job_get_id(job), job, success ? "success" : "failure")); - - mali_gp_scheduler_lock(); - - /* Mark slot as idle again */ - slot.state = MALI_GP_SLOT_STATE_IDLE; - - /* If paused, then this was the last job, so wake up sleeping workers */ - if (pause_count > 0) - { - _mali_osk_wait_queue_wake_up(gp_scheduler_working_wait_queue); - } - else - { - mali_gp_scheduler_schedule(); - } - - mali_gp_scheduler_unlock(); - - mali_gp_scheduler_return_job_to_user(job, success); -} - -void mali_gp_scheduler_oom(struct mali_group *group, struct mali_gp_job *job) -{ - _mali_osk_notification_t *notobj; - - notobj = _mali_osk_notification_create(_MALI_NOTIFICATION_GP_STALLED, sizeof(_mali_uk_gp_job_suspended_s)); - - if (NULL != notobj) - { - _mali_uk_gp_job_suspended_s * jobres; - - mali_gp_scheduler_lock(); - - jobres = (_mali_uk_gp_job_suspended_s *)notobj->result_buffer; - - jobres->user_job_ptr = mali_gp_job_get_user_id(job); - jobres->reason = _MALIGP_JOB_SUSPENDED_OUT_OF_MEMORY; - jobres->cookie = mali_gp_job_get_id(job); - slot.returned_cookie = jobres->cookie; - - mali_session_send_notification(mali_gp_job_get_session(job), notobj); - - mali_gp_scheduler_unlock(); - } - - /* - * If this function failed, then we could return the job to user space right away, - * but there is a job timer anyway that will do that eventually. - * This is not exactly a common case anyway. - */ -} - -void mali_gp_scheduler_suspend(void) -{ - mali_gp_scheduler_lock(); - pause_count++; /* Increment the pause_count so that no more jobs will be scheduled */ - mali_gp_scheduler_unlock(); - - _mali_osk_wait_queue_wait_event(gp_scheduler_working_wait_queue, mali_gp_scheduler_is_suspended); -} - -void mali_gp_scheduler_resume(void) -{ - mali_gp_scheduler_lock(); - pause_count--; /* Decrement pause_count to allow scheduling again (if it reaches 0) */ - if (0 == pause_count) - { - mali_gp_scheduler_schedule(); - } - mali_gp_scheduler_unlock(); -} - -_mali_osk_errcode_t _mali_ukk_gp_start_job(_mali_uk_gp_start_job_s *args) -{ - struct mali_session_data *session; - struct mali_gp_job *job; - - MALI_DEBUG_ASSERT_POINTER(args); - - if (NULL == args->ctx) - { - return _MALI_OSK_ERR_INVALID_ARGS; - } - - session = (struct mali_session_data*)args->ctx; - if (NULL == session) - { - return _MALI_OSK_ERR_FAULT; - } - - job = mali_gp_job_create(session, args, mali_scheduler_get_new_id()); - if (NULL == job) - { - return _MALI_OSK_ERR_NOMEM; - } - -#if PROFILING_SKIP_PP_AND_GP_JOBS -#warning GP jobs will not be executed - mali_gp_scheduler_return_job_to_user(job, MALI_TRUE); - return _MALI_OSK_ERR_OK; -#endif - - mali_gp_scheduler_lock(); - - _mali_osk_list_addtail(&job->list, &job_queue); - - MALI_DEBUG_PRINT(3, ("Mali GP scheduler: Job %u (0x%08X) queued\n", mali_gp_job_get_id(job), job)); - - mali_gp_scheduler_schedule(); - - mali_gp_scheduler_unlock(); - - return _MALI_OSK_ERR_OK; -} - -_mali_osk_errcode_t _mali_ukk_get_gp_number_of_cores(_mali_uk_get_gp_number_of_cores_s *args) -{ - MALI_DEBUG_ASSERT_POINTER(args); - MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS); - args->number_of_cores = 1; - return _MALI_OSK_ERR_OK; -} - -_mali_osk_errcode_t _mali_ukk_get_gp_core_version(_mali_uk_get_gp_core_version_s *args) -{ - MALI_DEBUG_ASSERT_POINTER(args); - MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS); - args->version = gp_version; - return _MALI_OSK_ERR_OK; -} - -_mali_osk_errcode_t _mali_ukk_gp_suspend_response(_mali_uk_gp_suspend_response_s *args) -{ - struct mali_session_data *session; - _mali_osk_errcode_t ret = _MALI_OSK_ERR_FAULT; - - MALI_DEBUG_ASSERT_POINTER(args); - - if (NULL == args->ctx) - { - return _MALI_OSK_ERR_INVALID_ARGS; - } - - session = (struct mali_session_data*)args->ctx; - if (NULL == session) - { - return _MALI_OSK_ERR_FAULT; - } - - mali_gp_scheduler_lock(); - - /* Make sure that the cookie returned by user space is the same as we provided in the first place */ - if (args->cookie != slot.returned_cookie) - { - MALI_DEBUG_PRINT(2, ("Mali GP scheduler: Got an illegal cookie from user space, expected %u but got %u (job id)\n", slot.returned_cookie, args->cookie)) ; - mali_gp_scheduler_unlock(); - return _MALI_OSK_ERR_FAULT; - } - - mali_gp_scheduler_unlock(); - - switch (args->code) - { - case _MALIGP_JOB_RESUME_WITH_NEW_HEAP: - MALI_DEBUG_PRINT(3, ("Mali GP scheduler: Resuming job %u with new heap; 0x%08X - 0x%08X\n", args->cookie, args->arguments[0], args->arguments[1])); - mali_group_resume_gp_with_new_heap(slot.group, args->cookie, args->arguments[0], args->arguments[1]); - ret = _MALI_OSK_ERR_OK; - break; - - case _MALIGP_JOB_ABORT: - MALI_DEBUG_PRINT(3, ("Mali GP scheduler: Aborting job %u, no new heap provided\n", args->cookie)); - mali_group_abort_gp_job(slot.group, args->cookie); - ret = _MALI_OSK_ERR_OK; - break; - - default: - MALI_PRINT_ERROR(("Mali GP scheduler: Wrong suspend response from user space\n")); - ret = _MALI_OSK_ERR_FAULT; - break; - } - - return ret; - -} - -void mali_gp_scheduler_abort_session(struct mali_session_data *session) -{ - struct mali_gp_job *job, *tmp; - - mali_gp_scheduler_lock(); - MALI_DEBUG_PRINT(3, ("Mali GP scheduler: Aborting all jobs from session 0x%08x\n", session)); - - /* Check queue for jobs and remove */ - _MALI_OSK_LIST_FOREACHENTRY(job, tmp, &job_queue, struct mali_gp_job, list) - { - if (mali_gp_job_get_session(job) == session) - { - MALI_DEBUG_PRINT(4, ("Mali GP scheduler: Removing GP job 0x%08x from queue\n", job)); - _mali_osk_list_del(&(job->list)); - mali_gp_job_delete(job); - } - } - - mali_gp_scheduler_unlock(); - - /* Abort running jobs from this session. It is safe to do this outside - * the scheduler lock as there is only one GP core, and the queue has - * already been emptied, as long as there are no new jobs coming in - * from user space. */ - mali_group_abort_session(slot.group, session); -} - -static mali_bool mali_gp_scheduler_is_suspended(void) -{ - mali_bool ret; - - mali_gp_scheduler_lock(); - ret = pause_count > 0 && slot.state == MALI_GP_SLOT_STATE_IDLE; - mali_gp_scheduler_unlock(); - - return ret; -} - - -#if MALI_STATE_TRACKING -u32 mali_gp_scheduler_dump_state(char *buf, u32 size) -{ - int n = 0; - - n += _mali_osk_snprintf(buf + n, size - n, "GP\n"); - n += _mali_osk_snprintf(buf + n, size - n, "\tQueue is %s\n", _mali_osk_list_empty(&job_queue) ? "empty" : "not empty"); - - n += mali_group_dump_state(slot.group, buf + n, size - n); - n += _mali_osk_snprintf(buf + n, size - n, "\t\tState: %d\n", mali_group_gp_state(slot.group)); - n += _mali_osk_snprintf(buf + n, size - n, "\n"); - - return n; -} -#endif diff --git a/drivers/media/video/samsung/mali/common/mali_gp_scheduler.h b/drivers/media/video/samsung/mali/common/mali_gp_scheduler.h deleted file mode 100644 index ef58509..0000000 --- a/drivers/media/video/samsung/mali/common/mali_gp_scheduler.h +++ /dev/null @@ -1,30 +0,0 @@ -/* - * Copyright (C) 2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_GP_SCHEDULER_H__ -#define __MALI_GP_SCHEDULER_H__ - -#include "mali_osk.h" -#include "mali_cluster.h" -#include "mali_gp_job.h" - -_mali_osk_errcode_t mali_gp_scheduler_initialize(void); -void mali_gp_scheduler_terminate(void); - -void mali_gp_scheduler_do_schedule(void); -void mali_gp_scheduler_job_done(struct mali_group *group, struct mali_gp_job *job, mali_bool success); -void mali_gp_scheduler_oom(struct mali_group *group, struct mali_gp_job *job); -void mali_gp_scheduler_abort_session(struct mali_session_data *session); -u32 mali_gp_scheduler_dump_state(char *buf, u32 size); - -void mali_gp_scheduler_suspend(void); -void mali_gp_scheduler_resume(void); - -#endif /* __MALI_GP_SCHEDULER_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_group.c b/drivers/media/video/samsung/mali/common/mali_group.c deleted file mode 100644 index 94bf774..0000000 --- a/drivers/media/video/samsung/mali/common/mali_group.c +++ /dev/null @@ -1,841 +0,0 @@ -/* - * Copyright (C) 2011-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_kernel_common.h" -#include "mali_group.h" -#include "mali_osk.h" -#include "mali_cluster.h" -#include "mali_gp.h" -#include "mali_pp.h" -#include "mali_mmu.h" -#include "mali_gp_scheduler.h" -#include "mali_pp_scheduler.h" -#include "mali_pm.h" - -/* - * The group object is the most important object in the device driver, - * and acts as the center of many HW operations. - * The reason for this is that operations on the MMU will affect all - * cores connected to this MMU (a group is defined by the MMU and the - * cores which are connected to this). - * The group lock is thus the most important lock, followed by the - * GP and PP scheduler locks. They must be taken in the following - * order: - * GP/PP lock first, then group lock(s). - */ - -/** - * The structure represents a render group - * A render group is defined by all the cores that share the same Mali MMU - */ - -struct mali_group -{ - struct mali_cluster *cluster; - - struct mali_mmu_core *mmu; - struct mali_session_data *session; - int page_dir_ref_count; - mali_bool power_is_on; -#if defined(USING_MALI200) - mali_bool pagedir_activation_failed; -#endif - - struct mali_gp_core *gp_core; - enum mali_group_core_state gp_state; - struct mali_gp_job *gp_running_job; - - struct mali_pp_core *pp_core; - enum mali_group_core_state pp_state; - struct mali_pp_job *pp_running_job; - u32 pp_running_sub_job; - - _mali_osk_lock_t *lock; -}; - -static struct mali_group *mali_global_groups[MALI_MAX_NUMBER_OF_GROUPS]; -static u32 mali_global_num_groups = 0; - -enum mali_group_activate_pd_status -{ - MALI_GROUP_ACTIVATE_PD_STATUS_FAILED, - MALI_GROUP_ACTIVATE_PD_STATUS_OK_KEPT_PD, - MALI_GROUP_ACTIVATE_PD_STATUS_OK_SWITCHED_PD, -}; - -/* local helper functions */ -static enum mali_group_activate_pd_status mali_group_activate_page_directory(struct mali_group *group, struct mali_session_data *session); -static void mali_group_deactivate_page_directory(struct mali_group *group, struct mali_session_data *session); -static void mali_group_recovery_reset(struct mali_group *group); -static void mali_group_complete_jobs(struct mali_group *group, mali_bool complete_gp, mali_bool complete_pp, bool success); - -void mali_group_lock(struct mali_group *group) -{ - if(_MALI_OSK_ERR_OK != _mali_osk_lock_wait(group->lock, _MALI_OSK_LOCKMODE_RW)) - { - /* Non-interruptable lock failed: this should never happen. */ - MALI_DEBUG_ASSERT(0); - } - MALI_DEBUG_PRINT(5, ("Mali group: Group lock taken 0x%08X\n", group)); -} - -void mali_group_unlock(struct mali_group *group) -{ - MALI_DEBUG_PRINT(5, ("Mali group: Releasing group lock 0x%08X\n", group)); - _mali_osk_lock_signal(group->lock, _MALI_OSK_LOCKMODE_RW); -} - -#ifdef DEBUG -void mali_group_assert_locked(struct mali_group *group) -{ - MALI_DEBUG_ASSERT_LOCK_HELD(group->lock); -} -#endif - - -struct mali_group *mali_group_create(struct mali_cluster *cluster, struct mali_mmu_core *mmu) -{ - struct mali_group *group = NULL; - - if (mali_global_num_groups >= MALI_MAX_NUMBER_OF_GROUPS) - { - MALI_PRINT_ERROR(("Mali group: Too many group objects created\n")); - return NULL; - } - - group = _mali_osk_malloc(sizeof(struct mali_group)); - if (NULL != group) - { - _mali_osk_memset(group, 0, sizeof(struct mali_group)); - group->lock = _mali_osk_lock_init(_MALI_OSK_LOCKFLAG_ORDERED | _MALI_OSK_LOCKFLAG_SPINLOCK_IRQ |_MALI_OSK_LOCKFLAG_NONINTERRUPTABLE, 0, _MALI_OSK_LOCK_ORDER_GROUP); - if (NULL != group->lock) - { - group->cluster = cluster; - group->mmu = mmu; /* This group object now owns the MMU object */ - group->session = NULL; - group->page_dir_ref_count = 0; - group->power_is_on = MALI_TRUE; - - group->gp_state = MALI_GROUP_CORE_STATE_IDLE; - group->pp_state = MALI_GROUP_CORE_STATE_IDLE; -#if defined(USING_MALI200) - group->pagedir_activation_failed = MALI_FALSE; -#endif - mali_global_groups[mali_global_num_groups] = group; - mali_global_num_groups++; - - return group; - } - _mali_osk_free(group); - } - - return NULL; -} - -void mali_group_add_gp_core(struct mali_group *group, struct mali_gp_core* gp_core) -{ - /* This group object now owns the GP core object */ - group->gp_core = gp_core; -} - -void mali_group_add_pp_core(struct mali_group *group, struct mali_pp_core* pp_core) -{ - /* This group object now owns the PP core object */ - group->pp_core = pp_core; -} - -void mali_group_delete(struct mali_group *group) -{ - u32 i; - - /* Delete the resources that this group owns */ - if (NULL != group->gp_core) - { - mali_gp_delete(group->gp_core); - } - - if (NULL != group->pp_core) - { - mali_pp_delete(group->pp_core); - } - - if (NULL != group->mmu) - { - mali_mmu_delete(group->mmu); - } - - for (i = 0; i < mali_global_num_groups; i++) - { - if (mali_global_groups[i] == group) - { - mali_global_groups[i] = NULL; - mali_global_num_groups--; - break; - } - } - - _mali_osk_lock_term(group->lock); - - _mali_osk_free(group); -} - -/* Called from mali_cluster_reset() when the system is re-turned on */ -void mali_group_reset(struct mali_group *group) -{ - mali_group_lock(group); - - group->session = NULL; - - if (NULL != group->mmu) - { - mali_mmu_reset(group->mmu); - } - - if (NULL != group->gp_core) - { - mali_gp_reset(group->gp_core); - } - - if (NULL != group->pp_core) - { - mali_pp_reset(group->pp_core); - } - - mali_group_unlock(group); -} - -struct mali_gp_core* mali_group_get_gp_core(struct mali_group *group) -{ - return group->gp_core; -} - -struct mali_pp_core* mali_group_get_pp_core(struct mali_group *group) -{ - return group->pp_core; -} - -_mali_osk_errcode_t mali_group_start_gp_job(struct mali_group *group, struct mali_gp_job *job) -{ - struct mali_session_data *session; - enum mali_group_activate_pd_status activate_status; - - MALI_DEBUG_ASSERT(MALI_GROUP_CORE_STATE_IDLE == group->gp_state); - - mali_pm_core_event(MALI_CORE_EVENT_GP_START); - - session = mali_gp_job_get_session(job); - - mali_group_lock(group); - - mali_cluster_l2_cache_invalidate_all(group->cluster, mali_gp_job_get_id(job)); - - activate_status = mali_group_activate_page_directory(group, session); - if (MALI_GROUP_ACTIVATE_PD_STATUS_FAILED != activate_status) - { - /* if session is NOT kept Zapping is done as part of session switch */ - if (MALI_GROUP_ACTIVATE_PD_STATUS_OK_KEPT_PD == activate_status) - { - mali_mmu_zap_tlb_without_stall(group->mmu); - } - mali_gp_job_start(group->gp_core, job); - group->gp_running_job = job; - group->gp_state = MALI_GROUP_CORE_STATE_WORKING; - - mali_group_unlock(group); - - return _MALI_OSK_ERR_OK; - } - -#if defined(USING_MALI200) - group->pagedir_activation_failed = MALI_TRUE; -#endif - - mali_group_unlock(group); - - mali_pm_core_event(MALI_CORE_EVENT_GP_STOP); /* Failed to start, so "cancel" the MALI_CORE_EVENT_GP_START */ - return _MALI_OSK_ERR_FAULT; -} - -_mali_osk_errcode_t mali_group_start_pp_job(struct mali_group *group, struct mali_pp_job *job, u32 sub_job) -{ - struct mali_session_data *session; - enum mali_group_activate_pd_status activate_status; - - MALI_DEBUG_ASSERT(MALI_GROUP_CORE_STATE_IDLE == group->pp_state); - - mali_pm_core_event(MALI_CORE_EVENT_PP_START); - - session = mali_pp_job_get_session(job); - - mali_group_lock(group); - - mali_cluster_l2_cache_invalidate_all(group->cluster, mali_pp_job_get_id(job)); - - activate_status = mali_group_activate_page_directory(group, session); - if (MALI_GROUP_ACTIVATE_PD_STATUS_FAILED != activate_status) - { - /* if session is NOT kept Zapping is done as part of session switch */ - if (MALI_GROUP_ACTIVATE_PD_STATUS_OK_KEPT_PD == activate_status) - { - MALI_DEBUG_PRINT(3, ("PP starting job PD_Switch 0 Flush 1 Zap 1\n")); - mali_mmu_zap_tlb_without_stall(group->mmu); - } - mali_pp_job_start(group->pp_core, job, sub_job); - group->pp_running_job = job; - group->pp_running_sub_job = sub_job; - group->pp_state = MALI_GROUP_CORE_STATE_WORKING; - - mali_group_unlock(group); - - return _MALI_OSK_ERR_OK; - } - -#if defined(USING_MALI200) - group->pagedir_activation_failed = MALI_TRUE; -#endif - - mali_group_unlock(group); - - mali_pm_core_event(MALI_CORE_EVENT_PP_STOP); /* Failed to start, so "cancel" the MALI_CORE_EVENT_PP_START */ - return _MALI_OSK_ERR_FAULT; -} - -void mali_group_resume_gp_with_new_heap(struct mali_group *group, u32 job_id, u32 start_addr, u32 end_addr) -{ - mali_group_lock(group); - - if (group->gp_state != MALI_GROUP_CORE_STATE_OOM || - mali_gp_job_get_id(group->gp_running_job) != job_id) - { - mali_group_unlock(group); - return; /* Illegal request or job has already been aborted */ - } - - mali_cluster_l2_cache_invalidate_all_force(group->cluster); - mali_mmu_zap_tlb_without_stall(group->mmu); - - mali_gp_resume_with_new_heap(group->gp_core, start_addr, end_addr); - group->gp_state = MALI_GROUP_CORE_STATE_WORKING; - - mali_group_unlock(group); -} - -void mali_group_abort_gp_job(struct mali_group *group, u32 job_id) -{ - mali_group_lock(group); - - if (group->gp_state == MALI_GROUP_CORE_STATE_IDLE || - mali_gp_job_get_id(group->gp_running_job) != job_id) - { - mali_group_unlock(group); - return; /* No need to cancel or job has already been aborted or completed */ - } - - mali_group_complete_jobs(group, MALI_TRUE, MALI_FALSE, MALI_FALSE); /* Will release group lock */ -} - -void mali_group_abort_pp_job(struct mali_group *group, u32 job_id) -{ - mali_group_lock(group); - - if (group->pp_state == MALI_GROUP_CORE_STATE_IDLE || - mali_pp_job_get_id(group->pp_running_job) != job_id) - { - mali_group_unlock(group); - return; /* No need to cancel or job has already been aborted or completed */ - } - - mali_group_complete_jobs(group, MALI_FALSE, MALI_TRUE, MALI_FALSE); /* Will release group lock */ -} - -void mali_group_abort_session(struct mali_group *group, struct mali_session_data *session) -{ - struct mali_gp_job *gp_job; - struct mali_pp_job *pp_job; - u32 gp_job_id = 0; - u32 pp_job_id = 0; - mali_bool abort_pp = MALI_FALSE; - mali_bool abort_gp = MALI_FALSE; - - mali_group_lock(group); - - gp_job = group->gp_running_job; - pp_job = group->pp_running_job; - - if (gp_job && mali_gp_job_get_session(gp_job) == session) - { - MALI_DEBUG_PRINT(4, ("Aborting GP job 0x%08x from session 0x%08x\n", gp_job, session)); - - gp_job_id = mali_gp_job_get_id(gp_job); - abort_gp = MALI_TRUE; - } - - if (pp_job && mali_pp_job_get_session(pp_job) == session) - { - MALI_DEBUG_PRINT(4, ("Mali group: Aborting PP job 0x%08x from session 0x%08x\n", pp_job, session)); - - pp_job_id = mali_pp_job_get_id(pp_job); - abort_pp = MALI_TRUE; - } - - mali_group_unlock(group); - - /* These functions takes and releases the group lock */ - if (0 != abort_gp) - { - mali_group_abort_gp_job(group, gp_job_id); - } - if (0 != abort_pp) - { - mali_group_abort_pp_job(group, pp_job_id); - } - - mali_group_lock(group); - mali_group_remove_session_if_unused(group, session); - mali_group_unlock(group); -} - -enum mali_group_core_state mali_group_gp_state(struct mali_group *group) -{ - return group->gp_state; -} - -enum mali_group_core_state mali_group_pp_state(struct mali_group *group) -{ - return group->pp_state; -} - -/* group lock need to be taken before calling mali_group_bottom_half */ -void mali_group_bottom_half(struct mali_group *group, enum mali_group_event_t event) -{ - MALI_ASSERT_GROUP_LOCKED(group); - - switch (event) - { - case GROUP_EVENT_PP_JOB_COMPLETED: - mali_group_complete_jobs(group, MALI_FALSE, MALI_TRUE, MALI_TRUE); /* PP job SUCCESS */ - /* group lock is released by mali_group_complete_jobs() call above */ - break; - case GROUP_EVENT_PP_JOB_FAILED: - mali_group_complete_jobs(group, MALI_FALSE, MALI_TRUE, MALI_FALSE); /* PP job FAIL */ - /* group lock is released by mali_group_complete_jobs() call above */ - break; - case GROUP_EVENT_PP_JOB_TIMED_OUT: - mali_group_complete_jobs(group, MALI_FALSE, MALI_TRUE, MALI_FALSE); /* PP job TIMEOUT */ - /* group lock is released by mali_group_complete_jobs() call above */ - break; - case GROUP_EVENT_GP_JOB_COMPLETED: - mali_group_complete_jobs(group, MALI_TRUE, MALI_FALSE, MALI_TRUE); /* GP job SUCCESS */ - /* group lock is released by mali_group_complete_jobs() call above */ - break; - case GROUP_EVENT_GP_JOB_FAILED: - mali_group_complete_jobs(group, MALI_TRUE, MALI_FALSE, MALI_FALSE); /* GP job FAIL */ - /* group lock is released by mali_group_complete_jobs() call above */ - break; - case GROUP_EVENT_GP_JOB_TIMED_OUT: - mali_group_complete_jobs(group, MALI_TRUE, MALI_FALSE, MALI_FALSE); /* GP job TIMEOUT */ - /* group lock is released by mali_group_complete_jobs() call above */ - break; - case GROUP_EVENT_GP_OOM: - group->gp_state = MALI_GROUP_CORE_STATE_OOM; - mali_group_unlock(group); /* Nothing to do on the HW side, so just release group lock right away */ - mali_gp_scheduler_oom(group, group->gp_running_job); - break; - case GROUP_EVENT_MMU_PAGE_FAULT: - mali_group_complete_jobs(group, MALI_TRUE, MALI_TRUE, MALI_FALSE); /* GP and PP job FAIL */ - /* group lock is released by mali_group_complete_jobs() call above */ - break; - default: - break; - } -} - -struct mali_mmu_core *mali_group_get_mmu(struct mali_group *group) -{ - return group->mmu; -} - -struct mali_session_data *mali_group_get_session(struct mali_group *group) -{ - return group->session; -} - -struct mali_group *mali_group_get_glob_group(u32 index) -{ - if(mali_global_num_groups > index) - { - return mali_global_groups[index]; - } - - return NULL; -} - -u32 mali_group_get_glob_num_groups(void) -{ - return mali_global_num_groups; -} - -/* Used to check if scheduler for the other core type needs to be called on job completion. - * - * Used only for Mali-200, where job start may fail if the only MMU is busy - * with another session's address space. - */ -static inline mali_bool mali_group_other_reschedule_needed(struct mali_group *group) -{ - MALI_ASSERT_GROUP_LOCKED(group); - -#if defined(USING_MALI200) - if (group->pagedir_activation_failed) - { - group->pagedir_activation_failed = MALI_FALSE; - return MALI_TRUE; - } - else -#endif - { - return MALI_FALSE; - } -} - -static enum mali_group_activate_pd_status mali_group_activate_page_directory(struct mali_group *group, struct mali_session_data *session) -{ - enum mali_group_activate_pd_status retval; - MALI_ASSERT_GROUP_LOCKED(group); - - MALI_DEBUG_PRINT(5, ("Mali group: Activating page directory 0x%08X from session 0x%08X on group 0x%08X\n", mali_session_get_page_directory(session), session, group)); - MALI_DEBUG_ASSERT(0 <= group->page_dir_ref_count); - - if (0 != group->page_dir_ref_count) - { - if (group->session != session) - { - MALI_DEBUG_PRINT(4, ("Mali group: Activating session FAILED: 0x%08x on group 0x%08X. Existing session: 0x%08x\n", session, group, group->session)); - return MALI_GROUP_ACTIVATE_PD_STATUS_FAILED; - } - else - { - MALI_DEBUG_PRINT(4, ("Mali group: Activating session already activated: 0x%08x on group 0x%08X. New Ref: %d\n", session, group, 1+group->page_dir_ref_count)); - retval = MALI_GROUP_ACTIVATE_PD_STATUS_OK_KEPT_PD; - - } - } - else - { - /* There might be another session here, but it is ok to overwrite it since group->page_dir_ref_count==0 */ - if (group->session != session) - { - mali_bool activate_success; - MALI_DEBUG_PRINT(5, ("Mali group: Activate session: %08x previous: %08x on group 0x%08X. Ref: %d\n", session, group->session, group, 1+group->page_dir_ref_count)); - - activate_success = mali_mmu_activate_page_directory(group->mmu, mali_session_get_page_directory(session)); - MALI_DEBUG_ASSERT(activate_success); - if ( MALI_FALSE== activate_success ) return MALI_GROUP_ACTIVATE_PD_STATUS_FAILED; - group->session = session; - retval = MALI_GROUP_ACTIVATE_PD_STATUS_OK_SWITCHED_PD; - } - else - { - MALI_DEBUG_PRINT(4, ("Mali group: Activate existing session 0x%08X on group 0x%08X. Ref: %d\n", session->page_directory, group, 1+group->page_dir_ref_count)); - retval = MALI_GROUP_ACTIVATE_PD_STATUS_OK_KEPT_PD; - } - } - - group->page_dir_ref_count++; - return retval; -} - -static void mali_group_deactivate_page_directory(struct mali_group *group, struct mali_session_data *session) -{ - MALI_ASSERT_GROUP_LOCKED(group); - - MALI_DEBUG_ASSERT(0 < group->page_dir_ref_count); - MALI_DEBUG_ASSERT(session == group->session); - - group->page_dir_ref_count--; - - /* As an optimization, the MMU still points to the group->session even if (0 == group->page_dir_ref_count), - and we do not call mali_mmu_activate_empty_page_directory(group->mmu); */ - MALI_DEBUG_ASSERT(0 <= group->page_dir_ref_count); -} - -void mali_group_remove_session_if_unused(struct mali_group *group, struct mali_session_data *session) -{ - MALI_ASSERT_GROUP_LOCKED(group); - - if (0 == group->page_dir_ref_count) - { - MALI_DEBUG_ASSERT(MALI_GROUP_CORE_STATE_IDLE == group->gp_state); - MALI_DEBUG_ASSERT(MALI_GROUP_CORE_STATE_IDLE == group->pp_state); - - if (group->session == session) - { - MALI_DEBUG_ASSERT(MALI_TRUE == group->power_is_on); - MALI_DEBUG_PRINT(3, ("Mali group: Deactivating unused session 0x%08X on group %08X\n", session, group)); - mali_mmu_activate_empty_page_directory(group->mmu); - group->session = NULL; - } - } -} - -void mali_group_power_on(void) -{ - int i; - for (i = 0; i < mali_global_num_groups; i++) - { - struct mali_group *group = mali_global_groups[i]; - mali_group_lock(group); - MALI_DEBUG_ASSERT(MALI_GROUP_CORE_STATE_IDLE == group->gp_state); - MALI_DEBUG_ASSERT(MALI_GROUP_CORE_STATE_IDLE == group->pp_state); - MALI_DEBUG_ASSERT_POINTER(group->cluster); - group->power_is_on = MALI_TRUE; - mali_cluster_power_is_enabled_set(group->cluster, MALI_TRUE); - mali_group_unlock(group); - } - MALI_DEBUG_PRINT(3,("group: POWER ON\n")); -} - -mali_bool mali_group_power_is_on(struct mali_group *group) -{ - MALI_ASSERT_GROUP_LOCKED(group); - return group->power_is_on; -} - -void mali_group_power_off(void) -{ - int i; - /* It is necessary to set group->session = NULL; so that the powered off MMU is not written to on map /unmap */ - /* It is necessary to set group->power_is_on=MALI_FALSE so that pending bottom_halves does not access powered off cores. */ - for (i = 0; i < mali_global_num_groups; i++) - { - struct mali_group *group = mali_global_groups[i]; - mali_group_lock(group); - MALI_DEBUG_ASSERT(MALI_GROUP_CORE_STATE_IDLE == group->gp_state); - MALI_DEBUG_ASSERT(MALI_GROUP_CORE_STATE_IDLE == group->pp_state); - MALI_DEBUG_ASSERT_POINTER(group->cluster); - group->session = NULL; - MALI_DEBUG_ASSERT(MALI_TRUE == group->power_is_on); - group->power_is_on = MALI_FALSE; - mali_cluster_power_is_enabled_set(group->cluster, MALI_FALSE); - mali_group_unlock(group); - } - MALI_DEBUG_PRINT(3,("group: POWER OFF\n")); -} - - -static void mali_group_recovery_reset(struct mali_group *group) -{ - MALI_ASSERT_GROUP_LOCKED(group); - - /* Stop cores, bus stop */ - if (NULL != group->pp_core) - { - mali_pp_stop_bus(group->pp_core); - } - if (NULL != group->gp_core) - { - mali_gp_stop_bus(group->gp_core); - } - - /* Flush MMU */ - mali_mmu_activate_fault_flush_page_directory(group->mmu); - mali_mmu_page_fault_done(group->mmu); - - /* Wait for cores to stop bus */ - if (NULL != group->pp_core) - { - mali_pp_stop_bus_wait(group->pp_core); - } - if (NULL != group->gp_core) - { - mali_gp_stop_bus_wait(group->gp_core); - } - - /* Reset cores */ - if (NULL != group->pp_core) - { - mali_pp_hard_reset(group->pp_core); - } - if (NULL != group->gp_core) - { - mali_gp_hard_reset(group->gp_core); - } - - /* Reset MMU */ - mali_mmu_reset(group->mmu); - group->session = NULL; -} - -/* Group lock need to be taken before calling mali_group_complete_jobs. Will release the lock here. */ -static void mali_group_complete_jobs(struct mali_group *group, mali_bool complete_gp, mali_bool complete_pp, bool success) -{ - mali_bool need_group_reset = MALI_FALSE; - mali_bool gp_success = success; - mali_bool pp_success = success; - - MALI_ASSERT_GROUP_LOCKED(group); - - if (complete_gp && !complete_pp) - { - MALI_DEBUG_ASSERT_POINTER(group->gp_core); - if (_MALI_OSK_ERR_OK == mali_gp_reset(group->gp_core)) - { - struct mali_gp_job *gp_job_to_return = group->gp_running_job; - group->gp_state = MALI_GROUP_CORE_STATE_IDLE; - group->gp_running_job = NULL; - - MALI_DEBUG_ASSERT_POINTER(gp_job_to_return); - - mali_group_deactivate_page_directory(group, mali_gp_job_get_session(gp_job_to_return)); - - if(mali_group_other_reschedule_needed(group)) - { - mali_group_unlock(group); - mali_pp_scheduler_do_schedule(); - } - else - { - mali_group_unlock(group); - } - - mali_gp_scheduler_job_done(group, gp_job_to_return, gp_success); - mali_pm_core_event(MALI_CORE_EVENT_GP_STOP); /* It is ok to do this after schedule, since START/STOP is simply ++ and -- anyways */ - - return; - } - else - { - need_group_reset = MALI_TRUE; - MALI_DEBUG_PRINT(3, ("Mali group: Failed to reset GP, need to reset entire group\n")); - pp_success = MALI_FALSE; /* This might kill PP as well, so this should fail */ - } - } - if (complete_pp && !complete_gp) - { - MALI_DEBUG_ASSERT_POINTER(group->pp_core); - if (_MALI_OSK_ERR_OK == mali_pp_reset(group->pp_core)) - { - struct mali_pp_job *pp_job_to_return = group->pp_running_job; - u32 pp_sub_job_to_return = group->pp_running_sub_job; - group->pp_state = MALI_GROUP_CORE_STATE_IDLE; - group->pp_running_job = NULL; - - MALI_DEBUG_ASSERT_POINTER(pp_job_to_return); - - mali_group_deactivate_page_directory(group, mali_pp_job_get_session(pp_job_to_return)); - - if(mali_group_other_reschedule_needed(group)) - { - mali_group_unlock(group); - mali_gp_scheduler_do_schedule(); - } - else - { - mali_group_unlock(group); - } - - mali_pp_scheduler_job_done(group, pp_job_to_return, pp_sub_job_to_return, pp_success); - mali_pm_core_event(MALI_CORE_EVENT_PP_STOP); /* It is ok to do this after schedule, since START/STOP is simply ++ and -- anyways */ - - return; - } - else - { - need_group_reset = MALI_TRUE; - MALI_DEBUG_PRINT(3, ("Mali group: Failed to reset PP, need to reset entire group\n")); - gp_success = MALI_FALSE; /* This might kill GP as well, so this should fail */ - } - } - else if (complete_gp && complete_pp) - { - need_group_reset = MALI_TRUE; - } - - if (MALI_TRUE == need_group_reset) - { - struct mali_gp_job *gp_job_to_return = group->gp_running_job; - struct mali_pp_job *pp_job_to_return = group->pp_running_job; - u32 pp_sub_job_to_return = group->pp_running_sub_job; - mali_bool schedule_other = MALI_FALSE; - - MALI_DEBUG_PRINT(3, ("Mali group: Resetting entire group\n")); - - group->gp_state = MALI_GROUP_CORE_STATE_IDLE; - group->gp_running_job = NULL; - if (NULL != gp_job_to_return) - { - mali_group_deactivate_page_directory(group, mali_gp_job_get_session(gp_job_to_return)); - } - - group->pp_state = MALI_GROUP_CORE_STATE_IDLE; - group->pp_running_job = NULL; - if (NULL != pp_job_to_return) - { - mali_group_deactivate_page_directory(group, mali_pp_job_get_session(pp_job_to_return)); - } - - /* The reset has to be done after mali_group_deactivate_page_directory() */ - mali_group_recovery_reset(group); - - if (mali_group_other_reschedule_needed(group) && (NULL == gp_job_to_return || NULL == pp_job_to_return)) - { - schedule_other = MALI_TRUE; - } - - mali_group_unlock(group); - - if (NULL != gp_job_to_return) - { - mali_gp_scheduler_job_done(group, gp_job_to_return, gp_success); - mali_pm_core_event(MALI_CORE_EVENT_GP_STOP); /* It is ok to do this after schedule, since START/STOP is simply ++ and -- anyways */ - } - else if (schedule_other) - { - mali_pp_scheduler_do_schedule(); - } - - if (NULL != pp_job_to_return) - { - mali_pp_scheduler_job_done(group, pp_job_to_return, pp_sub_job_to_return, pp_success); - mali_pm_core_event(MALI_CORE_EVENT_PP_STOP); /* It is ok to do this after schedule, since START/STOP is simply ++ and -- anyways */ - } - else if (schedule_other) - { - mali_gp_scheduler_do_schedule(); - } - - return; - } - - mali_group_unlock(group); -} - -#if MALI_STATE_TRACKING -u32 mali_group_dump_state(struct mali_group *group, char *buf, u32 size) -{ - int n = 0; - - n += _mali_osk_snprintf(buf + n, size - n, "Group: %p\n", group); - if (group->gp_core) - { - n += mali_gp_dump_state(group->gp_core, buf + n, size - n); - n += _mali_osk_snprintf(buf + n, size - n, "\tGP state: %d\n", group->gp_state); - n += _mali_osk_snprintf(buf + n, size - n, "\tGP job: %p\n", group->gp_running_job); - } - if (group->pp_core) - { - n += mali_pp_dump_state(group->pp_core, buf + n, size - n); - n += _mali_osk_snprintf(buf + n, size - n, "\tPP state: %d\n", group->pp_state); - n += _mali_osk_snprintf(buf + n, size - n, "\tPP job: %p, subjob %d \n", - group->pp_running_job, group->pp_running_sub_job); - } - - return n; -} -#endif diff --git a/drivers/media/video/samsung/mali/common/mali_group.h b/drivers/media/video/samsung/mali/common/mali_group.h deleted file mode 100644 index 3533d13..0000000 --- a/drivers/media/video/samsung/mali/common/mali_group.h +++ /dev/null @@ -1,146 +0,0 @@ -/* - * Copyright (C) 2011-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_GROUP_H__ -#define __MALI_GROUP_H__ - -#include "linux/jiffies.h" -#include "mali_osk.h" -#include "mali_cluster.h" -#include "mali_mmu.h" -#include "mali_gp.h" -#include "mali_pp.h" -#include "mali_session.h" - -/* max runtime [ms] for a core job - used by timeout timers */ -#define MAX_RUNTIME 5000 -/** @brief A mali group object represents a MMU and a PP and/or a GP core. - * - */ -#define MALI_MAX_NUMBER_OF_GROUPS 9 - -struct mali_group; - -enum mali_group_event_t -{ - GROUP_EVENT_PP_JOB_COMPLETED, /**< PP job completed successfully */ - GROUP_EVENT_PP_JOB_FAILED, /**< PP job completed with failure */ - GROUP_EVENT_PP_JOB_TIMED_OUT, /**< PP job reached max runtime */ - GROUP_EVENT_GP_JOB_COMPLETED, /**< GP job completed successfully */ - GROUP_EVENT_GP_JOB_FAILED, /**< GP job completed with failure */ - GROUP_EVENT_GP_JOB_TIMED_OUT, /**< GP job reached max runtime */ - GROUP_EVENT_GP_OOM, /**< GP job ran out of heap memory */ - GROUP_EVENT_MMU_PAGE_FAULT, /**< MMU page fault */ -}; - -enum mali_group_core_state -{ - MALI_GROUP_CORE_STATE_IDLE, - MALI_GROUP_CORE_STATE_WORKING, - MALI_GROUP_CORE_STATE_OOM -}; - -/** @brief Create a new Mali group object - * - * @param cluster Pointer to the cluster to which the group is connected. - * @param mmu Pointer to the MMU that defines this group - * @return A pointer to a new group object - */ -struct mali_group *mali_group_create(struct mali_cluster *cluster, struct mali_mmu_core *mmu); -void mali_group_add_gp_core(struct mali_group *group, struct mali_gp_core* gp_core); -void mali_group_add_pp_core(struct mali_group *group, struct mali_pp_core* pp_core); -void mali_group_delete(struct mali_group *group); - -/** @brief Reset group - * - * This function will reset the entire group, including all the cores present in the group. - * - * @param group Pointer to the group to reset - */ -void mali_group_reset(struct mali_group *group); - -/** @brief Get pointer to GP core object - */ -struct mali_gp_core* mali_group_get_gp_core(struct mali_group *group); - -/** @brief Get pointer to PP core object - */ -struct mali_pp_core* mali_group_get_pp_core(struct mali_group *group); - -/** @brief Lock group object - * - * Most group functions will lock the group object themselves. The expection is - * the group_bottom_half which requires the group to be locked on entry. - * - * @param group Pointer to group to lock - */ -void mali_group_lock(struct mali_group *group); - -/** @brief Unlock group object - * - * @param group Pointer to group to unlock - */ -void mali_group_unlock(struct mali_group *group); -#ifdef DEBUG -void mali_group_assert_locked(struct mali_group *group); -#define MALI_ASSERT_GROUP_LOCKED(group) mali_group_assert_locked(group) -#else -#define MALI_ASSERT_GROUP_LOCKED(group) -#endif - -/** @brief Start GP job - */ -_mali_osk_errcode_t mali_group_start_gp_job(struct mali_group *group, struct mali_gp_job *job); -/** @brief Start fragment of PP job - */ -_mali_osk_errcode_t mali_group_start_pp_job(struct mali_group *group, struct mali_pp_job *job, u32 sub_job); - -/** @brief Resume GP job that suspended waiting for more heap memory - */ -void mali_group_resume_gp_with_new_heap(struct mali_group *group, u32 job_id, u32 start_addr, u32 end_addr); -/** @brief Abort GP job - * - * Used to abort suspended OOM jobs when user space failed to allocte more memory. - */ -void mali_group_abort_gp_job(struct mali_group *group, u32 job_id); -/** @brief Abort all GP jobs from \a session - * - * Used on session close when terminating all running and queued jobs from \a session. - */ -void mali_group_abort_session(struct mali_group *group, struct mali_session_data *session); - -enum mali_group_core_state mali_group_gp_state(struct mali_group *group); -enum mali_group_core_state mali_group_pp_state(struct mali_group *group); - -/** @brief The common group bottom half interrupt handler - * - * This is only called from the GP and PP bottom halves. - * - * The action taken is dictated by the \a event. - * - * @param event The event code - */ -void mali_group_bottom_half(struct mali_group *group, enum mali_group_event_t event); - -struct mali_mmu_core *mali_group_get_mmu(struct mali_group *group); -struct mali_session_data *mali_group_get_session(struct mali_group *group); - -void mali_group_remove_session_if_unused(struct mali_group *group, struct mali_session_data *session_data); - -void mali_group_power_on(void); -void mali_group_power_off(void); -mali_bool mali_group_power_is_on(struct mali_group *group); - -struct mali_group *mali_group_get_glob_group(u32 index); -u32 mali_group_get_glob_num_groups(void); - -u32 mali_group_dump_state(struct mali_group *group, char *buf, u32 size); - -#endif /* __MALI_GROUP_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_hw_core.c b/drivers/media/video/samsung/mali/common/mali_hw_core.c deleted file mode 100644 index 0b08622..0000000 --- a/drivers/media/video/samsung/mali/common/mali_hw_core.c +++ /dev/null @@ -1,46 +0,0 @@ -/* - * Copyright (C) 2011-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_hw_core.h" -#include "mali_osk.h" -#include "mali_kernel_common.h" - -_mali_osk_errcode_t mali_hw_core_create(struct mali_hw_core *core, const _mali_osk_resource_t *resource, u32 reg_size) -{ - core->phys_addr = resource->base; - core->description = resource->description; - core->size = reg_size; - if (_MALI_OSK_ERR_OK == _mali_osk_mem_reqregion(core->phys_addr, core->size, core->description)) - { - core->mapped_registers = _mali_osk_mem_mapioregion(core->phys_addr, core->size, core->description); - if (NULL != core->mapped_registers) - { - return _MALI_OSK_ERR_OK; - } - else - { - MALI_PRINT_ERROR(("Failed to map memory region for core %s at phys_addr 0x%08X\n", core->description, core->phys_addr)); - } - _mali_osk_mem_unreqregion(core->phys_addr, core->size); - } - else - { - MALI_PRINT_ERROR(("Failed to request memory region for core %s at phys_addr 0x%08X\n", core->description, core->phys_addr)); - } - - return _MALI_OSK_ERR_FAULT; -} - -void mali_hw_core_delete(struct mali_hw_core *core) -{ - _mali_osk_mem_unmapioregion(core->phys_addr, core->size, core->mapped_registers); - core->mapped_registers = NULL; - _mali_osk_mem_unreqregion(core->phys_addr, core->size); -} diff --git a/drivers/media/video/samsung/mali/common/mali_hw_core.h b/drivers/media/video/samsung/mali/common/mali_hw_core.h deleted file mode 100644 index c797804..0000000 --- a/drivers/media/video/samsung/mali/common/mali_hw_core.h +++ /dev/null @@ -1,71 +0,0 @@ -/* - * Copyright (C) 2011-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_HW_CORE_H__ -#define __MALI_HW_CORE_H__ - -#include "mali_osk.h" -#include "mali_kernel_common.h" - -/** - * The common parts for all Mali HW cores (GP, PP, MMU, L2 and PMU) - * This struct is embedded inside all core specific structs. - */ -struct mali_hw_core -{ - u32 phys_addr; /**< Physical address of the registers */ - u32 size; /**< Size of registers */ - mali_io_address mapped_registers; /**< Virtual mapping of the registers */ - const char* description; /**< Name of unit (as specified in device configuration) */ -}; - -#define MALI_HW_CORE_NO_COUNTER ((u32)-1) -#define MALI_HW_CORE_INVALID_VALUE ((u32)-1) - -_mali_osk_errcode_t mali_hw_core_create(struct mali_hw_core *core, const _mali_osk_resource_t *resource, u32 reg_size); -void mali_hw_core_delete(struct mali_hw_core *core); - -MALI_STATIC_INLINE u32 mali_hw_core_register_read(struct mali_hw_core *core, u32 relative_address) -{ - u32 read_val; - read_val = _mali_osk_mem_ioread32(core->mapped_registers, relative_address); - MALI_DEBUG_PRINT(6, ("register_read for core %s, relative addr=0x%04X, val=0x%08X\n", - core->description, relative_address, read_val)); - return read_val; -} - -MALI_STATIC_INLINE void mali_hw_core_register_write_relaxed(struct mali_hw_core *core, u32 relative_address, u32 new_val) -{ - MALI_DEBUG_PRINT(6, ("register_write_relaxed for core %s, relative addr=0x%04X, val=0x%08X\n", - core->description, relative_address, new_val)); - _mali_osk_mem_iowrite32_relaxed(core->mapped_registers, relative_address, new_val); -} - -MALI_STATIC_INLINE void mali_hw_core_register_write(struct mali_hw_core *core, u32 relative_address, u32 new_val) -{ - MALI_DEBUG_PRINT(6, ("register_write for core %s, relative addr=0x%04X, val=0x%08X\n", - core->description, relative_address, new_val)); - _mali_osk_mem_iowrite32(core->mapped_registers, relative_address, new_val); -} - -MALI_STATIC_INLINE void mali_hw_core_register_write_array_relaxed(struct mali_hw_core *core, u32 relative_address, u32 *write_array, u32 nr_of_regs) -{ - u32 i; - MALI_DEBUG_PRINT(6, ("register_write_array: for core %s, relative addr=0x%04X, nr of regs=%u\n", - core->description,relative_address, nr_of_regs)); - - /* Do not use burst writes against the registers */ - for (i = 0; i< nr_of_regs; i++) - { - mali_hw_core_register_write_relaxed(core, relative_address + i*4, write_array[i]); - } -} - -#endif /* __MALI_HW_CORE_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_kernel_common.h b/drivers/media/video/samsung/mali/common/mali_kernel_common.h deleted file mode 100644 index b354f92..0000000 --- a/drivers/media/video/samsung/mali/common/mali_kernel_common.h +++ /dev/null @@ -1,183 +0,0 @@ -/* - * Copyright (C) 2010, 2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_KERNEL_COMMON_H__ -#define __MALI_KERNEL_COMMON_H__ - -/* Make sure debug is defined when it should be */ -#ifndef DEBUG - #if defined(_DEBUG) - #define DEBUG - #endif -#endif - -/* Macro for generating a kernel panic. - * Turned on off by compile-time Makefile settings - */ -#if defined(USING_KERNEL_PANIC) -#include <linux/kernel.h> - #define MALI_PANIC(fmt, args...) panic( fmt, ## args ); -#else - #define MALI_PANIC(fmt, args...) -#endif - -/* The file include several useful macros for error checking, debugging and printing. - * - MALI_PRINTF(...) Do not use this function: Will be included in Release builds. - * - MALI_DEBUG_PRINT(nr, (X) ) Prints the second argument if nr<=MALI_DEBUG_LEVEL. - * - MALI_DEBUG_ERROR( (X) ) Prints an errortext, a source trace, and the given error message. - * - MALI_DEBUG_ASSERT(exp,(X)) If the asserted expr is false, the program will exit. - * - MALI_DEBUG_ASSERT_POINTER(pointer) Triggers if the pointer is a zero pointer. - * - MALI_DEBUG_CODE( X ) The code inside the macro is only compiled in Debug builds. - * - * The (X) means that you must add an extra parenthesis around the argumentlist. - * - * The printf function: MALI_PRINTF(...) is routed to _mali_osk_debugmsg - * - * Suggested range for the DEBUG-LEVEL is [1:6] where - * [1:2] Is messages with highest priority, indicate possible errors. - * [3:4] Is messages with medium priority, output important variables. - * [5:6] Is messages with low priority, used during extensive debugging. - */ - - /** - * Fundamental error macro. Reports an error code. This is abstracted to allow us to - * easily switch to a different error reporting method if we want, and also to allow - * us to search for error returns easily. - * - * Note no closing semicolon - this is supplied in typical usage: - * - * MALI_ERROR(MALI_ERROR_OUT_OF_MEMORY); - */ -#define MALI_ERROR(error_code) return (error_code) - -/** - * Basic error macro, to indicate success. - * Note no closing semicolon - this is supplied in typical usage: - * - * MALI_SUCCESS; - */ -#define MALI_SUCCESS MALI_ERROR(_MALI_OSK_ERR_OK) - -/** - * Basic error macro. This checks whether the given condition is true, and if not returns - * from this function with the supplied error code. This is a macro so that we can override it - * for stress testing. - * - * Note that this uses the do-while-0 wrapping to ensure that we don't get problems with dangling - * else clauses. Note also no closing semicolon - this is supplied in typical usage: - * - * MALI_CHECK((p!=NULL), ERROR_NO_OBJECT); - */ -#define MALI_CHECK(condition, error_code) do { if(!(condition)) MALI_ERROR(error_code); } while(0) - -/** - * Error propagation macro. If the expression given is anything other than _MALI_OSK_NO_ERROR, - * then the value is returned from the enclosing function as an error code. This effectively - * acts as a guard clause, and propagates error values up the call stack. This uses a - * temporary value to ensure that the error expression is not evaluated twice. - * If the counter for forcing a failure has been set using _mali_force_error, this error will be - * returned without evaluating the expression in MALI_CHECK_NO_ERROR - */ -#define MALI_CHECK_NO_ERROR(expression) \ - do { _mali_osk_errcode_t _check_no_error_result=(expression); \ - if(_check_no_error_result != _MALI_OSK_ERR_OK) \ - MALI_ERROR(_check_no_error_result); \ - } while(0) - -/** - * Pointer check macro. Checks non-null pointer. - */ -#define MALI_CHECK_NON_NULL(pointer, error_code) MALI_CHECK( ((pointer)!=NULL), (error_code) ) - -/** - * Error macro with goto. This checks whether the given condition is true, and if not jumps - * to the specified label using a goto. The label must therefore be local to the function in - * which this macro appears. This is most usually used to execute some clean-up code before - * exiting with a call to ERROR. - * - * Like the other macros, this is a macro to allow us to override the condition if we wish, - * e.g. to force an error during stress testing. - */ -#define MALI_CHECK_GOTO(condition, label) do { if(!(condition)) goto label; } while(0) - -/** - * Explicitly ignore a parameter passed into a function, to suppress compiler warnings. - * Should only be used with parameter names. - */ -#define MALI_IGNORE(x) x=x - -#define MALI_PRINTF(args) _mali_osk_dbgmsg args; - -#define MALI_PRINT_ERROR(args) do{ \ - MALI_PRINTF(("Mali: ERR: %s\n" ,__FILE__)); \ - MALI_PRINTF((" %s()%4d\n ", __FUNCTION__, __LINE__)) ; \ - MALI_PRINTF(args); \ - MALI_PRINTF(("\n")); \ - } while(0) - -#define MALI_PRINT(args) do{ \ - MALI_PRINTF(("Mali: ")); \ - MALI_PRINTF(args); \ - } while (0) - -#ifdef DEBUG -#ifndef mali_debug_level -extern int mali_debug_level; -#endif - -#define MALI_DEBUG_CODE(code) code -#define MALI_DEBUG_PRINT(level, args) do { \ - if((level) <= mali_debug_level)\ - {MALI_PRINTF(("Mali<" #level ">: ")); MALI_PRINTF(args); } \ - } while (0) - -#define MALI_DEBUG_PRINT_ERROR(args) MALI_PRINT_ERROR(args) - -#define MALI_DEBUG_PRINT_IF(level,condition,args) \ - if((condition)&&((level) <= mali_debug_level))\ - {MALI_PRINTF(("Mali<" #level ">: ")); MALI_PRINTF(args); } - -#define MALI_DEBUG_PRINT_ELSE(level, args)\ - else if((level) <= mali_debug_level)\ - { MALI_PRINTF(("Mali<" #level ">: ")); MALI_PRINTF(args); } - -/** - * @note these variants of DEBUG ASSERTS will cause a debugger breakpoint - * to be entered (see _mali_osk_break() ). An alternative would be to call - * _mali_osk_abort(), on OSs that support it. - */ -#define MALI_DEBUG_PRINT_ASSERT(condition, args) do {if( !(condition)) { MALI_PRINT_ERROR(args); _mali_osk_break(); } } while(0) -#define MALI_DEBUG_ASSERT_POINTER(pointer) do {if( (pointer)== NULL) {MALI_PRINT_ERROR(("NULL pointer " #pointer)); _mali_osk_break();} } while(0) -#define MALI_DEBUG_ASSERT(condition) do {if( !(condition)) {MALI_PRINT_ERROR(("ASSERT failed: " #condition )); _mali_osk_break();} } while(0) - -#else /* DEBUG */ - -#define MALI_DEBUG_CODE(code) -#define MALI_DEBUG_PRINT(string,args) do {} while(0) -#define MALI_DEBUG_PRINT_ERROR(args) do {} while(0) -#define MALI_DEBUG_PRINT_IF(level,condition,args) do {} while(0) -#define MALI_DEBUG_PRINT_ELSE(level,condition,args) do {} while(0) -#define MALI_DEBUG_PRINT_ASSERT(condition,args) do {} while(0) -#define MALI_DEBUG_ASSERT_POINTER(pointer) do {} while(0) -#define MALI_DEBUG_ASSERT(condition) do {} while(0) - -#endif /* DEBUG */ - -/** - * variables from user space cannot be dereferenced from kernel space; tagging them - * with __user allows the GCC compiler to generate a warning. Other compilers may - * not support this so we define it here as an empty macro if the compiler doesn't - * define it. - */ -#ifndef __user -#define __user -#endif - -#endif /* __MALI_KERNEL_COMMON_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_kernel_core.c b/drivers/media/video/samsung/mali/common/mali_kernel_core.c deleted file mode 100644 index 45e86d2..0000000 --- a/drivers/media/video/samsung/mali/common/mali_kernel_core.c +++ /dev/null @@ -1,980 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_kernel_common.h" -#include "mali_session.h" -#include "mali_osk.h" -#include "mali_osk_mali.h" -#include "mali_ukk.h" -#include "mali_kernel_core.h" -#include "mali_memory.h" -#include "mali_mem_validation.h" -#include "mali_mmu.h" -#include "mali_mmu_page_directory.h" -#include "mali_dlbu.h" -#include "mali_gp.h" -#include "mali_pp.h" -#include "mali_gp_scheduler.h" -#include "mali_pp_scheduler.h" -#include "mali_cluster.h" -#include "mali_group.h" -#include "mali_pm.h" -#include "mali_pmu.h" -#include "mali_scheduler.h" -#ifdef CONFIG_MALI400_GPU_UTILIZATION -#include "mali_kernel_utilization.h" -#endif -#include "mali_l2_cache.h" -#if MALI_TIMELINE_PROFILING_ENABLED -#include "mali_osk_profiling.h" -#endif - -/** Pointer to table of resource definitions available to the Mali driver. - * _mali_osk_resources_init() sets up the pointer to this table. - */ -static _mali_osk_resource_t *arch_configuration = NULL; - -/** Start profiling from module load? */ -int mali_boot_profiling = 0; - -/** Number of resources initialized by _mali_osk_resources_init() */ -static u32 num_resources; - -static _mali_product_id_t global_product_id = _MALI_PRODUCT_ID_UNKNOWN; -static u32 global_gpu_base_address = 0; -static u32 global_gpu_major_version = 0; -static u32 global_gpu_minor_version = 0; - -static u32 first_pp_offset = 0; - -#define HANG_CHECK_MSECS_DEFAULT 500 /* 500 ms */ -#define WATCHDOG_MSECS_DEFAULT 4000 /* 4 s */ - -/* timer related */ -int mali_max_job_runtime = WATCHDOG_MSECS_DEFAULT; -int mali_hang_check_interval = HANG_CHECK_MSECS_DEFAULT; - -static _mali_osk_resource_t *mali_find_resource(_mali_osk_resource_type_t type, u32 offset) -{ - int i; - u32 addr = global_gpu_base_address + offset; - - for (i = 0; i < num_resources; i++) - { - if (type == arch_configuration[i].type && arch_configuration[i].base == addr) - { - return &(arch_configuration[i]); - } - } - - return NULL; -} - -static u32 mali_count_resources(_mali_osk_resource_type_t type) -{ - int i; - u32 retval = 0; - - for (i = 0; i < num_resources; i++) - { - if (type == arch_configuration[i].type) - { - retval++; - } - } - - return retval; -} - - -static _mali_osk_errcode_t mali_parse_gpu_base_and_first_pp_offset_address(void) -{ - int i; - _mali_osk_resource_t *first_gp_resource = NULL; - _mali_osk_resource_t *first_pp_resource = NULL; - - for (i = 0; i < num_resources; i++) - { - if (MALI_GP == arch_configuration[i].type) - { - if (NULL == first_gp_resource || first_gp_resource->base > arch_configuration[i].base) - { - first_gp_resource = &(arch_configuration[i]); - } - } - if (MALI_PP == arch_configuration[i].type) - { - if (NULL == first_pp_resource || first_pp_resource->base > arch_configuration[i].base) - { - first_pp_resource = &(arch_configuration[i]); - } - } - } - - if (NULL == first_gp_resource || NULL == first_pp_resource) - { - MALI_PRINT_ERROR(("No GP+PP core specified in config file\n")); - return _MALI_OSK_ERR_FAULT; - } - - if (first_gp_resource->base < first_pp_resource->base) - { - /* GP is first, so we are dealing with Mali-300, Mali-400 or Mali-450 */ - global_gpu_base_address = first_gp_resource->base; - first_pp_offset = 0x8000; - } - else - { - /* PP is first, so we are dealing with Mali-200 */ - global_gpu_base_address = first_pp_resource->base; - first_pp_offset = 0x0; - } - MALI_SUCCESS; -} - -static _mali_osk_errcode_t mali_parse_product_info(void) -{ - _mali_osk_resource_t *first_pp_resource = NULL; - - /* Find the first PP core */ - first_pp_resource = mali_find_resource(MALI_PP, first_pp_offset); - if (NULL != first_pp_resource) - { - /* Create a dummy PP object for this core so that we can read the version register */ - struct mali_group *group = mali_group_create(NULL, NULL); - if (NULL != group) - { - /*struct mali_pp_core *pp_core = mali_pp_create(first_pp_resource, group, 0);*/ - struct mali_pp_core *pp_core = mali_pp_create(first_pp_resource, group); - if (NULL != pp_core) - { - u32 pp_version = mali_pp_core_get_version(pp_core); - mali_pp_delete(pp_core); - mali_group_delete(group); - - global_gpu_major_version = (pp_version >> 8) & 0xFF; - global_gpu_minor_version = pp_version & 0xFF; - - switch (pp_version >> 16) - { - case MALI200_PP_PRODUCT_ID: - global_product_id = _MALI_PRODUCT_ID_MALI200; - MALI_DEBUG_PRINT(2, ("Found Mali GPU Mali-200 r%up%u\n", global_gpu_major_version, global_gpu_minor_version)); - break; - case MALI300_PP_PRODUCT_ID: - global_product_id = _MALI_PRODUCT_ID_MALI300; - MALI_DEBUG_PRINT(2, ("Found Mali GPU Mali-300 r%up%u\n", global_gpu_major_version, global_gpu_minor_version)); - break; - case MALI400_PP_PRODUCT_ID: - global_product_id = _MALI_PRODUCT_ID_MALI400; - MALI_DEBUG_PRINT(2, ("Found Mali GPU Mali-400 MP r%up%u\n", global_gpu_major_version, global_gpu_minor_version)); - break; - case MALI450_PP_PRODUCT_ID: - global_product_id = _MALI_PRODUCT_ID_MALI450; - MALI_DEBUG_PRINT(2, ("Found Mali GPU Mali-450 MP r%up%u\n", global_gpu_major_version, global_gpu_minor_version)); - break; - default: - MALI_DEBUG_PRINT(2, ("Found unknown Mali GPU GPU (r%up%u)\n", global_gpu_major_version, global_gpu_minor_version)); - return _MALI_OSK_ERR_FAULT; - } - - return _MALI_OSK_ERR_OK; - } - else - { - MALI_PRINT_ERROR(("Failed to create initial PP object\n")); - } - } - else - { - MALI_PRINT_ERROR(("Failed to create initial group object\n")); - } - } - else - { - MALI_PRINT_ERROR(("First PP core not specified in config file\n")); - } - - return _MALI_OSK_ERR_FAULT; -} - -static void mali_delete_clusters(void) -{ - u32 i; - u32 number_of_clusters = mali_cluster_get_glob_num_clusters(); - - for (i = 0; i < number_of_clusters; i++) - { - mali_cluster_delete(mali_cluster_get_global_cluster(i)); - } -} - -static _mali_osk_errcode_t mali_create_cluster(_mali_osk_resource_t *resource) -{ - if (NULL != resource) - { - struct mali_l2_cache_core *l2_cache; - - if (mali_l2_cache_core_get_glob_num_l2_cores() >= mali_l2_cache_core_get_max_num_l2_cores()) - { - MALI_PRINT_ERROR(("Found too many L2 cache core objects, max %u is supported\n", mali_l2_cache_core_get_max_num_l2_cores())); - return _MALI_OSK_ERR_FAULT; - } - - MALI_DEBUG_PRINT(3, ("Found L2 cache %s, starting new cluster\n", resource->description)); - - /*l2_cache = mali_l2_cache_create(resource, global_num_l2_cache_cores);*/ - l2_cache = mali_l2_cache_create(resource); - if (NULL == l2_cache) - { - MALI_PRINT_ERROR(("Failed to create L2 cache object\n")); - return _MALI_OSK_ERR_FAULT; - } - - if (NULL == mali_cluster_create(l2_cache)) - { - MALI_PRINT_ERROR(("Failed to create cluster object\n")); - mali_l2_cache_delete(l2_cache); - return _MALI_OSK_ERR_FAULT; - } - } - else - { - mali_cluster_create(NULL); - if (NULL == mali_cluster_get_global_cluster(0)) - { - MALI_PRINT_ERROR(("Failed to create cluster object\n")); - return _MALI_OSK_ERR_FAULT; - } - } - - MALI_DEBUG_PRINT(3, ("Created cluster object\n")); - return _MALI_OSK_ERR_OK; -} - -static _mali_osk_errcode_t mali_parse_config_cluster(void) -{ - if (_MALI_PRODUCT_ID_MALI200 == global_product_id) - { - /* Create dummy cluster without L2 cache */ - return mali_create_cluster(NULL); - } - else if (_MALI_PRODUCT_ID_MALI300 == global_product_id || _MALI_PRODUCT_ID_MALI400 == global_product_id) - { - _mali_osk_resource_t *l2_resource = mali_find_resource(MALI_L2, 0x1000); - if (NULL == l2_resource) - { - MALI_DEBUG_PRINT(3, ("Did not find required Mali L2 cache in config file\n")); - return _MALI_OSK_ERR_FAULT; - } - - return mali_create_cluster(l2_resource); - } - else if (_MALI_PRODUCT_ID_MALI450 == global_product_id) - { - /* - * L2 for GP at 0x10000 - * L2 for PP0-3 at 0x01000 - * L2 for PP4-7 at 0x11000 (optional) - */ - - _mali_osk_resource_t *l2_gp_resource; - _mali_osk_resource_t *l2_pp_grp0_resource; - _mali_osk_resource_t *l2_pp_grp1_resource; - - /* Make cluster for GP's L2 */ - l2_gp_resource = mali_find_resource(MALI_L2, 0x10000); - if (NULL != l2_gp_resource) - { - _mali_osk_errcode_t ret; - MALI_DEBUG_PRINT(3, ("Creating Mali-450 cluster for GP\n")); - ret = mali_create_cluster(l2_gp_resource); - if (_MALI_OSK_ERR_OK != ret) - { - return ret; - } - } - else - { - MALI_DEBUG_PRINT(3, ("Did not find required Mali L2 cache for GP in config file\n")); - return _MALI_OSK_ERR_FAULT; - } - - /* Make cluster for first PP core group */ - l2_pp_grp0_resource = mali_find_resource(MALI_L2, 0x1000); - if (NULL != l2_pp_grp0_resource) - { - _mali_osk_errcode_t ret; - MALI_DEBUG_PRINT(3, ("Creating Mali-450 cluster for PP group 0\n")); - ret = mali_create_cluster(l2_pp_grp0_resource); - if (_MALI_OSK_ERR_OK != ret) - { - return ret; - } - } - else - { - MALI_DEBUG_PRINT(3, ("Did not find required Mali L2 cache for PP group 0 in config file\n")); - return _MALI_OSK_ERR_FAULT; - } - - /* Second PP core group is optional, don't fail if we don't find it */ - l2_pp_grp1_resource = mali_find_resource(MALI_L2, 0x11000); - if (NULL != l2_pp_grp1_resource) - { - _mali_osk_errcode_t ret; - MALI_DEBUG_PRINT(3, ("Creating Mali-450 cluster for PP group 0\n")); - ret = mali_create_cluster(l2_pp_grp1_resource); - if (_MALI_OSK_ERR_OK != ret) - { - return ret; - } - } - } - - return _MALI_OSK_ERR_OK; -} - -static _mali_osk_errcode_t mali_create_group(struct mali_cluster *cluster, - _mali_osk_resource_t *resource_mmu, - _mali_osk_resource_t *resource_gp, - _mali_osk_resource_t *resource_pp) -{ - struct mali_mmu_core *mmu; - struct mali_group *group; - struct mali_pp_core *pp; - - MALI_DEBUG_PRINT(3, ("Starting new group for MMU %s\n", resource_mmu->description)); - - /* Create the MMU object */ - mmu = mali_mmu_create(resource_mmu); - if (NULL == mmu) - { - MALI_PRINT_ERROR(("Failed to create MMU object\n")); - return _MALI_OSK_ERR_FAULT; - } - - /* Create the group object */ - group = mali_group_create(cluster, mmu); - if (NULL == group) - { - MALI_PRINT_ERROR(("Failed to create group object for MMU %s\n", resource_mmu->description)); - mali_mmu_delete(mmu); - return _MALI_OSK_ERR_FAULT; - } - - /* Set pointer back to group in mmu.*/ - mali_mmu_set_group(mmu, group); - - /* Add this group to current cluster */ - mali_cluster_add_group(cluster, group); - - if (NULL != resource_gp) - { - /* Create the GP core object inside this group */ - /* global_gp_core = mali_gp_create(resource_gp, group); */ - if (NULL == mali_gp_create(resource_gp, group)) - { - /* No need to clean up now, as we will clean up everything linked in from the cluster when we fail this function */ - MALI_PRINT_ERROR(("Failed to create GP object\n")); - return _MALI_OSK_ERR_FAULT; - } - - /* Add GP object to this group */ - MALI_DEBUG_PRINT(3, ("Adding GP %s to group\n", resource_gp->description)); - mali_group_add_gp_core(group, mali_gp_get_global_gp_core()); - } - - if (NULL != resource_pp) - { - /* Create the PP core object inside this group */ - pp = mali_pp_create(resource_pp, group); - - if (NULL == pp) - { - /* No need to clean up now, as we will clean up everything linked in from the cluster when we fail this function */ - MALI_PRINT_ERROR(("Failed to create PP object\n")); - return _MALI_OSK_ERR_FAULT; - } - - /* Add PP object to this group */ - MALI_DEBUG_PRINT(3, ("Adding PP %s to group\n", resource_pp->description)); - mali_group_add_pp_core(group, pp); - } - - return _MALI_OSK_ERR_OK; -} - -static _mali_osk_errcode_t mali_parse_config_groups(void) -{ - if (_MALI_PRODUCT_ID_MALI200 == global_product_id) - { - _mali_osk_resource_t *resource_gp; - _mali_osk_resource_t *resource_pp; - _mali_osk_resource_t *resource_mmu; - - MALI_DEBUG_ASSERT(1 == mali_cluster_get_glob_num_clusters()); - - resource_gp = mali_find_resource(MALI_GP, 0x02000); - resource_pp = mali_find_resource(MALI_PP, 0x00000); - resource_mmu = mali_find_resource(MMU, 0x03000); - - if (NULL == resource_mmu || NULL == resource_gp || NULL == resource_pp) - { - /* Missing mandatory core(s) */ - return _MALI_OSK_ERR_FAULT; - } - - /*return mali_create_group(global_clusters[0], resource_mmu, resource_gp, resource_pp);*/ - return mali_create_group(mali_cluster_get_global_cluster(0), resource_mmu, resource_gp, resource_pp); - } - else if (_MALI_PRODUCT_ID_MALI300 == global_product_id || - _MALI_PRODUCT_ID_MALI400 == global_product_id || - _MALI_PRODUCT_ID_MALI450 == global_product_id) - { - _mali_osk_errcode_t err; - int cluster_id_gp = 0; - int cluster_id_pp_grp0 = 0; - int cluster_id_pp_grp1 = 0; - int i; - _mali_osk_resource_t *resource_gp; - _mali_osk_resource_t *resource_gp_mmu; - _mali_osk_resource_t *resource_pp[mali_pp_get_max_num_pp_cores()]; - _mali_osk_resource_t *resource_pp_mmu[mali_pp_get_max_num_pp_cores()]; - u32 max_num_pp_cores = mali_pp_get_max_num_pp_cores(); - - if (_MALI_PRODUCT_ID_MALI450 == global_product_id) - { - /* Mali-450 has separate L2s for GP, and PP core group(s) */ - cluster_id_pp_grp0 = 1; - cluster_id_pp_grp1 = 2; - } - - resource_gp = mali_find_resource(MALI_GP, 0x00000); - resource_gp_mmu = mali_find_resource(MMU, 0x03000); - resource_pp[0] = mali_find_resource(MALI_PP, 0x08000); - resource_pp[1] = mali_find_resource(MALI_PP, 0x0A000); - resource_pp[2] = mali_find_resource(MALI_PP, 0x0C000); - resource_pp[3] = mali_find_resource(MALI_PP, 0x0E000); - resource_pp[4] = mali_find_resource(MALI_PP, 0x28000); - resource_pp[5] = mali_find_resource(MALI_PP, 0x2A000); - resource_pp[6] = mali_find_resource(MALI_PP, 0x2C000); - resource_pp[7] = mali_find_resource(MALI_PP, 0x2E000); - resource_pp_mmu[0] = mali_find_resource(MMU, 0x04000); - resource_pp_mmu[1] = mali_find_resource(MMU, 0x05000); - resource_pp_mmu[2] = mali_find_resource(MMU, 0x06000); - resource_pp_mmu[3] = mali_find_resource(MMU, 0x07000); - resource_pp_mmu[4] = mali_find_resource(MMU, 0x1C000); - resource_pp_mmu[5] = mali_find_resource(MMU, 0x1D000); - resource_pp_mmu[6] = mali_find_resource(MMU, 0x1E000); - resource_pp_mmu[7] = mali_find_resource(MMU, 0x1F000); - - if (NULL == resource_gp || NULL == resource_gp_mmu || NULL == resource_pp[0] || NULL == resource_pp_mmu[0]) - { - /* Missing mandatory core(s) */ - MALI_DEBUG_PRINT(2, ("Missing mandatory resource, need at least one GP and one PP, both with a separate MMU (0x%08X, 0x%08X, 0x%08X, 0x%08X)\n", - resource_gp, resource_gp_mmu, resource_pp[0], resource_pp_mmu[0])); - return _MALI_OSK_ERR_FAULT; - } - - MALI_DEBUG_ASSERT(1 <= mali_cluster_get_glob_num_clusters()); - err = mali_create_group(mali_cluster_get_global_cluster(cluster_id_gp), resource_gp_mmu, resource_gp, NULL); - if (err != _MALI_OSK_ERR_OK) - { - return err; - } - - /* Create group for first (and mandatory) PP core */ - MALI_DEBUG_ASSERT(mali_cluster_get_glob_num_clusters() >= (cluster_id_pp_grp0 + 1)); /* >= 1 on Mali-300 and Mali-400, >= 2 on Mali-450 */ - err = mali_create_group(mali_cluster_get_global_cluster(cluster_id_pp_grp0), resource_pp_mmu[0], NULL, resource_pp[0]); - if (err != _MALI_OSK_ERR_OK) - { - return err; - } - - /* Create groups for rest of the cores in the first PP core group */ - for (i = 1; i < 4; i++) /* First half of the PP cores belong to first core group */ - { - if (NULL != resource_pp[i]) - { - err = mali_create_group(mali_cluster_get_global_cluster(cluster_id_pp_grp0), resource_pp_mmu[i], NULL, resource_pp[i]); - if (err != _MALI_OSK_ERR_OK) - { - return err; - } - } - } - - /* Create groups for cores in the second PP core group */ - for (i = 4; i < max_num_pp_cores; i++) /* Second half of the PP cores belong to second core group */ - { - if (NULL != resource_pp[i]) - { - MALI_DEBUG_ASSERT(mali_cluster_get_glob_num_clusters() >= 2); /* Only Mali-450 have more than 4 PPs, and these cores belong to second core group */ - err = mali_create_group(mali_cluster_get_global_cluster(cluster_id_pp_grp1), resource_pp_mmu[i], NULL, resource_pp[i]); - if (err != _MALI_OSK_ERR_OK) - { - return err; - } - } - } - } - - return _MALI_OSK_ERR_OK; -} - -static _mali_osk_errcode_t mali_parse_config_pmu(void) -{ - _mali_osk_errcode_t err = _MALI_OSK_ERR_OK; - _mali_osk_resource_t *resource_pmu; - u32 number_of_pp_cores; - u32 number_of_l2_caches; - - resource_pmu = mali_find_resource(PMU, 0x02000); - number_of_pp_cores = mali_count_resources(MALI_PP); - number_of_l2_caches = mali_count_resources(MALI_L2); - - if (NULL != resource_pmu) - { - if (NULL == mali_pmu_create(resource_pmu, number_of_pp_cores, number_of_l2_caches)) - { - err = _MALI_OSK_ERR_FAULT; - } - } - return err; -} - -static _mali_osk_errcode_t mali_parse_config_memory(void) -{ - int i; - _mali_osk_errcode_t ret; - - for(i = 0; i < num_resources; i++) - { - switch(arch_configuration[i].type) - { - case OS_MEMORY: - ret = mali_memory_core_resource_os_memory(&arch_configuration[i]); - if (_MALI_OSK_ERR_OK != ret) - { - MALI_PRINT_ERROR(("Failed to register OS_MEMORY\n")); - mali_memory_terminate(); - return ret; - } - break; - case MEMORY: - ret = mali_memory_core_resource_dedicated_memory(&arch_configuration[i]); - if (_MALI_OSK_ERR_OK != ret) - { - MALI_PRINT_ERROR(("Failed to register MEMORY\n")); - mali_memory_terminate(); - return ret; - } - break; - case MEM_VALIDATION: - ret = mali_mem_validation_add_range(&arch_configuration[i]); - if (_MALI_OSK_ERR_OK != ret) - { - MALI_PRINT_ERROR(("Failed to register MEM_VALIDATION\n")); - mali_memory_terminate(); - return ret; - } - break; - default: - break; - } - } - return _MALI_OSK_ERR_OK; -} - -_mali_osk_errcode_t mali_initialize_subsystems(void) -{ - _mali_osk_errcode_t err; - mali_bool is_pmu_enabled; - - err = mali_session_initialize(); - if (_MALI_OSK_ERR_OK != err) goto session_init_failed; - -#if MALI_TIMELINE_PROFILING_ENABLED - err = _mali_osk_profiling_init(mali_boot_profiling ? MALI_TRUE : MALI_FALSE); - if (_MALI_OSK_ERR_OK != err) - { - /* No biggie if we wheren't able to initialize the profiling */ - MALI_PRINT_ERROR(("Failed to initialize profiling, feature will be unavailable\n")); - } -#endif - - /* Get data from config.h */ - err = _mali_osk_resources_init(&arch_configuration, &num_resources); - if (_MALI_OSK_ERR_OK != err) goto osk_resources_init_failed; - - /* Initialize driver subsystems */ - err = mali_memory_initialize(); - if (_MALI_OSK_ERR_OK != err) goto memory_init_failed; - - /* Configure memory early. Memory allocation needed for mali_mmu_initialize. */ - err = mali_parse_config_memory(); - if (_MALI_OSK_ERR_OK != err) goto parse_memory_config_failed; - - /* Parsing the GPU base address and first pp offset */ - err = mali_parse_gpu_base_and_first_pp_offset_address(); - if (_MALI_OSK_ERR_OK != err) goto parse_gpu_base_address_failed; - - /* Initialize the MALI PMU */ - err = mali_parse_config_pmu(); - if (_MALI_OSK_ERR_OK != err) goto parse_pmu_config_failed; - - is_pmu_enabled = mali_pmu_get_global_pmu_core() != NULL ? MALI_TRUE : MALI_FALSE; - - /* Initialize the power management module */ - err = mali_pm_initialize(); - if (_MALI_OSK_ERR_OK != err) goto pm_init_failed; - - /* Make sure the power stays on for the rest of this function */ - mali_pm_always_on(MALI_TRUE); - - /* Detect which Mali GPU we are dealing with */ - err = mali_parse_product_info(); - if (_MALI_OSK_ERR_OK != err) goto product_info_parsing_failed; - - /* The global_product_id is now populated with the correct Mali GPU */ - - /* Initialize MMU module */ - err = mali_mmu_initialize(); - if (_MALI_OSK_ERR_OK != err) goto mmu_init_failed; - - /* Initialize the DLBU module for Mali-450 */ - if (_MALI_PRODUCT_ID_MALI450 == global_product_id) - { - err = mali_dlbu_initialize(); - if (_MALI_OSK_ERR_OK != err) goto dlbu_init_failed; - } - - /* Start configuring the actual Mali hardware. */ - err = mali_parse_config_cluster(); - if (_MALI_OSK_ERR_OK != err) goto config_parsing_failed; - err = mali_parse_config_groups(); - if (_MALI_OSK_ERR_OK != err) goto config_parsing_failed; - - /* Initialize the schedulers */ - err = mali_scheduler_initialize(); - if (_MALI_OSK_ERR_OK != err) goto scheduler_init_failed; - err = mali_gp_scheduler_initialize(); - if (_MALI_OSK_ERR_OK != err) goto gp_scheduler_init_failed; - err = mali_pp_scheduler_initialize(); - if (_MALI_OSK_ERR_OK != err) goto pp_scheduler_init_failed; - -#ifdef CONFIG_MALI400_GPU_UTILIZATION - /* Initialize the GPU utilization tracking */ - err = mali_utilization_init(); - if (_MALI_OSK_ERR_OK != err) goto utilization_init_failed; -#endif - - /* We no longer need to stay */ - mali_pm_always_on(MALI_FALSE); - MALI_SUCCESS; /* all ok */ - - /* Error handling */ -#ifdef CONFIG_MALI400_GPU_UTILIZATION -utilization_init_failed: - mali_pp_scheduler_terminate(); -#endif -pp_scheduler_init_failed: - mali_gp_scheduler_terminate(); -gp_scheduler_init_failed: - mali_scheduler_terminate(); -scheduler_init_failed: -config_parsing_failed: - mali_delete_clusters(); /* Delete clusters even if config parsing failed. */ - if (_MALI_PRODUCT_ID_MALI450 == global_product_id) - { - mali_dlbu_terminate(); - } -dlbu_init_failed: - mali_mmu_terminate(); -mmu_init_failed: - /* Nothing to roll back */ -product_info_parsing_failed: - mali_pm_terminate(); -pm_init_failed: - if (is_pmu_enabled) - { - mali_pmu_delete(mali_pmu_get_global_pmu_core()); - } -parse_pmu_config_failed: -parse_gpu_base_address_failed: -parse_memory_config_failed: - mali_memory_terminate(); -memory_init_failed: - _mali_osk_resources_term(&arch_configuration, num_resources); -osk_resources_init_failed: -#if MALI_TIMELINE_PROFILING_ENABLED - _mali_osk_profiling_term(); -#endif - mali_session_terminate(); -session_init_failed: - return err; -} - -void mali_terminate_subsystems(void) -{ - struct mali_pmu_core *pmu; - - MALI_DEBUG_PRINT(2, ("terminate_subsystems() called\n")); - - /* shut down subsystems in reverse order from startup */ - - mali_pm_always_on(MALI_TRUE); /* Mali will be powered off once PM subsystem terminates */ - -#ifdef CONFIG_MALI400_GPU_UTILIZATION - mali_utilization_term(); -#endif - - mali_pp_scheduler_terminate(); - mali_gp_scheduler_terminate(); - mali_scheduler_terminate(); - - mali_delete_clusters(); /* Delete clusters even if config parsing failed. */ - - if (_MALI_PRODUCT_ID_MALI450 == global_product_id) - { - mali_dlbu_terminate(); - } - - mali_mmu_terminate(); - - pmu = mali_pmu_get_global_pmu_core(); - if (NULL != pmu) - { - mali_pmu_delete(pmu); - } - - mali_pm_terminate(); - - mali_memory_terminate(); - - _mali_osk_resources_term(&arch_configuration, num_resources); - -#if MALI_TIMELINE_PROFILING_ENABLED - _mali_osk_profiling_term(); -#endif - - mali_session_terminate(); -} - -_mali_product_id_t mali_kernel_core_get_product_id(void) -{ - return global_product_id; -} - -void mali_kernel_core_wakeup(void) -{ - u32 i; - u32 glob_num_clusters = mali_cluster_get_glob_num_clusters(); - struct mali_cluster *cluster; - - for (i = 0; i < glob_num_clusters; i++) - { - cluster = mali_cluster_get_global_cluster(i); - mali_cluster_reset(cluster); - } -} - -_mali_osk_errcode_t _mali_ukk_get_api_version( _mali_uk_get_api_version_s *args ) -{ - MALI_DEBUG_ASSERT_POINTER(args); - MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS); - - /* check compatability */ - if ( args->version == _MALI_UK_API_VERSION ) - { - args->compatible = 1; - } - else - { - args->compatible = 0; - } - - args->version = _MALI_UK_API_VERSION; /* report our version */ - - /* success regardless of being compatible or not */ - MALI_SUCCESS; -} - -_mali_osk_errcode_t _mali_ukk_wait_for_notification( _mali_uk_wait_for_notification_s *args ) -{ - _mali_osk_errcode_t err; - _mali_osk_notification_t *notification; - _mali_osk_notification_queue_t *queue; - - /* check input */ - MALI_DEBUG_ASSERT_POINTER(args); - MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS); - - queue = ((struct mali_session_data *)args->ctx)->ioctl_queue; - - /* if the queue does not exist we're currently shutting down */ - if (NULL == queue) - { - MALI_DEBUG_PRINT(1, ("No notification queue registered with the session. Asking userspace to stop querying\n")); - args->type = _MALI_NOTIFICATION_CORE_SHUTDOWN_IN_PROGRESS; - MALI_SUCCESS; - } - - /* receive a notification, might sleep */ - err = _mali_osk_notification_queue_receive(queue, ¬ification); - if (_MALI_OSK_ERR_OK != err) - { - MALI_ERROR(err); /* errcode returned, pass on to caller */ - } - - /* copy the buffer to the user */ - args->type = (_mali_uk_notification_type)notification->notification_type; - _mali_osk_memcpy(&args->data, notification->result_buffer, notification->result_buffer_size); - - /* finished with the notification */ - _mali_osk_notification_delete( notification ); - - MALI_SUCCESS; /* all ok */ -} - -_mali_osk_errcode_t _mali_ukk_post_notification( _mali_uk_post_notification_s *args ) -{ - _mali_osk_notification_t * notification; - _mali_osk_notification_queue_t *queue; - - /* check input */ - MALI_DEBUG_ASSERT_POINTER(args); - MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS); - - queue = ((struct mali_session_data *)args->ctx)->ioctl_queue; - - /* if the queue does not exist we're currently shutting down */ - if (NULL == queue) - { - MALI_DEBUG_PRINT(1, ("No notification queue registered with the session. Asking userspace to stop querying\n")); - MALI_SUCCESS; - } - - notification = _mali_osk_notification_create(args->type, 0); - if ( NULL == notification) - { - MALI_PRINT_ERROR( ("Failed to create notification object\n")); - return _MALI_OSK_ERR_NOMEM; - } - - _mali_osk_notification_queue_send(queue, notification); - - MALI_SUCCESS; /* all ok */ -} - -_mali_osk_errcode_t _mali_ukk_open(void **context) -{ - struct mali_session_data *session_data; - - /* allocated struct to track this session */ - session_data = (struct mali_session_data *)_mali_osk_calloc(1, sizeof(struct mali_session_data)); - MALI_CHECK_NON_NULL(session_data, _MALI_OSK_ERR_NOMEM); - - MALI_DEBUG_PRINT(2, ("Session starting\n")); - - /* create a response queue for this session */ - session_data->ioctl_queue = _mali_osk_notification_queue_init(); - if (NULL == session_data->ioctl_queue) - { - _mali_osk_free(session_data); - MALI_ERROR(_MALI_OSK_ERR_NOMEM); - } - - session_data->page_directory = mali_mmu_pagedir_alloc(); - if (NULL == session_data->page_directory) - { - _mali_osk_notification_queue_term(session_data->ioctl_queue); - _mali_osk_free(session_data); - MALI_ERROR(_MALI_OSK_ERR_NOMEM); - } - - if (_MALI_OSK_ERR_OK != mali_mmu_pagedir_map(session_data->page_directory, MALI_DLB_VIRT_ADDR, _MALI_OSK_MALI_PAGE_SIZE)) - { - MALI_PRINT_ERROR(("Failed to map DLB page into session\n")); - _mali_osk_notification_queue_term(session_data->ioctl_queue); - _mali_osk_free(session_data); - MALI_ERROR(_MALI_OSK_ERR_NOMEM); - } - - if (0 != mali_dlbu_phys_addr) - { - mali_mmu_pagedir_update(session_data->page_directory, MALI_DLB_VIRT_ADDR, mali_dlbu_phys_addr, _MALI_OSK_MALI_PAGE_SIZE, MALI_CACHE_STANDARD); - } - - if (_MALI_OSK_ERR_OK != mali_memory_session_begin(session_data)) - { - mali_mmu_pagedir_free(session_data->page_directory); - _mali_osk_notification_queue_term(session_data->ioctl_queue); - _mali_osk_free(session_data); - MALI_ERROR(_MALI_OSK_ERR_NOMEM); - } - - *context = (void*)session_data; - - /* Add session to the list of all sessions. */ - mali_session_add(session_data); - - MALI_DEBUG_PRINT(3, ("Session started\n")); - MALI_SUCCESS; -} - -_mali_osk_errcode_t _mali_ukk_close(void **context) -{ - struct mali_session_data *session; - MALI_CHECK_NON_NULL(context, _MALI_OSK_ERR_INVALID_ARGS); - session = (struct mali_session_data *)*context; - - MALI_DEBUG_PRINT(3, ("Session ending\n")); - - /* Remove session from list of all sessions. */ - mali_session_remove(session); - - /* Abort queued and running jobs */ - mali_gp_scheduler_abort_session(session); - mali_pp_scheduler_abort_session(session); - - /* Flush pending work. - * Needed to make sure all bottom half processing related to this - * session has been completed, before we free internal data structures. - */ - _mali_osk_flush_workqueue(NULL); - - /* Free remaining memory allocated to this session */ - mali_memory_session_end(session); - - /* Free session data structures */ - mali_mmu_pagedir_free(session->page_directory); - _mali_osk_notification_queue_term(session->ioctl_queue); - _mali_osk_free(session); - - *context = NULL; - - MALI_DEBUG_PRINT(2, ("Session has ended\n")); - - MALI_SUCCESS; -} - -#if MALI_STATE_TRACKING -u32 _mali_kernel_core_dump_state(char* buf, u32 size) -{ - int n = 0; /* Number of bytes written to buf */ - - n += mali_gp_scheduler_dump_state(buf + n, size - n); - n += mali_pp_scheduler_dump_state(buf + n, size - n); - - return n; -} -#endif diff --git a/drivers/media/video/samsung/mali/common/mali_kernel_core.h b/drivers/media/video/samsung/mali/common/mali_kernel_core.h deleted file mode 100644 index d424c48..0000000 --- a/drivers/media/video/samsung/mali/common/mali_kernel_core.h +++ /dev/null @@ -1,39 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_KERNEL_CORE_H__ -#define __MALI_KERNEL_CORE_H__ - -#include "mali_osk.h" - -extern int mali_hang_check_interval; -extern int mali_max_job_runtime; - -typedef enum -{ - _MALI_PRODUCT_ID_UNKNOWN, - _MALI_PRODUCT_ID_MALI200, - _MALI_PRODUCT_ID_MALI300, - _MALI_PRODUCT_ID_MALI400, - _MALI_PRODUCT_ID_MALI450, -} _mali_product_id_t; - -_mali_osk_errcode_t mali_initialize_subsystems(void); - -void mali_terminate_subsystems(void); - -void mali_kernel_core_wakeup(void); - -_mali_product_id_t mali_kernel_core_get_product_id(void); - -u32 _mali_kernel_core_dump_state(char* buf, u32 size); - -#endif /* __MALI_KERNEL_CORE_H__ */ - diff --git a/drivers/media/video/samsung/mali/common/mali_kernel_descriptor_mapping.c b/drivers/media/video/samsung/mali/common/mali_kernel_descriptor_mapping.c deleted file mode 100644 index b9f05ca..0000000 --- a/drivers/media/video/samsung/mali/common/mali_kernel_descriptor_mapping.c +++ /dev/null @@ -1,184 +0,0 @@ -/* - * Copyright (C) 2010, 2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_kernel_common.h" -#include "mali_kernel_descriptor_mapping.h" -#include "mali_osk.h" -#include "mali_osk_bitops.h" - -#define MALI_PAD_INT(x) (((x) + (BITS_PER_LONG - 1)) & ~(BITS_PER_LONG - 1)) - -/** - * Allocate a descriptor table capable of holding 'count' mappings - * @param count Number of mappings in the table - * @return Pointer to a new table, NULL on error - */ -static mali_descriptor_table * descriptor_table_alloc(int count); - -/** - * Free a descriptor table - * @param table The table to free - */ -static void descriptor_table_free(mali_descriptor_table * table); - -mali_descriptor_mapping * mali_descriptor_mapping_create(int init_entries, int max_entries) -{ - mali_descriptor_mapping * map = _mali_osk_calloc(1, sizeof(mali_descriptor_mapping)); - - init_entries = MALI_PAD_INT(init_entries); - max_entries = MALI_PAD_INT(max_entries); - - if (NULL != map) - { - map->table = descriptor_table_alloc(init_entries); - if (NULL != map->table) - { - map->lock = _mali_osk_lock_init( (_mali_osk_lock_flags_t)(_MALI_OSK_LOCKFLAG_ORDERED | _MALI_OSK_LOCKFLAG_READERWRITER | _MALI_OSK_LOCKFLAG_NONINTERRUPTABLE), 0, _MALI_OSK_LOCK_ORDER_DESCRIPTOR_MAP); - if (NULL != map->lock) - { - _mali_osk_set_nonatomic_bit(0, map->table->usage); /* reserve bit 0 to prevent NULL/zero logic to kick in */ - map->max_nr_mappings_allowed = max_entries; - map->current_nr_mappings = init_entries; - return map; - } - descriptor_table_free(map->table); - } - _mali_osk_free(map); - } - return NULL; -} - -void mali_descriptor_mapping_destroy(mali_descriptor_mapping * map) -{ - descriptor_table_free(map->table); - _mali_osk_lock_term(map->lock); - _mali_osk_free(map); -} - -_mali_osk_errcode_t mali_descriptor_mapping_allocate_mapping(mali_descriptor_mapping * map, void * target, int *odescriptor) -{ - _mali_osk_errcode_t err = _MALI_OSK_ERR_FAULT; - int new_descriptor; - - MALI_DEBUG_ASSERT_POINTER(map); - MALI_DEBUG_ASSERT_POINTER(odescriptor); - - _mali_osk_lock_wait(map->lock, _MALI_OSK_LOCKMODE_RW); - new_descriptor = _mali_osk_find_first_zero_bit(map->table->usage, map->current_nr_mappings); - if (new_descriptor == map->current_nr_mappings) - { - /* no free descriptor, try to expand the table */ - mali_descriptor_table * new_table, * old_table; - if (map->current_nr_mappings >= map->max_nr_mappings_allowed) goto unlock_and_exit; - - map->current_nr_mappings += BITS_PER_LONG; - new_table = descriptor_table_alloc(map->current_nr_mappings); - if (NULL == new_table) goto unlock_and_exit; - - old_table = map->table; - _mali_osk_memcpy(new_table->usage, old_table->usage, (sizeof(unsigned long)*map->current_nr_mappings) / BITS_PER_LONG); - _mali_osk_memcpy(new_table->mappings, old_table->mappings, map->current_nr_mappings * sizeof(void*)); - map->table = new_table; - descriptor_table_free(old_table); - } - - /* we have found a valid descriptor, set the value and usage bit */ - _mali_osk_set_nonatomic_bit(new_descriptor, map->table->usage); - map->table->mappings[new_descriptor] = target; - *odescriptor = new_descriptor; - err = _MALI_OSK_ERR_OK; - -unlock_and_exit: - _mali_osk_lock_signal(map->lock, _MALI_OSK_LOCKMODE_RW); - MALI_ERROR(err); -} - -void mali_descriptor_mapping_call_for_each(mali_descriptor_mapping * map, void (*callback)(int, void*)) -{ - int i; - - MALI_DEBUG_ASSERT_POINTER(map); - MALI_DEBUG_ASSERT_POINTER(callback); - - _mali_osk_lock_wait(map->lock, _MALI_OSK_LOCKMODE_RO); - /* id 0 is skipped as it's an reserved ID not mapping to anything */ - for (i = 1; i < map->current_nr_mappings; ++i) - { - if (_mali_osk_test_bit(i, map->table->usage)) - { - callback(i, map->table->mappings[i]); - } - } - _mali_osk_lock_signal(map->lock, _MALI_OSK_LOCKMODE_RO); -} - -_mali_osk_errcode_t mali_descriptor_mapping_get(mali_descriptor_mapping * map, int descriptor, void** target) -{ - _mali_osk_errcode_t result = _MALI_OSK_ERR_FAULT; - MALI_DEBUG_ASSERT_POINTER(map); - _mali_osk_lock_wait(map->lock, _MALI_OSK_LOCKMODE_RO); - if ( (descriptor >= 0) && (descriptor < map->current_nr_mappings) && _mali_osk_test_bit(descriptor, map->table->usage) ) - { - *target = map->table->mappings[descriptor]; - result = _MALI_OSK_ERR_OK; - } - else *target = NULL; - _mali_osk_lock_signal(map->lock, _MALI_OSK_LOCKMODE_RO); - MALI_ERROR(result); -} - -_mali_osk_errcode_t mali_descriptor_mapping_set(mali_descriptor_mapping * map, int descriptor, void * target) -{ - _mali_osk_errcode_t result = _MALI_OSK_ERR_FAULT; - _mali_osk_lock_wait(map->lock, _MALI_OSK_LOCKMODE_RO); - if ( (descriptor >= 0) && (descriptor < map->current_nr_mappings) && _mali_osk_test_bit(descriptor, map->table->usage) ) - { - map->table->mappings[descriptor] = target; - result = _MALI_OSK_ERR_OK; - } - _mali_osk_lock_signal(map->lock, _MALI_OSK_LOCKMODE_RO); - MALI_ERROR(result); -} - -void *mali_descriptor_mapping_free(mali_descriptor_mapping * map, int descriptor) -{ - void *old_value = NULL; - - _mali_osk_lock_wait(map->lock, _MALI_OSK_LOCKMODE_RW); - if ( (descriptor >= 0) && (descriptor < map->current_nr_mappings) && _mali_osk_test_bit(descriptor, map->table->usage) ) - { - old_value = map->table->mappings[descriptor]; - map->table->mappings[descriptor] = NULL; - _mali_osk_clear_nonatomic_bit(descriptor, map->table->usage); - } - _mali_osk_lock_signal(map->lock, _MALI_OSK_LOCKMODE_RW); - - return old_value; -} - -static mali_descriptor_table * descriptor_table_alloc(int count) -{ - mali_descriptor_table * table; - - table = _mali_osk_calloc(1, sizeof(mali_descriptor_table) + ((sizeof(unsigned long) * count)/BITS_PER_LONG) + (sizeof(void*) * count)); - - if (NULL != table) - { - table->usage = (u32*)((u8*)table + sizeof(mali_descriptor_table)); - table->mappings = (void**)((u8*)table + sizeof(mali_descriptor_table) + ((sizeof(unsigned long) * count)/BITS_PER_LONG)); - } - - return table; -} - -static void descriptor_table_free(mali_descriptor_table * table) -{ - _mali_osk_free(table); -} diff --git a/drivers/media/video/samsung/mali/common/mali_kernel_descriptor_mapping.h b/drivers/media/video/samsung/mali/common/mali_kernel_descriptor_mapping.h deleted file mode 100644 index 82ed94d..0000000 --- a/drivers/media/video/samsung/mali/common/mali_kernel_descriptor_mapping.h +++ /dev/null @@ -1,101 +0,0 @@ -/* - * Copyright (C) 2010, 2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -/** - * @file mali_kernel_descriptor_mapping.h - */ - -#ifndef __MALI_KERNEL_DESCRIPTOR_MAPPING_H__ -#define __MALI_KERNEL_DESCRIPTOR_MAPPING_H__ - -#include "mali_osk.h" - -/** - * The actual descriptor mapping table, never directly accessed by clients - */ -typedef struct mali_descriptor_table -{ - u32 * usage; /**< Pointer to bitpattern indicating if a descriptor is valid/used or not */ - void** mappings; /**< Array of the pointers the descriptors map to */ -} mali_descriptor_table; - -/** - * The descriptor mapping object - * Provides a separate namespace where we can map an integer to a pointer - */ -typedef struct mali_descriptor_mapping -{ - _mali_osk_lock_t *lock; /**< Lock protecting access to the mapping object */ - int max_nr_mappings_allowed; /**< Max number of mappings to support in this namespace */ - int current_nr_mappings; /**< Current number of possible mappings */ - mali_descriptor_table * table; /**< Pointer to the current mapping table */ -} mali_descriptor_mapping; - -/** - * Create a descriptor mapping object - * Create a descriptor mapping capable of holding init_entries growable to max_entries - * @param init_entries Number of entries to preallocate memory for - * @param max_entries Number of entries to max support - * @return Pointer to a descriptor mapping object, NULL on failure - */ -mali_descriptor_mapping * mali_descriptor_mapping_create(int init_entries, int max_entries); - -/** - * Destroy a descriptor mapping object - * @param map The map to free - */ -void mali_descriptor_mapping_destroy(mali_descriptor_mapping * map); - -/** - * Allocate a new mapping entry (descriptor ID) - * Allocates a new entry in the map. - * @param map The map to allocate a new entry in - * @param target The value to map to - * @return The descriptor allocated, a negative value on error - */ -_mali_osk_errcode_t mali_descriptor_mapping_allocate_mapping(mali_descriptor_mapping * map, void * target, int *descriptor); - -/** - * Get the value mapped to by a descriptor ID - * @param map The map to lookup the descriptor id in - * @param descriptor The descriptor ID to lookup - * @param target Pointer to a pointer which will receive the stored value - * @return 0 on successful lookup, negative on error - */ -_mali_osk_errcode_t mali_descriptor_mapping_get(mali_descriptor_mapping * map, int descriptor, void** target); - -/** - * Set the value mapped to by a descriptor ID - * @param map The map to lookup the descriptor id in - * @param descriptor The descriptor ID to lookup - * @param target Pointer to replace the current value with - * @return 0 on successful lookup, negative on error - */ -_mali_osk_errcode_t mali_descriptor_mapping_set(mali_descriptor_mapping * map, int descriptor, void * target); - -/** - * Call the specified callback function for each descriptor in map. - * Entire function is mutex protected. - * @param map The map to do callbacks for - * @param callback A callback function which will be calle for each entry in map - */ -void mali_descriptor_mapping_call_for_each(mali_descriptor_mapping * map, void (*callback)(int, void*)); - -/** - * Free the descriptor ID - * For the descriptor to be reused it has to be freed - * @param map The map to free the descriptor from - * @param descriptor The descriptor ID to free - * - * @return old value of descriptor mapping - */ -void *mali_descriptor_mapping_free(mali_descriptor_mapping * map, int descriptor); - -#endif /* __MALI_KERNEL_DESCRIPTOR_MAPPING_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_kernel_mem_os.c b/drivers/media/video/samsung/mali/common/mali_kernel_mem_os.c deleted file mode 100644 index 8ff3d37..0000000 --- a/drivers/media/video/samsung/mali/common/mali_kernel_mem_os.c +++ /dev/null @@ -1,354 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_kernel_common.h" -#include "mali_kernel_core.h" -#include "mali_kernel_memory_engine.h" -#include "mali_osk.h" - -typedef struct os_allocation -{ - u32 num_pages; - u32 offset_start; - mali_allocation_engine * engine; - mali_memory_allocation * descriptor; -} os_allocation; - -typedef struct os_allocator -{ - _mali_osk_lock_t *mutex; - - /** - * Maximum number of pages to allocate from the OS - */ - u32 num_pages_max; - - /** - * Number of pages allocated from the OS - */ - u32 num_pages_allocated; - - /** CPU Usage adjustment (add to mali physical address to get cpu physical address) */ - u32 cpu_usage_adjust; -} os_allocator; - -static mali_physical_memory_allocation_result os_allocator_allocate(void* ctx, mali_allocation_engine * engine, mali_memory_allocation * descriptor, u32* offset, mali_physical_memory_allocation * alloc_info); -static mali_physical_memory_allocation_result os_allocator_allocate_page_table_block(void * ctx, mali_page_table_block * block); -static void os_allocator_release(void * ctx, void * handle); -static void os_allocator_page_table_block_release( mali_page_table_block *page_table_block ); -static void os_allocator_destroy(mali_physical_memory_allocator * allocator); -static u32 os_allocator_stat(mali_physical_memory_allocator * allocator); - -mali_physical_memory_allocator * mali_os_allocator_create(u32 max_allocation, u32 cpu_usage_adjust, const char *name) -{ - mali_physical_memory_allocator * allocator; - os_allocator * info; - - max_allocation = (max_allocation + _MALI_OSK_CPU_PAGE_SIZE-1) & ~(_MALI_OSK_CPU_PAGE_SIZE-1); - - MALI_DEBUG_PRINT(2, ("Mali OS memory allocator created with max allocation size of 0x%X bytes, cpu_usage_adjust 0x%08X\n", max_allocation, cpu_usage_adjust)); - - allocator = _mali_osk_malloc(sizeof(mali_physical_memory_allocator)); - if (NULL != allocator) - { - info = _mali_osk_malloc(sizeof(os_allocator)); - if (NULL != info) - { - info->num_pages_max = max_allocation / _MALI_OSK_CPU_PAGE_SIZE; - info->num_pages_allocated = 0; - info->cpu_usage_adjust = cpu_usage_adjust; - - info->mutex = _mali_osk_lock_init( _MALI_OSK_LOCKFLAG_NONINTERRUPTABLE | _MALI_OSK_LOCKFLAG_ORDERED, 0, _MALI_OSK_LOCK_ORDER_MEM_INFO); - if (NULL != info->mutex) - { - allocator->allocate = os_allocator_allocate; - allocator->allocate_page_table_block = os_allocator_allocate_page_table_block; - allocator->destroy = os_allocator_destroy; - allocator->stat = os_allocator_stat; - allocator->ctx = info; - allocator->name = name; - - return allocator; - } - _mali_osk_free(info); - } - _mali_osk_free(allocator); - } - - return NULL; -} - -static u32 os_allocator_stat(mali_physical_memory_allocator * allocator) -{ - os_allocator * info; - info = (os_allocator*)allocator->ctx; - return info->num_pages_allocated * _MALI_OSK_MALI_PAGE_SIZE; -} - -static void os_allocator_destroy(mali_physical_memory_allocator * allocator) -{ - os_allocator * info; - MALI_DEBUG_ASSERT_POINTER(allocator); - MALI_DEBUG_ASSERT_POINTER(allocator->ctx); - info = (os_allocator*)allocator->ctx; - _mali_osk_lock_term(info->mutex); - _mali_osk_free(info); - _mali_osk_free(allocator); -} - -static mali_physical_memory_allocation_result os_allocator_allocate(void* ctx, mali_allocation_engine * engine, mali_memory_allocation * descriptor, u32* offset, mali_physical_memory_allocation * alloc_info) -{ - mali_physical_memory_allocation_result result = MALI_MEM_ALLOC_NONE; - u32 left; - os_allocator * info; - os_allocation * allocation; - int pages_allocated = 0; - _mali_osk_errcode_t err = _MALI_OSK_ERR_OK; - - MALI_DEBUG_ASSERT_POINTER(ctx); - MALI_DEBUG_ASSERT_POINTER(engine); - MALI_DEBUG_ASSERT_POINTER(descriptor); - MALI_DEBUG_ASSERT_POINTER(offset); - MALI_DEBUG_ASSERT_POINTER(alloc_info); - - info = (os_allocator*)ctx; - left = descriptor->size - *offset; - - if (_MALI_OSK_ERR_OK != _mali_osk_lock_wait(info->mutex, _MALI_OSK_LOCKMODE_RW)) return MALI_MEM_ALLOC_INTERNAL_FAILURE; - - /** @note this code may not work on Linux, or may require a more complex Linux implementation */ - allocation = _mali_osk_malloc(sizeof(os_allocation)); - if (NULL != allocation) - { - u32 os_mem_max_usage = info->num_pages_max * _MALI_OSK_CPU_PAGE_SIZE; - allocation->offset_start = *offset; - allocation->num_pages = ((left + _MALI_OSK_CPU_PAGE_SIZE - 1) & ~(_MALI_OSK_CPU_PAGE_SIZE - 1)) >> _MALI_OSK_CPU_PAGE_ORDER; - MALI_DEBUG_PRINT(6, ("Allocating page array of size %d bytes\n", allocation->num_pages * sizeof(struct page*))); - - while (left > 0) - { - err = mali_allocation_engine_map_physical(engine, descriptor, *offset, MALI_MEMORY_ALLOCATION_OS_ALLOCATED_PHYSADDR_MAGIC, info->cpu_usage_adjust, _MALI_OSK_CPU_PAGE_SIZE); - if ( _MALI_OSK_ERR_OK != err) - { - if ( _MALI_OSK_ERR_NOMEM == err) - { - /* 'Partial' allocation (or, out-of-memory on first page) */ - break; - } - - MALI_DEBUG_PRINT(1, ("Mapping of physical memory failed\n")); - - /* Fatal error, cleanup any previous pages allocated. */ - if ( pages_allocated > 0 ) - { - mali_allocation_engine_unmap_physical( engine, descriptor, allocation->offset_start, _MALI_OSK_CPU_PAGE_SIZE*pages_allocated, _MALI_OSK_MEM_MAPREGION_FLAG_OS_ALLOCATED_PHYSADDR ); - /* (*offset) doesn't need to be restored; it will not be used by the caller on failure */ - } - - pages_allocated = 0; - - result = MALI_MEM_ALLOC_INTERNAL_FAILURE; - break; - } - - /* Loop iteration */ - if (left < _MALI_OSK_CPU_PAGE_SIZE) left = 0; - else left -= _MALI_OSK_CPU_PAGE_SIZE; - - pages_allocated++; - - *offset += _MALI_OSK_CPU_PAGE_SIZE; - } - - if (left) MALI_PRINT(("Out of memory. Mali memory allocated: %d kB Configured maximum OS memory usage: %d kB\n", - (info->num_pages_allocated * _MALI_OSK_CPU_PAGE_SIZE)/1024, (info->num_pages_max* _MALI_OSK_CPU_PAGE_SIZE)/1024)); - - /* Loop termination; decide on result */ - if (pages_allocated) - { - MALI_DEBUG_PRINT(6, ("Allocated %d pages\n", pages_allocated)); - if (left) result = MALI_MEM_ALLOC_PARTIAL; - else result = MALI_MEM_ALLOC_FINISHED; - - /* Some OS do not perform a full cache flush (including all outer caches) for uncached mapped memory. - * They zero the memory through a cached mapping, then flush the inner caches but not the outer caches. - * This is required for MALI to have the correct view of the memory. - */ - _mali_osk_cache_ensure_uncached_range_flushed( (void *)descriptor, allocation->offset_start, pages_allocated *_MALI_OSK_CPU_PAGE_SIZE ); - allocation->num_pages = pages_allocated; - allocation->engine = engine; /* Necessary to make the engine's unmap call */ - allocation->descriptor = descriptor; /* Necessary to make the engine's unmap call */ - info->num_pages_allocated += pages_allocated; - - MALI_DEBUG_PRINT(6, ("%d out of %d pages now allocated\n", info->num_pages_allocated, info->num_pages_max)); - - alloc_info->ctx = info; - alloc_info->handle = allocation; - alloc_info->release = os_allocator_release; - } - else - { - MALI_DEBUG_PRINT(6, ("Releasing pages array due to no pages allocated\n")); - _mali_osk_free( allocation ); - } - } - - _mali_osk_lock_signal(info->mutex, _MALI_OSK_LOCKMODE_RW); - - return result; -} - -static void os_allocator_release(void * ctx, void * handle) -{ - os_allocator * info; - os_allocation * allocation; - mali_allocation_engine * engine; - mali_memory_allocation * descriptor; - - MALI_DEBUG_ASSERT_POINTER(ctx); - MALI_DEBUG_ASSERT_POINTER(handle); - - info = (os_allocator*)ctx; - allocation = (os_allocation*)handle; - engine = allocation->engine; - descriptor = allocation->descriptor; - - MALI_DEBUG_ASSERT_POINTER( engine ); - MALI_DEBUG_ASSERT_POINTER( descriptor ); - - if (_MALI_OSK_ERR_OK != _mali_osk_lock_wait(info->mutex, _MALI_OSK_LOCKMODE_RW)) - { - MALI_DEBUG_PRINT(1, ("allocator release: Failed to get mutex\n")); - return; - } - - MALI_DEBUG_PRINT(6, ("Releasing %d os pages\n", allocation->num_pages)); - - MALI_DEBUG_ASSERT( allocation->num_pages <= info->num_pages_allocated); - info->num_pages_allocated -= allocation->num_pages; - - mali_allocation_engine_unmap_physical( engine, descriptor, allocation->offset_start, _MALI_OSK_CPU_PAGE_SIZE*allocation->num_pages, _MALI_OSK_MEM_MAPREGION_FLAG_OS_ALLOCATED_PHYSADDR ); - - _mali_osk_lock_signal(info->mutex, _MALI_OSK_LOCKMODE_RW); - - _mali_osk_free(allocation); -} - -static mali_physical_memory_allocation_result os_allocator_allocate_page_table_block(void * ctx, mali_page_table_block * block) -{ -#if defined(CONFIG_MACH_KONA) -#ifndef CONFIG_FORCE_MAX_ZONEORDER - int allocation_order = 10; -#else - int allocation_order = CONFIG_FORCE_MAX_ZONEORDER - 1; -#endif -#else - int allocation_order = 11; /* _MALI_OSK_CPU_PAGE_SIZE << 6 */ -#endif - void *virt = NULL; - u32 size = _MALI_OSK_CPU_PAGE_SIZE << allocation_order; - os_allocator * info; - - u32 cpu_phys_base; - - MALI_DEBUG_ASSERT_POINTER(ctx); - info = (os_allocator*)ctx; - - /* Ensure we don't allocate more than we're supposed to from the ctx */ - if (_MALI_OSK_ERR_OK != _mali_osk_lock_wait(info->mutex, _MALI_OSK_LOCKMODE_RW)) return MALI_MEM_ALLOC_INTERNAL_FAILURE; - - /* if the number of pages to be requested lead to exceeding the memory - * limit in info->num_pages_max, reduce the size that is to be requested. */ - while ( (info->num_pages_allocated + (1 << allocation_order) > info->num_pages_max) - && _mali_osk_mem_check_allocated(info->num_pages_max * _MALI_OSK_CPU_PAGE_SIZE) ) - { - if ( allocation_order > 0 ) { - --allocation_order; - } else { - /* return OOM */ - _mali_osk_lock_signal(info->mutex, _MALI_OSK_LOCKMODE_RW); - return MALI_MEM_ALLOC_NONE; - } - } - - /* try to allocate 2^(allocation_order) pages, if that fails, try - * allocation_order-1 to allocation_order 0 (inclusive) */ - while ( allocation_order >= 0 ) - { - size = _MALI_OSK_CPU_PAGE_SIZE << allocation_order; - virt = _mali_osk_mem_allocioregion( &cpu_phys_base, size ); - - if (NULL != virt) break; - - --allocation_order; - } - - if ( NULL == virt ) - { - MALI_DEBUG_PRINT(1, ("Failed to allocate consistent memory. Is CONSISTENT_DMA_SIZE set too low?\n")); - /* return OOM */ - _mali_osk_lock_signal(info->mutex, _MALI_OSK_LOCKMODE_RW); - return MALI_MEM_ALLOC_NONE; - } - - MALI_DEBUG_PRINT(5, ("os_allocator_allocate_page_table_block: Allocation of order %i succeeded\n", - allocation_order)); - - /* we now know the size of the allocation since we know for what - * allocation_order the allocation succeeded */ - size = _MALI_OSK_CPU_PAGE_SIZE << allocation_order; - - - block->release = os_allocator_page_table_block_release; - block->ctx = ctx; - block->handle = (void*)allocation_order; - block->size = size; - block->phys_base = cpu_phys_base - info->cpu_usage_adjust; - block->mapping = virt; - - info->num_pages_allocated += (1 << allocation_order); - - _mali_osk_lock_signal(info->mutex, _MALI_OSK_LOCKMODE_RW); - - return MALI_MEM_ALLOC_FINISHED; -} - -static void os_allocator_page_table_block_release( mali_page_table_block *page_table_block ) -{ - os_allocator * info; - u32 allocation_order; - u32 pages_allocated; - - MALI_DEBUG_ASSERT_POINTER( page_table_block ); - - info = (os_allocator*)page_table_block->ctx; - - MALI_DEBUG_ASSERT_POINTER( info ); - - allocation_order = (u32)page_table_block->handle; - - pages_allocated = 1 << allocation_order; - - MALI_DEBUG_ASSERT( pages_allocated * _MALI_OSK_CPU_PAGE_SIZE == page_table_block->size ); - - if (_MALI_OSK_ERR_OK != _mali_osk_lock_wait(info->mutex, _MALI_OSK_LOCKMODE_RW)) - { - MALI_DEBUG_PRINT(1, ("allocator release: Failed to get mutex\n")); - return; - } - - MALI_DEBUG_ASSERT( pages_allocated <= info->num_pages_allocated); - info->num_pages_allocated -= pages_allocated; - - /* Adjust phys_base from mali physical address to CPU physical address */ - _mali_osk_mem_freeioregion( page_table_block->phys_base + info->cpu_usage_adjust, page_table_block->size, page_table_block->mapping ); - - _mali_osk_lock_signal(info->mutex, _MALI_OSK_LOCKMODE_RW); -} diff --git a/drivers/media/video/samsung/mali/common/mali_kernel_mem_os.h b/drivers/media/video/samsung/mali/common/mali_kernel_mem_os.h deleted file mode 100644 index 59e6494..0000000 --- a/drivers/media/video/samsung/mali/common/mali_kernel_mem_os.h +++ /dev/null @@ -1,37 +0,0 @@ -/* - * Copyright (C) 2010, 2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_KERNEL_MEM_OS_H__ -#define __MALI_KERNEL_MEM_OS_H__ - -/** - * @brief Creates an object that manages allocating OS memory - * - * Creates an object that provides an interface to allocate OS memory and - * have it mapped into the Mali virtual memory space. - * - * The object exposes pointers to - * - allocate OS memory - * - allocate Mali page tables in OS memory - * - destroy the object - * - * Allocations from OS memory are of type mali_physical_memory_allocation - * which provides a function to release the allocation. - * - * @param max_allocation max. number of bytes that can be allocated from OS memory - * @param cpu_usage_adjust value to add to mali physical addresses to obtain CPU physical addresses - * @param name description of the allocator - * @return pointer to mali_physical_memory_allocator object. NULL on failure. - **/ -mali_physical_memory_allocator * mali_os_allocator_create(u32 max_allocation, u32 cpu_usage_adjust, const char *name); - -#endif /* __MALI_KERNEL_MEM_OS_H__ */ - - diff --git a/drivers/media/video/samsung/mali/common/mali_kernel_memory_engine.c b/drivers/media/video/samsung/mali/common/mali_kernel_memory_engine.c deleted file mode 100644 index d770e3e..0000000 --- a/drivers/media/video/samsung/mali/common/mali_kernel_memory_engine.c +++ /dev/null @@ -1,376 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_kernel_common.h" -#include "mali_kernel_core.h" -#include "mali_kernel_memory_engine.h" -#include "mali_osk.h" -#include "mali_osk_list.h" - -typedef struct memory_engine -{ - mali_kernel_mem_address_manager * mali_address; - mali_kernel_mem_address_manager * process_address; -} memory_engine; - -mali_allocation_engine mali_allocation_engine_create(mali_kernel_mem_address_manager * mali_address_manager, mali_kernel_mem_address_manager * process_address_manager) -{ - memory_engine * engine; - - /* Mali Address Manager need not support unmap_physical */ - MALI_DEBUG_ASSERT_POINTER(mali_address_manager); - MALI_DEBUG_ASSERT_POINTER(mali_address_manager->allocate); - MALI_DEBUG_ASSERT_POINTER(mali_address_manager->release); - MALI_DEBUG_ASSERT_POINTER(mali_address_manager->map_physical); - - /* Process Address Manager must support unmap_physical for OS allocation - * error path handling */ - MALI_DEBUG_ASSERT_POINTER(process_address_manager); - MALI_DEBUG_ASSERT_POINTER(process_address_manager->allocate); - MALI_DEBUG_ASSERT_POINTER(process_address_manager->release); - MALI_DEBUG_ASSERT_POINTER(process_address_manager->map_physical); - MALI_DEBUG_ASSERT_POINTER(process_address_manager->unmap_physical); - - - engine = (memory_engine*)_mali_osk_malloc(sizeof(memory_engine)); - if (NULL == engine) return NULL; - - engine->mali_address = mali_address_manager; - engine->process_address = process_address_manager; - - return (mali_allocation_engine)engine; -} - -void mali_allocation_engine_destroy(mali_allocation_engine engine) -{ - MALI_DEBUG_ASSERT_POINTER(engine); - _mali_osk_free(engine); -} - -_mali_osk_errcode_t mali_allocation_engine_allocate_memory(mali_allocation_engine mem_engine, mali_memory_allocation * descriptor, mali_physical_memory_allocator * physical_allocators, _mali_osk_list_t *tracking_list ) -{ - memory_engine * engine = (memory_engine*)mem_engine; - - MALI_DEBUG_ASSERT_POINTER(engine); - MALI_DEBUG_ASSERT_POINTER(descriptor); - MALI_DEBUG_ASSERT_POINTER(physical_allocators); - /* ASSERT that the list member has been initialized, even if it won't be - * used for tracking. We need it to be initialized to see if we need to - * delete it from a list in the release function. */ - MALI_DEBUG_ASSERT( NULL != descriptor->list.next && NULL != descriptor->list.prev ); - - if (_MALI_OSK_ERR_OK == engine->mali_address->allocate(descriptor)) - { - _mali_osk_errcode_t res = _MALI_OSK_ERR_OK; - if ( descriptor->flags & MALI_MEMORY_ALLOCATION_FLAG_MAP_INTO_USERSPACE ) - { - res = engine->process_address->allocate(descriptor); - } - if ( _MALI_OSK_ERR_OK == res ) - { - /* address space setup OK, commit physical memory to the allocation */ - mali_physical_memory_allocator * active_allocator = physical_allocators; - struct mali_physical_memory_allocation * active_allocation_tracker = &descriptor->physical_allocation; - u32 offset = 0; - - while ( NULL != active_allocator ) - { - switch (active_allocator->allocate(active_allocator->ctx, mem_engine, descriptor, &offset, active_allocation_tracker)) - { - case MALI_MEM_ALLOC_FINISHED: - if ( NULL != tracking_list ) - { - /* Insert into the memory session list */ - /* ASSERT that it is not already part of a list */ - MALI_DEBUG_ASSERT( _mali_osk_list_empty( &descriptor->list ) ); - _mali_osk_list_add( &descriptor->list, tracking_list ); - } - - MALI_SUCCESS; /* all done */ - case MALI_MEM_ALLOC_NONE: - /* reuse current active_allocation_tracker */ - MALI_DEBUG_PRINT( 4, ("Memory Engine Allocate: No allocation on %s, resorting to %s\n", - ( active_allocator->name ) ? active_allocator->name : "UNNAMED", - ( active_allocator->next ) ? (( active_allocator->next->name )? active_allocator->next->name : "UNNAMED") : "NONE") ); - active_allocator = active_allocator->next; - break; - case MALI_MEM_ALLOC_PARTIAL: - if (NULL != active_allocator->next) - { - /* need a new allocation tracker */ - active_allocation_tracker->next = _mali_osk_calloc(1, sizeof(mali_physical_memory_allocation)); - if (NULL != active_allocation_tracker->next) - { - active_allocation_tracker = active_allocation_tracker->next; - MALI_DEBUG_PRINT( 2, ("Memory Engine Allocate: Partial allocation on %s, resorting to %s\n", - ( active_allocator->name ) ? active_allocator->name : "UNNAMED", - ( active_allocator->next ) ? (( active_allocator->next->name )? active_allocator->next->name : "UNNAMED") : "NONE") ); - active_allocator = active_allocator->next; - break; - } - } - /* FALL THROUGH */ - case MALI_MEM_ALLOC_INTERNAL_FAILURE: - active_allocator = NULL; /* end the while loop */ - break; - } - } - - MALI_PRINT(("Memory allocate failed, could not allocate size %d kB.\n", descriptor->size/1024)); - - /* allocation failure, start cleanup */ - /* loop over any potential partial allocations */ - active_allocation_tracker = &descriptor->physical_allocation; - while (NULL != active_allocation_tracker) - { - /* handle blank trackers which will show up during failure */ - if (NULL != active_allocation_tracker->release) - { - active_allocation_tracker->release(active_allocation_tracker->ctx, active_allocation_tracker->handle); - } - active_allocation_tracker = active_allocation_tracker->next; - } - - /* free the allocation tracker objects themselves, skipping the tracker stored inside the descriptor itself */ - for ( active_allocation_tracker = descriptor->physical_allocation.next; active_allocation_tracker != NULL; ) - { - void * buf = active_allocation_tracker; - active_allocation_tracker = active_allocation_tracker->next; - _mali_osk_free(buf); - } - - /* release the address spaces */ - - if ( descriptor->flags & MALI_MEMORY_ALLOCATION_FLAG_MAP_INTO_USERSPACE ) - { - engine->process_address->release(descriptor); - } - } - engine->mali_address->release(descriptor); - } - - MALI_ERROR(_MALI_OSK_ERR_FAULT); -} - -void mali_allocation_engine_release_memory(mali_allocation_engine mem_engine, mali_memory_allocation * descriptor) -{ - mali_allocation_engine_release_pt1_mali_pagetables_unmap(mem_engine, descriptor); - mali_allocation_engine_release_pt2_physical_memory_free(mem_engine, descriptor); -} - -void mali_allocation_engine_release_pt1_mali_pagetables_unmap(mali_allocation_engine mem_engine, mali_memory_allocation * descriptor) -{ - memory_engine * engine = (memory_engine*)mem_engine; - - MALI_DEBUG_ASSERT_POINTER(engine); - MALI_DEBUG_ASSERT_POINTER(descriptor); - - /* Calling: mali_address_manager_release() */ - /* This function is allowed to be called several times, and it only does the release on the first call. */ - engine->mali_address->release(descriptor); -} - -void mali_allocation_engine_release_pt2_physical_memory_free(mali_allocation_engine mem_engine, mali_memory_allocation * descriptor) -{ - memory_engine * engine = (memory_engine*)mem_engine; - mali_physical_memory_allocation * active_allocation_tracker; - - /* Remove this from a tracking list in session_data->memory_head */ - if ( ! _mali_osk_list_empty( &descriptor->list ) ) - { - _mali_osk_list_del( &descriptor->list ); - /* Clear the list for debug mode, catch use-after-free */ - MALI_DEBUG_CODE( descriptor->list.next = descriptor->list.prev = NULL; ) - } - - active_allocation_tracker = &descriptor->physical_allocation; - while (NULL != active_allocation_tracker) - { - MALI_DEBUG_ASSERT_POINTER(active_allocation_tracker->release); - active_allocation_tracker->release(active_allocation_tracker->ctx, active_allocation_tracker->handle); - active_allocation_tracker = active_allocation_tracker->next; - } - - /* free the allocation tracker objects themselves, skipping the tracker stored inside the descriptor itself */ - for ( active_allocation_tracker = descriptor->physical_allocation.next; active_allocation_tracker != NULL; ) - { - void * buf = active_allocation_tracker; - active_allocation_tracker = active_allocation_tracker->next; - _mali_osk_free(buf); - } - - if ( descriptor->flags & MALI_MEMORY_ALLOCATION_FLAG_MAP_INTO_USERSPACE ) - { - engine->process_address->release(descriptor); - } -} - -_mali_osk_errcode_t mali_allocation_engine_map_physical(mali_allocation_engine mem_engine, mali_memory_allocation * descriptor, u32 offset, u32 phys, u32 cpu_usage_adjust, u32 size) -{ - _mali_osk_errcode_t err; - memory_engine * engine = (memory_engine*)mem_engine; - _mali_osk_mem_mapregion_flags_t unmap_flags = (_mali_osk_mem_mapregion_flags_t)0; - - MALI_DEBUG_ASSERT_POINTER(engine); - MALI_DEBUG_ASSERT_POINTER(descriptor); - - MALI_DEBUG_PRINT(7, ("Mapping phys 0x%08X length 0x%08X at offset 0x%08X\n", phys, size, offset)); - - MALI_DEBUG_ASSERT_POINTER(engine->mali_address); - MALI_DEBUG_ASSERT_POINTER(engine->mali_address->map_physical); - - /* Handle process address manager first, because we may need them to - * allocate the physical page */ - if ( descriptor->flags & MALI_MEMORY_ALLOCATION_FLAG_MAP_INTO_USERSPACE ) - { - /* Handle OS-allocated specially, since an adjustment may be required */ - if ( MALI_MEMORY_ALLOCATION_OS_ALLOCATED_PHYSADDR_MAGIC == phys ) - { - MALI_DEBUG_ASSERT( _MALI_OSK_CPU_PAGE_SIZE == size ); - - /* Set flags to use on error path */ - unmap_flags |= _MALI_OSK_MEM_MAPREGION_FLAG_OS_ALLOCATED_PHYSADDR; - - err = engine->process_address->map_physical(descriptor, offset, &phys, size); - /* Adjust for cpu physical address to mali physical address */ - phys -= cpu_usage_adjust; - } - else - { - u32 cpu_phys; - /* Adjust mali physical address to cpu physical address */ - cpu_phys = phys + cpu_usage_adjust; - err = engine->process_address->map_physical(descriptor, offset, &cpu_phys, size); - } - - if ( _MALI_OSK_ERR_OK != err ) - { - MALI_DEBUG_PRINT(2, ("Map failed: %s %d\n", __FUNCTION__, __LINE__)); - MALI_ERROR( err ); - } - } - - MALI_DEBUG_PRINT(7, ("Mapping phys 0x%08X length 0x%08X at offset 0x%08X to CPUVA 0x%08X\n", phys, size, offset, (u32)(descriptor->mapping) + offset)); - - /* Mali address manager must use the physical address - no point in asking - * it to allocate another one for us */ - MALI_DEBUG_ASSERT( MALI_MEMORY_ALLOCATION_OS_ALLOCATED_PHYSADDR_MAGIC != phys ); - - err = engine->mali_address->map_physical(descriptor, offset, &phys, size); - - if ( _MALI_OSK_ERR_OK != err ) - { - if ( descriptor->flags & MALI_MEMORY_ALLOCATION_FLAG_MAP_INTO_USERSPACE ) - { - MALI_DEBUG_PRINT( 2, ("Process address manager succeeded, but Mali Address manager failed for phys=0x%08X size=0x%08X, offset=0x%08X. Will unmap.\n", phys, size, offset)); - engine->process_address->unmap_physical(descriptor, offset, size, unmap_flags); - } - MALI_DEBUG_PRINT(2, ("Map mali failed: %s %d\n", __FUNCTION__, __LINE__)); - MALI_ERROR( err ); - } - - MALI_SUCCESS; -} - -void mali_allocation_engine_unmap_physical(mali_allocation_engine mem_engine, mali_memory_allocation * descriptor, u32 offset, u32 size, _mali_osk_mem_mapregion_flags_t unmap_flags ) -{ - memory_engine * engine = (memory_engine*)mem_engine; - - MALI_DEBUG_ASSERT_POINTER(engine); - MALI_DEBUG_ASSERT_POINTER(descriptor); - - MALI_DEBUG_PRINT(7, ("UnMapping length 0x%08X at offset 0x%08X\n", size, offset)); - - MALI_DEBUG_ASSERT_POINTER(engine->mali_address); - MALI_DEBUG_ASSERT_POINTER(engine->process_address); - - if ( descriptor->flags & MALI_MEMORY_ALLOCATION_FLAG_MAP_INTO_USERSPACE ) - { - /* Mandetory for process_address manager to have an unmap function*/ - engine->process_address->unmap_physical( descriptor, offset, size, unmap_flags ); - } - - /* Optional for mali_address manager to have an unmap function*/ - if ( NULL != engine->mali_address->unmap_physical ) - { - engine->mali_address->unmap_physical( descriptor, offset, size, unmap_flags ); - } -} - - -_mali_osk_errcode_t mali_allocation_engine_allocate_page_tables(mali_allocation_engine engine, mali_page_table_block * descriptor, mali_physical_memory_allocator * physical_provider) -{ - mali_physical_memory_allocator * active_allocator = physical_provider; - - MALI_DEBUG_ASSERT_POINTER(descriptor); - MALI_DEBUG_ASSERT_POINTER(physical_provider); - - while ( NULL != active_allocator ) - { - switch (active_allocator->allocate_page_table_block(active_allocator->ctx, descriptor)) - { - case MALI_MEM_ALLOC_FINISHED: - MALI_SUCCESS; /* all done */ - case MALI_MEM_ALLOC_NONE: - /* try next */ - MALI_DEBUG_PRINT( 2, ("Memory Engine Allocate PageTables: No allocation on %s, resorting to %s\n", - ( active_allocator->name ) ? active_allocator->name : "UNNAMED", - ( active_allocator->next ) ? (( active_allocator->next->name )? active_allocator->next->name : "UNNAMED") : "NONE") ); - active_allocator = active_allocator->next; - break; - case MALI_MEM_ALLOC_PARTIAL: - MALI_DEBUG_PRINT(1, ("Invalid return value from allocate_page_table_block call: MALI_MEM_ALLOC_PARTIAL\n")); - /* FALL THROUGH */ - case MALI_MEM_ALLOC_INTERNAL_FAILURE: - MALI_DEBUG_PRINT(1, ("Aborting due to allocation failure\n")); - active_allocator = NULL; /* end the while loop */ - break; - } - } - - MALI_ERROR(_MALI_OSK_ERR_FAULT); -} - - -void mali_allocation_engine_report_allocators( mali_physical_memory_allocator * physical_provider ) -{ - mali_physical_memory_allocator * active_allocator = physical_provider; - MALI_DEBUG_ASSERT_POINTER(physical_provider); - - MALI_DEBUG_PRINT( 1, ("Mali memory allocators will be used in this order of preference (lowest numbered first) :\n")); - while ( NULL != active_allocator ) - { - if ( NULL != active_allocator->name ) - { - MALI_DEBUG_PRINT( 1, ("\t%d: %s\n", active_allocator->alloc_order, active_allocator->name) ); - } - else - { - MALI_DEBUG_PRINT( 1, ("\t%d: (UNNAMED ALLOCATOR)\n", active_allocator->alloc_order) ); - } - active_allocator = active_allocator->next; - } - -} - -u32 mali_allocation_engine_memory_usage(mali_physical_memory_allocator *allocator) -{ - u32 sum = 0; - while(NULL != allocator) - { - /* Only count allocators that have set up a stat function. */ - if(allocator->stat) - sum += allocator->stat(allocator); - - allocator = allocator->next; - } - - return sum; -} diff --git a/drivers/media/video/samsung/mali/common/mali_kernel_memory_engine.h b/drivers/media/video/samsung/mali/common/mali_kernel_memory_engine.h deleted file mode 100644 index 3b41cee..0000000 --- a/drivers/media/video/samsung/mali/common/mali_kernel_memory_engine.h +++ /dev/null @@ -1,152 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_KERNEL_MEMORY_ENGINE_H__ -#define __MALI_KERNEL_MEMORY_ENGINE_H__ - -typedef void * mali_allocation_engine; - -typedef enum { MALI_MEM_ALLOC_FINISHED, MALI_MEM_ALLOC_PARTIAL, MALI_MEM_ALLOC_NONE, MALI_MEM_ALLOC_INTERNAL_FAILURE } mali_physical_memory_allocation_result; - -typedef struct mali_physical_memory_allocation -{ - void (*release)(void * ctx, void * handle); /**< Function to call on to release the physical memory */ - void * ctx; - void * handle; - struct mali_physical_memory_allocation * next; -} mali_physical_memory_allocation; - -struct mali_page_table_block; - -typedef struct mali_page_table_block -{ - void (*release)(struct mali_page_table_block *page_table_block); - void * ctx; - void * handle; - u32 size; /**< In bytes, should be a multiple of MALI_MMU_PAGE_SIZE to avoid internal fragementation */ - u32 phys_base; /**< Mali physical address */ - mali_io_address mapping; -} mali_page_table_block; - - -/** @addtogroup _mali_osk_low_level_memory - * @{ */ - -typedef enum -{ - MALI_MEMORY_ALLOCATION_FLAG_MAP_INTO_USERSPACE = 0x1, - MALI_MEMORY_ALLOCATION_FLAG_MAP_GUARD_PAGE = 0x2, -} mali_memory_allocation_flag; - -/** - * Supplying this 'magic' physical address requests that the OS allocate the - * physical address at page commit time, rather than committing a specific page - */ -#define MALI_MEMORY_ALLOCATION_OS_ALLOCATED_PHYSADDR_MAGIC ((u32)(-1)) - -typedef struct mali_memory_allocation -{ - /* Information about the allocation */ - void * mapping; /**< CPU virtual address where the memory is mapped at */ - u32 mali_address; /**< The Mali seen address of the memory allocation */ - u32 size; /**< Size of the allocation */ - u32 permission; /**< Permission settings */ - mali_memory_allocation_flag flags; - u32 cache_settings; /* type: mali_memory_cache_settings, found in <linux/mali/mali_utgard_uk_types.h> Ump DD breaks if we include it...*/ - - _mali_osk_lock_t * lock; - - /* Manager specific information pointers */ - void * mali_addr_mapping_info; /**< Mali address allocation specific info */ - void * process_addr_mapping_info; /**< Mapping manager specific info */ - - mali_physical_memory_allocation physical_allocation; - - _mali_osk_list_t list; /**< List for linking together memory allocations into the session's memory head */ -} mali_memory_allocation; -/** @} */ /* end group _mali_osk_low_level_memory */ - - -typedef struct mali_physical_memory_allocator -{ - mali_physical_memory_allocation_result (*allocate)(void* ctx, mali_allocation_engine * engine, mali_memory_allocation * descriptor, u32* offset, mali_physical_memory_allocation * alloc_info); - mali_physical_memory_allocation_result (*allocate_page_table_block)(void * ctx, mali_page_table_block * block); /* MALI_MEM_ALLOC_PARTIAL not allowed */ - void (*destroy)(struct mali_physical_memory_allocator * allocator); - u32 (*stat)(struct mali_physical_memory_allocator * allocator); - void * ctx; - const char * name; /**< Descriptive name for use in mali_allocation_engine_report_allocators, or NULL */ - u32 alloc_order; /**< Order in which the allocations should happen */ - struct mali_physical_memory_allocator * next; -} mali_physical_memory_allocator; - -typedef struct mali_kernel_mem_address_manager -{ - _mali_osk_errcode_t (*allocate)(mali_memory_allocation *); /**< Function to call to reserve an address */ - void (*release)(mali_memory_allocation *); /**< Function to call to free the address allocated */ - - /** - * Function called for each physical sub allocation. - * Called for each physical block allocated by the physical memory manager. - * @param[in] descriptor The memory descriptor in question - * @param[in] off Offset from the start of range - * @param[in,out] phys_addr A pointer to the physical address of the start of the - * physical block. When *phys_addr == MALI_MEMORY_ALLOCATION_OS_ALLOCATED_PHYSADDR_MAGIC - * is used, this requests the function to allocate the physical page - * itself, and return it through the pointer provided. - * @param[in] size Length in bytes of the physical block - * @return _MALI_OSK_ERR_OK on success. - * A value of type _mali_osk_errcode_t other than _MALI_OSK_ERR_OK indicates failure. - * Specifically, _MALI_OSK_ERR_UNSUPPORTED indicates that the function - * does not support allocating physical pages itself. - */ - _mali_osk_errcode_t (*map_physical)(mali_memory_allocation * descriptor, u32 offset, u32 *phys_addr, u32 size); - - /** - * Function called to remove a physical sub allocation. - * Called on error paths where one of the address managers fails. - * - * @note this is optional. For address managers where this is not - * implemented, the value of this member is NULL. The memory engine - * currently does not require the mali address manager to be able to - * unmap individual pages, but the process address manager must have this - * capability. - * - * @param[in] descriptor The memory descriptor in question - * @param[in] off Offset from the start of range - * @param[in] size Length in bytes of the physical block - * @param[in] flags flags to use on a per-page basis. For OS-allocated - * physical pages, this must include _MALI_OSK_MEM_MAPREGION_FLAG_OS_ALLOCATED_PHYSADDR. - * @return _MALI_OSK_ERR_OK on success. - * A value of type _mali_osk_errcode_t other than _MALI_OSK_ERR_OK indicates failure. - */ - void (*unmap_physical)(mali_memory_allocation * descriptor, u32 offset, u32 size, _mali_osk_mem_mapregion_flags_t flags); - -} mali_kernel_mem_address_manager; - -mali_allocation_engine mali_allocation_engine_create(mali_kernel_mem_address_manager * mali_address_manager, mali_kernel_mem_address_manager * process_address_manager); - -void mali_allocation_engine_destroy(mali_allocation_engine engine); - -int mali_allocation_engine_allocate_memory(mali_allocation_engine engine, mali_memory_allocation * descriptor, mali_physical_memory_allocator * physical_provider, _mali_osk_list_t *tracking_list ); -void mali_allocation_engine_release_memory(mali_allocation_engine engine, mali_memory_allocation * descriptor); - -void mali_allocation_engine_release_pt1_mali_pagetables_unmap(mali_allocation_engine engine, mali_memory_allocation * descriptor); -void mali_allocation_engine_release_pt2_physical_memory_free(mali_allocation_engine engine, mali_memory_allocation * descriptor); - -int mali_allocation_engine_map_physical(mali_allocation_engine engine, mali_memory_allocation * descriptor, u32 offset, u32 phys, u32 cpu_usage_adjust, u32 size); -void mali_allocation_engine_unmap_physical(mali_allocation_engine engine, mali_memory_allocation * descriptor, u32 offset, u32 size, _mali_osk_mem_mapregion_flags_t unmap_flags); - -int mali_allocation_engine_allocate_page_tables(mali_allocation_engine, mali_page_table_block * descriptor, mali_physical_memory_allocator * physical_provider); - -void mali_allocation_engine_report_allocators(mali_physical_memory_allocator * physical_provider); - -u32 mali_allocation_engine_memory_usage(mali_physical_memory_allocator *allocator); - -#endif /* __MALI_KERNEL_MEMORY_ENGINE_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_kernel_utilization.c b/drivers/media/video/samsung/mali/common/mali_kernel_utilization.c deleted file mode 100644 index a374dbf..0000000 --- a/drivers/media/video/samsung/mali/common/mali_kernel_utilization.c +++ /dev/null @@ -1,218 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_kernel_utilization.h" -#include "mali_osk.h" -#include "mali_platform.h" - -/* Define how often to calculate and report GPU utilization, in milliseconds */ -#define MALI_GPU_UTILIZATION_TIMEOUT 1000 - -static _mali_osk_lock_t *time_data_lock; - -static _mali_osk_atomic_t num_running_cores; - -static u64 period_start_time = 0; -static u64 work_start_time = 0; -static u64 accumulated_work_time = 0; - -static _mali_osk_timer_t *utilization_timer = NULL; -static mali_bool timer_running = MALI_FALSE; - - -static void calculate_gpu_utilization(void* arg) -{ - u64 time_now; - u64 time_period; - u32 leading_zeroes; - u32 shift_val; - u32 work_normalized; - u32 period_normalized; - u32 utilization; - - _mali_osk_lock_wait(time_data_lock, _MALI_OSK_LOCKMODE_RW); - - if (accumulated_work_time == 0 && work_start_time == 0) - { - /* Don't reschedule timer, this will be started if new work arrives */ - timer_running = MALI_FALSE; - - _mali_osk_lock_signal(time_data_lock, _MALI_OSK_LOCKMODE_RW); - - /* No work done for this period, report zero usage */ - mali_gpu_utilization_handler(0); - - return; - } - - time_now = _mali_osk_time_get_ns(); - time_period = time_now - period_start_time; - - /* If we are currently busy, update working period up to now */ - if (work_start_time != 0) - { - accumulated_work_time += (time_now - work_start_time); - work_start_time = time_now; - } - - /* - * We have two 64-bit values, a dividend and a divisor. - * To avoid dependencies to a 64-bit divider, we shift down the two values - * equally first. - * We shift the dividend up and possibly the divisor down, making the result X in 256. - */ - - /* Shift the 64-bit values down so they fit inside a 32-bit integer */ - leading_zeroes = _mali_osk_clz((u32)(time_period >> 32)); - shift_val = 32 - leading_zeroes; - work_normalized = (u32)(accumulated_work_time >> shift_val); - period_normalized = (u32)(time_period >> shift_val); - - /* - * Now, we should report the usage in parts of 256 - * this means we must shift up the dividend or down the divisor by 8 - * (we could do a combination, but we just use one for simplicity, - * but the end result should be good enough anyway) - */ - if (period_normalized > 0x00FFFFFF) - { - /* The divisor is so big that it is safe to shift it down */ - period_normalized >>= 8; - } - else - { - /* - * The divisor is so small that we can shift up the dividend, without loosing any data. - * (dividend is always smaller than the divisor) - */ - work_normalized <<= 8; - } - - utilization = work_normalized / period_normalized; - - accumulated_work_time = 0; - period_start_time = time_now; /* starting a new period */ - - _mali_osk_lock_signal(time_data_lock, _MALI_OSK_LOCKMODE_RW); - - _mali_osk_timer_add(utilization_timer, _mali_osk_time_mstoticks(MALI_GPU_UTILIZATION_TIMEOUT)); - - - mali_gpu_utilization_handler(utilization); -} - -_mali_osk_errcode_t mali_utilization_init(void) -{ - time_data_lock = _mali_osk_lock_init(_MALI_OSK_LOCKFLAG_ORDERED | _MALI_OSK_LOCKFLAG_SPINLOCK_IRQ | - _MALI_OSK_LOCKFLAG_NONINTERRUPTABLE, 0, _MALI_OSK_LOCK_ORDER_UTILIZATION); - - if (NULL == time_data_lock) - { - return _MALI_OSK_ERR_FAULT; - } - - _mali_osk_atomic_init(&num_running_cores, 0); - - utilization_timer = _mali_osk_timer_init(); - if (NULL == utilization_timer) - { - _mali_osk_lock_term(time_data_lock); - return _MALI_OSK_ERR_FAULT; - } - _mali_osk_timer_setcallback(utilization_timer, calculate_gpu_utilization, NULL); - - return _MALI_OSK_ERR_OK; -} - -void mali_utilization_suspend(void) -{ - if (NULL != utilization_timer) - { - _mali_osk_timer_del(utilization_timer); - timer_running = MALI_FALSE; - } -} - -void mali_utilization_term(void) -{ - if (NULL != utilization_timer) - { - _mali_osk_timer_del(utilization_timer); - timer_running = MALI_FALSE; - _mali_osk_timer_term(utilization_timer); - utilization_timer = NULL; - } - - _mali_osk_atomic_term(&num_running_cores); - - _mali_osk_lock_term(time_data_lock); -} - -void mali_utilization_core_start(u64 time_now) -{ - if (_mali_osk_atomic_inc_return(&num_running_cores) == 1) - { - /* - * We went from zero cores working, to one core working, - * we now consider the entire GPU for being busy - */ - - _mali_osk_lock_wait(time_data_lock, _MALI_OSK_LOCKMODE_RW); - - if (time_now < period_start_time) - { - /* - * This might happen if the calculate_gpu_utilization() was able - * to run between the sampling of time_now and us grabbing the lock above - */ - time_now = period_start_time; - } - - work_start_time = time_now; - if (timer_running != MALI_TRUE) - { - timer_running = MALI_TRUE; - period_start_time = work_start_time; /* starting a new period */ - - _mali_osk_lock_signal(time_data_lock, _MALI_OSK_LOCKMODE_RW); - - _mali_osk_timer_add(utilization_timer, _mali_osk_time_mstoticks(MALI_GPU_UTILIZATION_TIMEOUT)); - } - else - { - _mali_osk_lock_signal(time_data_lock, _MALI_OSK_LOCKMODE_RW); - } - } -} - -void mali_utilization_core_end(u64 time_now) -{ - if (_mali_osk_atomic_dec_return(&num_running_cores) == 0) - { - /* - * No more cores are working, so accumulate the time we was busy. - */ - _mali_osk_lock_wait(time_data_lock, _MALI_OSK_LOCKMODE_RW); - - if (time_now < work_start_time) - { - /* - * This might happen if the calculate_gpu_utilization() was able - * to run between the sampling of time_now and us grabbing the lock above - */ - time_now = work_start_time; - } - - accumulated_work_time += (time_now - work_start_time); - work_start_time = 0; - - _mali_osk_lock_signal(time_data_lock, _MALI_OSK_LOCKMODE_RW); - } -} diff --git a/drivers/media/video/samsung/mali/common/mali_kernel_utilization.h b/drivers/media/video/samsung/mali/common/mali_kernel_utilization.h deleted file mode 100644 index 1f60517..0000000 --- a/drivers/media/video/samsung/mali/common/mali_kernel_utilization.h +++ /dev/null @@ -1,44 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_KERNEL_UTILIZATION_H__ -#define __MALI_KERNEL_UTILIZATION_H__ - -#include "mali_osk.h" - -/** - * Initialize/start the Mali GPU utilization metrics reporting. - * - * @return _MALI_OSK_ERR_OK on success, otherwise failure. - */ -_mali_osk_errcode_t mali_utilization_init(void); - -/** - * Terminate the Mali GPU utilization metrics reporting - */ -void mali_utilization_term(void); - -/** - * Should be called when a job is about to execute a job - */ -void mali_utilization_core_start(u64 time_now); - -/** - * Should be called to stop the utilization timer during system suspend - */ -void mali_utilization_suspend(void); - -/** - * Should be called when a job has completed executing a job - */ -void mali_utilization_core_end(u64 time_now); - - -#endif /* __MALI_KERNEL_UTILIZATION_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_kernel_vsync.c b/drivers/media/video/samsung/mali/common/mali_kernel_vsync.c deleted file mode 100644 index 63c9f5b..0000000 --- a/drivers/media/video/samsung/mali/common/mali_kernel_vsync.c +++ /dev/null @@ -1,51 +0,0 @@ -/* - * Copyright (C) 2011-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_kernel_common.h" -#include "mali_osk.h" -#include "mali_ukk.h" - -#if MALI_TIMELINE_PROFILING_ENABLED -#include "mali_osk_profiling.h" -#endif - -_mali_osk_errcode_t _mali_ukk_vsync_event_report(_mali_uk_vsync_event_report_s *args) -{ - _mali_uk_vsync_event event = (_mali_uk_vsync_event)args->event; - MALI_IGNORE(event); /* event is not used for release code, and that is OK */ - -#if MALI_TIMELINE_PROFILING_ENABLED - /* - * Manually generate user space events in kernel space. - * This saves user space from calling kernel space twice in this case. - * We just need to remember to add pid and tid manually. - */ - if ( event==_MALI_UK_VSYNC_EVENT_BEGIN_WAIT) - { - _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_SUSPEND | - MALI_PROFILING_EVENT_CHANNEL_SOFTWARE | - MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_VSYNC, - _mali_osk_get_pid(), _mali_osk_get_tid(), 0, 0, 0); - } - - if (event==_MALI_UK_VSYNC_EVENT_END_WAIT) - { - - _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_RESUME | - MALI_PROFILING_EVENT_CHANNEL_SOFTWARE | - MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_VSYNC, - _mali_osk_get_pid(), _mali_osk_get_tid(), 0, 0, 0); - } -#endif - - MALI_DEBUG_PRINT(4, ("Received VSYNC event: %d\n", event)); - MALI_SUCCESS; -} - diff --git a/drivers/media/video/samsung/mali/common/mali_l2_cache.c b/drivers/media/video/samsung/mali/common/mali_l2_cache.c deleted file mode 100644 index b7267f1..0000000 --- a/drivers/media/video/samsung/mali/common/mali_l2_cache.c +++ /dev/null @@ -1,414 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ -#include "mali_kernel_common.h" -#include "mali_osk.h" - -#include "mali_l2_cache.h" -#include "mali_hw_core.h" -#include "mali_pm.h" - -/** - * Size of the Mali L2 cache registers in bytes - */ -#define MALI400_L2_CACHE_REGISTERS_SIZE 0x30 - -#define MALI_MAX_NUMBER_OF_L2_CACHE_CORES 3 - -/** - * Mali L2 cache register numbers - * Used in the register read/write routines. - * See the hardware documentation for more information about each register - */ -typedef enum mali_l2_cache_register { - MALI400_L2_CACHE_REGISTER_STATUS = 0x0008, - /*unused = 0x000C */ - MALI400_L2_CACHE_REGISTER_COMMAND = 0x0010, /**< Misc cache commands, e.g. clear */ - MALI400_L2_CACHE_REGISTER_CLEAR_PAGE = 0x0014, - MALI400_L2_CACHE_REGISTER_MAX_READS = 0x0018, /**< Limit of outstanding read requests */ - MALI400_L2_CACHE_REGISTER_ENABLE = 0x001C, /**< Enable misc cache features */ - MALI400_L2_CACHE_REGISTER_PERFCNT_SRC0 = 0x0020, - MALI400_L2_CACHE_REGISTER_PERFCNT_VAL0 = 0x0024, - MALI400_L2_CACHE_REGISTER_PERFCNT_SRC1 = 0x0028, - MALI400_L2_CACHE_REGISTER_PERFCNT_VAL1 = 0x002C, -} mali_l2_cache_register; - -/** - * Mali L2 cache commands - * These are the commands that can be sent to the Mali L2 cache unit - */ -typedef enum mali_l2_cache_command -{ - MALI400_L2_CACHE_COMMAND_CLEAR_ALL = 0x01, /**< Clear the entire cache */ - /* Read HW TRM carefully before adding/using other commands than the clear above */ -} mali_l2_cache_command; - -/** - * Mali L2 cache commands - * These are the commands that can be sent to the Mali L2 cache unit - */ -typedef enum mali_l2_cache_enable -{ - MALI400_L2_CACHE_ENABLE_DEFAULT = 0x0, /**< Default state of enable register */ - MALI400_L2_CACHE_ENABLE_ACCESS = 0x01, /**< Permit cacheable accesses */ - MALI400_L2_CACHE_ENABLE_READ_ALLOCATE = 0x02, /**< Permit cache read allocate */ -} mali_l2_cache_enable; - -/** - * Mali L2 cache status bits - */ -typedef enum mali_l2_cache_status -{ - MALI400_L2_CACHE_STATUS_COMMAND_BUSY = 0x01, /**< Command handler of L2 cache is busy */ - MALI400_L2_CACHE_STATUS_DATA_BUSY = 0x02, /**< L2 cache is busy handling data requests */ -} mali_l2_cache_status; - -/** - * Definition of the L2 cache core struct - * Used to track a L2 cache unit in the system. - * Contains information about the mapping of the registers - */ -struct mali_l2_cache_core -{ - struct mali_hw_core hw_core; /**< Common for all HW cores */ - u32 core_id; /**< Unique core ID */ - _mali_osk_lock_t *command_lock; /**< Serialize all L2 cache commands */ - _mali_osk_lock_t *counter_lock; /**< Synchronize L2 cache counter access */ - u32 counter_src0; /**< Performance counter 0, MALI_HW_CORE_NO_COUNTER for disabled */ - u32 counter_src1; /**< Performance counter 1, MALI_HW_CORE_NO_COUNTER for disabled */ -}; - -#define MALI400_L2_MAX_READS_DEFAULT 0x1C - -static struct mali_l2_cache_core *mali_global_l2_cache_cores[MALI_MAX_NUMBER_OF_L2_CACHE_CORES]; -static u32 mali_global_num_l2_cache_cores = 0; - -int mali_l2_max_reads = MALI400_L2_MAX_READS_DEFAULT; - -/* Local helper functions */ -static _mali_osk_errcode_t mali_l2_cache_send_command(struct mali_l2_cache_core *cache, u32 reg, u32 val); - - -struct mali_l2_cache_core *mali_l2_cache_create(_mali_osk_resource_t *resource) -{ - struct mali_l2_cache_core *cache = NULL; - - MALI_DEBUG_PRINT(2, ("Mali L2 cache: Creating Mali L2 cache: %s\n", resource->description)); - - if (mali_global_num_l2_cache_cores >= MALI_MAX_NUMBER_OF_L2_CACHE_CORES) - { - MALI_PRINT_ERROR(("Mali L2 cache: Too many L2 cache core objects created\n")); - return NULL; - } - - cache = _mali_osk_malloc(sizeof(struct mali_l2_cache_core)); - if (NULL != cache) - { - cache->core_id = mali_global_num_l2_cache_cores; - cache->counter_src0 = MALI_HW_CORE_NO_COUNTER; - cache->counter_src1 = MALI_HW_CORE_NO_COUNTER; - if (_MALI_OSK_ERR_OK == mali_hw_core_create(&cache->hw_core, resource, MALI400_L2_CACHE_REGISTERS_SIZE)) - { - cache->command_lock = _mali_osk_lock_init(_MALI_OSK_LOCKFLAG_ORDERED | _MALI_OSK_LOCKFLAG_SPINLOCK | _MALI_OSK_LOCKFLAG_NONINTERRUPTABLE, - 0, _MALI_OSK_LOCK_ORDER_L2_COMMAND); - if (NULL != cache->command_lock) - { - cache->counter_lock = _mali_osk_lock_init(_MALI_OSK_LOCKFLAG_ORDERED | _MALI_OSK_LOCKFLAG_SPINLOCK | _MALI_OSK_LOCKFLAG_NONINTERRUPTABLE, - 0, _MALI_OSK_LOCK_ORDER_L2_COUNTER); - if (NULL != cache->counter_lock) - { - if (_MALI_OSK_ERR_OK == mali_l2_cache_reset(cache)) - { - mali_global_l2_cache_cores[mali_global_num_l2_cache_cores] = cache; - mali_global_num_l2_cache_cores++; - - return cache; - } - else - { - MALI_PRINT_ERROR(("Mali L2 cache: Failed to reset L2 cache core %s\n", cache->hw_core.description)); - } - - _mali_osk_lock_term(cache->counter_lock); - } - else - { - MALI_PRINT_ERROR(("Mali L2 cache: Failed to create counter lock for L2 cache core %s\n", cache->hw_core.description)); - } - - _mali_osk_lock_term(cache->command_lock); - } - else - { - MALI_PRINT_ERROR(("Mali L2 cache: Failed to create command lock for L2 cache core %s\n", cache->hw_core.description)); - } - - mali_hw_core_delete(&cache->hw_core); - } - - _mali_osk_free(cache); - } - else - { - MALI_PRINT_ERROR(("Mali L2 cache: Failed to allocate memory for L2 cache core\n")); - } - - return NULL; -} - -void mali_l2_cache_delete(struct mali_l2_cache_core *cache) -{ - u32 i; - - /* reset to defaults */ - mali_hw_core_register_write(&cache->hw_core, MALI400_L2_CACHE_REGISTER_MAX_READS, (u32)MALI400_L2_MAX_READS_DEFAULT); - mali_hw_core_register_write(&cache->hw_core, MALI400_L2_CACHE_REGISTER_ENABLE, (u32)MALI400_L2_CACHE_ENABLE_DEFAULT); - - _mali_osk_lock_term(cache->counter_lock); - _mali_osk_lock_term(cache->command_lock); - mali_hw_core_delete(&cache->hw_core); - - for (i = 0; i < mali_global_num_l2_cache_cores; i++) - { - if (mali_global_l2_cache_cores[i] == cache) - { - mali_global_l2_cache_cores[i] = NULL; - mali_global_num_l2_cache_cores--; - } - } - - _mali_osk_free(cache); -} - -u32 mali_l2_cache_get_id(struct mali_l2_cache_core *cache) -{ - return cache->core_id; -} - -mali_bool mali_l2_cache_core_set_counter_src0(struct mali_l2_cache_core *cache, u32 counter) -{ - u32 value = 0; /* disabled src */ - mali_bool core_is_on; - - MALI_DEBUG_ASSERT_POINTER(cache); - - core_is_on = mali_l2_cache_lock_power_state(cache); - - _mali_osk_lock_wait(cache->counter_lock, _MALI_OSK_LOCKMODE_RW); - - cache->counter_src0 = counter; - - if (MALI_HW_CORE_NO_COUNTER != counter) - { - value = counter; - } - - if (MALI_TRUE == core_is_on) - { - mali_hw_core_register_write(&cache->hw_core, MALI400_L2_CACHE_REGISTER_PERFCNT_SRC0, value); - } - - _mali_osk_lock_signal(cache->counter_lock, _MALI_OSK_LOCKMODE_RW); - - mali_l2_cache_unlock_power_state(cache); - - return MALI_TRUE; -} - -mali_bool mali_l2_cache_core_set_counter_src1(struct mali_l2_cache_core *cache, u32 counter) -{ - u32 value = 0; /* disabled src */ - mali_bool core_is_on; - - MALI_DEBUG_ASSERT_POINTER(cache); - - core_is_on = mali_l2_cache_lock_power_state(cache); - - _mali_osk_lock_wait(cache->counter_lock, _MALI_OSK_LOCKMODE_RW); - - cache->counter_src1 = counter; - - if (MALI_HW_CORE_NO_COUNTER != counter) - { - value = counter; - } - - if (MALI_TRUE == core_is_on) - { - mali_hw_core_register_write(&cache->hw_core, MALI400_L2_CACHE_REGISTER_PERFCNT_SRC1, value); - } - - _mali_osk_lock_signal(cache->counter_lock, _MALI_OSK_LOCKMODE_RW); - - mali_l2_cache_unlock_power_state(cache); - - return MALI_TRUE; -} - -u32 mali_l2_cache_core_get_counter_src0(struct mali_l2_cache_core *cache) -{ - return cache->counter_src0; -} - -u32 mali_l2_cache_core_get_counter_src1(struct mali_l2_cache_core *cache) -{ - return cache->counter_src1; -} - -void mali_l2_cache_core_get_counter_values(struct mali_l2_cache_core *cache, u32 *src0, u32 *value0, u32 *src1, u32 *value1) -{ - MALI_DEBUG_ASSERT(NULL != src0); - MALI_DEBUG_ASSERT(NULL != value0); - MALI_DEBUG_ASSERT(NULL != src1); - MALI_DEBUG_ASSERT(NULL != value1); - - /* Caller must hold the PM lock and know that we are powered on */ - - _mali_osk_lock_wait(cache->counter_lock, _MALI_OSK_LOCKMODE_RW); - - *src0 = cache->counter_src0; - *src1 = cache->counter_src1; - - if (cache->counter_src0 != MALI_HW_CORE_NO_COUNTER) - { - *value0 = mali_hw_core_register_read(&cache->hw_core, MALI400_L2_CACHE_REGISTER_PERFCNT_VAL0); - } - - if (cache->counter_src0 != MALI_HW_CORE_NO_COUNTER) - { - *value1 = mali_hw_core_register_read(&cache->hw_core, MALI400_L2_CACHE_REGISTER_PERFCNT_VAL1); - } - - _mali_osk_lock_signal(cache->counter_lock, _MALI_OSK_LOCKMODE_RW); -} - -struct mali_l2_cache_core *mali_l2_cache_core_get_glob_l2_core(u32 index) -{ - if (MALI_MAX_NUMBER_OF_L2_CACHE_CORES > index) - { - return mali_global_l2_cache_cores[index]; - } - - return NULL; -} - -u32 mali_l2_cache_core_get_glob_num_l2_cores(void) -{ - return mali_global_num_l2_cache_cores; -} - -u32 mali_l2_cache_core_get_max_num_l2_cores(void) -{ - return MALI_MAX_NUMBER_OF_L2_CACHE_CORES; -} - -_mali_osk_errcode_t mali_l2_cache_reset(struct mali_l2_cache_core *cache) -{ - /* Invalidate cache (just to keep it in a known state at startup) */ - mali_l2_cache_invalidate_all(cache); - - /* Enable cache */ - mali_hw_core_register_write(&cache->hw_core, MALI400_L2_CACHE_REGISTER_ENABLE, (u32)MALI400_L2_CACHE_ENABLE_ACCESS | (u32)MALI400_L2_CACHE_ENABLE_READ_ALLOCATE); - mali_hw_core_register_write(&cache->hw_core, MALI400_L2_CACHE_REGISTER_MAX_READS, (u32)mali_l2_max_reads); - - /* Restart any performance counters (if enabled) */ - _mali_osk_lock_wait(cache->counter_lock, _MALI_OSK_LOCKMODE_RW); - - if (cache->counter_src0 != MALI_HW_CORE_NO_COUNTER) - { - mali_hw_core_register_write(&cache->hw_core, MALI400_L2_CACHE_REGISTER_PERFCNT_SRC0, cache->counter_src0); - } - - if (cache->counter_src1 != MALI_HW_CORE_NO_COUNTER) - { - mali_hw_core_register_write(&cache->hw_core, MALI400_L2_CACHE_REGISTER_PERFCNT_SRC1, cache->counter_src1); - } - - _mali_osk_lock_signal(cache->counter_lock, _MALI_OSK_LOCKMODE_RW); - - return _MALI_OSK_ERR_OK; -} - -_mali_osk_errcode_t mali_l2_cache_invalidate_all(struct mali_l2_cache_core *cache) -{ - return mali_l2_cache_send_command(cache, MALI400_L2_CACHE_REGISTER_COMMAND, MALI400_L2_CACHE_COMMAND_CLEAR_ALL); -} - -_mali_osk_errcode_t mali_l2_cache_invalidate_pages(struct mali_l2_cache_core *cache, u32 *pages, u32 num_pages) -{ - u32 i; - _mali_osk_errcode_t ret1, ret = _MALI_OSK_ERR_OK; - - for (i = 0; i < num_pages; i++) - { - ret1 = mali_l2_cache_send_command(cache, MALI400_L2_CACHE_REGISTER_CLEAR_PAGE, pages[i]); - if (_MALI_OSK_ERR_OK != ret1) - { - ret = ret1; - } - } - - return ret; -} - -mali_bool mali_l2_cache_lock_power_state(struct mali_l2_cache_core *cache) -{ - /* - * Take PM lock and check power state. - * Returns MALI_TRUE if module is powered on. - * Power state will not change until mali_l2_cache_unlock_power_state() is called. - */ - mali_pm_lock(); - return mali_pm_is_powered_on(); -} - -void mali_l2_cache_unlock_power_state(struct mali_l2_cache_core *cache) -{ - /* Release PM lock */ - mali_pm_unlock(); -} - -/* -------- local helper functions below -------- */ - - -static _mali_osk_errcode_t mali_l2_cache_send_command(struct mali_l2_cache_core *cache, u32 reg, u32 val) -{ - int i = 0; - const int loop_count = 100000; - - /* - * Grab lock in order to send commands to the L2 cache in a serialized fashion. - * The L2 cache will ignore commands if it is busy. - */ - _mali_osk_lock_wait(cache->command_lock, _MALI_OSK_LOCKMODE_RW); - - /* First, wait for L2 cache command handler to go idle */ - - for (i = 0; i < loop_count; i++) - { - if (!(mali_hw_core_register_read(&cache->hw_core, MALI400_L2_CACHE_REGISTER_STATUS) & (u32)MALI400_L2_CACHE_STATUS_COMMAND_BUSY)) - { - break; - } - } - - if (i == loop_count) - { - _mali_osk_lock_signal(cache->command_lock, _MALI_OSK_LOCKMODE_RW); - MALI_DEBUG_PRINT(1, ( "Mali L2 cache: aborting wait for command interface to go idle\n")); - MALI_ERROR( _MALI_OSK_ERR_FAULT ); - } - - /* then issue the command */ - mali_hw_core_register_write(&cache->hw_core, reg, val); - - _mali_osk_lock_signal(cache->command_lock, _MALI_OSK_LOCKMODE_RW); - - MALI_SUCCESS; -} diff --git a/drivers/media/video/samsung/mali/common/mali_l2_cache.h b/drivers/media/video/samsung/mali/common/mali_l2_cache.h deleted file mode 100644 index 5a8e4da..0000000 --- a/drivers/media/video/samsung/mali/common/mali_l2_cache.h +++ /dev/null @@ -1,43 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_KERNEL_L2_CACHE_H__ -#define __MALI_KERNEL_L2_CACHE_H__ - -#include "mali_osk.h" - -struct mali_l2_cache_core; - -_mali_osk_errcode_t mali_l2_cache_initialize(void); -void mali_l2_cache_terminate(void); - -struct mali_l2_cache_core *mali_l2_cache_create(_mali_osk_resource_t * resource); -void mali_l2_cache_delete(struct mali_l2_cache_core *cache); - -u32 mali_l2_cache_get_id(struct mali_l2_cache_core *cache); - -mali_bool mali_l2_cache_core_set_counter_src0(struct mali_l2_cache_core *cache, u32 counter); -mali_bool mali_l2_cache_core_set_counter_src1(struct mali_l2_cache_core *cache, u32 counter); -u32 mali_l2_cache_core_get_counter_src0(struct mali_l2_cache_core *cache); -u32 mali_l2_cache_core_get_counter_src1(struct mali_l2_cache_core *cache); -void mali_l2_cache_core_get_counter_values(struct mali_l2_cache_core *cache, u32 *src0, u32 *value0, u32 *src1, u32 *value1); -struct mali_l2_cache_core *mali_l2_cache_core_get_glob_l2_core(u32 index); -u32 mali_l2_cache_core_get_glob_num_l2_cores(void); -u32 mali_l2_cache_core_get_max_num_l2_cores(void); - -_mali_osk_errcode_t mali_l2_cache_reset(struct mali_l2_cache_core *cache); - -_mali_osk_errcode_t mali_l2_cache_invalidate_all(struct mali_l2_cache_core *cache); -_mali_osk_errcode_t mali_l2_cache_invalidate_pages(struct mali_l2_cache_core *cache, u32 *pages, u32 num_pages); - -mali_bool mali_l2_cache_lock_power_state(struct mali_l2_cache_core *cache); -void mali_l2_cache_unlock_power_state(struct mali_l2_cache_core *cache); - -#endif /* __MALI_KERNEL_L2_CACHE_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_mem_validation.c b/drivers/media/video/samsung/mali/common/mali_mem_validation.c deleted file mode 100644 index ea9c428..0000000 --- a/drivers/media/video/samsung/mali/common/mali_mem_validation.c +++ /dev/null @@ -1,71 +0,0 @@ -/* - * Copyright (C) 2011-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_mem_validation.h" -#include "mali_osk.h" -#include "mali_kernel_common.h" - -#define MALI_INVALID_MEM_ADDR 0xFFFFFFFF - -typedef struct -{ - u32 phys_base; /**< Mali physical base of the memory, page aligned */ - u32 size; /**< size in bytes of the memory, multiple of page size */ -} _mali_mem_validation_t; - -static _mali_mem_validation_t mali_mem_validator = { MALI_INVALID_MEM_ADDR, MALI_INVALID_MEM_ADDR }; - -_mali_osk_errcode_t mali_mem_validation_add_range(const _mali_osk_resource_t *resource) -{ - /* Check that no other MEM_VALIDATION resources exist */ - if (MALI_INVALID_MEM_ADDR != mali_mem_validator.phys_base) - { - MALI_PRINT_ERROR(("Failed to add MEM_VALIDATION resource %s; another range is already specified\n", resource->description)); - return _MALI_OSK_ERR_FAULT; - } - - /* Check restrictions on page alignment */ - if ((0 != (resource->base & (~_MALI_OSK_CPU_PAGE_MASK))) || - (0 != (resource->size & (~_MALI_OSK_CPU_PAGE_MASK)))) - { - MALI_PRINT_ERROR(("Failed to add MEM_VALIDATION resource %s; incorrect alignment\n", resource->description)); - return _MALI_OSK_ERR_FAULT; - } - - mali_mem_validator.phys_base = resource->base; - mali_mem_validator.size = resource->size; - MALI_DEBUG_PRINT(2, ("Memory Validator '%s' installed for Mali physical address base=0x%08X, size=0x%08X\n", - resource->description, mali_mem_validator.phys_base, mali_mem_validator.size)); - - return _MALI_OSK_ERR_OK; -} - -_mali_osk_errcode_t mali_mem_validation_check(u32 phys_addr, u32 size) -{ - if (phys_addr < (phys_addr + size)) /* Don't allow overflow (or zero size) */ - { - if ((0 == ( phys_addr & (~_MALI_OSK_CPU_PAGE_MASK))) && - (0 == ( size & (~_MALI_OSK_CPU_PAGE_MASK)))) - { - if ((phys_addr >= mali_mem_validator.phys_base) && - ((phys_addr + (size - 1)) >= mali_mem_validator.phys_base) && - (phys_addr <= (mali_mem_validator.phys_base + (mali_mem_validator.size - 1))) && - ((phys_addr + (size - 1)) <= (mali_mem_validator.phys_base + (mali_mem_validator.size - 1))) ) - { - MALI_DEBUG_PRINT(3, ("Accepted range 0x%08X + size 0x%08X (= 0x%08X)\n", phys_addr, size, (phys_addr + size - 1))); - return _MALI_OSK_ERR_OK; - } - } - } - - MALI_PRINT_ERROR(("MALI PHYSICAL RANGE VALIDATION ERROR: The range supplied was: phys_base=0x%08X, size=0x%08X\n", phys_addr, size)); - - return _MALI_OSK_ERR_FAULT; -} diff --git a/drivers/media/video/samsung/mali/common/mali_mem_validation.h b/drivers/media/video/samsung/mali/common/mali_mem_validation.h deleted file mode 100644 index 2043b44..0000000 --- a/drivers/media/video/samsung/mali/common/mali_mem_validation.h +++ /dev/null @@ -1,19 +0,0 @@ -/* - * Copyright (C) 2011-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_MEM_VALIDATION_H__ -#define __MALI_MEM_VALIDATION_H__ - -#include "mali_osk.h" - -_mali_osk_errcode_t mali_mem_validation_add_range(const _mali_osk_resource_t * resource); -_mali_osk_errcode_t mali_mem_validation_check(u32 phys_addr, u32 size); - -#endif /* __MALI_MEM_VALIDATION_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_memory.c b/drivers/media/video/samsung/mali/common/mali_memory.c deleted file mode 100644 index 75506ed..0000000 --- a/drivers/media/video/samsung/mali/common/mali_memory.c +++ /dev/null @@ -1,1319 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_kernel_common.h" -#include "mali_kernel_descriptor_mapping.h" -#include "mali_mem_validation.h" -#include "mali_memory.h" -#include "mali_mmu_page_directory.h" -#include "mali_kernel_memory_engine.h" -#include "mali_block_allocator.h" -#include "mali_kernel_mem_os.h" -#include "mali_session.h" -#include "mali_l2_cache.h" -#include "mali_cluster.h" -#include "mali_group.h" -#if MALI_USE_UNIFIED_MEMORY_PROVIDER != 0 -#include "ump_kernel_interface.h" -#endif - -/* kernel side OS functions and user-kernel interface */ -#include "mali_osk.h" -#include "mali_osk_mali.h" -#include "mali_ukk.h" -#include "mali_osk_list.h" -#include "mali_osk_bitops.h" - -/** - * Per-session memory descriptor mapping table sizes - */ -#define MALI_MEM_DESCRIPTORS_INIT 64 -#define MALI_MEM_DESCRIPTORS_MAX 65536 - -typedef struct dedicated_memory_info -{ - u32 base; - u32 size; - struct dedicated_memory_info * next; -} dedicated_memory_info; - -/* types used for external_memory and ump_memory physical memory allocators, which are using the mali_allocation_engine */ -#if MALI_USE_UNIFIED_MEMORY_PROVIDER != 0 -typedef struct ump_mem_allocation -{ - mali_allocation_engine * engine; - mali_memory_allocation * descriptor; - u32 initial_offset; - u32 size_allocated; - ump_dd_handle ump_mem; -} ump_mem_allocation ; -#endif - -typedef struct external_mem_allocation -{ - mali_allocation_engine * engine; - mali_memory_allocation * descriptor; - u32 initial_offset; - u32 size; -} external_mem_allocation; - -/** - * @brief Internal function for unmapping memory - * - * Worker function for unmapping memory from a user-process. We assume that the - * session/descriptor's lock was obtained before entry. For example, the - * wrapper _mali_ukk_mem_munmap() will lock the descriptor, then call this - * function to do the actual unmapping. mali_memory_core_session_end() could - * also call this directly (depending on compilation options), having locked - * the descriptor. - * - * This function will fail if it is unable to put the MMU in stall mode (which - * might be the case if a page fault is also being processed). - * - * @param args see _mali_uk_mem_munmap_s in "mali_utgard_uk_types.h" - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure. - */ -static _mali_osk_errcode_t _mali_ukk_mem_munmap_internal( _mali_uk_mem_munmap_s *args ); - -#if MALI_USE_UNIFIED_MEMORY_PROVIDER != 0 -static void ump_memory_release(void * ctx, void * handle); -static mali_physical_memory_allocation_result ump_memory_commit(void* ctx, mali_allocation_engine * engine, mali_memory_allocation * descriptor, u32* offset, mali_physical_memory_allocation * alloc_info); -#endif /* MALI_USE_UNIFIED_MEMORY_PROVIDER != 0*/ - - -static void external_memory_release(void * ctx, void * handle); -static mali_physical_memory_allocation_result external_memory_commit(void* ctx, mali_allocation_engine * engine, mali_memory_allocation * descriptor, u32* offset, mali_physical_memory_allocation * alloc_info); - - -/* nop functions */ - -/* mali address manager needs to allocate page tables on allocate, write to page table(s) on map, write to page table(s) and release page tables on release */ -static _mali_osk_errcode_t mali_address_manager_allocate(mali_memory_allocation * descriptor); /* validates the range, allocates memory for the page tables if needed */ -static _mali_osk_errcode_t mali_address_manager_map(mali_memory_allocation * descriptor, u32 offset, u32 *phys_addr, u32 size); -static void mali_address_manager_release(mali_memory_allocation * descriptor); - -/* MMU variables */ - -typedef struct mali_mmu_page_table_allocation -{ - _mali_osk_list_t list; - u32 * usage_map; - u32 usage_count; - u32 num_pages; - mali_page_table_block pages; -} mali_mmu_page_table_allocation; - -typedef struct mali_mmu_page_table_allocations -{ - _mali_osk_lock_t *lock; - _mali_osk_list_t partial; - _mali_osk_list_t full; - /* we never hold on to a empty allocation */ -} mali_mmu_page_table_allocations; - -static mali_kernel_mem_address_manager mali_address_manager = -{ - mali_address_manager_allocate, /* allocate */ - mali_address_manager_release, /* release */ - mali_address_manager_map, /* map_physical */ - NULL /* unmap_physical not present*/ -}; - -/* the mmu page table cache */ -static struct mali_mmu_page_table_allocations page_table_cache; - - -static mali_kernel_mem_address_manager process_address_manager = -{ - _mali_osk_mem_mapregion_init, /* allocate */ - _mali_osk_mem_mapregion_term, /* release */ - _mali_osk_mem_mapregion_map, /* map_physical */ - _mali_osk_mem_mapregion_unmap /* unmap_physical */ -}; - -static _mali_osk_errcode_t mali_mmu_page_table_cache_create(void); -static void mali_mmu_page_table_cache_destroy(void); - -static mali_allocation_engine memory_engine = NULL; -static mali_physical_memory_allocator * physical_memory_allocators = NULL; - -static dedicated_memory_info * mem_region_registrations = NULL; - -mali_allocation_engine mali_mem_get_memory_engine(void) -{ - return memory_engine; -} - -/* called during module init */ -_mali_osk_errcode_t mali_memory_initialize(void) -{ - _mali_osk_errcode_t err; - - MALI_DEBUG_PRINT(2, ("Memory system initializing\n")); - - err = mali_mmu_page_table_cache_create(); - if(_MALI_OSK_ERR_OK != err) - { - MALI_ERROR(err); - } - - memory_engine = mali_allocation_engine_create(&mali_address_manager, &process_address_manager); - MALI_CHECK_NON_NULL( memory_engine, _MALI_OSK_ERR_FAULT); - - MALI_SUCCESS; -} - -/* called if/when our module is unloaded */ -void mali_memory_terminate(void) -{ - MALI_DEBUG_PRINT(2, ("Memory system terminating\n")); - - mali_mmu_page_table_cache_destroy(); - - while ( NULL != mem_region_registrations) - { - dedicated_memory_info * m; - m = mem_region_registrations; - mem_region_registrations = m->next; - _mali_osk_mem_unreqregion(m->base, m->size); - _mali_osk_free(m); - } - - while ( NULL != physical_memory_allocators) - { - mali_physical_memory_allocator * m; - m = physical_memory_allocators; - physical_memory_allocators = m->next; - m->destroy(m); - } - - if (NULL != memory_engine) - { - mali_allocation_engine_destroy(memory_engine); - memory_engine = NULL; - } -} - -_mali_osk_errcode_t mali_memory_session_begin(struct mali_session_data * session_data) -{ - MALI_DEBUG_PRINT(5, ("Memory session begin\n")); - - /* create descriptor mapping table */ - session_data->descriptor_mapping = mali_descriptor_mapping_create(MALI_MEM_DESCRIPTORS_INIT, MALI_MEM_DESCRIPTORS_MAX); - - if (NULL == session_data->descriptor_mapping) - { - MALI_ERROR(_MALI_OSK_ERR_NOMEM); - } - - session_data->memory_lock = _mali_osk_lock_init( _MALI_OSK_LOCKFLAG_ORDERED | _MALI_OSK_LOCKFLAG_ONELOCK - | _MALI_OSK_LOCKFLAG_NONINTERRUPTABLE, 0, _MALI_OSK_LOCK_ORDER_MEM_SESSION); - if (NULL == session_data->memory_lock) - { - mali_descriptor_mapping_destroy(session_data->descriptor_mapping); - _mali_osk_free(session_data); - MALI_ERROR(_MALI_OSK_ERR_FAULT); - } - - /* Init the session's memory allocation list */ - _MALI_OSK_INIT_LIST_HEAD( &session_data->memory_head ); - - MALI_DEBUG_PRINT(5, ("MMU session begin: success\n")); - MALI_SUCCESS; -} - -static void descriptor_table_cleanup_callback(int descriptor_id, void* map_target) -{ - mali_memory_allocation * descriptor; - - descriptor = (mali_memory_allocation*)map_target; - - MALI_DEBUG_PRINT(3, ("Cleanup of descriptor %d mapping to 0x%x in descriptor table\n", descriptor_id, map_target)); - MALI_DEBUG_ASSERT(descriptor); - - mali_allocation_engine_release_memory(memory_engine, descriptor); - _mali_osk_free(descriptor); -} - -void mali_memory_session_end(struct mali_session_data *session_data) -{ - _mali_osk_errcode_t err = _MALI_OSK_ERR_BUSY; - - MALI_DEBUG_PRINT(3, ("MMU session end\n")); - - if (NULL == session_data) - { - MALI_DEBUG_PRINT(1, ("No session data found during session end\n")); - return; - } - - while (err == _MALI_OSK_ERR_BUSY) - { - /* Lock the session so we can modify the memory list */ - _mali_osk_lock_wait( session_data->memory_lock, _MALI_OSK_LOCKMODE_RW ); - err = _MALI_OSK_ERR_OK; - - /* Free all memory engine allocations */ - if (0 == _mali_osk_list_empty(&session_data->memory_head)) - { - mali_memory_allocation *descriptor; - mali_memory_allocation *temp; - _mali_uk_mem_munmap_s unmap_args; - - MALI_DEBUG_PRINT(1, ("Memory found on session usage list during session termination\n")); - - unmap_args.ctx = session_data; - - /* use the 'safe' list iterator, since freeing removes the active block from the list we're iterating */ - _MALI_OSK_LIST_FOREACHENTRY(descriptor, temp, &session_data->memory_head, mali_memory_allocation, list) - { - MALI_DEBUG_PRINT(4, ("Freeing block with mali address 0x%x size %d mapped in user space at 0x%x\n", - descriptor->mali_address, descriptor->size, descriptor->size, descriptor->mapping) - ); - /* ASSERT that the descriptor's lock references the correct thing */ - MALI_DEBUG_ASSERT( descriptor->lock == session_data->memory_lock ); - /* Therefore, we have already locked the descriptor */ - - unmap_args.size = descriptor->size; - unmap_args.mapping = descriptor->mapping; - unmap_args.cookie = (u32)descriptor; - - /* - * This removes the descriptor from the list, and frees the descriptor - * - * Does not handle the _MALI_OSK_SPECIFIC_INDIRECT_MMAP case, since - * the only OS we are aware of that requires indirect MMAP also has - * implicit mmap cleanup. - */ - err = _mali_ukk_mem_munmap_internal( &unmap_args ); - - if (err == _MALI_OSK_ERR_BUSY) - { - _mali_osk_lock_signal( session_data->memory_lock, _MALI_OSK_LOCKMODE_RW ); - /* - * Reason for this; - * We where unable to stall the MMU, probably because we are in page fault handling. - * Sleep for a while with the session lock released, then try again. - * Abnormal termination of programs with running Mali jobs is a normal reason for this. - */ - _mali_osk_time_ubusydelay(10); - break; /* Will jump back into: "while (err == _MALI_OSK_ERR_BUSY)" */ - } - } - } - } - /* Assert that we really did free everything */ - MALI_DEBUG_ASSERT( _mali_osk_list_empty(&session_data->memory_head) ); - - if (NULL != session_data->descriptor_mapping) - { - mali_descriptor_mapping_call_for_each(session_data->descriptor_mapping, descriptor_table_cleanup_callback); - mali_descriptor_mapping_destroy(session_data->descriptor_mapping); - session_data->descriptor_mapping = NULL; - } - - _mali_osk_lock_signal( session_data->memory_lock, _MALI_OSK_LOCKMODE_RW ); - - /** - * @note Could the VMA close handler mean that we use the session data after it was freed? - * In which case, would need to refcount the session data, and free on VMA close - */ - - /* Free the lock */ - _mali_osk_lock_term( session_data->memory_lock ); - - return; -} - -_mali_osk_errcode_t mali_memory_core_resource_os_memory(_mali_osk_resource_t * resource) -{ - mali_physical_memory_allocator * allocator; - mali_physical_memory_allocator ** next_allocator_list; - - u32 alloc_order = resource->alloc_order; - - allocator = mali_os_allocator_create(resource->size, resource->cpu_usage_adjust, resource->description); - if (NULL == allocator) - { - MALI_DEBUG_PRINT(1, ("Failed to create OS memory allocator\n")); - MALI_ERROR(_MALI_OSK_ERR_FAULT); - } - - allocator->alloc_order = alloc_order; - - /* link in the allocator: insertion into ordered list - * resources of the same alloc_order will be Last-in-first */ - next_allocator_list = &physical_memory_allocators; - - while (NULL != *next_allocator_list && - (*next_allocator_list)->alloc_order < alloc_order ) - { - next_allocator_list = &((*next_allocator_list)->next); - } - - allocator->next = (*next_allocator_list); - (*next_allocator_list) = allocator; - - MALI_SUCCESS; -} - -_mali_osk_errcode_t mali_memory_core_resource_dedicated_memory(_mali_osk_resource_t * resource) -{ - mali_physical_memory_allocator * allocator; - mali_physical_memory_allocator ** next_allocator_list; - dedicated_memory_info * cleanup_data; - - u32 alloc_order = resource->alloc_order; - - /* do the low level linux operation first */ - - /* Request ownership of the memory */ - if (_MALI_OSK_ERR_OK != _mali_osk_mem_reqregion(resource->base, resource->size, resource->description)) - { - MALI_DEBUG_PRINT(1, ("Failed to request memory region %s (0x%08X - 0x%08X)\n", resource->description, resource->base, resource->base + resource->size - 1)); - MALI_ERROR(_MALI_OSK_ERR_FAULT); - } - - /* create generic block allocator object to handle it */ - allocator = mali_block_allocator_create(resource->base, resource->cpu_usage_adjust, resource->size, resource->description ); - - if (NULL == allocator) - { - MALI_DEBUG_PRINT(1, ("Memory bank registration failed\n")); - _mali_osk_mem_unreqregion(resource->base, resource->size); - MALI_ERROR(_MALI_OSK_ERR_FAULT); - } - - /* save low level cleanup info */ - allocator->alloc_order = alloc_order; - - cleanup_data = _mali_osk_malloc(sizeof(dedicated_memory_info)); - - if (NULL == cleanup_data) - { - _mali_osk_mem_unreqregion(resource->base, resource->size); - allocator->destroy(allocator); - MALI_ERROR(_MALI_OSK_ERR_FAULT); - } - - cleanup_data->base = resource->base; - cleanup_data->size = resource->size; - - cleanup_data->next = mem_region_registrations; - mem_region_registrations = cleanup_data; - - /* link in the allocator: insertion into ordered list - * resources of the same alloc_order will be Last-in-first */ - next_allocator_list = &physical_memory_allocators; - - while ( NULL != *next_allocator_list && - (*next_allocator_list)->alloc_order < alloc_order ) - { - next_allocator_list = &((*next_allocator_list)->next); - } - - allocator->next = (*next_allocator_list); - (*next_allocator_list) = allocator; - - MALI_SUCCESS; -} - -#if MALI_USE_UNIFIED_MEMORY_PROVIDER != 0 -static mali_physical_memory_allocation_result ump_memory_commit(void* ctx, mali_allocation_engine * engine, mali_memory_allocation * descriptor, u32* offset, mali_physical_memory_allocation * alloc_info) -{ - ump_dd_handle ump_mem; - u32 nr_blocks; - u32 i; - ump_dd_physical_block * ump_blocks; - ump_mem_allocation *ret_allocation; - - MALI_DEBUG_ASSERT_POINTER(ctx); - MALI_DEBUG_ASSERT_POINTER(engine); - MALI_DEBUG_ASSERT_POINTER(descriptor); - MALI_DEBUG_ASSERT_POINTER(alloc_info); - - ret_allocation = _mali_osk_malloc( sizeof( ump_mem_allocation ) ); - if ( NULL==ret_allocation ) return MALI_MEM_ALLOC_INTERNAL_FAILURE; - - ump_mem = (ump_dd_handle)ctx; - - MALI_DEBUG_PRINT(4, ("In ump_memory_commit\n")); - - nr_blocks = ump_dd_phys_block_count_get(ump_mem); - - MALI_DEBUG_PRINT(4, ("Have %d blocks\n", nr_blocks)); - - if (nr_blocks == 0) - { - MALI_DEBUG_PRINT(1, ("No block count\n")); - _mali_osk_free( ret_allocation ); - return MALI_MEM_ALLOC_INTERNAL_FAILURE; - } - - ump_blocks = _mali_osk_malloc(sizeof(*ump_blocks)*nr_blocks ); - if ( NULL==ump_blocks ) - { - _mali_osk_free( ret_allocation ); - return MALI_MEM_ALLOC_INTERNAL_FAILURE; - } - - if (UMP_DD_INVALID == ump_dd_phys_blocks_get(ump_mem, ump_blocks, nr_blocks)) - { - _mali_osk_free(ump_blocks); - _mali_osk_free( ret_allocation ); - return MALI_MEM_ALLOC_INTERNAL_FAILURE; - } - - /* Store away the initial offset for unmapping purposes */ - ret_allocation->initial_offset = *offset; - - for(i=0; i<nr_blocks; ++i) - { - MALI_DEBUG_PRINT(4, ("Mapping in 0x%08x size %d\n", ump_blocks[i].addr , ump_blocks[i].size)); - if (_MALI_OSK_ERR_OK != mali_allocation_engine_map_physical(engine, descriptor, *offset, ump_blocks[i].addr , 0, ump_blocks[i].size )) - { - u32 size_allocated = *offset - ret_allocation->initial_offset; - MALI_DEBUG_PRINT(1, ("Mapping of external memory failed\n")); - - /* unmap all previous blocks (if any) */ - mali_allocation_engine_unmap_physical(engine, descriptor, ret_allocation->initial_offset, size_allocated, (_mali_osk_mem_mapregion_flags_t)0 ); - - _mali_osk_free(ump_blocks); - _mali_osk_free(ret_allocation); - return MALI_MEM_ALLOC_INTERNAL_FAILURE; - } - *offset += ump_blocks[i].size; - } - - if (descriptor->flags & MALI_MEMORY_ALLOCATION_FLAG_MAP_GUARD_PAGE) - { - /* Map in an extra virtual guard page at the end of the VMA */ - MALI_DEBUG_PRINT(4, ("Mapping in extra guard page\n")); - if (_MALI_OSK_ERR_OK != mali_allocation_engine_map_physical(engine, descriptor, *offset, ump_blocks[0].addr , 0, _MALI_OSK_MALI_PAGE_SIZE )) - { - u32 size_allocated = *offset - ret_allocation->initial_offset; - MALI_DEBUG_PRINT(1, ("Mapping of external memory (guard page) failed\n")); - - /* unmap all previous blocks (if any) */ - mali_allocation_engine_unmap_physical(engine, descriptor, ret_allocation->initial_offset, size_allocated, (_mali_osk_mem_mapregion_flags_t)0 ); - - _mali_osk_free(ump_blocks); - _mali_osk_free(ret_allocation); - return MALI_MEM_ALLOC_INTERNAL_FAILURE; - } - *offset += _MALI_OSK_MALI_PAGE_SIZE; - } - - _mali_osk_free( ump_blocks ); - - ret_allocation->engine = engine; - ret_allocation->descriptor = descriptor; - ret_allocation->ump_mem = ump_mem; - ret_allocation->size_allocated = *offset - ret_allocation->initial_offset; - - alloc_info->ctx = NULL; - alloc_info->handle = ret_allocation; - alloc_info->next = NULL; - alloc_info->release = ump_memory_release; - - return MALI_MEM_ALLOC_FINISHED; -} - -static void ump_memory_release(void * ctx, void * handle) -{ - ump_dd_handle ump_mem; - ump_mem_allocation *allocation; - - allocation = (ump_mem_allocation *)handle; - - MALI_DEBUG_ASSERT_POINTER( allocation ); - - ump_mem = allocation->ump_mem; - - MALI_DEBUG_ASSERT(UMP_DD_HANDLE_INVALID!=ump_mem); - - /* At present, this is a no-op. But, it allows the mali_address_manager to - * do unmapping of a subrange in future. */ - mali_allocation_engine_unmap_physical( allocation->engine, - allocation->descriptor, - allocation->initial_offset, - allocation->size_allocated, - (_mali_osk_mem_mapregion_flags_t)0 - ); - _mali_osk_free( allocation ); - - - ump_dd_reference_release(ump_mem) ; - return; -} - -_mali_osk_errcode_t _mali_ukk_attach_ump_mem( _mali_uk_attach_ump_mem_s *args ) -{ - ump_dd_handle ump_mem; - mali_physical_memory_allocator external_memory_allocator; - struct mali_session_data *session_data; - mali_memory_allocation * descriptor; - int md; - - MALI_DEBUG_ASSERT_POINTER(args); - MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS); - - session_data = (struct mali_session_data *)args->ctx; - MALI_CHECK_NON_NULL(session_data, _MALI_OSK_ERR_INVALID_ARGS); - - /* check arguments */ - /* NULL might be a valid Mali address */ - if ( ! args->size) MALI_ERROR(_MALI_OSK_ERR_INVALID_ARGS); - - /* size must be a multiple of the system page size */ - if ( args->size % _MALI_OSK_MALI_PAGE_SIZE ) MALI_ERROR(_MALI_OSK_ERR_INVALID_ARGS); - - MALI_DEBUG_PRINT(3, - ("Requested to map ump memory with secure id %d into virtual memory 0x%08X, size 0x%08X\n", - args->secure_id, args->mali_address, args->size)); - - ump_mem = ump_dd_handle_create_from_secure_id( (int)args->secure_id ) ; - - if ( UMP_DD_HANDLE_INVALID==ump_mem ) MALI_ERROR(_MALI_OSK_ERR_FAULT); - - descriptor = _mali_osk_calloc(1, sizeof(mali_memory_allocation)); - if (NULL == descriptor) - { - ump_dd_reference_release(ump_mem); - MALI_ERROR(_MALI_OSK_ERR_NOMEM); - } - - descriptor->size = args->size; - descriptor->mapping = NULL; - descriptor->mali_address = args->mali_address; - descriptor->mali_addr_mapping_info = (void*)session_data; - descriptor->process_addr_mapping_info = NULL; /* do not map to process address space */ - descriptor->cache_settings = (u32) MALI_CACHE_STANDARD; - descriptor->lock = session_data->memory_lock; - - if (args->flags & _MALI_MAP_EXTERNAL_MAP_GUARD_PAGE) - { - descriptor->flags = MALI_MEMORY_ALLOCATION_FLAG_MAP_GUARD_PAGE; - } - _mali_osk_list_init( &descriptor->list ); - - if (_MALI_OSK_ERR_OK != mali_descriptor_mapping_allocate_mapping(session_data->descriptor_mapping, descriptor, &md)) - { - ump_dd_reference_release(ump_mem); - _mali_osk_free(descriptor); - MALI_ERROR(_MALI_OSK_ERR_FAULT); - } - - external_memory_allocator.allocate = ump_memory_commit; - external_memory_allocator.allocate_page_table_block = NULL; - external_memory_allocator.ctx = ump_mem; - external_memory_allocator.name = "UMP Memory"; - external_memory_allocator.next = NULL; - - _mali_osk_lock_wait(session_data->memory_lock, _MALI_OSK_LOCKMODE_RW); - - if (_MALI_OSK_ERR_OK != mali_allocation_engine_allocate_memory(memory_engine, descriptor, &external_memory_allocator, NULL)) - { - _mali_osk_lock_signal(session_data->memory_lock, _MALI_OSK_LOCKMODE_RW); - mali_descriptor_mapping_free(session_data->descriptor_mapping, md); - ump_dd_reference_release(ump_mem); - _mali_osk_free(descriptor); - MALI_ERROR(_MALI_OSK_ERR_NOMEM); - } - - _mali_osk_lock_signal(session_data->memory_lock, _MALI_OSK_LOCKMODE_RW); - - args->cookie = md; - - MALI_DEBUG_PRINT(5,("Returning from UMP attach\n")); - - /* All OK */ - MALI_SUCCESS; -} - - -_mali_osk_errcode_t _mali_ukk_release_ump_mem( _mali_uk_release_ump_mem_s *args ) -{ - mali_memory_allocation * descriptor; - struct mali_session_data *session_data; - - MALI_DEBUG_ASSERT_POINTER(args); - MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS); - - session_data = (struct mali_session_data *)args->ctx; - MALI_CHECK_NON_NULL(session_data, _MALI_OSK_ERR_INVALID_ARGS); - - if (_MALI_OSK_ERR_OK != mali_descriptor_mapping_get(session_data->descriptor_mapping, args->cookie, (void**)&descriptor)) - { - MALI_DEBUG_PRINT(1, ("Invalid memory descriptor %d used to release ump memory\n", args->cookie)); - MALI_ERROR(_MALI_OSK_ERR_FAULT); - } - - descriptor = mali_descriptor_mapping_free(session_data->descriptor_mapping, args->cookie); - - if (NULL != descriptor) - { - _mali_osk_lock_wait( session_data->memory_lock, _MALI_OSK_LOCKMODE_RW ); - - mali_allocation_engine_release_memory(memory_engine, descriptor); - - _mali_osk_lock_signal( session_data->memory_lock, _MALI_OSK_LOCKMODE_RW ); - - _mali_osk_free(descriptor); - } - - MALI_SUCCESS; - -} -#endif /* MALI_USE_UNIFIED_MEMORY_PROVIDER != 0 */ - - -static mali_physical_memory_allocation_result external_memory_commit(void* ctx, mali_allocation_engine * engine, mali_memory_allocation * descriptor, u32* offset, mali_physical_memory_allocation * alloc_info) -{ - u32 * data; - external_mem_allocation * ret_allocation; - - MALI_DEBUG_ASSERT_POINTER(ctx); - MALI_DEBUG_ASSERT_POINTER(engine); - MALI_DEBUG_ASSERT_POINTER(descriptor); - MALI_DEBUG_ASSERT_POINTER(alloc_info); - - ret_allocation = _mali_osk_malloc( sizeof(external_mem_allocation) ); - - if ( NULL == ret_allocation ) - { - return MALI_MEM_ALLOC_INTERNAL_FAILURE; - } - - data = (u32*)ctx; - - ret_allocation->engine = engine; - ret_allocation->descriptor = descriptor; - ret_allocation->initial_offset = *offset; - - alloc_info->ctx = NULL; - alloc_info->handle = ret_allocation; - alloc_info->next = NULL; - alloc_info->release = external_memory_release; - - MALI_DEBUG_PRINT(5, ("External map: mapping phys 0x%08X at mali virtual address 0x%08X staring at offset 0x%08X length 0x%08X\n", data[0], descriptor->mali_address, *offset, data[1])); - - if (_MALI_OSK_ERR_OK != mali_allocation_engine_map_physical(engine, descriptor, *offset, data[0], 0, data[1])) - { - MALI_DEBUG_PRINT(1, ("Mapping of external memory failed\n")); - _mali_osk_free(ret_allocation); - return MALI_MEM_ALLOC_INTERNAL_FAILURE; - } - *offset += data[1]; - - if (descriptor->flags & MALI_MEMORY_ALLOCATION_FLAG_MAP_GUARD_PAGE) - { - /* Map in an extra virtual guard page at the end of the VMA */ - MALI_DEBUG_PRINT(4, ("Mapping in extra guard page\n")); - if (_MALI_OSK_ERR_OK != mali_allocation_engine_map_physical(engine, descriptor, *offset, data[0], 0, _MALI_OSK_MALI_PAGE_SIZE)) - { - u32 size_allocated = *offset - ret_allocation->initial_offset; - MALI_DEBUG_PRINT(1, ("Mapping of external memory (guard page) failed\n")); - - /* unmap what we previously mapped */ - mali_allocation_engine_unmap_physical(engine, descriptor, ret_allocation->initial_offset, size_allocated, (_mali_osk_mem_mapregion_flags_t)0 ); - _mali_osk_free(ret_allocation); - return MALI_MEM_ALLOC_INTERNAL_FAILURE; - } - *offset += _MALI_OSK_MALI_PAGE_SIZE; - } - - ret_allocation->size = *offset - ret_allocation->initial_offset; - - return MALI_MEM_ALLOC_FINISHED; -} - -static void external_memory_release(void * ctx, void * handle) -{ - external_mem_allocation * allocation; - - allocation = (external_mem_allocation *) handle; - MALI_DEBUG_ASSERT_POINTER( allocation ); - - /* At present, this is a no-op. But, it allows the mali_address_manager to - * do unmapping of a subrange in future. */ - - mali_allocation_engine_unmap_physical( allocation->engine, - allocation->descriptor, - allocation->initial_offset, - allocation->size, - (_mali_osk_mem_mapregion_flags_t)0 - ); - - _mali_osk_free( allocation ); - - return; -} - -_mali_osk_errcode_t _mali_ukk_map_external_mem( _mali_uk_map_external_mem_s *args ) -{ - mali_physical_memory_allocator external_memory_allocator; - struct mali_session_data *session_data; - u32 info[2]; - mali_memory_allocation * descriptor; - int md; - - MALI_DEBUG_ASSERT_POINTER(args); - MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS); - - session_data = (struct mali_session_data *)args->ctx; - MALI_CHECK_NON_NULL(session_data, _MALI_OSK_ERR_INVALID_ARGS); - - external_memory_allocator.allocate = external_memory_commit; - external_memory_allocator.allocate_page_table_block = NULL; - external_memory_allocator.ctx = &info[0]; - external_memory_allocator.name = "External Memory"; - external_memory_allocator.next = NULL; - - /* check arguments */ - /* NULL might be a valid Mali address */ - if ( ! args->size) MALI_ERROR(_MALI_OSK_ERR_INVALID_ARGS); - - /* size must be a multiple of the system page size */ - if ( args->size % _MALI_OSK_MALI_PAGE_SIZE ) MALI_ERROR(_MALI_OSK_ERR_INVALID_ARGS); - - MALI_DEBUG_PRINT(3, - ("Requested to map physical memory 0x%x-0x%x into virtual memory 0x%x\n", - (void*)args->phys_addr, - (void*)(args->phys_addr + args->size -1), - (void*)args->mali_address) - ); - - /* Validate the mali physical range */ - if (_MALI_OSK_ERR_OK != mali_mem_validation_check(args->phys_addr, args->size)) - { - return _MALI_OSK_ERR_FAULT; - } - - info[0] = args->phys_addr; - info[1] = args->size; - - descriptor = _mali_osk_calloc(1, sizeof(mali_memory_allocation)); - if (NULL == descriptor) MALI_ERROR(_MALI_OSK_ERR_NOMEM); - - descriptor->size = args->size; - descriptor->mapping = NULL; - descriptor->mali_address = args->mali_address; - descriptor->mali_addr_mapping_info = (void*)session_data; - descriptor->process_addr_mapping_info = NULL; /* do not map to process address space */ - descriptor->cache_settings = (u32)MALI_CACHE_STANDARD; - descriptor->lock = session_data->memory_lock; - if (args->flags & _MALI_MAP_EXTERNAL_MAP_GUARD_PAGE) - { - descriptor->flags = MALI_MEMORY_ALLOCATION_FLAG_MAP_GUARD_PAGE; - } - _mali_osk_list_init( &descriptor->list ); - - _mali_osk_lock_wait(session_data->memory_lock, _MALI_OSK_LOCKMODE_RW); - - if (_MALI_OSK_ERR_OK != mali_allocation_engine_allocate_memory(memory_engine, descriptor, &external_memory_allocator, NULL)) - { - _mali_osk_lock_signal(session_data->memory_lock, _MALI_OSK_LOCKMODE_RW); - _mali_osk_free(descriptor); - MALI_ERROR(_MALI_OSK_ERR_NOMEM); - } - - _mali_osk_lock_signal(session_data->memory_lock, _MALI_OSK_LOCKMODE_RW); - - if (_MALI_OSK_ERR_OK != mali_descriptor_mapping_allocate_mapping(session_data->descriptor_mapping, descriptor, &md)) - { - mali_allocation_engine_release_memory(memory_engine, descriptor); - _mali_osk_free(descriptor); - MALI_ERROR(_MALI_OSK_ERR_FAULT); - } - - args->cookie = md; - - MALI_DEBUG_PRINT(5,("Returning from range_map_external_memory\n")); - - /* All OK */ - MALI_SUCCESS; -} - - -_mali_osk_errcode_t _mali_ukk_unmap_external_mem( _mali_uk_unmap_external_mem_s *args ) -{ - mali_memory_allocation * descriptor; - void* old_value; - struct mali_session_data *session_data; - - MALI_DEBUG_ASSERT_POINTER(args); - MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS); - - session_data = (struct mali_session_data *)args->ctx; - MALI_CHECK_NON_NULL(session_data, _MALI_OSK_ERR_INVALID_ARGS); - - if (_MALI_OSK_ERR_OK != mali_descriptor_mapping_get(session_data->descriptor_mapping, args->cookie, (void**)&descriptor)) - { - MALI_DEBUG_PRINT(1, ("Invalid memory descriptor %d used to unmap external memory\n", args->cookie)); - MALI_ERROR(_MALI_OSK_ERR_FAULT); - } - - old_value = mali_descriptor_mapping_free(session_data->descriptor_mapping, args->cookie); - - if (NULL != old_value) - { - _mali_osk_lock_wait( session_data->memory_lock, _MALI_OSK_LOCKMODE_RW ); - - mali_allocation_engine_release_memory(memory_engine, descriptor); - - _mali_osk_lock_signal( session_data->memory_lock, _MALI_OSK_LOCKMODE_RW ); - - _mali_osk_free(descriptor); - } - - MALI_SUCCESS; -} - -_mali_osk_errcode_t _mali_ukk_init_mem( _mali_uk_init_mem_s *args ) -{ - MALI_DEBUG_ASSERT_POINTER(args); - MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS); - - args->memory_size = 2 * 1024 * 1024 * 1024UL; /* 2GB address space */ - args->mali_address_base = 1 * 1024 * 1024 * 1024UL; /* staring at 1GB, causing this layout: (0-1GB unused)(1GB-3G usage by Mali)(3G-4G unused) */ - MALI_SUCCESS; -} - -_mali_osk_errcode_t _mali_ukk_term_mem( _mali_uk_term_mem_s *args ) -{ - MALI_DEBUG_ASSERT_POINTER(args); - MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS); - MALI_SUCCESS; -} - -static _mali_osk_errcode_t mali_address_manager_allocate(mali_memory_allocation * descriptor) -{ - struct mali_session_data *session_data; - u32 actual_size; - - MALI_DEBUG_ASSERT_POINTER(descriptor); - - session_data = (struct mali_session_data *)descriptor->mali_addr_mapping_info; - - actual_size = descriptor->size; - - if (descriptor->flags & MALI_MEMORY_ALLOCATION_FLAG_MAP_GUARD_PAGE) - { - actual_size += _MALI_OSK_MALI_PAGE_SIZE; - } - - return mali_mmu_pagedir_map(session_data->page_directory, descriptor->mali_address, actual_size); -} - -static void mali_address_manager_release(mali_memory_allocation * descriptor) -{ - const u32 illegal_mali_address = 0xffffffff; - struct mali_session_data *session_data; - MALI_DEBUG_ASSERT_POINTER(descriptor); - - /* It is allowed to call this function several times on the same descriptor. - When memory is released we set the illegal_mali_address so we can early out here. */ - if ( illegal_mali_address == descriptor->mali_address) return; - - session_data = (struct mali_session_data *)descriptor->mali_addr_mapping_info; - mali_mmu_pagedir_unmap(session_data->page_directory, descriptor->mali_address, descriptor->size); - - descriptor->mali_address = illegal_mali_address ; -} - -static _mali_osk_errcode_t mali_address_manager_map(mali_memory_allocation * descriptor, u32 offset, u32 *phys_addr, u32 size) -{ - struct mali_session_data *session_data; - u32 mali_address; - - MALI_DEBUG_ASSERT_POINTER(descriptor); - MALI_DEBUG_ASSERT_POINTER(phys_addr); - - session_data = (struct mali_session_data *)descriptor->mali_addr_mapping_info; - MALI_DEBUG_ASSERT_POINTER(session_data); - - mali_address = descriptor->mali_address + offset; - - MALI_DEBUG_PRINT(7, ("Mali map: mapping 0x%08X to Mali address 0x%08X length 0x%08X\n", *phys_addr, mali_address, size)); - - mali_mmu_pagedir_update(session_data->page_directory, mali_address, *phys_addr, size, descriptor->cache_settings); - - MALI_SUCCESS; -} - -/* This handler registered to mali_mmap for MMU builds */ -_mali_osk_errcode_t _mali_ukk_mem_mmap( _mali_uk_mem_mmap_s *args ) -{ - struct mali_session_data *session_data; - mali_memory_allocation * descriptor; - - /* validate input */ - if (NULL == args) { MALI_DEBUG_PRINT(3,("mali_ukk_mem_mmap: args was NULL\n")); MALI_ERROR(_MALI_OSK_ERR_INVALID_ARGS); } - - /* Unpack arguments */ - session_data = (struct mali_session_data *)args->ctx; - - /* validate input */ - if (NULL == session_data) { MALI_DEBUG_PRINT(3,("mali_ukk_mem_mmap: session data was NULL\n")); MALI_ERROR(_MALI_OSK_ERR_FAULT); } - - descriptor = (mali_memory_allocation*) _mali_osk_calloc( 1, sizeof(mali_memory_allocation) ); - if (NULL == descriptor) { MALI_DEBUG_PRINT(3,("mali_ukk_mem_mmap: descriptor was NULL\n")); MALI_ERROR(_MALI_OSK_ERR_NOMEM); } - - descriptor->size = args->size; - descriptor->mali_address = args->phys_addr; - descriptor->mali_addr_mapping_info = (void*)session_data; - - descriptor->process_addr_mapping_info = args->ukk_private; /* save to be used during physical manager callback */ - descriptor->flags = MALI_MEMORY_ALLOCATION_FLAG_MAP_INTO_USERSPACE; - descriptor->cache_settings = (u32) args->cache_settings ; - descriptor->lock = session_data->memory_lock; - _mali_osk_list_init( &descriptor->list ); - - _mali_osk_lock_wait(session_data->memory_lock, _MALI_OSK_LOCKMODE_RW); - - if (0 == mali_allocation_engine_allocate_memory(memory_engine, descriptor, physical_memory_allocators, &session_data->memory_head)) - { - /* We do not FLUSH nor TLB_ZAP on MMAP, since we do both of those on job start*/ - _mali_osk_lock_signal(session_data->memory_lock, _MALI_OSK_LOCKMODE_RW); - - args->mapping = descriptor->mapping; - args->cookie = (u32)descriptor; - - MALI_DEBUG_PRINT(7, ("MMAP OK\n")); - MALI_SUCCESS; - } - else - { - _mali_osk_lock_signal(session_data->memory_lock, _MALI_OSK_LOCKMODE_RW); - /* OOM, but not a fatal error */ - MALI_DEBUG_PRINT(4, ("Memory allocation failure, OOM\n")); - _mali_osk_free(descriptor); - /* Linux will free the CPU address allocation, userspace client the Mali address allocation */ - MALI_ERROR(_MALI_OSK_ERR_FAULT); - } -} - -static _mali_osk_errcode_t _mali_ukk_mem_munmap_internal( _mali_uk_mem_munmap_s *args ) -{ - struct mali_session_data *session_data; - mali_memory_allocation * descriptor; - - u32 num_groups = mali_group_get_glob_num_groups(); - struct mali_group *group; - u32 i; - - descriptor = (mali_memory_allocation *)args->cookie; - MALI_DEBUG_ASSERT_POINTER(descriptor); - - /** @note args->context unused; we use the memory_session from the cookie */ - /* args->mapping and args->size are also discarded. They are only necessary - for certain do_munmap implementations. However, they could be used to check the - descriptor at this point. */ - - session_data = (struct mali_session_data *)descriptor->mali_addr_mapping_info; - MALI_DEBUG_ASSERT_POINTER(session_data); - - /* Unmapping the memory from the mali virtual address space. - It is allowed to call this function severeal times, which might happen if zapping below fails. */ - mali_allocation_engine_release_pt1_mali_pagetables_unmap(memory_engine, descriptor); - -#ifdef MALI_UNMAP_FLUSH_ALL_MALI_L2 - { - u32 number_of_clusters = mali_cluster_get_glob_num_clusters(); - for (i = 0; i < number_of_clusters; i++) - { - struct mali_cluster *cluster; - cluster = mali_cluster_get_global_cluster(i); - if( mali_cluster_power_is_enabled_get(cluster) ) - { - mali_cluster_l2_cache_invalidate_all_force(cluster); - } - } - } -#endif - - for (i = 0; i < num_groups; i++) - { - group = mali_group_get_glob_group(i); - mali_group_lock(group); - mali_group_remove_session_if_unused(group, session_data); - if (mali_group_get_session(group) == session_data) - { - /* The Zap also does the stall and disable_stall */ - mali_bool zap_success = mali_mmu_zap_tlb(mali_group_get_mmu(group)); - if (MALI_TRUE != zap_success) - { - MALI_DEBUG_PRINT(2, ("Mali memory unmap failed. Doing pagefault handling.\n")); - mali_group_bottom_half(group, GROUP_EVENT_MMU_PAGE_FAULT); - /* The bottom half will also do the unlock */ - continue; - } - } - mali_group_unlock(group); - } - - /* Removes the descriptor from the session's memory list, releases physical memory, releases descriptor */ - mali_allocation_engine_release_pt2_physical_memory_free(memory_engine, descriptor); - - _mali_osk_free(descriptor); - - return _MALI_OSK_ERR_OK; -} - -/* Handler for unmapping memory for MMU builds */ -_mali_osk_errcode_t _mali_ukk_mem_munmap( _mali_uk_mem_munmap_s *args ) -{ - mali_memory_allocation * descriptor; - _mali_osk_lock_t *descriptor_lock; - _mali_osk_errcode_t err; - - descriptor = (mali_memory_allocation *)args->cookie; - MALI_DEBUG_ASSERT_POINTER(descriptor); - - /** @note args->context unused; we use the memory_session from the cookie */ - /* args->mapping and args->size are also discarded. They are only necessary - for certain do_munmap implementations. However, they could be used to check the - descriptor at this point. */ - - MALI_DEBUG_ASSERT_POINTER((struct mali_session_data *)descriptor->mali_addr_mapping_info); - - descriptor_lock = descriptor->lock; /* should point to the session data lock... */ - - err = _MALI_OSK_ERR_BUSY; - while (err == _MALI_OSK_ERR_BUSY) - { - if (descriptor_lock) - { - _mali_osk_lock_wait( descriptor_lock, _MALI_OSK_LOCKMODE_RW ); - } - - err = _mali_ukk_mem_munmap_internal( args ); - - if (descriptor_lock) - { - _mali_osk_lock_signal( descriptor_lock, _MALI_OSK_LOCKMODE_RW ); - } - - if (err == _MALI_OSK_ERR_BUSY) - { - /* - * Reason for this; - * We where unable to stall the MMU, probably because we are in page fault handling. - * Sleep for a while with the session lock released, then try again. - * Abnormal termination of programs with running Mali jobs is a normal reason for this. - */ - _mali_osk_time_ubusydelay(10); - } - } - - return err; -} - -u32 _mali_ukk_report_memory_usage(void) -{ - return mali_allocation_engine_memory_usage(physical_memory_allocators); -} - -_mali_osk_errcode_t mali_mmu_get_table_page(u32 *table_page, mali_io_address *mapping) -{ - _mali_osk_lock_wait(page_table_cache.lock, _MALI_OSK_LOCKMODE_RW); - - if (0 == _mali_osk_list_empty(&page_table_cache.partial)) - { - mali_mmu_page_table_allocation * alloc = _MALI_OSK_LIST_ENTRY(page_table_cache.partial.next, mali_mmu_page_table_allocation, list); - int page_number = _mali_osk_find_first_zero_bit(alloc->usage_map, alloc->num_pages); - MALI_DEBUG_PRINT(6, ("Partial page table allocation found, using page offset %d\n", page_number)); - _mali_osk_set_nonatomic_bit(page_number, alloc->usage_map); - alloc->usage_count++; - if (alloc->num_pages == alloc->usage_count) - { - /* full, move alloc to full list*/ - _mali_osk_list_move(&alloc->list, &page_table_cache.full); - } - _mali_osk_lock_signal(page_table_cache.lock, _MALI_OSK_LOCKMODE_RW); - - *table_page = (MALI_MMU_PAGE_SIZE * page_number) + alloc->pages.phys_base; - *mapping = (mali_io_address)((MALI_MMU_PAGE_SIZE * page_number) + (u32)alloc->pages.mapping); - MALI_DEBUG_PRINT(4, ("Page table allocated for VA=0x%08X, MaliPA=0x%08X\n", *mapping, *table_page )); - MALI_SUCCESS; - } - else - { - mali_mmu_page_table_allocation * alloc; - /* no free pages, allocate a new one */ - - alloc = (mali_mmu_page_table_allocation *)_mali_osk_calloc(1, sizeof(mali_mmu_page_table_allocation)); - if (NULL == alloc) - { - _mali_osk_lock_signal(page_table_cache.lock, _MALI_OSK_LOCKMODE_RW); - *table_page = MALI_INVALID_PAGE; - MALI_ERROR(_MALI_OSK_ERR_NOMEM); - } - - _MALI_OSK_INIT_LIST_HEAD(&alloc->list); - - if (_MALI_OSK_ERR_OK != mali_allocation_engine_allocate_page_tables(memory_engine, &alloc->pages, physical_memory_allocators)) - { - MALI_DEBUG_PRINT(1, ("No more memory for page tables\n")); - _mali_osk_free(alloc); - _mali_osk_lock_signal(page_table_cache.lock, _MALI_OSK_LOCKMODE_RW); - *table_page = MALI_INVALID_PAGE; - *mapping = NULL; - MALI_ERROR(_MALI_OSK_ERR_NOMEM); - } - - /* create the usage map */ - alloc->num_pages = alloc->pages.size / MALI_MMU_PAGE_SIZE; - alloc->usage_count = 1; - MALI_DEBUG_PRINT(3, ("New page table cache expansion, %d pages in new cache allocation\n", alloc->num_pages)); - alloc->usage_map = _mali_osk_calloc(1, ((alloc->num_pages + BITS_PER_LONG - 1) & ~(BITS_PER_LONG-1) / BITS_PER_LONG) * sizeof(unsigned long)); - if (NULL == alloc->usage_map) - { - MALI_DEBUG_PRINT(1, ("Failed to allocate memory to describe MMU page table cache usage\n")); - alloc->pages.release(&alloc->pages); - _mali_osk_free(alloc); - _mali_osk_lock_signal(page_table_cache.lock, _MALI_OSK_LOCKMODE_RW); - *table_page = MALI_INVALID_PAGE; - *mapping = NULL; - MALI_ERROR(_MALI_OSK_ERR_NOMEM); - } - - _mali_osk_set_nonatomic_bit(0, alloc->usage_map); - - if (alloc->num_pages > 1) - { - _mali_osk_list_add(&alloc->list, &page_table_cache.partial); - } - else - { - _mali_osk_list_add(&alloc->list, &page_table_cache.full); - } - - _mali_osk_lock_signal(page_table_cache.lock, _MALI_OSK_LOCKMODE_RW); - *table_page = alloc->pages.phys_base; /* return the first page */ - *mapping = alloc->pages.mapping; /* Mapping for first page */ - MALI_DEBUG_PRINT(4, ("Page table allocated: VA=0x%08X, MaliPA=0x%08X\n", *mapping, *table_page )); - MALI_SUCCESS; - } -} - -void mali_mmu_release_table_page(u32 pa) -{ - mali_mmu_page_table_allocation * alloc, * temp_alloc; - - MALI_DEBUG_PRINT_IF(1, pa & 4095, ("Bad page address 0x%x given to mali_mmu_release_table_page\n", (void*)pa)); - - MALI_DEBUG_PRINT(4, ("Releasing table page 0x%08X to the cache\n", pa)); - - _mali_osk_lock_wait(page_table_cache.lock, _MALI_OSK_LOCKMODE_RW); - - /* find the entry this address belongs to */ - /* first check the partial list */ - _MALI_OSK_LIST_FOREACHENTRY(alloc, temp_alloc, &page_table_cache.partial, mali_mmu_page_table_allocation, list) - { - u32 start = alloc->pages.phys_base; - u32 last = start + (alloc->num_pages - 1) * MALI_MMU_PAGE_SIZE; - if (pa >= start && pa <= last) - { - MALI_DEBUG_ASSERT(0 != _mali_osk_test_bit((pa - start)/MALI_MMU_PAGE_SIZE, alloc->usage_map)); - _mali_osk_clear_nonatomic_bit((pa - start)/MALI_MMU_PAGE_SIZE, alloc->usage_map); - alloc->usage_count--; - - _mali_osk_memset((void*)( ((u32)alloc->pages.mapping) + (pa - start) ), 0, MALI_MMU_PAGE_SIZE); - - if (0 == alloc->usage_count) - { - /* empty, release whole page alloc */ - _mali_osk_list_del(&alloc->list); - alloc->pages.release(&alloc->pages); - _mali_osk_free(alloc->usage_map); - _mali_osk_free(alloc); - } - _mali_osk_lock_signal(page_table_cache.lock, _MALI_OSK_LOCKMODE_RW); - MALI_DEBUG_PRINT(4, ("(partial list)Released table page 0x%08X to the cache\n", pa)); - return; - } - } - - /* the check the full list */ - _MALI_OSK_LIST_FOREACHENTRY(alloc, temp_alloc, &page_table_cache.full, mali_mmu_page_table_allocation, list) - { - u32 start = alloc->pages.phys_base; - u32 last = start + (alloc->num_pages - 1) * MALI_MMU_PAGE_SIZE; - if (pa >= start && pa <= last) - { - _mali_osk_clear_nonatomic_bit((pa - start)/MALI_MMU_PAGE_SIZE, alloc->usage_map); - alloc->usage_count--; - - _mali_osk_memset((void*)( ((u32)alloc->pages.mapping) + (pa - start) ), 0, MALI_MMU_PAGE_SIZE); - - - if (0 == alloc->usage_count) - { - /* empty, release whole page alloc */ - _mali_osk_list_del(&alloc->list); - alloc->pages.release(&alloc->pages); - _mali_osk_free(alloc->usage_map); - _mali_osk_free(alloc); - } - else - { - /* transfer to partial list */ - _mali_osk_list_move(&alloc->list, &page_table_cache.partial); - } - - _mali_osk_lock_signal(page_table_cache.lock, _MALI_OSK_LOCKMODE_RW); - MALI_DEBUG_PRINT(4, ("(full list)Released table page 0x%08X to the cache\n", pa)); - return; - } - } - - MALI_DEBUG_PRINT(1, ("pa 0x%x not found in the page table cache\n", (void*)pa)); - - _mali_osk_lock_signal(page_table_cache.lock, _MALI_OSK_LOCKMODE_RW); -} - -static _mali_osk_errcode_t mali_mmu_page_table_cache_create(void) -{ - page_table_cache.lock = _mali_osk_lock_init( _MALI_OSK_LOCKFLAG_ORDERED | _MALI_OSK_LOCKFLAG_ONELOCK - | _MALI_OSK_LOCKFLAG_NONINTERRUPTABLE, 0, _MALI_OSK_LOCK_ORDER_MEM_PT_CACHE); - MALI_CHECK_NON_NULL( page_table_cache.lock, _MALI_OSK_ERR_FAULT ); - _MALI_OSK_INIT_LIST_HEAD(&page_table_cache.partial); - _MALI_OSK_INIT_LIST_HEAD(&page_table_cache.full); - MALI_SUCCESS; -} - -static void mali_mmu_page_table_cache_destroy(void) -{ - mali_mmu_page_table_allocation * alloc, *temp; - - _MALI_OSK_LIST_FOREACHENTRY(alloc, temp, &page_table_cache.partial, mali_mmu_page_table_allocation, list) - { - MALI_DEBUG_PRINT_IF(1, 0 != alloc->usage_count, ("Destroying page table cache while pages are tagged as in use. %d allocations still marked as in use.\n", alloc->usage_count)); - _mali_osk_list_del(&alloc->list); - alloc->pages.release(&alloc->pages); - _mali_osk_free(alloc->usage_map); - _mali_osk_free(alloc); - } - - MALI_DEBUG_PRINT_IF(1, 0 == _mali_osk_list_empty(&page_table_cache.full), ("Page table cache full list contains one or more elements \n")); - - _MALI_OSK_LIST_FOREACHENTRY(alloc, temp, &page_table_cache.full, mali_mmu_page_table_allocation, list) - { - MALI_DEBUG_PRINT(1, ("Destroy alloc 0x%08X with usage count %d\n", (u32)alloc, alloc->usage_count)); - _mali_osk_list_del(&alloc->list); - alloc->pages.release(&alloc->pages); - _mali_osk_free(alloc->usage_map); - _mali_osk_free(alloc); - } - - _mali_osk_lock_term(page_table_cache.lock); -} diff --git a/drivers/media/video/samsung/mali/common/mali_memory.h b/drivers/media/video/samsung/mali/common/mali_memory.h deleted file mode 100644 index 78e2945..0000000 --- a/drivers/media/video/samsung/mali/common/mali_memory.h +++ /dev/null @@ -1,82 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_MEMORY_H__ -#define __MALI_MEMORY_H__ - -#include "mali_osk.h" -#include "mali_session.h" - -struct mali_cluster; -struct mali_group; - -/** @brief Initialize Mali memory subsystem - * - * Allocate and initialize internal data structures. Must be called before - * allocating Mali memory. - * - * @return On success _MALI_OSK_ERR_OK, othervise some error code describing the error. - */ -_mali_osk_errcode_t mali_memory_initialize(void); - -/** @brief Terminate Mali memory system - * - * Clean up and release internal data structures. - */ -void mali_memory_terminate(void); - -/** @brief Start new Mali memory session - * - * Allocate and prepare session specific memory allocation data data. The - * session page directory, lock, and descriptor map is set up. - * - * @param mali_session_data pointer to the session data structure - */ -_mali_osk_errcode_t mali_memory_session_begin(struct mali_session_data *mali_session_data); - -/** @brief Close a Mali memory session - * - * Release session specific memory allocation related data. - * - * @param mali_session_data pointer to the session data structure - */ -void mali_memory_session_end(struct mali_session_data *mali_session_data); - -/** @brief Allocate a page table page - * - * Allocate a page for use as a page directory or page table. The page is - * mapped into kernel space. - * - * @return _MALI_OSK_ERR_OK on success, othervise an error code - * @param table_page GPU pointer to the allocated page - * @param mapping CPU pointer to the mapping of the allocated page - */ -_mali_osk_errcode_t mali_mmu_get_table_page(u32 *table_page, mali_io_address *mapping); - -/** @brief Release a page table page - * - * Release a page table page allocated through \a mali_mmu_get_table_page - * - * @param pa the GPU address of the page to release - */ -void mali_mmu_release_table_page(u32 pa); - - -/** @brief Parse resource and prepare the OS memory allocator - */ -_mali_osk_errcode_t mali_memory_core_resource_os_memory(_mali_osk_resource_t * resource); - -/** @brief Parse resource and prepare the dedicated memory allocator - */ -_mali_osk_errcode_t mali_memory_core_resource_dedicated_memory(_mali_osk_resource_t * resource); - -mali_allocation_engine mali_mem_get_memory_engine(void); - -#endif /* __MALI_MEMORY_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_mmu.c b/drivers/media/video/samsung/mali/common/mali_mmu.c deleted file mode 100644 index 2f2fa4d..0000000 --- a/drivers/media/video/samsung/mali/common/mali_mmu.c +++ /dev/null @@ -1,619 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_kernel_common.h" -#include "mali_osk.h" -#include "mali_osk_bitops.h" -#include "mali_osk_list.h" -#include "mali_ukk.h" - -#include "mali_mmu.h" -#include "mali_hw_core.h" -#include "mali_group.h" -#include "mali_mmu_page_directory.h" - -/** - * Size of the MMU registers in bytes - */ -#define MALI_MMU_REGISTERS_SIZE 0x24 - -/** - * MMU register numbers - * Used in the register read/write routines. - * See the hardware documentation for more information about each register - */ -typedef enum mali_mmu_register { - MALI_MMU_REGISTER_DTE_ADDR = 0x0000, /**< Current Page Directory Pointer */ - MALI_MMU_REGISTER_STATUS = 0x0004, /**< Status of the MMU */ - MALI_MMU_REGISTER_COMMAND = 0x0008, /**< Command register, used to control the MMU */ - MALI_MMU_REGISTER_PAGE_FAULT_ADDR = 0x000C, /**< Logical address of the last page fault */ - MALI_MMU_REGISTER_ZAP_ONE_LINE = 0x010, /**< Used to invalidate the mapping of a single page from the MMU */ - MALI_MMU_REGISTER_INT_RAWSTAT = 0x0014, /**< Raw interrupt status, all interrupts visible */ - MALI_MMU_REGISTER_INT_CLEAR = 0x0018, /**< Indicate to the MMU that the interrupt has been received */ - MALI_MMU_REGISTER_INT_MASK = 0x001C, /**< Enable/disable types of interrupts */ - MALI_MMU_REGISTER_INT_STATUS = 0x0020 /**< Interrupt status based on the mask */ -} mali_mmu_register; - -/** - * MMU interrupt register bits - * Each cause of the interrupt is reported - * through the (raw) interrupt status registers. - * Multiple interrupts can be pending, so multiple bits - * can be set at once. - */ -typedef enum mali_mmu_interrupt -{ - MALI_MMU_INTERRUPT_PAGE_FAULT = 0x01, /**< A page fault occured */ - MALI_MMU_INTERRUPT_READ_BUS_ERROR = 0x02 /**< A bus read error occured */ -} mali_mmu_interrupt; - -/** - * MMU commands - * These are the commands that can be sent - * to the MMU unit. - */ -typedef enum mali_mmu_command -{ - MALI_MMU_COMMAND_ENABLE_PAGING = 0x00, /**< Enable paging (memory translation) */ - MALI_MMU_COMMAND_DISABLE_PAGING = 0x01, /**< Disable paging (memory translation) */ - MALI_MMU_COMMAND_ENABLE_STALL = 0x02, /**< Enable stall on page fault */ - MALI_MMU_COMMAND_DISABLE_STALL = 0x03, /**< Disable stall on page fault */ - MALI_MMU_COMMAND_ZAP_CACHE = 0x04, /**< Zap the entire page table cache */ - MALI_MMU_COMMAND_PAGE_FAULT_DONE = 0x05, /**< Page fault processed */ - MALI_MMU_COMMAND_HARD_RESET = 0x06 /**< Reset the MMU back to power-on settings */ -} mali_mmu_command; - -typedef enum mali_mmu_status_bits -{ - MALI_MMU_STATUS_BIT_PAGING_ENABLED = 1 << 0, - MALI_MMU_STATUS_BIT_PAGE_FAULT_ACTIVE = 1 << 1, - MALI_MMU_STATUS_BIT_STALL_ACTIVE = 1 << 2, - MALI_MMU_STATUS_BIT_IDLE = 1 << 3, - MALI_MMU_STATUS_BIT_REPLAY_BUFFER_EMPTY = 1 << 4, - MALI_MMU_STATUS_BIT_PAGE_FAULT_IS_WRITE = 1 << 5, -} mali_mmu_status_bits; - -/** - * Definition of the MMU struct - * Used to track a MMU unit in the system. - * Contains information about the mapping of the registers - */ -struct mali_mmu_core -{ - struct mali_hw_core hw_core; /**< Common for all HW cores */ - struct mali_group *group; /**< Parent core group */ - _mali_osk_irq_t *irq; /**< IRQ handler */ -}; - -/** - * The MMU interrupt handler - * Upper half of the MMU interrupt processing. - * Called by the kernel when the MMU has triggered an interrupt. - * The interrupt function supports IRQ sharing. So it'll probe the MMU in question - * @param irq The irq number (not used) - * @param dev_id Points to the MMU object being handled - * @param regs Registers of interrupted process (not used) - * @return Standard Linux interrupt result. - * Subset used by the driver is IRQ_HANDLED processed - * IRQ_NONE Not processed - */ -static _mali_osk_errcode_t mali_mmu_upper_half(void * data); - -/** - * The MMU reset hander - * Bottom half of the MMU interrupt processing for page faults and bus errors - * @param work The item to operate on, NULL in our case - */ -static void mali_mmu_bottom_half(void *data); - -static void mali_mmu_probe_trigger(void *data); -static _mali_osk_errcode_t mali_mmu_probe_ack(void *data); - -MALI_STATIC_INLINE _mali_osk_errcode_t mali_mmu_raw_reset(struct mali_mmu_core *mmu); - -/* page fault queue flush helper pages - * note that the mapping pointers are currently unused outside of the initialization functions */ -static u32 mali_page_fault_flush_page_directory = MALI_INVALID_PAGE; -static u32 mali_page_fault_flush_page_table = MALI_INVALID_PAGE; -static u32 mali_page_fault_flush_data_page = MALI_INVALID_PAGE; - -/* an empty page directory (no address valid) which is active on any MMU not currently marked as in use */ -static u32 mali_empty_page_directory = MALI_INVALID_PAGE; - -_mali_osk_errcode_t mali_mmu_initialize(void) -{ - /* allocate the helper pages */ - mali_empty_page_directory = mali_allocate_empty_page(); - if(0 == mali_empty_page_directory) - { - mali_empty_page_directory = MALI_INVALID_PAGE; - return _MALI_OSK_ERR_NOMEM; - } - - if (_MALI_OSK_ERR_OK != mali_create_fault_flush_pages(&mali_page_fault_flush_page_directory, - &mali_page_fault_flush_page_table, &mali_page_fault_flush_data_page)) - { - mali_free_empty_page(mali_empty_page_directory); - return _MALI_OSK_ERR_FAULT; - } - - return _MALI_OSK_ERR_OK; -} - -void mali_mmu_terminate(void) -{ - MALI_DEBUG_PRINT(3, ("Mali MMU: terminating\n")); - - /* Free global helper pages */ - mali_free_empty_page(mali_empty_page_directory); - - /* Free the page fault flush pages */ - mali_destroy_fault_flush_pages(&mali_page_fault_flush_page_directory, - &mali_page_fault_flush_page_table, &mali_page_fault_flush_data_page); -} - -struct mali_mmu_core *mali_mmu_create(_mali_osk_resource_t *resource) -{ - struct mali_mmu_core* mmu = NULL; - - MALI_DEBUG_ASSERT_POINTER(resource); - - MALI_DEBUG_PRINT(2, ("Mali MMU: Creating Mali MMU: %s\n", resource->description)); - - mmu = _mali_osk_calloc(1,sizeof(struct mali_mmu_core)); - if (NULL != mmu) - { - if (_MALI_OSK_ERR_OK == mali_hw_core_create(&mmu->hw_core, resource, MALI_MMU_REGISTERS_SIZE)) - { - if (_MALI_OSK_ERR_OK == mali_mmu_reset(mmu)) - { - /* Setup IRQ handlers (which will do IRQ probing if needed) */ - mmu->irq = _mali_osk_irq_init(resource->irq, - mali_mmu_upper_half, - mali_mmu_bottom_half, - mali_mmu_probe_trigger, - mali_mmu_probe_ack, - mmu, - "mali_mmu_irq_handlers"); - if (NULL != mmu->irq) - { - return mmu; - } - else - { - MALI_PRINT_ERROR(("Failed to setup interrupt handlers for MMU %s\n", mmu->hw_core.description)); - } - } - mali_hw_core_delete(&mmu->hw_core); - } - - _mali_osk_free(mmu); - } - else - { - MALI_PRINT_ERROR(("Failed to allocate memory for MMU\n")); - } - - return NULL; -} - -void mali_mmu_delete(struct mali_mmu_core *mmu) -{ - _mali_osk_irq_term(mmu->irq); - mali_hw_core_delete(&mmu->hw_core); - _mali_osk_free(mmu); -} - -void mali_mmu_set_group(struct mali_mmu_core *mmu, struct mali_group *group) -{ - mmu->group = group; -} - -static void mali_mmu_enable_paging(struct mali_mmu_core *mmu) -{ - const int max_loop_count = 100; - const int delay_in_usecs = 1; - int i; - - mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_COMMAND, MALI_MMU_COMMAND_ENABLE_PAGING); - - for (i = 0; i < max_loop_count; ++i) - { - if (mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS) & MALI_MMU_STATUS_BIT_PAGING_ENABLED) - { - break; - } - _mali_osk_time_ubusydelay(delay_in_usecs); - } - if (max_loop_count == i) - { - MALI_PRINT_ERROR(("Enable paging request failed, MMU status is 0x%08X\n", mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS))); - } -} - -mali_bool mali_mmu_enable_stall(struct mali_mmu_core *mmu) -{ - const int max_loop_count = 100; - const int delay_in_usecs = 999; - int i; - u32 mmu_status; - - /* There are no group when it is called from mali_mmu_create */ - if ( mmu->group ) MALI_ASSERT_GROUP_LOCKED(mmu->group); - - mmu_status = mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS); - - if ( 0 == (mmu_status & MALI_MMU_STATUS_BIT_PAGING_ENABLED) ) - { - MALI_DEBUG_PRINT(4, ("MMU stall is implicit when Paging is not enebled.\n")); - return MALI_TRUE; - } - - if ( mmu_status & MALI_MMU_STATUS_BIT_PAGE_FAULT_ACTIVE ) - { - MALI_DEBUG_PRINT(3, ("Aborting MMU stall request since it is in pagefault state.\n")); - return MALI_FALSE; - } - - mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_COMMAND, MALI_MMU_COMMAND_ENABLE_STALL); - - for (i = 0; i < max_loop_count; ++i) - { - mmu_status = mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS); - if ( mmu_status & (MALI_MMU_STATUS_BIT_STALL_ACTIVE|MALI_MMU_STATUS_BIT_PAGE_FAULT_ACTIVE)) - { - break; - } - if ( 0 == (mmu_status & ( MALI_MMU_STATUS_BIT_PAGING_ENABLED ))) - { - break; - } - _mali_osk_time_ubusydelay(delay_in_usecs); - } - if (max_loop_count == i) - { - MALI_PRINT_ERROR(("Enable stall request failed, MMU status is 0x%08X\n", mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS))); - return MALI_FALSE; - } - - if ( mmu_status & MALI_MMU_STATUS_BIT_PAGE_FAULT_ACTIVE ) - { - MALI_DEBUG_PRINT(3, ("Aborting MMU stall request since it has a pagefault.\n")); - return MALI_FALSE; - } - - return MALI_TRUE; -} - -void mali_mmu_disable_stall(struct mali_mmu_core *mmu) -{ - const int max_loop_count = 100; - const int delay_in_usecs = 1; - int i; - u32 mmu_status; - /* There are no group when it is called from mali_mmu_create */ - if ( mmu->group ) MALI_ASSERT_GROUP_LOCKED(mmu->group); - - mmu_status = mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS); - - if ( 0 == (mmu_status & MALI_MMU_STATUS_BIT_PAGING_ENABLED )) - { - MALI_DEBUG_PRINT(3, ("MMU disable skipped since it was not enabled.\n")); - return; - } - if (mmu_status & MALI_MMU_STATUS_BIT_PAGE_FAULT_ACTIVE) - { - MALI_DEBUG_PRINT(2, ("Aborting MMU disable stall request since it is in pagefault state.\n")); - return; - } - - mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_COMMAND, MALI_MMU_COMMAND_DISABLE_STALL); - - for (i = 0; i < max_loop_count; ++i) - { - u32 status = mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS); - if ( 0 == (status & MALI_MMU_STATUS_BIT_STALL_ACTIVE) ) - { - break; - } - if ( status & MALI_MMU_STATUS_BIT_PAGE_FAULT_ACTIVE ) - { - break; - } - if ( 0 == (mmu_status & MALI_MMU_STATUS_BIT_PAGING_ENABLED )) - { - break; - } - _mali_osk_time_ubusydelay(delay_in_usecs); - } - if (max_loop_count == i) MALI_DEBUG_PRINT(1,("Disable stall request failed, MMU status is 0x%08X\n", mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS))); -} - -void mali_mmu_page_fault_done(struct mali_mmu_core *mmu) -{ - MALI_ASSERT_GROUP_LOCKED(mmu->group); - MALI_DEBUG_PRINT(4, ("Mali MMU: %s: Leaving page fault mode\n", mmu->hw_core.description)); - mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_COMMAND, MALI_MMU_COMMAND_PAGE_FAULT_DONE); -} - -MALI_STATIC_INLINE _mali_osk_errcode_t mali_mmu_raw_reset(struct mali_mmu_core *mmu) -{ - const int max_loop_count = 100; - const int delay_in_usecs = 1; - int i; - /* The _if_ is neccessary when called from mali_mmu_create and NULL==group */ - if (mmu->group)MALI_ASSERT_GROUP_LOCKED(mmu->group); - - mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_DTE_ADDR, 0xCAFEBABE); - mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_COMMAND, MALI_MMU_COMMAND_HARD_RESET); - - for (i = 0; i < max_loop_count; ++i) - { - if (mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_DTE_ADDR) == 0) - { - break; - } - _mali_osk_time_ubusydelay(delay_in_usecs); - } - if (max_loop_count == i) - { - MALI_PRINT_ERROR(("Reset request failed, MMU status is 0x%08X\n", mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS))); - return _MALI_OSK_ERR_FAULT; - } - - return _MALI_OSK_ERR_OK; -} - -_mali_osk_errcode_t mali_mmu_reset(struct mali_mmu_core *mmu) -{ - _mali_osk_errcode_t err = _MALI_OSK_ERR_FAULT; - mali_bool stall_success; - MALI_DEBUG_ASSERT_POINTER(mmu); - /* The _if_ is neccessary when called from mali_mmu_create and NULL==group */ - if (mmu->group) - { - MALI_ASSERT_GROUP_LOCKED(mmu->group); - } - - stall_success = mali_mmu_enable_stall(mmu); - - /* The stall can not fail in current hw-state */ - MALI_DEBUG_ASSERT(stall_success); - - MALI_DEBUG_PRINT(3, ("Mali MMU: mali_kernel_mmu_reset: %s\n", mmu->hw_core.description)); - - if (_MALI_OSK_ERR_OK == mali_mmu_raw_reset(mmu)) - { - mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_INT_MASK, MALI_MMU_INTERRUPT_PAGE_FAULT | MALI_MMU_INTERRUPT_READ_BUS_ERROR); - /* no session is active, so just activate the empty page directory */ - mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_DTE_ADDR, mali_empty_page_directory); - mali_mmu_enable_paging(mmu); - err = _MALI_OSK_ERR_OK; - } - mali_mmu_disable_stall(mmu); - - return err; -} - - -/* ------------- interrupt handling below ------------------ */ - -static _mali_osk_errcode_t mali_mmu_upper_half(void * data) -{ - struct mali_mmu_core *mmu = (struct mali_mmu_core *)data; - u32 int_stat; - - MALI_DEBUG_ASSERT_POINTER(mmu); - - /* Check if it was our device which caused the interrupt (we could be sharing the IRQ line) */ - int_stat = mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_INT_STATUS); - if (0 != int_stat) - { - mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_INT_MASK, 0); - mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS); - - if (int_stat & MALI_MMU_INTERRUPT_PAGE_FAULT) - { - _mali_osk_irq_schedulework(mmu->irq); - } - - if (int_stat & MALI_MMU_INTERRUPT_READ_BUS_ERROR) - { - /* clear interrupt flag */ - mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_INT_CLEAR, MALI_MMU_INTERRUPT_READ_BUS_ERROR); - /* reenable it */ - mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_INT_MASK, - mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_INT_MASK) | MALI_MMU_INTERRUPT_READ_BUS_ERROR); - MALI_PRINT_ERROR(("Mali MMU: Read bus error\n")); - } - return _MALI_OSK_ERR_OK; - } - - return _MALI_OSK_ERR_FAULT; -} - -static void mali_mmu_bottom_half(void * data) -{ - struct mali_mmu_core *mmu = (struct mali_mmu_core*)data; - u32 raw, status, fault_address; - - MALI_DEBUG_ASSERT_POINTER(mmu); - - MALI_DEBUG_PRINT(3, ("Mali MMU: Page fault bottom half: Locking subsystems\n")); - - mali_group_lock(mmu->group); /* Unlocked in mali_group_bottom_half */ - - if ( MALI_FALSE == mali_group_power_is_on(mmu->group) ) - { - MALI_PRINT_ERROR(("Interrupt bottom half of %s when core is OFF.",mmu->hw_core.description)); - mali_group_unlock(mmu->group); - return; - } - - raw = mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_INT_RAWSTAT); - status = mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS); - - if ( (0==(raw & MALI_MMU_INTERRUPT_PAGE_FAULT)) && (0==(status & MALI_MMU_STATUS_BIT_PAGE_FAULT_ACTIVE)) ) - { - MALI_DEBUG_PRINT(2, ("Mali MMU: Page fault bottom half: No Irq found.\n")); - mali_group_unlock(mmu->group); - /* MALI_DEBUG_ASSERT(0); */ - return; - } - - /* An actual page fault has occurred. */ - - fault_address = mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_PAGE_FAULT_ADDR); - - MALI_DEBUG_PRINT(2,("Mali MMU: Page fault detected at 0x%x from bus id %d of type %s on %s\n", - (void*)fault_address, - (status >> 6) & 0x1F, - (status & 32) ? "write" : "read", - mmu->hw_core.description)); - - mali_group_bottom_half(mmu->group, GROUP_EVENT_MMU_PAGE_FAULT); /* Unlocks the group lock */ -} - -mali_bool mali_mmu_zap_tlb(struct mali_mmu_core *mmu) -{ - mali_bool stall_success; - MALI_ASSERT_GROUP_LOCKED(mmu->group); - - stall_success = mali_mmu_enable_stall(mmu); - - mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_COMMAND, MALI_MMU_COMMAND_ZAP_CACHE); - - if (MALI_FALSE == stall_success) - { - /* False means that it is in Pagefault state. Not possible to disable_stall then */ - return MALI_FALSE; - } - - mali_mmu_disable_stall(mmu); - return MALI_TRUE; -} - -void mali_mmu_zap_tlb_without_stall(struct mali_mmu_core *mmu) -{ - MALI_ASSERT_GROUP_LOCKED(mmu->group); - mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_COMMAND, MALI_MMU_COMMAND_ZAP_CACHE); -} - - -void mali_mmu_invalidate_page(struct mali_mmu_core *mmu, u32 mali_address) -{ - MALI_ASSERT_GROUP_LOCKED(mmu->group); - mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_ZAP_ONE_LINE, MALI_MMU_PDE_ENTRY(mali_address)); -} - -static void mali_mmu_activate_address_space(struct mali_mmu_core *mmu, u32 page_directory) -{ - MALI_ASSERT_GROUP_LOCKED(mmu->group); - /* The MMU must be in stalled or page fault mode, for this writing to work */ - MALI_DEBUG_ASSERT( 0 != ( mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS) - & (MALI_MMU_STATUS_BIT_STALL_ACTIVE|MALI_MMU_STATUS_BIT_PAGE_FAULT_ACTIVE) ) ); - mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_DTE_ADDR, page_directory); - mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_COMMAND, MALI_MMU_COMMAND_ZAP_CACHE); - -} - -mali_bool mali_mmu_activate_page_directory(struct mali_mmu_core *mmu, struct mali_page_directory *pagedir) -{ - mali_bool stall_success; - MALI_DEBUG_ASSERT_POINTER(mmu); - MALI_ASSERT_GROUP_LOCKED(mmu->group); - - MALI_DEBUG_PRINT(5, ("Asked to activate page directory 0x%x on MMU %s\n", pagedir, mmu->hw_core.description)); - stall_success = mali_mmu_enable_stall(mmu); - - if ( MALI_FALSE==stall_success ) return MALI_FALSE; - mali_mmu_activate_address_space(mmu, pagedir->page_directory); - mali_mmu_disable_stall(mmu); - return MALI_TRUE; -} - -void mali_mmu_activate_empty_page_directory(struct mali_mmu_core* mmu) -{ - mali_bool stall_success; - MALI_DEBUG_ASSERT_POINTER(mmu); - MALI_ASSERT_GROUP_LOCKED(mmu->group); - MALI_DEBUG_PRINT(3, ("Activating the empty page directory on MMU %s\n", mmu->hw_core.description)); - - stall_success = mali_mmu_enable_stall(mmu); - /* This function can only be called when the core is idle, so it could not fail. */ - MALI_DEBUG_ASSERT( stall_success ); - mali_mmu_activate_address_space(mmu, mali_empty_page_directory); - mali_mmu_disable_stall(mmu); -} - -void mali_mmu_activate_fault_flush_page_directory(struct mali_mmu_core* mmu) -{ - mali_bool stall_success; - MALI_DEBUG_ASSERT_POINTER(mmu); - MALI_ASSERT_GROUP_LOCKED(mmu->group); - - MALI_DEBUG_PRINT(3, ("Activating the page fault flush page directory on MMU %s\n", mmu->hw_core.description)); - stall_success = mali_mmu_enable_stall(mmu); - /* This function is expect to fail the stalling, since it might be in PageFault mode when it is called */ - mali_mmu_activate_address_space(mmu, mali_page_fault_flush_page_directory); - if ( MALI_TRUE==stall_success ) mali_mmu_disable_stall(mmu); -} - -/* Is called when we want the mmu to give an interrupt */ -static void mali_mmu_probe_trigger(void *data) -{ - struct mali_mmu_core *mmu = (struct mali_mmu_core *)data; - mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_INT_RAWSTAT, MALI_MMU_INTERRUPT_PAGE_FAULT|MALI_MMU_INTERRUPT_READ_BUS_ERROR); -} - -/* Is called when the irq probe wants the mmu to acknowledge an interrupt from the hw */ -static _mali_osk_errcode_t mali_mmu_probe_ack(void *data) -{ - struct mali_mmu_core *mmu = (struct mali_mmu_core *)data; - u32 int_stat; - - int_stat = mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_INT_STATUS); - - MALI_DEBUG_PRINT(2, ("mali_mmu_probe_irq_acknowledge: intstat 0x%x\n", int_stat)); - if (int_stat & MALI_MMU_INTERRUPT_PAGE_FAULT) - { - MALI_DEBUG_PRINT(2, ("Probe: Page fault detect: PASSED\n")); - mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_INT_CLEAR, MALI_MMU_INTERRUPT_PAGE_FAULT); - } - else - { - MALI_DEBUG_PRINT(1, ("Probe: Page fault detect: FAILED\n")); - } - - if (int_stat & MALI_MMU_INTERRUPT_READ_BUS_ERROR) - { - MALI_DEBUG_PRINT(2, ("Probe: Bus read error detect: PASSED\n")); - mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_INT_CLEAR, MALI_MMU_INTERRUPT_READ_BUS_ERROR); - } - else - { - MALI_DEBUG_PRINT(1, ("Probe: Bus read error detect: FAILED\n")); - } - - if ( (int_stat & (MALI_MMU_INTERRUPT_PAGE_FAULT|MALI_MMU_INTERRUPT_READ_BUS_ERROR)) == - (MALI_MMU_INTERRUPT_PAGE_FAULT|MALI_MMU_INTERRUPT_READ_BUS_ERROR)) - { - return _MALI_OSK_ERR_OK; - } - - return _MALI_OSK_ERR_FAULT; -} - -#if 0 -void mali_mmu_print_state(struct mali_mmu_core *mmu) -{ - MALI_DEBUG_PRINT(2, ("MMU: State of %s is 0x%08x\n", mmu->hw_core.description, mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS))); -} -#endif diff --git a/drivers/media/video/samsung/mali/common/mali_mmu.h b/drivers/media/video/samsung/mali/common/mali_mmu.h deleted file mode 100644 index c7274b8..0000000 --- a/drivers/media/video/samsung/mali/common/mali_mmu.h +++ /dev/null @@ -1,55 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_MMU_H__ -#define __MALI_MMU_H__ - -#include "mali_osk.h" -#include "mali_mmu_page_directory.h" - -/* Forward declaration from mali_group.h */ -struct mali_group; - -struct mali_mmu_core; - -_mali_osk_errcode_t mali_mmu_initialize(void); - -void mali_mmu_terminate(void); - -struct mali_mmu_core *mali_mmu_create(_mali_osk_resource_t *resource); -void mali_mmu_set_group(struct mali_mmu_core *mmu, struct mali_group *group); -void mali_mmu_delete(struct mali_mmu_core *mmu); - -_mali_osk_errcode_t mali_mmu_reset(struct mali_mmu_core *mmu); -mali_bool mali_mmu_zap_tlb(struct mali_mmu_core *mmu); -void mali_mmu_zap_tlb_without_stall(struct mali_mmu_core *mmu); -void mali_mmu_invalidate_page(struct mali_mmu_core *mmu, u32 mali_address); - -mali_bool mali_mmu_activate_page_directory(struct mali_mmu_core* mmu, struct mali_page_directory *pagedir); -void mali_mmu_activate_empty_page_directory(struct mali_mmu_core* mmu); -void mali_mmu_activate_fault_flush_page_directory(struct mali_mmu_core* mmu); - -/** - * Issues the enable stall command to the MMU and waits for HW to complete the request - * @param mmu The MMU to enable paging for - * @return MALI_TRUE if HW stall was successfully engaged, otherwise MALI_FALSE (req timed out) - */ -mali_bool mali_mmu_enable_stall(struct mali_mmu_core *mmu); - -/** - * Issues the disable stall command to the MMU and waits for HW to complete the request - * @param mmu The MMU to enable paging for - */ -void mali_mmu_disable_stall(struct mali_mmu_core *mmu); - -void mali_mmu_page_fault_done(struct mali_mmu_core *mmu); - - -#endif /* __MALI_MMU_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_mmu_page_directory.c b/drivers/media/video/samsung/mali/common/mali_mmu_page_directory.c deleted file mode 100644 index cc91ae9..0000000 --- a/drivers/media/video/samsung/mali/common/mali_mmu_page_directory.c +++ /dev/null @@ -1,475 +0,0 @@ -/* - * Copyright (C) 2011-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_kernel_common.h" -#include "mali_kernel_core.h" -#include "mali_osk.h" -#include "mali_uk_types.h" -#include "mali_mmu_page_directory.h" -#include "mali_memory.h" - -#include "mali_cluster.h" -#include "mali_group.h" - -static _mali_osk_errcode_t fill_page(mali_io_address mapping, u32 data); - -u32 mali_allocate_empty_page(void) -{ - _mali_osk_errcode_t err; - mali_io_address mapping; - u32 address; - - if(_MALI_OSK_ERR_OK != mali_mmu_get_table_page(&address, &mapping)) - { - /* Allocation failed */ - return 0; - } - - MALI_DEBUG_ASSERT_POINTER( mapping ); - - err = fill_page(mapping, 0); - if (_MALI_OSK_ERR_OK != err) - { - mali_mmu_release_table_page(address); - } - return address; -} - -void mali_free_empty_page(u32 address) -{ - if (MALI_INVALID_PAGE != address) - { - mali_mmu_release_table_page(address); - } -} - -_mali_osk_errcode_t mali_create_fault_flush_pages(u32 *page_directory, u32 *page_table, u32 *data_page) -{ - _mali_osk_errcode_t err; - mali_io_address page_directory_mapping; - mali_io_address page_table_mapping; - mali_io_address data_page_mapping; - - err = mali_mmu_get_table_page(data_page, &data_page_mapping); - if (_MALI_OSK_ERR_OK == err) - { - err = mali_mmu_get_table_page(page_table, &page_table_mapping); - if (_MALI_OSK_ERR_OK == err) - { - err = mali_mmu_get_table_page(page_directory, &page_directory_mapping); - if (_MALI_OSK_ERR_OK == err) - { - fill_page(data_page_mapping, 0); - fill_page(page_table_mapping, *data_page | MALI_MMU_FLAGS_WRITE_PERMISSION | MALI_MMU_FLAGS_READ_PERMISSION | MALI_MMU_FLAGS_PRESENT); - fill_page(page_directory_mapping, *page_table | MALI_MMU_FLAGS_PRESENT); - MALI_SUCCESS; - } - mali_mmu_release_table_page(*page_table); - *page_table = MALI_INVALID_PAGE; - } - mali_mmu_release_table_page(*data_page); - *data_page = MALI_INVALID_PAGE; - } - return err; -} - -void mali_destroy_fault_flush_pages(u32 *page_directory, u32 *page_table, u32 *data_page) -{ - if (MALI_INVALID_PAGE != *page_directory) - { - mali_mmu_release_table_page(*page_directory); - *page_directory = MALI_INVALID_PAGE; - } - - if (MALI_INVALID_PAGE != *page_table) - { - mali_mmu_release_table_page(*page_table); - *page_table = MALI_INVALID_PAGE; - } - - if (MALI_INVALID_PAGE != *data_page) - { - mali_mmu_release_table_page(*data_page); - *data_page = MALI_INVALID_PAGE; - } -} - -static _mali_osk_errcode_t fill_page(mali_io_address mapping, u32 data) -{ - int i; - MALI_DEBUG_ASSERT_POINTER( mapping ); - - for(i = 0; i < MALI_MMU_PAGE_SIZE/4; i++) - { - _mali_osk_mem_iowrite32_relaxed( mapping, i * sizeof(u32), data); - } - _mali_osk_mem_barrier(); - MALI_SUCCESS; -} - -_mali_osk_errcode_t mali_mmu_pagedir_map(struct mali_page_directory *pagedir, u32 mali_address, u32 size) -{ - const int first_pde = MALI_MMU_PDE_ENTRY(mali_address); - const int last_pde = MALI_MMU_PDE_ENTRY(mali_address + size - 1); - _mali_osk_errcode_t err; - mali_io_address pde_mapping; - u32 pde_phys; - int i; - - for(i = first_pde; i <= last_pde; i++) - { - if(0 == (_mali_osk_mem_ioread32(pagedir->page_directory_mapped, i*sizeof(u32)) & MALI_MMU_FLAGS_PRESENT)) - { - /* Page table not present */ - MALI_DEBUG_ASSERT(0 == pagedir->page_entries_usage_count[i]); - MALI_DEBUG_ASSERT(NULL == pagedir->page_entries_mapped[i]); - - err = mali_mmu_get_table_page(&pde_phys, &pde_mapping); - if(_MALI_OSK_ERR_OK != err) - { - MALI_PRINT_ERROR(("Failed to allocate page table page.\n")); - return err; - } - pagedir->page_entries_mapped[i] = pde_mapping; - - /* Update PDE, mark as present */ - _mali_osk_mem_iowrite32_relaxed(pagedir->page_directory_mapped, i*sizeof(u32), - pde_phys | MALI_MMU_FLAGS_PRESENT); - - MALI_DEBUG_ASSERT(0 == pagedir->page_entries_usage_count[i]); - pagedir->page_entries_usage_count[i] = 1; - } - else - { - pagedir->page_entries_usage_count[i]++; - } - } - _mali_osk_write_mem_barrier(); - - MALI_SUCCESS; -} - -MALI_STATIC_INLINE void mali_mmu_zero_pte(mali_io_address page_table, u32 mali_address, u32 size) -{ - int i; - const int first_pte = MALI_MMU_PTE_ENTRY(mali_address); - const int last_pte = MALI_MMU_PTE_ENTRY(mali_address + size - 1); - - for (i = first_pte; i <= last_pte; i++) - { - _mali_osk_mem_iowrite32_relaxed(page_table, i * sizeof(u32), 0); - } -} - -_mali_osk_errcode_t mali_mmu_pagedir_unmap(struct mali_page_directory *pagedir, u32 mali_address, u32 size) -{ - const int first_pde = MALI_MMU_PDE_ENTRY(mali_address); - const int last_pde = MALI_MMU_PDE_ENTRY(mali_address + size - 1); - u32 left = size; - int i; -#ifndef MALI_UNMAP_FLUSH_ALL_MALI_L2 - mali_bool pd_changed = MALI_FALSE; - u32 pages_to_invalidate[3]; /* hard-coded to 3: max two pages from the PT level plus max one page from PD level */ - u32 num_pages_inv = 0; -#endif - - /* For all page directory entries in range. */ - for (i = first_pde; i <= last_pde; i++) - { - u32 size_in_pde, offset; - - MALI_DEBUG_ASSERT_POINTER(pagedir->page_entries_mapped[i]); - MALI_DEBUG_ASSERT(0 != pagedir->page_entries_usage_count[i]); - - /* Offset into page table, 0 if mali_address is 4MiB aligned */ - offset = (mali_address & (MALI_MMU_VIRTUAL_PAGE_SIZE - 1)); - if (left < MALI_MMU_VIRTUAL_PAGE_SIZE - offset) - { - size_in_pde = left; - } - else - { - size_in_pde = MALI_MMU_VIRTUAL_PAGE_SIZE - offset; - } - - pagedir->page_entries_usage_count[i]--; - - /* If entire page table is unused, free it */ - if (0 == pagedir->page_entries_usage_count[i]) - { - u32 page_address; - MALI_DEBUG_PRINT(4, ("Releasing page table as this is the last reference\n")); - /* last reference removed, no need to zero out each PTE */ - - page_address = MALI_MMU_ENTRY_ADDRESS(_mali_osk_mem_ioread32(pagedir->page_directory_mapped, i*sizeof(u32))); - pagedir->page_entries_mapped[i] = NULL; - _mali_osk_mem_iowrite32_relaxed(pagedir->page_directory_mapped, i*sizeof(u32), 0); - - mali_mmu_release_table_page(page_address); -#ifndef MALI_UNMAP_FLUSH_ALL_MALI_L2 - pd_changed = MALI_TRUE; -#endif - } - else - { -#ifndef MALI_UNMAP_FLUSH_ALL_MALI_L2 - pages_to_invalidate[num_pages_inv] = mali_page_directory_get_phys_address(pagedir, i); - num_pages_inv++; - MALI_DEBUG_ASSERT(num_pages_inv<3); -#endif - - /* If part of the page table is still in use, zero the relevant PTEs */ - mali_mmu_zero_pte(pagedir->page_entries_mapped[i], mali_address, size_in_pde); - } - - left -= size_in_pde; - mali_address += size_in_pde; - } - _mali_osk_write_mem_barrier(); - -#ifndef MALI_UNMAP_FLUSH_ALL_MALI_L2 - /* L2 pages invalidation */ - if (MALI_TRUE == pd_changed) - { - pages_to_invalidate[num_pages_inv] = pagedir->page_directory; - num_pages_inv++; - MALI_DEBUG_ASSERT(num_pages_inv<3); - } - - if (_MALI_PRODUCT_ID_MALI200 != mali_kernel_core_get_product_id()) - { - mali_cluster_invalidate_pages(pages_to_invalidate, num_pages_inv); - } -#endif - - MALI_SUCCESS; -} - -struct mali_page_directory *mali_mmu_pagedir_alloc(void) -{ - struct mali_page_directory *pagedir; - - pagedir = _mali_osk_calloc(1, sizeof(struct mali_page_directory)); - if(NULL == pagedir) - { - return NULL; - } - - if(_MALI_OSK_ERR_OK != mali_mmu_get_table_page(&pagedir->page_directory, &pagedir->page_directory_mapped)) - { - _mali_osk_free(pagedir); - return NULL; - } - - /* Zero page directory */ - fill_page(pagedir->page_directory_mapped, 0); - - return pagedir; -} - -void mali_mmu_pagedir_free(struct mali_page_directory *pagedir) -{ - const int num_page_table_entries = sizeof(pagedir->page_entries_mapped) / sizeof(pagedir->page_entries_mapped[0]); - int i; - - /* Free referenced page tables and zero PDEs. */ - for (i = 0; i < num_page_table_entries; i++) - { - if (pagedir->page_directory_mapped && (_mali_osk_mem_ioread32(pagedir->page_directory_mapped, sizeof(u32)*i) & MALI_MMU_FLAGS_PRESENT)) - { - mali_mmu_release_table_page( _mali_osk_mem_ioread32(pagedir->page_directory_mapped, i*sizeof(u32)) & ~MALI_MMU_FLAGS_MASK); - _mali_osk_mem_iowrite32_relaxed(pagedir->page_directory_mapped, i * sizeof(u32), 0); - } - } - _mali_osk_write_mem_barrier(); - - /* Free the page directory page. */ - mali_mmu_release_table_page(pagedir->page_directory); - - _mali_osk_free(pagedir); -} - - -void mali_mmu_pagedir_update(struct mali_page_directory *pagedir, u32 mali_address, u32 phys_address, u32 size, mali_memory_cache_settings cache_settings) -{ - u32 end_address = mali_address + size; - u32 permission_bits; - - switch ( cache_settings ) - { - case MALI_CACHE_GP_READ_ALLOCATE: - MALI_DEBUG_PRINT(3, ("Map L2 GP_Read_allocate\n")); - permission_bits = MALI_MMU_FLAGS_FORCE_GP_READ_ALLOCATE; - break; - - case MALI_CACHE_STANDARD: - MALI_DEBUG_PRINT(3, ("Map L2 Standard\n")); - /*falltrough */ - default: - if ( MALI_CACHE_STANDARD != cache_settings) MALI_PRINT_ERROR(("Wrong cache settings\n")); - permission_bits = MALI_MMU_FLAGS_WRITE_PERMISSION | MALI_MMU_FLAGS_READ_PERMISSION | MALI_MMU_FLAGS_PRESENT; - } - - /* Map physical pages into MMU page tables */ - for ( ; mali_address < end_address; mali_address += MALI_MMU_PAGE_SIZE, phys_address += MALI_MMU_PAGE_SIZE) - { - MALI_DEBUG_ASSERT_POINTER(pagedir->page_entries_mapped[MALI_MMU_PDE_ENTRY(mali_address)]); - _mali_osk_mem_iowrite32_relaxed(pagedir->page_entries_mapped[MALI_MMU_PDE_ENTRY(mali_address)], - MALI_MMU_PTE_ENTRY(mali_address) * sizeof(u32), - phys_address | permission_bits); - } - _mali_osk_write_mem_barrier(); -} - -u32 mali_page_directory_get_phys_address(struct mali_page_directory *pagedir, u32 index) -{ - return (_mali_osk_mem_ioread32(pagedir->page_directory_mapped, index*sizeof(u32)) & ~MALI_MMU_FLAGS_MASK); -} - -/* For instrumented */ -struct dump_info -{ - u32 buffer_left; - u32 register_writes_size; - u32 page_table_dump_size; - u32 *buffer; -}; - -static _mali_osk_errcode_t writereg(u32 where, u32 what, const char *comment, struct dump_info *info) -{ - if (NULL != info) - { - info->register_writes_size += sizeof(u32)*2; /* two 32-bit words */ - - if (NULL != info->buffer) - { - /* check that we have enough space */ - if (info->buffer_left < sizeof(u32)*2) MALI_ERROR(_MALI_OSK_ERR_NOMEM); - - *info->buffer = where; - info->buffer++; - - *info->buffer = what; - info->buffer++; - - info->buffer_left -= sizeof(u32)*2; - } - } - - MALI_SUCCESS; -} - -static _mali_osk_errcode_t dump_page(mali_io_address page, u32 phys_addr, struct dump_info * info) -{ - if (NULL != info) - { - /* 4096 for the page and 4 bytes for the address */ - const u32 page_size_in_elements = MALI_MMU_PAGE_SIZE / 4; - const u32 page_size_in_bytes = MALI_MMU_PAGE_SIZE; - const u32 dump_size_in_bytes = MALI_MMU_PAGE_SIZE + 4; - - info->page_table_dump_size += dump_size_in_bytes; - - if (NULL != info->buffer) - { - if (info->buffer_left < dump_size_in_bytes) MALI_ERROR(_MALI_OSK_ERR_NOMEM); - - *info->buffer = phys_addr; - info->buffer++; - - _mali_osk_memcpy(info->buffer, page, page_size_in_bytes); - info->buffer += page_size_in_elements; - - info->buffer_left -= dump_size_in_bytes; - } - } - - MALI_SUCCESS; -} - -static _mali_osk_errcode_t dump_mmu_page_table(struct mali_page_directory *pagedir, struct dump_info * info) -{ - MALI_DEBUG_ASSERT_POINTER(pagedir); - MALI_DEBUG_ASSERT_POINTER(info); - - if (NULL != pagedir->page_directory_mapped) - { - int i; - - MALI_CHECK_NO_ERROR( - dump_page(pagedir->page_directory_mapped, pagedir->page_directory, info) - ); - - for (i = 0; i < 1024; i++) - { - if (NULL != pagedir->page_entries_mapped[i]) - { - MALI_CHECK_NO_ERROR( - dump_page(pagedir->page_entries_mapped[i], - _mali_osk_mem_ioread32(pagedir->page_directory_mapped, - i * sizeof(u32)) & ~MALI_MMU_FLAGS_MASK, info) - ); - } - } - } - - MALI_SUCCESS; -} - -static _mali_osk_errcode_t dump_mmu_registers(struct mali_page_directory *pagedir, struct dump_info * info) -{ - MALI_CHECK_NO_ERROR(writereg(0x00000000, pagedir->page_directory, - "set the page directory address", info)); - MALI_CHECK_NO_ERROR(writereg(0x00000008, 4, "zap???", info)); - MALI_CHECK_NO_ERROR(writereg(0x00000008, 0, "enable paging", info)); - MALI_SUCCESS; -} - -_mali_osk_errcode_t _mali_ukk_query_mmu_page_table_dump_size( _mali_uk_query_mmu_page_table_dump_size_s *args ) -{ - struct dump_info info = { 0, 0, 0, NULL }; - struct mali_session_data * session_data; - - MALI_DEBUG_ASSERT_POINTER(args); - MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS); - - session_data = (struct mali_session_data *)(args->ctx); - - MALI_CHECK_NO_ERROR(dump_mmu_registers(session_data->page_directory, &info)); - MALI_CHECK_NO_ERROR(dump_mmu_page_table(session_data->page_directory, &info)); - args->size = info.register_writes_size + info.page_table_dump_size; - MALI_SUCCESS; -} - -_mali_osk_errcode_t _mali_ukk_dump_mmu_page_table( _mali_uk_dump_mmu_page_table_s * args ) -{ - struct dump_info info = { 0, 0, 0, NULL }; - struct mali_session_data * session_data; - - MALI_DEBUG_ASSERT_POINTER(args); - MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS); - MALI_CHECK_NON_NULL(args->buffer, _MALI_OSK_ERR_INVALID_ARGS); - - session_data = (struct mali_session_data *)(args->ctx); - - info.buffer_left = args->size; - info.buffer = args->buffer; - - args->register_writes = info.buffer; - MALI_CHECK_NO_ERROR(dump_mmu_registers(session_data->page_directory, &info)); - - args->page_table_dump = info.buffer; - MALI_CHECK_NO_ERROR(dump_mmu_page_table(session_data->page_directory, &info)); - - args->register_writes_size = info.register_writes_size; - args->page_table_dump_size = info.page_table_dump_size; - - MALI_SUCCESS; -} diff --git a/drivers/media/video/samsung/mali/common/mali_mmu_page_directory.h b/drivers/media/video/samsung/mali/common/mali_mmu_page_directory.h deleted file mode 100644 index 628833a..0000000 --- a/drivers/media/video/samsung/mali/common/mali_mmu_page_directory.h +++ /dev/null @@ -1,100 +0,0 @@ -/* - * Copyright (C) 2011-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_MMU_PAGE_DIRECTORY_H__ -#define __MALI_MMU_PAGE_DIRECTORY_H__ - -#include "mali_osk.h" - -/** - * Size of an MMU page in bytes - */ -#define MALI_MMU_PAGE_SIZE 0x1000 - -/* - * Size of the address space referenced by a page table page - */ -#define MALI_MMU_VIRTUAL_PAGE_SIZE 0x400000 /* 4 MiB */ - -/** - * Page directory index from address - * Calculates the page directory index from the given address - */ -#define MALI_MMU_PDE_ENTRY(address) (((address)>>22) & 0x03FF) - -/** - * Page table index from address - * Calculates the page table index from the given address - */ -#define MALI_MMU_PTE_ENTRY(address) (((address)>>12) & 0x03FF) - -/** - * Extract the memory address from an PDE/PTE entry - */ -#define MALI_MMU_ENTRY_ADDRESS(value) ((value) & 0xFFFFFC00) - -#define MALI_INVALID_PAGE ((u32)(~0)) - -/** - * - */ -typedef enum mali_mmu_entry_flags -{ - MALI_MMU_FLAGS_PRESENT = 0x01, - MALI_MMU_FLAGS_READ_PERMISSION = 0x02, - MALI_MMU_FLAGS_WRITE_PERMISSION = 0x04, - MALI_MMU_FLAGS_OVERRIDE_CACHE = 0x8, - MALI_MMU_FLAGS_WRITE_CACHEABLE = 0x10, - MALI_MMU_FLAGS_WRITE_ALLOCATE = 0x20, - MALI_MMU_FLAGS_WRITE_BUFFERABLE = 0x40, - MALI_MMU_FLAGS_READ_CACHEABLE = 0x80, - MALI_MMU_FLAGS_READ_ALLOCATE = 0x100, - MALI_MMU_FLAGS_MASK = 0x1FF, -} mali_mmu_entry_flags; - - -#define MALI_MMU_FLAGS_FORCE_GP_READ_ALLOCATE ( \ -MALI_MMU_FLAGS_PRESENT | \ - MALI_MMU_FLAGS_READ_PERMISSION | \ - MALI_MMU_FLAGS_WRITE_PERMISSION | \ - MALI_MMU_FLAGS_OVERRIDE_CACHE | \ - MALI_MMU_FLAGS_WRITE_CACHEABLE | \ - MALI_MMU_FLAGS_WRITE_BUFFERABLE | \ - MALI_MMU_FLAGS_READ_CACHEABLE | \ - MALI_MMU_FLAGS_READ_ALLOCATE ) - - -struct mali_page_directory -{ - u32 page_directory; /**< Physical address of the memory session's page directory */ - mali_io_address page_directory_mapped; /**< Pointer to the mapped version of the page directory into the kernel's address space */ - - mali_io_address page_entries_mapped[1024]; /**< Pointers to the page tables which exists in the page directory mapped into the kernel's address space */ - u32 page_entries_usage_count[1024]; /**< Tracks usage count of the page table pages, so they can be releases on the last reference */ -}; - -/* Map Mali virtual address space (i.e. ensure page tables exist for the virtual range) */ -_mali_osk_errcode_t mali_mmu_pagedir_map(struct mali_page_directory *pagedir, u32 mali_address, u32 size); -_mali_osk_errcode_t mali_mmu_pagedir_unmap(struct mali_page_directory *pagedir, u32 mali_address, u32 size); - -/* Back virtual address space with actual pages. Assumes input is contiguous and 4k aligned. */ -void mali_mmu_pagedir_update(struct mali_page_directory *pagedir, u32 mali_address, u32 phys_address, u32 size, u32 cache_settings); - -u32 mali_page_directory_get_phys_address(struct mali_page_directory *pagedir, u32 index); - -u32 mali_allocate_empty_page(void); -void mali_free_empty_page(u32 address); -_mali_osk_errcode_t mali_create_fault_flush_pages(u32 *page_directory, u32 *page_table, u32 *data_page); -void mali_destroy_fault_flush_pages(u32 *page_directory, u32 *page_table, u32 *data_page); - -struct mali_page_directory *mali_mmu_pagedir_alloc(void); -void mali_mmu_pagedir_free(struct mali_page_directory *pagedir); - -#endif /* __MALI_MMU_PAGE_DIRECTORY_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_osk.h b/drivers/media/video/samsung/mali/common/mali_osk.h deleted file mode 100644 index e32d15d..0000000 --- a/drivers/media/video/samsung/mali/common/mali_osk.h +++ /dev/null @@ -1,1798 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -/** - * @file mali_osk.h - * Defines the OS abstraction layer for the kernel device driver (OSK) - */ - -#ifndef __MALI_OSK_H__ -#define __MALI_OSK_H__ - -#ifdef __cplusplus -extern "C" -{ -#endif - -/** - * @addtogroup uddapi Unified Device Driver (UDD) APIs - * - * @{ - */ - -/** - * @addtogroup oskapi UDD OS Abstraction for Kernel-side (OSK) APIs - * - * @{ - */ - -/** @defgroup _mali_osk_miscellaneous OSK Miscellaneous functions, constants and types - * @{ */ - -/* Define integer types used by OSK. Note: these currently clash with Linux so we only define them if not defined already */ -#ifndef __KERNEL__ - typedef unsigned char u8; - typedef signed char s8; - typedef unsigned short u16; - typedef signed short s16; - typedef unsigned int u32; - typedef signed int s32; - typedef unsigned long long u64; - #define BITS_PER_LONG (sizeof(long)*8) -#else - /* Ensure Linux types u32, etc. are defined */ - #include <linux/types.h> -#endif - -/** @brief Mali Boolean type which uses MALI_TRUE and MALI_FALSE - */ - typedef unsigned long mali_bool; - -#ifndef MALI_TRUE - #define MALI_TRUE ((mali_bool)1) -#endif - -#ifndef MALI_FALSE - #define MALI_FALSE ((mali_bool)0) -#endif - -/** - * @brief OSK Error codes - * - * Each OS may use its own set of error codes, and may require that the - * User/Kernel interface take certain error code. This means that the common - * error codes need to be sufficiently rich to pass the correct error code - * thorugh from the OSK to U/K layer, across all OSs. - * - * The result is that some error codes will appear redundant on some OSs. - * Under all OSs, the OSK layer must translate native OS error codes to - * _mali_osk_errcode_t codes. Similarly, the U/K layer must translate from - * _mali_osk_errcode_t codes to native OS error codes. - */ -typedef enum -{ - _MALI_OSK_ERR_OK = 0, /**< Success. */ - _MALI_OSK_ERR_FAULT = -1, /**< General non-success */ - _MALI_OSK_ERR_INVALID_FUNC = -2, /**< Invalid function requested through User/Kernel interface (e.g. bad IOCTL number) */ - _MALI_OSK_ERR_INVALID_ARGS = -3, /**< Invalid arguments passed through User/Kernel interface */ - _MALI_OSK_ERR_NOMEM = -4, /**< Insufficient memory */ - _MALI_OSK_ERR_TIMEOUT = -5, /**< Timeout occurred */ - _MALI_OSK_ERR_RESTARTSYSCALL = -6, /**< Special: On certain OSs, must report when an interruptable mutex is interrupted. Ignore otherwise. */ - _MALI_OSK_ERR_ITEM_NOT_FOUND = -7, /**< Table Lookup failed */ - _MALI_OSK_ERR_BUSY = -8, /**< Device/operation is busy. Try again later */ - _MALI_OSK_ERR_UNSUPPORTED = -9, /**< Optional part of the interface used, and is unsupported */ -} _mali_osk_errcode_t; - -/** @} */ /* end group _mali_osk_miscellaneous */ - - -/** @defgroup _mali_osk_irq OSK IRQ handling - * @{ */ - -/** @brief Private type for IRQ handling objects */ -typedef struct _mali_osk_irq_t_struct _mali_osk_irq_t; - -/** @brief Optional function to trigger an irq from a resource - * - * This function is implemented by the common layer to allow probing of a resource's IRQ. - * @param arg resource-specific data */ -typedef void (*_mali_osk_irq_trigger_t)( void * arg ); - -/** @brief Optional function to acknowledge an irq from a resource - * - * This function is implemented by the common layer to allow probing of a resource's IRQ. - * @param arg resource-specific data - * @return _MALI_OSK_ERR_OK if the IRQ was successful, or a suitable _mali_osk_errcode_t on failure. */ -typedef _mali_osk_errcode_t (*_mali_osk_irq_ack_t)( void * arg ); - -/** @brief IRQ 'upper-half' handler callback. - * - * This function is implemented by the common layer to do the initial handling of a - * resource's IRQ. This maps on to the concept of an ISR that does the minimum - * work necessary before handing off to an IST. - * - * The communication of the resource-specific data from the ISR to the IST is - * handled by the OSK implementation. - * - * On most systems, the IRQ upper-half handler executes in IRQ context. - * Therefore, the system may have restrictions about what can be done in this - * context - * - * If an IRQ upper-half handler requires more work to be done than can be - * acheived in an IRQ context, then it may defer the work with - * _mali_osk_irq_schedulework(). Refer to \ref _mali_osk_irq_schedulework() for - * more information. - * - * @param arg resource-specific data - * @return _MALI_OSK_ERR_OK if the IRQ was correctly handled, or a suitable - * _mali_osk_errcode_t otherwise. - */ -typedef _mali_osk_errcode_t (*_mali_osk_irq_uhandler_t)( void * arg ); - -/** @brief IRQ 'bottom-half' handler callback. - * - * This function is implemented by the common layer to do the deferred handling - * of a resource's IRQ. Usually, this work cannot be carried out in IRQ context - * by the IRQ upper-half handler. - * - * The IRQ bottom-half handler maps on to the concept of an IST that may - * execute some time after the actual IRQ has fired. - * - * All OSK-registered IRQ bottom-half handlers will be serialized, across all - * CPU-cores in the system. - * - * Refer to \ref _mali_osk_irq_schedulework() for more information on the - * IRQ work-queue, and the calling of the IRQ bottom-half handler. - * - * @param arg resource-specific data - */ -typedef void (*_mali_osk_irq_bhandler_t)( void * arg ); -/** @} */ /* end group _mali_osk_irq */ - - -/** @defgroup _mali_osk_atomic OSK Atomic counters - * @{ */ - -/** @brief Public type of atomic counters - * - * This is public for allocation on stack. On systems that support it, this is just a single 32-bit value. - * On others, it could be encapsulating an object stored elsewhere. - * - * Regardless of implementation, the \ref _mali_osk_atomic functions \b must be used - * for all accesses to the variable's value, even if atomicity is not required. - * Do not access u.val or u.obj directly. - */ -typedef struct -{ - union - { - u32 val; - void *obj; - } u; -} _mali_osk_atomic_t; -/** @} */ /* end group _mali_osk_atomic */ - - -/** @defgroup _mali_osk_lock OSK Mutual Exclusion Locks - * @{ */ - - -/** @brief OSK Mutual Exclusion Lock ordered list - * - * This lists the various types of locks in the system and is used to check - * that locks are taken in the correct order. - * - * Holding more than one lock of the same order at the same time is not - * allowed. - * - */ -typedef enum -{ - _MALI_OSK_LOCK_ORDER_LAST = 0, - - _MALI_OSK_LOCK_ORDER_PM_EXECUTE, - _MALI_OSK_LOCK_ORDER_UTILIZATION, - _MALI_OSK_LOCK_ORDER_L2_COUNTER, - _MALI_OSK_LOCK_ORDER_PROFILING, - _MALI_OSK_LOCK_ORDER_L2_COMMAND, - _MALI_OSK_LOCK_ORDER_PM_CORE_STATE, - _MALI_OSK_LOCK_ORDER_GROUP, - _MALI_OSK_LOCK_ORDER_SCHEDULER, - - _MALI_OSK_LOCK_ORDER_DESCRIPTOR_MAP, - _MALI_OSK_LOCK_ORDER_MEM_PT_CACHE, - _MALI_OSK_LOCK_ORDER_MEM_INFO, - _MALI_OSK_LOCK_ORDER_MEM_SESSION, - - _MALI_OSK_LOCK_ORDER_SESSIONS, - - _MALI_OSK_LOCK_ORDER_FIRST -} _mali_osk_lock_order_t; - - -/** @brief OSK Mutual Exclusion Lock flags type - * - * Flags are supplied at the point where the Lock is initialized. Each flag can - * be combined with others using bitwise OR, '|'. - * - * The flags must be sufficiently rich to cope with all our OSs. This means - * that on some OSs, certain flags can be completely ignored. We define a - * number of terms that are significant across all OSs: - * - * - Sleeping/non-sleeping mutexs. Sleeping mutexs can block on waiting, and so - * schedule out the current thread. This is significant on OSs where there are - * situations in which the current thread must not be put to sleep. On OSs - * without this restriction, sleeping and non-sleeping mutexes can be treated - * as the same (if that is required). - * - Interruptable/non-interruptable mutexes. For sleeping mutexes, it may be - * possible for the sleep to be interrupted for a reason other than the thread - * being able to obtain the lock. OSs behaving in this way may provide a - * mechanism to control whether sleeping mutexes can be interrupted. On OSs - * that do not support the concept of interruption, \b or they do not support - * control of mutex interruption, then interruptable mutexes may be treated - * as non-interruptable. - * - * Some constrains apply to the lock type flags: - * - * - Spinlocks are by nature, non-interruptable. Hence, they must always be - * combined with the NONINTERRUPTABLE flag, because it is meaningless to ask - * for a spinlock that is interruptable (and this highlights its - * non-interruptable-ness). For example, on certain OSs they should be used when - * you must not sleep. - * - Reader/writer is an optimization hint, and any type of lock can be - * reader/writer. Since this is an optimization hint, the implementation need - * not respect this for any/all types of lock. For example, on certain OSs, - * there's no interruptable reader/writer mutex. If such a thing were requested - * on that OS, the fact that interruptable was requested takes priority over the - * reader/writer-ness, because reader/writer-ness is not necessary for correct - * operation. - * - Any lock can use the order parameter. - * - A onelock is an optimization hint specific to certain OSs. It can be - * specified when it is known that only one lock will be held by the thread, - * and so can provide faster mutual exclusion. This can be safely ignored if - * such optimization is not required/present. - * - * The absence of any flags (the value 0) results in a sleeping-mutex, which is interruptable. - */ -typedef enum -{ - _MALI_OSK_LOCKFLAG_SPINLOCK = 0x1, /**< Specifically, don't sleep on those architectures that require it */ - _MALI_OSK_LOCKFLAG_NONINTERRUPTABLE = 0x2, /**< The mutex cannot be interrupted, e.g. delivery of signals on those architectures where this is required */ - _MALI_OSK_LOCKFLAG_READERWRITER = 0x4, /**< Optimise for readers/writers */ - _MALI_OSK_LOCKFLAG_ORDERED = 0x8, /**< Use the order parameter; otherwise use automatic ordering */ - _MALI_OSK_LOCKFLAG_ONELOCK = 0x10, /**< Each thread can only hold one lock at a time */ - _MALI_OSK_LOCKFLAG_SPINLOCK_IRQ = 0x20, /**< IRQ version of spinlock */ - /** @enum _mali_osk_lock_flags_t - * - * Flags from 0x10000--0x80000000 are RESERVED for User-mode */ - -} _mali_osk_lock_flags_t; - -/** @brief Mutual Exclusion Lock Mode Optimization hint - * - * The lock mode is used to implement the read/write locking of locks specified - * as _MALI_OSK_LOCKFLAG_READERWRITER. In this case, the RO mode can be used - * to allow multiple concurrent readers, but no writers. The RW mode is used for - * writers, and so will wait for all readers to release the lock (if any present). - * Further readers and writers will wait until the writer releases the lock. - * - * The mode is purely an optimization hint: for example, it is permissible for - * all locks to behave in RW mode, regardless of that supplied. - * - * It is an error to attempt to use locks in anything other that RW mode when - * _MALI_OSK_LOCKFLAG_READERWRITER is not supplied. - * - */ -typedef enum -{ - _MALI_OSK_LOCKMODE_UNDEF = -1, /**< Undefined lock mode. For internal use only */ - _MALI_OSK_LOCKMODE_RW = 0x0, /**< Read-write mode, default. All readers and writers are mutually-exclusive */ - _MALI_OSK_LOCKMODE_RO, /**< Read-only mode, to support multiple concurrent readers, but mutual exclusion in the presence of writers. */ - /** @enum _mali_osk_lock_mode_t - * - * Lock modes 0x40--0x7F are RESERVED for User-mode */ -} _mali_osk_lock_mode_t; - -/** @brief Private type for Mutual Exclusion lock objects */ -typedef struct _mali_osk_lock_t_struct _mali_osk_lock_t; - -#ifdef DEBUG -/** @brief Macro for asserting that the current thread holds a given lock - */ -#define MALI_DEBUG_ASSERT_LOCK_HELD(l) MALI_DEBUG_ASSERT(_mali_osk_lock_get_owner(l) == _mali_osk_get_tid()); - -/** @brief returns a lock's owner (thread id) if debugging is enabled - */ -u32 _mali_osk_lock_get_owner( _mali_osk_lock_t *lock ); -#endif - -/** @} */ /* end group _mali_osk_lock */ - -/** @defgroup _mali_osk_low_level_memory OSK Low-level Memory Operations - * @{ */ - -/** - * @brief Private data type for use in IO accesses to/from devices. - * - * This represents some range that is accessible from the device. Examples - * include: - * - Device Registers, which could be readable and/or writeable. - * - Memory that the device has access to, for storing configuration structures. - * - * Access to this range must be made through the _mali_osk_mem_ioread32() and - * _mali_osk_mem_iowrite32() functions. - */ -typedef struct _mali_io_address * mali_io_address; - -/** @defgroup _MALI_OSK_CPU_PAGE CPU Physical page size macros. - * - * The order of the page size is supplied for - * ease of use by algorithms that might require it, since it is easier to know - * it ahead of time rather than calculating it. - * - * The Mali Page Mask macro masks off the lower bits of a physical address to - * give the start address of the page for that physical address. - * - * @note The Mali device driver code is designed for systems with 4KB page size. - * Changing these macros will not make the entire Mali device driver work with - * page sizes other than 4KB. - * - * @note The CPU Physical Page Size has been assumed to be the same as the Mali - * Physical Page Size. - * - * @{ - */ - -/** CPU Page Order, as log to base 2 of the Page size. @see _MALI_OSK_CPU_PAGE_SIZE */ -#define _MALI_OSK_CPU_PAGE_ORDER ((u32)12) -/** CPU Page Size, in bytes. */ -#define _MALI_OSK_CPU_PAGE_SIZE (((u32)1) << (_MALI_OSK_CPU_PAGE_ORDER)) -/** CPU Page Mask, which masks off the offset within a page */ -#define _MALI_OSK_CPU_PAGE_MASK (~((((u32)1) << (_MALI_OSK_CPU_PAGE_ORDER)) - ((u32)1))) -/** @} */ /* end of group _MALI_OSK_CPU_PAGE */ - -/** @defgroup _MALI_OSK_MALI_PAGE Mali Physical Page size macros - * - * Mali Physical page size macros. The order of the page size is supplied for - * ease of use by algorithms that might require it, since it is easier to know - * it ahead of time rather than calculating it. - * - * The Mali Page Mask macro masks off the lower bits of a physical address to - * give the start address of the page for that physical address. - * - * @note The Mali device driver code is designed for systems with 4KB page size. - * Changing these macros will not make the entire Mali device driver work with - * page sizes other than 4KB. - * - * @note The Mali Physical Page Size has been assumed to be the same as the CPU - * Physical Page Size. - * - * @{ - */ - -/** Mali Page Order, as log to base 2 of the Page size. @see _MALI_OSK_MALI_PAGE_SIZE */ -#define _MALI_OSK_MALI_PAGE_ORDER ((u32)12) -/** Mali Page Size, in bytes. */ -#define _MALI_OSK_MALI_PAGE_SIZE (((u32)1) << (_MALI_OSK_MALI_PAGE_ORDER)) -/** Mali Page Mask, which masks off the offset within a page */ -#define _MALI_OSK_MALI_PAGE_MASK (~((((u32)1) << (_MALI_OSK_MALI_PAGE_ORDER)) - ((u32)1))) -/** @} */ /* end of group _MALI_OSK_MALI_PAGE*/ - -/** @brief flags for mapping a user-accessible memory range - * - * Where a function with prefix '_mali_osk_mem_mapregion' accepts flags as one - * of the function parameters, it will use one of these. These allow per-page - * control over mappings. Compare with the mali_memory_allocation_flag type, - * which acts over an entire range - * - * These may be OR'd together with bitwise OR (|), but must be cast back into - * the type after OR'ing. - */ -typedef enum -{ - _MALI_OSK_MEM_MAPREGION_FLAG_OS_ALLOCATED_PHYSADDR = 0x1, /**< Physical address is OS Allocated */ -} _mali_osk_mem_mapregion_flags_t; -/** @} */ /* end group _mali_osk_low_level_memory */ - -/** @defgroup _mali_osk_notification OSK Notification Queues - * @{ */ - -/** @brief Private type for notification queue objects */ -typedef struct _mali_osk_notification_queue_t_struct _mali_osk_notification_queue_t; - -/** @brief Public notification data object type */ -typedef struct _mali_osk_notification_t_struct -{ - u32 notification_type; /**< The notification type */ - u32 result_buffer_size; /**< Size of the result buffer to copy to user space */ - void * result_buffer; /**< Buffer containing any type specific data */ -} _mali_osk_notification_t; - -/** @} */ /* end group _mali_osk_notification */ - - -/** @defgroup _mali_osk_timer OSK Timer Callbacks - * @{ */ - -/** @brief Function to call when a timer expires - * - * When a timer expires, this function is called. Note that on many systems, - * a timer callback will be executed in IRQ context. Therefore, restrictions - * may apply on what can be done inside the timer callback. - * - * If a timer requires more work to be done than can be acheived in an IRQ - * context, then it may defer the work with a work-queue. For example, it may - * use \ref _mali_osk_irq_schedulework() to make use of the IRQ bottom-half handler - * to carry out the remaining work. - * - * Stopping the timer with \ref _mali_osk_timer_del() blocks on compeletion of - * the callback. Therefore, the callback may not obtain any mutexes also held - * by any callers of _mali_osk_timer_del(). Otherwise, a deadlock may occur. - * - * @param arg Function-specific data */ -typedef void (*_mali_osk_timer_callback_t)(void * arg ); - -/** @brief Private type for Timer Callback Objects */ -typedef struct _mali_osk_timer_t_struct _mali_osk_timer_t; -/** @} */ /* end group _mali_osk_timer */ - - -/** @addtogroup _mali_osk_list OSK Doubly-Linked Circular Lists - * @{ */ - -/** @brief Public List objects. - * - * To use, add a _mali_osk_list_t member to the structure that may become part - * of a list. When traversing the _mali_osk_list_t objects, use the - * _MALI_OSK_CONTAINER_OF() macro to recover the structure from its - *_mali_osk_list_t member - * - * Each structure may have multiple _mali_osk_list_t members, so that the - * structure is part of multiple lists. When traversing lists, ensure that the - * correct _mali_osk_list_t member is used, because type-checking will be - * lost by the compiler. - */ -typedef struct _mali_osk_list_s -{ - struct _mali_osk_list_s *next; - struct _mali_osk_list_s *prev; -} _mali_osk_list_t; - -/** @brief Initialize a list to be a head of an empty list - * @param exp the list to initialize. */ -#define _MALI_OSK_INIT_LIST_HEAD(exp) _mali_osk_list_init(exp) - -/** @brief Define a list variable, which is uninitialized. - * @param exp the name of the variable that the list will be defined as. */ -#define _MALI_OSK_LIST_HEAD(exp) _mali_osk_list_t exp - -/** @brief Find the containing structure of another structure - * - * This is the reverse of the operation 'offsetof'. This means that the - * following condition is satisfied: - * - * ptr == _MALI_OSK_CONTAINER_OF( &ptr->member, type, member ) - * - * When ptr is of type 'type'. - * - * Its purpose it to recover a larger structure that has wrapped a smaller one. - * - * @note no type or memory checking occurs to ensure that a wrapper structure - * does in fact exist, and that it is being recovered with respect to the - * correct member. - * - * @param ptr the pointer to the member that is contained within the larger - * structure - * @param type the type of the structure that contains the member - * @param member the name of the member in the structure that ptr points to. - * @return a pointer to a \a type object which contains \a member, as pointed - * to by \a ptr. - */ -#define _MALI_OSK_CONTAINER_OF(ptr, type, member) \ - ((type *)( ((char *)ptr) - offsetof(type,member) )) - -/** @brief Find the containing structure of a list - * - * When traversing a list, this is used to recover the containing structure, - * given that is contains a _mali_osk_list_t member. - * - * Each list must be of structures of one type, and must link the same members - * together, otherwise it will not be possible to correctly recover the - * sturctures that the lists link. - * - * @note no type or memory checking occurs to ensure that a structure does in - * fact exist for the list entry, and that it is being recovered with respect - * to the correct list member. - * - * @param ptr the pointer to the _mali_osk_list_t member in this structure - * @param type the type of the structure that contains the member - * @param member the member of the structure that ptr points to. - * @return a pointer to a \a type object which contains the _mali_osk_list_t - * \a member, as pointed to by the _mali_osk_list_t \a *ptr. - */ -#define _MALI_OSK_LIST_ENTRY(ptr, type, member) \ - _MALI_OSK_CONTAINER_OF(ptr, type, member) - -/** @brief Enumerate a list safely - * - * With this macro, lists can be enumerated in a 'safe' manner. That is, - * entries can be deleted from the list without causing an error during - * enumeration. To achieve this, a 'temporary' pointer is required, which must - * be provided to the macro. - * - * Use it like a 'for()', 'while()' or 'do()' construct, and so it must be - * followed by a statement or compound-statement which will be executed for - * each list entry. - * - * Upon loop completion, providing that an early out was not taken in the - * loop body, then it is guaranteed that ptr->member == list, even if the loop - * body never executed. - * - * @param ptr a pointer to an object of type 'type', which points to the - * structure that contains the currently enumerated list entry. - * @param tmp a pointer to an object of type 'type', which must not be used - * inside the list-execution statement. - * @param list a pointer to a _mali_osk_list_t, from which enumeration will - * begin - * @param type the type of the structure that contains the _mali_osk_list_t - * member that is part of the list to be enumerated. - * @param member the _mali_osk_list_t member of the structure that is part of - * the list to be enumerated. - */ -#define _MALI_OSK_LIST_FOREACHENTRY(ptr, tmp, list, type, member) \ - for (ptr = _MALI_OSK_LIST_ENTRY((list)->next, type, member), \ - tmp = _MALI_OSK_LIST_ENTRY(ptr->member.next, type, member); \ - &ptr->member != (list); \ - ptr = tmp, tmp = _MALI_OSK_LIST_ENTRY(tmp->member.next, type, member)) -/** @} */ /* end group _mali_osk_list */ - - -/** @addtogroup _mali_osk_miscellaneous - * @{ */ - -/** @brief The known resource types - * - * @note \b IMPORTANT: these must remain fixed, and only be extended. This is - * because not all systems use a header file for reading in their resources. - * The resources may instead come from a data file where these resources are - * 'hard-coded' in, because there's no easy way of transferring the enum values - * into such data files. E.g. the C-Pre-processor does \em not process enums. - */ -typedef enum _mali_osk_resource_type -{ - RESOURCE_TYPE_FIRST =0, /**< Duplicate resource marker for the first resource*/ - - MEMORY =0, /**< Physically contiguous memory block, not managed by the OS */ - OS_MEMORY =1, /**< Memory managed by and shared with the OS */ - - MALI_PP =2, /**< Mali Pixel Processor core */ - MALI450PP =2, /**< Compatibility option */ - MALI400PP =2, /**< Compatibility option */ - MALI300PP =2, /**< Compatibility option */ - MALI200 =2, /**< Compatibility option */ - - MALI_GP =3, /**< Mali Geometry Processor core */ - MALI450GP =3, /**< Compatibility option */ - MALI400GP =3, /**< Compatibility option */ - MALI300GP =3, /**< Compatibility option */ - MALIGP2 =3, /**< Compatibility option */ - - MMU =4, /**< Mali MMU (Memory Management Unit) */ - - FPGA_FRAMEWORK =5, /**< Mali registers specific to FPGA implementations */ - - MALI_L2 =6, /**< Mali Level 2 cache core */ - MALI450L2 =6, /**< Compatibility option */ - MALI400L2 =6, /**< Compatibility option */ - MALI300L2 =6, /**< Compatibility option */ - - MEM_VALIDATION =7, /**< External Memory Validator */ - - PMU =8, /**< Power Manangement Unit */ - - RESOURCE_TYPE_COUNT /**< The total number of known resources */ -} _mali_osk_resource_type_t; - -/** @brief resource description struct - * - * _mali_osk_resources_init() will enumerate objects of this type. Not all - * members have a valid meaning across all types. - * - * The mmu_id is used to group resources to a certain MMU, since there may be - * more than one MMU in the system, and each resource may be using a different - * MMU: - * - For MMU resources, the setting of mmu_id is a uniquely identifying number. - * - For Other resources, the setting of mmu_id determines which MMU the - * resource uses. - */ -typedef struct _mali_osk_resource -{ - _mali_osk_resource_type_t type; /**< type of the resource */ - const char * description; /**< short description of the resource */ - u32 base; /**< Physical base address of the resource, as seen by Mali resources. */ - s32 cpu_usage_adjust; /**< Offset added to the base address of the resource to arrive at the CPU physical address of the resource (if different from the Mali physical address) */ - u32 size; /**< Size in bytes of the resource - either the size of its register range, or the size of the memory block. */ - u32 irq; /**< IRQ number delivered to the CPU, or -1 to tell the driver to probe for it (if possible) */ - u32 flags; /**< Resources-specific flags. */ - u32 mmu_id; /**< Identifier for Mali MMU resources. */ - u32 alloc_order; /**< Order in which MEMORY/OS_MEMORY resources are used */ -} _mali_osk_resource_t; -/** @} */ /* end group _mali_osk_miscellaneous */ - - -#include "mali_kernel_memory_engine.h" /* include for mali_memory_allocation and mali_physical_memory_allocation type */ - -/** @addtogroup _mali_osk_irq - * @{ */ - -/** @brief Fake IRQ number for testing purposes - */ -#define _MALI_OSK_IRQ_NUMBER_FAKE ((u32)0xFFFFFFF1) - -/** @addtogroup _mali_osk_irq - * @{ */ - -/** @brief PMM Virtual IRQ number - */ -#define _MALI_OSK_IRQ_NUMBER_PMM ((u32)0xFFFFFFF2) - - -/** @brief Initialize IRQ handling for a resource - * - * The _mali_osk_irq_t returned must be written into the resource-specific data - * pointed to by data. This is so that the upper and lower handlers can call - * _mali_osk_irq_schedulework(). - * - * @note The caller must ensure that the resource does not generate an - * interrupt after _mali_osk_irq_init() finishes, and before the - * _mali_osk_irq_t is written into the resource-specific data. Otherwise, - * the upper-half handler will fail to call _mali_osk_irq_schedulework(). - * - * @param irqnum The IRQ number that the resource uses, as seen by the CPU. - * The value -1 has a special meaning which indicates the use of probing, and trigger_func and ack_func must be - * non-NULL. - * @param uhandler The upper-half handler, corresponding to a ISR handler for - * the resource - * @param bhandler The lower-half handler, corresponding to an IST handler for - * the resource - * @param trigger_func Optional: a function to trigger the resource's irq, to - * probe for the interrupt. Use NULL if irqnum != -1. - * @param ack_func Optional: a function to acknowledge the resource's irq, to - * probe for the interrupt. Use NULL if irqnum != -1. - * @param data resource-specific data, which will be passed to uhandler, - * bhandler and (if present) trigger_func and ack_funnc - * @param description textual description of the IRQ resource. - * @return on success, a pointer to a _mali_osk_irq_t object, which represents - * the IRQ handling on this resource. NULL on failure. - */ -_mali_osk_irq_t *_mali_osk_irq_init( u32 irqnum, _mali_osk_irq_uhandler_t uhandler, _mali_osk_irq_bhandler_t bhandler, _mali_osk_irq_trigger_t trigger_func, _mali_osk_irq_ack_t ack_func, void *data, const char *description ); - -/** @brief Cause a queued, deferred call of the IRQ bottom-half. - * - * _mali_osk_irq_schedulework provides a mechanism for enqueuing deferred calls - * to the IRQ bottom-half handler. The queue is known as the IRQ work-queue. - * After calling _mali_osk_irq_schedulework(), the IRQ bottom-half handler will - * be scheduled to run at some point in the future. - * - * This is called by the IRQ upper-half to defer further processing of - * IRQ-related work to the IRQ bottom-half handler. This is necessary for work - * that cannot be done in an IRQ context by the IRQ upper-half handler. Timer - * callbacks also use this mechanism, because they are treated as though they - * operate in an IRQ context. Refer to \ref _mali_osk_timer_t for more - * information. - * - * Code that operates in a kernel-process context (with no IRQ context - * restrictions) may also enqueue deferred calls to the IRQ bottom-half. The - * advantage over direct calling is that deferred calling allows the caller and - * IRQ bottom half to hold the same mutex, with a guarantee that they will not - * deadlock just by using this mechanism. - * - * _mali_osk_irq_schedulework() places deferred call requests on a queue, to - * allow for more than one thread to make a deferred call. Therfore, if it is - * called 'K' times, then the IRQ bottom-half will be scheduled 'K' times too. - * 'K' is a number that is implementation-specific. - * - * _mali_osk_irq_schedulework() is guaranteed to not block on: - * - enqueuing a deferred call request. - * - the completion of the IRQ bottom-half handler. - * - * This is to prevent deadlock. For example, if _mali_osk_irq_schedulework() - * blocked, then it would cause a deadlock when the following two conditions - * hold: - * - The IRQ bottom-half callback (of type _mali_osk_irq_bhandler_t) locks - * a mutex - * - And, at the same time, the caller of _mali_osk_irq_schedulework() also - * holds the same mutex - * - * @note care must be taken to not overflow the queue that - * _mali_osk_irq_schedulework() operates on. Code must be structured to - * ensure that the number of requests made to the queue is bounded. Otherwise, - * IRQs will be lost. - * - * The queue that _mali_osk_irq_schedulework implements is a FIFO of N-writer, - * 1-reader type. The writers are the callers of _mali_osk_irq_schedulework - * (all OSK-registered IRQ upper-half handlers in the system, watchdog timers, - * callers from a Kernel-process context). The reader is a single thread that - * handles all OSK-registered IRQs. - * - * The consequence of the queue being a 1-reader type is that calling - * _mali_osk_irq_schedulework() on different _mali_osk_irq_t objects causes - * their IRQ bottom-halves to be serialized, across all CPU-cores in the - * system. - * - * @param irq a pointer to the _mali_osk_irq_t object corresponding to the - * resource whose IRQ bottom-half must begin processing. - */ -void _mali_osk_irq_schedulework( _mali_osk_irq_t *irq ); - -/** @brief Terminate IRQ handling on a resource. - * - * This will disable the interrupt from the device, and then waits for the - * IRQ work-queue to finish the work that is currently in the queue. That is, - * for every deferred call currently in the IRQ work-queue, it waits for each - * of those to be processed by their respective IRQ bottom-half handler. - * - * This function is used to ensure that the bottom-half handler of the supplied - * IRQ object will not be running at the completion of this function call. - * However, the caller must ensure that no other sources could call the - * _mali_osk_irq_schedulework() on the same IRQ object. For example, the - * relevant timers must be stopped. - * - * @note While this function is being called, other OSK-registered IRQs in the - * system may enqueue work for their respective bottom-half handlers. This - * function will not wait for those entries in the work-queue to be flushed. - * - * Since this blocks on the completion of work in the IRQ work-queue, the - * caller of this function \b must \b not hold any mutexes that are taken by - * any OSK-registered IRQ bottom-half handler. To do so may cause a deadlock. - * - * @param irq a pointer to the _mali_osk_irq_t object corresponding to the - * resource whose IRQ handling is to be terminated. - */ -void _mali_osk_irq_term( _mali_osk_irq_t *irq ); - -/** @brief flushing workqueue. - * - * This will flush the workqueue. - * - * @param irq a pointer to the _mali_osk_irq_t object corresponding to the - * resource whose IRQ handling is to be terminated. - */ -void _mali_osk_flush_workqueue( _mali_osk_irq_t *irq ); - -/** @} */ /* end group _mali_osk_irq */ - - -/** @addtogroup _mali_osk_atomic - * @{ */ - -/** @brief Decrement an atomic counter - * - * @note It is an error to decrement the counter beyond -(1<<23) - * - * @param atom pointer to an atomic counter */ -void _mali_osk_atomic_dec( _mali_osk_atomic_t *atom ); - -/** @brief Decrement an atomic counter, return new value - * - * @param atom pointer to an atomic counter - * @return The new value, after decrement */ -u32 _mali_osk_atomic_dec_return( _mali_osk_atomic_t *atom ); - -/** @brief Increment an atomic counter - * - * @note It is an error to increment the counter beyond (1<<23)-1 - * - * @param atom pointer to an atomic counter */ -void _mali_osk_atomic_inc( _mali_osk_atomic_t *atom ); - -/** @brief Increment an atomic counter, return new value - * - * @param atom pointer to an atomic counter */ -u32 _mali_osk_atomic_inc_return( _mali_osk_atomic_t *atom ); - -/** @brief Initialize an atomic counter - * - * @note the parameter required is a u32, and so signed integers should be - * cast to u32. - * - * @param atom pointer to an atomic counter - * @param val the value to initialize the atomic counter. - * @return _MALI_OSK_ERR_OK on success, otherwise, a suitable - * _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_osk_atomic_init( _mali_osk_atomic_t *atom, u32 val ); - -/** @brief Read a value from an atomic counter - * - * This can only be safely used to determine the value of the counter when it - * is guaranteed that other threads will not be modifying the counter. This - * makes its usefulness limited. - * - * @param atom pointer to an atomic counter - */ -u32 _mali_osk_atomic_read( _mali_osk_atomic_t *atom ); - -/** @brief Terminate an atomic counter - * - * @param atom pointer to an atomic counter - */ -void _mali_osk_atomic_term( _mali_osk_atomic_t *atom ); -/** @} */ /* end group _mali_osk_atomic */ - - -/** @defgroup _mali_osk_memory OSK Memory Allocation - * @{ */ - -/** @brief Allocate zero-initialized memory. - * - * Returns a buffer capable of containing at least \a n elements of \a size - * bytes each. The buffer is initialized to zero. - * - * If there is a need for a bigger block of memory (16KB or bigger), then - * consider to use _mali_osk_vmalloc() instead, as this function might - * map down to a OS function with size limitations. - * - * The buffer is suitably aligned for storage and subsequent access of every - * type that the compiler supports. Therefore, the pointer to the start of the - * buffer may be cast into any pointer type, and be subsequently accessed from - * such a pointer, without loss of information. - * - * When the buffer is no longer in use, it must be freed with _mali_osk_free(). - * Failure to do so will cause a memory leak. - * - * @note Most toolchains supply memory allocation functions that meet the - * compiler's alignment requirements. - * - * @param n Number of elements to allocate - * @param size Size of each element - * @return On success, the zero-initialized buffer allocated. NULL on failure - */ -void *_mali_osk_calloc( u32 n, u32 size ); - -/** @brief Allocate memory. - * - * Returns a buffer capable of containing at least \a size bytes. The - * contents of the buffer are undefined. - * - * If there is a need for a bigger block of memory (16KB or bigger), then - * consider to use _mali_osk_vmalloc() instead, as this function might - * map down to a OS function with size limitations. - * - * The buffer is suitably aligned for storage and subsequent access of every - * type that the compiler supports. Therefore, the pointer to the start of the - * buffer may be cast into any pointer type, and be subsequently accessed from - * such a pointer, without loss of information. - * - * When the buffer is no longer in use, it must be freed with _mali_osk_free(). - * Failure to do so will cause a memory leak. - * - * @note Most toolchains supply memory allocation functions that meet the - * compiler's alignment requirements. - * - * Remember to free memory using _mali_osk_free(). - * @param size Number of bytes to allocate - * @return On success, the buffer allocated. NULL on failure. - */ -void *_mali_osk_malloc( u32 size ); - -/** @brief Free memory. - * - * Reclaims the buffer pointed to by the parameter \a ptr for the system. - * All memory returned from _mali_osk_malloc() and _mali_osk_calloc() - * must be freed before the application exits. Otherwise, - * a memory leak will occur. - * - * Memory must be freed once. It is an error to free the same non-NULL pointer - * more than once. - * - * It is legal to free the NULL pointer. - * - * @param ptr Pointer to buffer to free - */ -void _mali_osk_free( void *ptr ); - -/** @brief Allocate memory. - * - * Returns a buffer capable of containing at least \a size bytes. The - * contents of the buffer are undefined. - * - * This function is potentially slower than _mali_osk_malloc() and _mali_osk_calloc(), - * but do support bigger sizes. - * - * The buffer is suitably aligned for storage and subsequent access of every - * type that the compiler supports. Therefore, the pointer to the start of the - * buffer may be cast into any pointer type, and be subsequently accessed from - * such a pointer, without loss of information. - * - * When the buffer is no longer in use, it must be freed with _mali_osk_free(). - * Failure to do so will cause a memory leak. - * - * @note Most toolchains supply memory allocation functions that meet the - * compiler's alignment requirements. - * - * Remember to free memory using _mali_osk_free(). - * @param size Number of bytes to allocate - * @return On success, the buffer allocated. NULL on failure. - */ -void *_mali_osk_valloc( u32 size ); - -/** @brief Free memory. - * - * Reclaims the buffer pointed to by the parameter \a ptr for the system. - * All memory returned from _mali_osk_valloc() must be freed before the - * application exits. Otherwise a memory leak will occur. - * - * Memory must be freed once. It is an error to free the same non-NULL pointer - * more than once. - * - * It is legal to free the NULL pointer. - * - * @param ptr Pointer to buffer to free - */ -void _mali_osk_vfree( void *ptr ); - -/** @brief Copies memory. - * - * Copies the \a len bytes from the buffer pointed by the parameter \a src - * directly to the buffer pointed by \a dst. - * - * It is an error for \a src to overlap \a dst anywhere in \a len bytes. - * - * @param dst Pointer to the destination array where the content is to be - * copied. - * @param src Pointer to the source of data to be copied. - * @param len Number of bytes to copy. - * @return \a dst is always passed through unmodified. - */ -void *_mali_osk_memcpy( void *dst, const void *src, u32 len ); - -/** @brief Fills memory. - * - * Sets the first \a n bytes of the block of memory pointed to by \a s to - * the specified value - * @param s Pointer to the block of memory to fill. - * @param c Value to be set, passed as u32. Only the 8 Least Significant Bits (LSB) - * are used. - * @param n Number of bytes to be set to the value. - * @return \a s is always passed through unmodified - */ -void *_mali_osk_memset( void *s, u32 c, u32 n ); -/** @} */ /* end group _mali_osk_memory */ - - -/** @brief Checks the amount of memory allocated - * - * Checks that not more than \a max_allocated bytes are allocated. - * - * Some OS bring up an interactive out of memory dialogue when the - * system runs out of memory. This can stall non-interactive - * apps (e.g. automated test runs). This function can be used to - * not trigger the OOM dialogue by keeping allocations - * within a certain limit. - * - * @return MALI_TRUE when \a max_allocated bytes are not in use yet. MALI_FALSE - * when at least \a max_allocated bytes are in use. - */ -mali_bool _mali_osk_mem_check_allocated( u32 max_allocated ); - -/** @addtogroup _mali_osk_lock - * @{ */ - -/** @brief Initialize a Mutual Exclusion Lock - * - * Locks are created in the signalled (unlocked) state. - * - * initial must be zero, since there is currently no means of expressing - * whether a reader/writer lock should be initially locked as a reader or - * writer. This would require some encoding to be used. - * - * 'Automatic' ordering means that locks must be obtained in the order that - * they were created. For all locks that can be held at the same time, they must - * either all provide the order parameter, or they all must use 'automatic' - * ordering - because there is no way of mixing 'automatic' and 'manual' - * ordering. - * - * @param flags flags combined with bitwise OR ('|'), or zero. There are - * restrictions on which flags can be combined, @see _mali_osk_lock_flags_t. - * @param initial For future expansion into semaphores. SBZ. - * @param order The locking order of the mutex. That is, locks obtained by the - * same thread must have been created with an increasing order parameter, for - * deadlock prevention. Setting to zero causes 'automatic' ordering to be used. - * @return On success, a pointer to a _mali_osk_lock_t object. NULL on failure. - */ -_mali_osk_lock_t *_mali_osk_lock_init( _mali_osk_lock_flags_t flags, u32 initial, u32 order ); - -/** @brief Wait for a lock to be signalled (obtained) - - * After a thread has successfully waited on the lock, the lock is obtained by - * the thread, and is marked as unsignalled. The thread releases the lock by - * signalling it. - * - * In the case of Reader/Writer locks, multiple readers can obtain a lock in - * the absence of writers, which is a performance optimization (providing that - * the readers never write to the protected resource). - * - * To prevent deadlock, locks must always be obtained in the same order. - * - * For locks marked as _MALI_OSK_LOCKFLAG_NONINTERRUPTABLE, it is a - * programming error for the function to exit without obtaining the lock. This - * means that the error code must only be checked for interruptible locks. - * - * @param lock the lock to wait upon (obtain). - * @param mode the mode in which the lock should be obtained. Unless the lock - * was created with _MALI_OSK_LOCKFLAG_READERWRITER, this must be - * _MALI_OSK_LOCKMODE_RW. - * @return On success, _MALI_OSK_ERR_OK. For interruptible locks, a suitable - * _mali_osk_errcode_t will be returned on failure, and the lock will not be - * obtained. In this case, the error code must be propagated up to the U/K - * interface. - */ -_mali_osk_errcode_t _mali_osk_lock_wait( _mali_osk_lock_t *lock, _mali_osk_lock_mode_t mode); - - -/** @brief Signal (release) a lock - * - * Locks may only be signalled by the thread that originally waited upon the - * lock. - * - * @note In the OSU, a flag exists to allow any thread to signal a - * lock. Such functionality is not present in the OSK. - * - * @param lock the lock to signal (release). - * @param mode the mode in which the lock should be obtained. This must match - * the mode in which the lock was waited upon. - */ -void _mali_osk_lock_signal( _mali_osk_lock_t *lock, _mali_osk_lock_mode_t mode ); - -/** @brief Terminate a lock - * - * This terminates a lock and frees all associated resources. - * - * It is a programming error to terminate the lock when it is held (unsignalled) - * by a thread. - * - * @param lock the lock to terminate. - */ -void _mali_osk_lock_term( _mali_osk_lock_t *lock ); -/** @} */ /* end group _mali_osk_lock */ - - -/** @addtogroup _mali_osk_low_level_memory - * @{ */ - -/** @brief Issue a memory barrier - * - * This defines an arbitrary memory barrier operation, which forces an ordering constraint - * on memory read and write operations. - */ -void _mali_osk_mem_barrier( void ); - -/** @brief Issue a write memory barrier - * - * This defines an write memory barrier operation which forces an ordering constraint - * on memory write operations. - */ -void _mali_osk_write_mem_barrier( void ); - -/** @brief Map a physically contiguous region into kernel space - * - * This is primarily used for mapping in registers from resources, and Mali-MMU - * page tables. The mapping is only visable from kernel-space. - * - * Access has to go through _mali_osk_mem_ioread32 and _mali_osk_mem_iowrite32 - * - * @param phys CPU-physical base address of the memory to map in. This must - * be aligned to the system's page size, which is assumed to be 4K. - * @param size the number of bytes of physically contiguous address space to - * map in - * @param description A textual description of the memory being mapped in. - * @return On success, a Mali IO address through which the mapped-in - * memory/registers can be accessed. NULL on failure. - */ -mali_io_address _mali_osk_mem_mapioregion( u32 phys, u32 size, const char *description ); - -/** @brief Unmap a physically contiguous address range from kernel space. - * - * The address range should be one previously mapped in through - * _mali_osk_mem_mapioregion. - * - * It is a programming error to do (but not limited to) the following: - * - attempt an unmap twice - * - unmap only part of a range obtained through _mali_osk_mem_mapioregion - * - unmap more than the range obtained through _mali_osk_mem_mapioregion - * - unmap an address range that was not successfully mapped using - * _mali_osk_mem_mapioregion - * - provide a mapping that does not map to phys. - * - * @param phys CPU-physical base address of the memory that was originally - * mapped in. This must be aligned to the system's page size, which is assumed - * to be 4K - * @param size The number of bytes that were originally mapped in. - * @param mapping The Mali IO address through which the mapping is - * accessed. - */ -void _mali_osk_mem_unmapioregion( u32 phys, u32 size, mali_io_address mapping ); - -/** @brief Allocate and Map a physically contiguous region into kernel space - * - * This is used for allocating physically contiguous regions (such as Mali-MMU - * page tables) and mapping them into kernel space. The mapping is only - * visible from kernel-space. - * - * The alignment of the returned memory is guaranteed to be at least - * _MALI_OSK_CPU_PAGE_SIZE. - * - * Access must go through _mali_osk_mem_ioread32 and _mali_osk_mem_iowrite32 - * - * @note This function is primarily to provide support for OSs that are - * incapable of separating the tasks 'allocate physically contiguous memory' - * and 'map it into kernel space' - * - * @param[out] phys CPU-physical base address of memory that was allocated. - * (*phys) will be guaranteed to be aligned to at least - * _MALI_OSK_CPU_PAGE_SIZE on success. - * - * @param[in] size the number of bytes of physically contiguous memory to - * allocate. This must be a multiple of _MALI_OSK_CPU_PAGE_SIZE. - * - * @return On success, a Mali IO address through which the mapped-in - * memory/registers can be accessed. NULL on failure, and (*phys) is unmodified. - */ -mali_io_address _mali_osk_mem_allocioregion( u32 *phys, u32 size ); - -/** @brief Free a physically contiguous address range from kernel space. - * - * The address range should be one previously mapped in through - * _mali_osk_mem_allocioregion. - * - * It is a programming error to do (but not limited to) the following: - * - attempt a free twice on the same ioregion - * - free only part of a range obtained through _mali_osk_mem_allocioregion - * - free more than the range obtained through _mali_osk_mem_allocioregion - * - free an address range that was not successfully mapped using - * _mali_osk_mem_allocioregion - * - provide a mapping that does not map to phys. - * - * @param phys CPU-physical base address of the memory that was originally - * mapped in, which was aligned to _MALI_OSK_CPU_PAGE_SIZE. - * @param size The number of bytes that were originally mapped in, which was - * a multiple of _MALI_OSK_CPU_PAGE_SIZE. - * @param mapping The Mali IO address through which the mapping is - * accessed. - */ -void _mali_osk_mem_freeioregion( u32 phys, u32 size, mali_io_address mapping ); - -/** @brief Request a region of physically contiguous memory - * - * This is used to ensure exclusive access to a region of physically contigous - * memory. - * - * It is acceptable to implement this as a stub. However, it is then the job - * of the System Integrator to ensure that no other device driver will be using - * the physical address ranges used by Mali, while the Mali device driver is - * loaded. - * - * @param phys CPU-physical base address of the memory to request. This must - * be aligned to the system's page size, which is assumed to be 4K. - * @param size the number of bytes of physically contiguous address space to - * request. - * @param description A textual description of the memory being requested. - * @return _MALI_OSK_ERR_OK on success. Otherwise, a suitable - * _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_osk_mem_reqregion( u32 phys, u32 size, const char *description ); - -/** @brief Un-request a region of physically contiguous memory - * - * This is used to release a regious of physically contiguous memory previously - * requested through _mali_osk_mem_reqregion, so that other device drivers may - * use it. This will be called at time of Mali device driver termination. - * - * It is a programming error to attempt to: - * - unrequest a region twice - * - unrequest only part of a range obtained through _mali_osk_mem_reqregion - * - unrequest more than the range obtained through _mali_osk_mem_reqregion - * - unrequest an address range that was not successfully requested using - * _mali_osk_mem_reqregion - * - * @param phys CPU-physical base address of the memory to un-request. This must - * be aligned to the system's page size, which is assumed to be 4K - * @param size the number of bytes of physically contiguous address space to - * un-request. - */ -void _mali_osk_mem_unreqregion( u32 phys, u32 size ); - -/** @brief Read from a location currently mapped in through - * _mali_osk_mem_mapioregion - * - * This reads a 32-bit word from a 32-bit aligned location. It is a programming - * error to provide unaligned locations, or to read from memory that is not - * mapped in, or not mapped through either _mali_osk_mem_mapioregion() or - * _mali_osk_mem_allocioregion(). - * - * @param mapping Mali IO address to read from - * @param offset Byte offset from the given IO address to operate on, must be a multiple of 4 - * @return the 32-bit word from the specified location. - */ -u32 _mali_osk_mem_ioread32( volatile mali_io_address mapping, u32 offset ); - -/** @brief Write to a location currently mapped in through - * _mali_osk_mem_mapioregion without memory barriers - * - * This write a 32-bit word to a 32-bit aligned location without using memory barrier. - * It is a programming error to provide unaligned locations, or to write to memory that is not - * mapped in, or not mapped through either _mali_osk_mem_mapioregion() or - * _mali_osk_mem_allocioregion(). - * - * @param mapping Mali IO address to write to - * @param offset Byte offset from the given IO address to operate on, must be a multiple of 4 - * @param val the 32-bit word to write. - */ -void _mali_osk_mem_iowrite32_relaxed( volatile mali_io_address addr, u32 offset, u32 val ); - -/** @brief Write to a location currently mapped in through - * _mali_osk_mem_mapioregion with write memory barrier - * - * This write a 32-bit word to a 32-bit aligned location. It is a programming - * error to provide unaligned locations, or to write to memory that is not - * mapped in, or not mapped through either _mali_osk_mem_mapioregion() or - * _mali_osk_mem_allocioregion(). - * - * @param mapping Mali IO address to write to - * @param offset Byte offset from the given IO address to operate on, must be a multiple of 4 - * @param val the 32-bit word to write. - */ -void _mali_osk_mem_iowrite32( volatile mali_io_address mapping, u32 offset, u32 val ); - -/** @brief Flush all CPU caches - * - * This should only be implemented if flushing of the cache is required for - * memory mapped in through _mali_osk_mem_mapregion. - */ -void _mali_osk_cache_flushall( void ); - -/** @brief Flush any caches necessary for the CPU and MALI to have the same view of a range of uncached mapped memory - * - * This should only be implemented if your OS doesn't do a full cache flush (inner & outer) - * after allocating uncached mapped memory. - * - * Some OS do not perform a full cache flush (including all outer caches) for uncached mapped memory. - * They zero the memory through a cached mapping, then flush the inner caches but not the outer caches. - * This is required for MALI to have the correct view of the memory. - */ -void _mali_osk_cache_ensure_uncached_range_flushed( void *uncached_mapping, u32 offset, u32 size ); - -/** @} */ /* end group _mali_osk_low_level_memory */ - - -/** @addtogroup _mali_osk_notification - * - * User space notification framework - * - * Communication with user space of asynchronous events is performed through a - * synchronous call to the \ref u_k_api. - * - * Since the events are asynchronous, the events have to be queued until a - * synchronous U/K API call can be made by user-space. A U/K API call might also - * be received before any event has happened. Therefore the notifications the - * different subsystems wants to send to user space has to be queued for later - * reception, or a U/K API call has to be blocked until an event has occured. - * - * Typical uses of notifications are after running of jobs on the hardware or - * when changes to the system is detected that needs to be relayed to user - * space. - * - * After an event has occured user space has to be notified using some kind of - * message. The notification framework supports sending messages to waiting - * threads or queueing of messages until a U/K API call is made. - * - * The notification queue is a FIFO. There are no restrictions on the numbers - * of readers or writers in the queue. - * - * A message contains what user space needs to identifiy how to handle an - * event. This includes a type field and a possible type specific payload. - * - * A notification to user space is represented by a - * \ref _mali_osk_notification_t object. A sender gets hold of such an object - * using _mali_osk_notification_create(). The buffer given by the - * _mali_osk_notification_t::result_buffer field in the object is used to store - * any type specific data. The other fields are internal to the queue system - * and should not be touched. - * - * @{ */ - -/** @brief Create a notification object - * - * Returns a notification object which can be added to the queue of - * notifications pending for user space transfer. - * - * The implementation will initialize all members of the - * \ref _mali_osk_notification_t object. In particular, the - * _mali_osk_notification_t::result_buffer member will be initialized to point - * to \a size bytes of storage, and that storage will be suitably aligned for - * storage of any structure. That is, the created buffer meets the same - * requirements as _mali_osk_malloc(). - * - * The notification object must be deleted when not in use. Use - * _mali_osk_notification_delete() for deleting it. - * - * @note You \b must \b not call _mali_osk_free() on a \ref _mali_osk_notification_t, - * object, or on a _mali_osk_notification_t::result_buffer. You must only use - * _mali_osk_notification_delete() to free the resources assocaited with a - * \ref _mali_osk_notification_t object. - * - * @param type The notification type - * @param size The size of the type specific buffer to send - * @return Pointer to a notification object with a suitable buffer, or NULL on error. - */ -_mali_osk_notification_t *_mali_osk_notification_create( u32 type, u32 size ); - -/** @brief Delete a notification object - * - * This must be called to reclaim the resources of a notification object. This - * includes: - * - The _mali_osk_notification_t::result_buffer - * - The \ref _mali_osk_notification_t itself. - * - * A notification object \b must \b not be used after it has been deleted by - * _mali_osk_notification_delete(). - * - * In addition, the notification object may not be deleted while it is in a - * queue. That is, if it has been placed on a queue with - * _mali_osk_notification_queue_send(), then it must not be deleted until - * it has been received by a call to _mali_osk_notification_queue_receive(). - * Otherwise, the queue may be corrupted. - * - * @param object the notification object to delete. - */ -void _mali_osk_notification_delete( _mali_osk_notification_t *object ); - -/** @brief Create a notification queue - * - * Creates a notification queue which can be used to queue messages for user - * delivery and get queued messages from - * - * The queue is a FIFO, and has no restrictions on the numbers of readers or - * writers. - * - * When the queue is no longer in use, it must be terminated with - * \ref _mali_osk_notification_queue_term(). Failure to do so will result in a - * memory leak. - * - * @return Pointer to a new notification queue or NULL on error. - */ -_mali_osk_notification_queue_t *_mali_osk_notification_queue_init( void ); - -/** @brief Destroy a notification queue - * - * Destroys a notification queue and frees associated resources from the queue. - * - * A notification queue \b must \b not be destroyed in the following cases: - * - while there are \ref _mali_osk_notification_t objects in the queue. - * - while there are writers currently acting upon the queue. That is, while - * a thread is currently calling \ref _mali_osk_notification_queue_send() on - * the queue, or while a thread may call - * \ref _mali_osk_notification_queue_send() on the queue in the future. - * - while there are readers currently waiting upon the queue. That is, while - * a thread is currently calling \ref _mali_osk_notification_queue_receive() on - * the queue, or while a thread may call - * \ref _mali_osk_notification_queue_receive() on the queue in the future. - * - * Therefore, all \ref _mali_osk_notification_t objects must be flushed and - * deleted by the code that makes use of the notification queues, since only - * they know the structure of the _mali_osk_notification_t::result_buffer - * (even if it may only be a flat sturcture). - * - * @note Since the queue is a FIFO, the code using notification queues may - * create its own 'flush' type of notification, to assist in flushing the - * queue. - * - * Once the queue has been destroyed, it must not be used again. - * - * @param queue The queue to destroy - */ -void _mali_osk_notification_queue_term( _mali_osk_notification_queue_t *queue ); - -/** @brief Schedule notification for delivery - * - * When a \ref _mali_osk_notification_t object has been created successfully - * and set up, it may be added to the queue of objects waiting for user space - * transfer. - * - * The sending will not block if the queue is full. - * - * A \ref _mali_osk_notification_t object \b must \b not be put on two different - * queues at the same time, or enqueued twice onto a single queue before - * reception. However, it is acceptable for it to be requeued \em after reception - * from a call to _mali_osk_notification_queue_receive(), even onto the same queue. - * - * Again, requeuing must also not enqueue onto two different queues at the same - * time, or enqueue onto the same queue twice before reception. - * - * @param queue The notification queue to add this notification to - * @param object The entry to add - */ -void _mali_osk_notification_queue_send( _mali_osk_notification_queue_t *queue, _mali_osk_notification_t *object ); - -#if MALI_STATE_TRACKING -/** @brief Receive a notification from a queue - * - * Check if a notification queue is empty. - * - * @param queue The queue to check. - * @return MALI_TRUE if queue is empty, otherwise MALI_FALSE. - */ -mali_bool _mali_osk_notification_queue_is_empty( _mali_osk_notification_queue_t *queue ); -#endif - -/** @brief Receive a notification from a queue - * - * Receives a single notification from the given queue. - * - * If no notifciations are ready the thread will sleep until one becomes ready. - * Therefore, notifications may not be received into an - * IRQ or 'atomic' context (that is, a context where sleeping is disallowed). - * - * @param queue The queue to receive from - * @param result Pointer to storage of a pointer of type - * \ref _mali_osk_notification_t*. \a result will be written to such that the - * expression \a (*result) will evaluate to a pointer to a valid - * \ref _mali_osk_notification_t object, or NULL if none were received. - * @return _MALI_OSK_ERR_OK on success. _MALI_OSK_ERR_RESTARTSYSCALL if the sleep was interrupted. - */ -_mali_osk_errcode_t _mali_osk_notification_queue_receive( _mali_osk_notification_queue_t *queue, _mali_osk_notification_t **result ); - -/** @brief Dequeues a notification from a queue - * - * Receives a single notification from the given queue. - * - * If no notifciations are ready the function call will return an error code. - * - * @param queue The queue to receive from - * @param result Pointer to storage of a pointer of type - * \ref _mali_osk_notification_t*. \a result will be written to such that the - * expression \a (*result) will evaluate to a pointer to a valid - * \ref _mali_osk_notification_t object, or NULL if none were received. - * @return _MALI_OSK_ERR_OK on success, _MALI_OSK_ERR_ITEM_NOT_FOUND if queue was empty. - */ -_mali_osk_errcode_t _mali_osk_notification_queue_dequeue( _mali_osk_notification_queue_t *queue, _mali_osk_notification_t **result ); - -/** @} */ /* end group _mali_osk_notification */ - - -/** @addtogroup _mali_osk_timer - * - * Timers use the OS's representation of time, which are 'ticks'. This is to - * prevent aliasing problems between the internal timer time, and the time - * asked for. - * - * @{ */ - -/** @brief Initialize a timer - * - * Allocates resources for a new timer, and initializes them. This does not - * start the timer. - * - * @return a pointer to the allocated timer object, or NULL on failure. - */ -_mali_osk_timer_t *_mali_osk_timer_init(void); - -/** @brief Start a timer - * - * It is an error to start a timer without setting the callback via - * _mali_osk_timer_setcallback(). - * - * It is an error to use this to start an already started timer. - * - * The timer will expire in \a ticks_to_expire ticks, at which point, the - * callback function will be invoked with the callback-specific data, - * as registered by _mali_osk_timer_setcallback(). - * - * @param tim the timer to start - * @param ticks_to_expire the amount of time in ticks for the timer to run - * before triggering. - */ -void _mali_osk_timer_add( _mali_osk_timer_t *tim, u32 ticks_to_expire ); - -/** @brief Modify a timer - * - * Set the absolute time at which a timer will expire, and start it if it is - * stopped. If \a expiry_tick is in the past (determined by - * _mali_osk_time_after() ), the timer fires immediately. - * - * It is an error to modify a timer without setting the callback via - * _mali_osk_timer_setcallback(). - * - * The timer will expire at absolute time \a expiry_tick, at which point, the - * callback function will be invoked with the callback-specific data, as set - * by _mali_osk_timer_setcallback(). - * - * @param tim the timer to modify, and start if necessary - * @param expiry_tick the \em absolute time in ticks at which this timer should - * trigger. - * - */ -void _mali_osk_timer_mod( _mali_osk_timer_t *tim, u32 expiry_tick); - -/** @brief Stop a timer, and block on its completion. - * - * Stop the timer. When the function returns, it is guaranteed that the timer's - * callback will not be running on any CPU core. - * - * Since stoping the timer blocks on compeletion of the callback, the callback - * may not obtain any mutexes that the caller holds. Otherwise, a deadlock will - * occur. - * - * @note While the callback itself is guaranteed to not be running, work - * enqueued on the IRQ work-queue by the timer (with - * \ref _mali_osk_irq_schedulework()) may still run. The timer callback and IRQ - * bottom-half handler must take this into account. - * - * It is legal to stop an already stopped timer. - * - * @param tim the timer to stop. - * - */ -void _mali_osk_timer_del( _mali_osk_timer_t *tim ); - -/** @brief Set a timer's callback parameters. - * - * This must be called at least once before a timer is started/modified. - * - * After a timer has been stopped or expires, the callback remains set. This - * means that restarting the timer will call the same function with the same - * parameters on expiry. - * - * @param tim the timer to set callback on. - * @param callback Function to call when timer expires - * @param data Function-specific data to supply to the function on expiry. - */ -void _mali_osk_timer_setcallback( _mali_osk_timer_t *tim, _mali_osk_timer_callback_t callback, void *data ); - -/** @brief Terminate a timer, and deallocate resources. - * - * The timer must first be stopped by calling _mali_osk_timer_del(). - * - * It is a programming error for _mali_osk_timer_term() to be called on: - * - timer that is currently running - * - a timer that is currently executing its callback. - * - * @param tim the timer to deallocate. - */ -void _mali_osk_timer_term( _mali_osk_timer_t *tim ); -/** @} */ /* end group _mali_osk_timer */ - - -/** @defgroup _mali_osk_time OSK Time functions - * - * \ref _mali_osk_time use the OS's representation of time, which are - * 'ticks'. This is to prevent aliasing problems between the internal timer - * time, and the time asked for. - * - * OS tick time is measured as a u32. The time stored in a u32 may either be - * an absolute time, or a time delta between two events. Whilst it is valid to - * use math opeartors to \em change the tick value represented as a u32, it - * is often only meaningful to do such operations on time deltas, rather than - * on absolute time. However, it is meaningful to add/subtract time deltas to - * absolute times. - * - * Conversion between tick time and milliseconds (ms) may not be loss-less, - * and are \em implementation \em depenedant. - * - * Code use OS time must take this into account, since: - * - a small OS time may (or may not) be rounded - * - a large time may (or may not) overflow - * - * @{ */ - -/** @brief Return whether ticka occurs after tickb - * - * Some OSs handle tick 'rollover' specially, and so can be more robust against - * tick counters rolling-over. This function must therefore be called to - * determine if a time (in ticks) really occurs after another time (in ticks). - * - * @param ticka ticka - * @param tickb tickb - * @return non-zero if ticka represents a time that occurs after tickb. - * Zero otherwise. - */ -int _mali_osk_time_after( u32 ticka, u32 tickb ); - -/** @brief Convert milliseconds to OS 'ticks' - * - * @param ms time interval in milliseconds - * @return the corresponding time interval in OS ticks. - */ -u32 _mali_osk_time_mstoticks( u32 ms ); - -/** @brief Convert OS 'ticks' to milliseconds - * - * @param ticks time interval in OS ticks. - * @return the corresponding time interval in milliseconds - */ -u32 _mali_osk_time_tickstoms( u32 ticks ); - - -/** @brief Get the current time in OS 'ticks'. - * @return the current time in OS 'ticks'. - */ -u32 _mali_osk_time_tickcount( void ); - -/** @brief Cause a microsecond delay - * - * The delay will have microsecond resolution, and is necessary for correct - * operation of the driver. At worst, the delay will be \b at least \a usecs - * microseconds, and so may be (significantly) more. - * - * This function may be implemented as a busy-wait, which is the most sensible - * implementation. On OSs where there are situations in which a thread must not - * sleep, this is definitely implemented as a busy-wait. - * - * @param usecs the number of microseconds to wait for. - */ -void _mali_osk_time_ubusydelay( u32 usecs ); - -/** @brief Return time in nano seconds, since any given reference. - * - * @return Time in nano seconds - */ -u64 _mali_osk_time_get_ns( void ); - - -/** @} */ /* end group _mali_osk_time */ - -/** @defgroup _mali_osk_math OSK Math - * @{ */ - -/** @brief Count Leading Zeros (Little-endian) - * - * @note This function must be implemented to support the reference - * implementation of _mali_osk_find_first_zero_bit, as defined in - * mali_osk_bitops.h. - * - * @param val 32-bit words to count leading zeros on - * @return the number of leading zeros. - */ -u32 _mali_osk_clz( u32 val ); -/** @} */ /* end group _mali_osk_math */ - -/** @defgroup _mali_osk_wait_queue OSK Wait Queue functionality - * @{ */ -/** @brief Private type for wait queue objects */ -typedef struct _mali_osk_wait_queue_t_struct _mali_osk_wait_queue_t; - -/** @brief Initialize an empty Wait Queue */ -_mali_osk_wait_queue_t* _mali_osk_wait_queue_init( void ); - -/** @brief Sleep if condition is false - * - * @param queue the queue to use - * @param condition function pointer to a boolean function - * - * Put thread to sleep if the given \a codition function returns false. When - * being asked to wake up again, the condition will be re-checked and the - * thread only woken up if the condition is now true. - */ -void _mali_osk_wait_queue_wait_event( _mali_osk_wait_queue_t *queue, mali_bool (*condition)(void) ); - -/** @brief Wake up all threads in wait queue if their respective conditions are - * true - * - * @param queue the queue whose threads should be woken up - * - * Wake up all threads in wait queue \a queue whose condition is now true. - */ -void _mali_osk_wait_queue_wake_up( _mali_osk_wait_queue_t *queue ); - -/** @brief terminate a wait queue - * - * @param queue the queue to terminate. - */ -void _mali_osk_wait_queue_term( _mali_osk_wait_queue_t *queue ); -/** @} */ /* end group _mali_osk_wait_queue */ - - -/** @addtogroup _mali_osk_miscellaneous - * @{ */ - -/** @brief Output a device driver debug message. - * - * The interpretation of \a fmt is the same as the \c format parameter in - * _mali_osu_vsnprintf(). - * - * @param fmt a _mali_osu_vsnprintf() style format string - * @param ... a variable-number of parameters suitable for \a fmt - */ -void _mali_osk_dbgmsg( const char *fmt, ... ); - -/** @brief Print fmt into buf. - * - * The interpretation of \a fmt is the same as the \c format parameter in - * _mali_osu_vsnprintf(). - * - * @param buf a pointer to the result buffer - * @param size the total number of bytes allowed to write to \a buf - * @param fmt a _mali_osu_vsnprintf() style format string - * @param ... a variable-number of parameters suitable for \a fmt - * @return The number of bytes written to \a buf - */ -u32 _mali_osk_snprintf( char *buf, u32 size, const char *fmt, ... ); - -/** @brief Abnormal process abort. - * - * Terminates the caller-process if this function is called. - * - * This function will be called from Debug assert-macros in mali_kernel_common.h. - * - * This function will never return - because to continue from a Debug assert - * could cause even more problems, and hinder debugging of the initial problem. - * - * This function is only used in Debug builds, and is not used in Release builds. - */ -void _mali_osk_abort(void); - -/** @brief Sets breakpoint at point where function is called. - * - * This function will be called from Debug assert-macros in mali_kernel_common.h, - * to assist in debugging. If debugging at this level is not required, then this - * function may be implemented as a stub. - * - * This function is only used in Debug builds, and is not used in Release builds. - */ -void _mali_osk_break(void); - -/** @brief Return an identificator for calling process. - * - * @return Identificator for calling process. - */ -u32 _mali_osk_get_pid(void); - -/** @brief Return an identificator for calling thread. - * - * @return Identificator for calling thread. - */ -u32 _mali_osk_get_tid(void); - -/** @brief Enable OS controlled runtime power management - */ -void _mali_osk_pm_dev_enable(void); - -/** @brief Tells the OS that device is now idle - */ -_mali_osk_errcode_t _mali_osk_pm_dev_idle(void); - -/** @brief Tells the OS that the device is about to become active - */ -_mali_osk_errcode_t _mali_osk_pm_dev_activate(void); - -/** @} */ /* end group _mali_osk_miscellaneous */ - -/** @} */ /* end group osuapi */ - -/** @} */ /* end group uddapi */ - - -#ifdef __cplusplus -} -#endif - -#include "mali_osk_specific.h" /* include any per-os specifics */ - -/* Check standard inlines */ -#ifndef MALI_STATIC_INLINE - #error MALI_STATIC_INLINE not defined on your OS -#endif - -#ifndef MALI_NON_STATIC_INLINE - #error MALI_NON_STATIC_INLINE not defined on your OS -#endif - -#endif /* __MALI_OSK_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_osk_bitops.h b/drivers/media/video/samsung/mali/common/mali_osk_bitops.h deleted file mode 100644 index ada1488..0000000 --- a/drivers/media/video/samsung/mali/common/mali_osk_bitops.h +++ /dev/null @@ -1,166 +0,0 @@ -/* - * Copyright (C) 2010, 2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -/** - * @file mali_osk_bitops.h - * Implementation of the OS abstraction layer for the kernel device driver - */ - -#ifndef __MALI_OSK_BITOPS_H__ -#define __MALI_OSK_BITOPS_H__ - -#ifdef __cplusplus -extern "C" -{ -#endif - -MALI_STATIC_INLINE void _mali_internal_clear_bit( u32 bit, u32 *addr ) -{ - MALI_DEBUG_ASSERT( bit < 32 ); - MALI_DEBUG_ASSERT( NULL != addr ); - - (*addr) &= ~(1 << bit); -} - -MALI_STATIC_INLINE void _mali_internal_set_bit( u32 bit, u32 *addr ) -{ - MALI_DEBUG_ASSERT( bit < 32 ); - MALI_DEBUG_ASSERT( NULL != addr ); - - (*addr) |= (1 << bit); -} - -MALI_STATIC_INLINE u32 _mali_internal_test_bit( u32 bit, u32 value ) -{ - MALI_DEBUG_ASSERT( bit < 32 ); - return value & (1 << bit); -} - -MALI_STATIC_INLINE int _mali_internal_find_first_zero_bit( u32 value ) -{ - u32 inverted; - u32 negated; - u32 isolated; - u32 leading_zeros; - - /* Begin with xxx...x0yyy...y, where ys are 1, number of ys is in range 0..31 */ - inverted = ~value; /* zzz...z1000...0 */ - /* Using count_trailing_zeros on inverted value - - * See ARM System Developers Guide for details of count_trailing_zeros */ - - /* Isolate the zero: it is preceeded by a run of 1s, so add 1 to it */ - negated = (u32)-inverted ; /* -a == ~a + 1 (mod 2^n) for n-bit numbers */ - /* negated = xxx...x1000...0 */ - - isolated = negated & inverted ; /* xxx...x1000...0 & zzz...z1000...0, zs are ~xs */ - /* And so the first zero bit is in the same position as the 1 == number of 1s that preceeded it - * Note that the output is zero if value was all 1s */ - - leading_zeros = _mali_osk_clz( isolated ); - - return 31 - leading_zeros; -} - - -/** @defgroup _mali_osk_bitops OSK Non-atomic Bit-operations - * @{ */ - -/** - * These bit-operations do not work atomically, and so locks must be used if - * atomicity is required. - * - * Reference implementations for Little Endian are provided, and so it should - * not normally be necessary to re-implement these. Efficient bit-twiddling - * techniques are used where possible, implemented in portable C. - * - * Note that these reference implementations rely on _mali_osk_clz() being - * implemented. - */ - -/** @brief Clear a bit in a sequence of 32-bit words - * @param nr bit number to clear, starting from the (Little-endian) least - * significant bit - * @param addr starting point for counting. - */ -MALI_STATIC_INLINE void _mali_osk_clear_nonatomic_bit( u32 nr, u32 *addr ) -{ - addr += nr >> 5; /* find the correct word */ - nr = nr & ((1 << 5)-1); /* The bit number within the word */ - - _mali_internal_clear_bit( nr, addr ); -} - -/** @brief Set a bit in a sequence of 32-bit words - * @param nr bit number to set, starting from the (Little-endian) least - * significant bit - * @param addr starting point for counting. - */ -MALI_STATIC_INLINE void _mali_osk_set_nonatomic_bit( u32 nr, u32 *addr ) -{ - addr += nr >> 5; /* find the correct word */ - nr = nr & ((1 << 5)-1); /* The bit number within the word */ - - _mali_internal_set_bit( nr, addr ); -} - -/** @brief Test a bit in a sequence of 32-bit words - * @param nr bit number to test, starting from the (Little-endian) least - * significant bit - * @param addr starting point for counting. - * @return zero if bit was clear, non-zero if set. Do not rely on the return - * value being related to the actual word under test. - */ -MALI_STATIC_INLINE u32 _mali_osk_test_bit( u32 nr, u32 *addr ) -{ - addr += nr >> 5; /* find the correct word */ - nr = nr & ((1 << 5)-1); /* The bit number within the word */ - - return _mali_internal_test_bit( nr, *addr ); -} - -/* Return maxbit if not found */ -/** @brief Find the first zero bit in a sequence of 32-bit words - * @param addr starting point for search. - * @param maxbit the maximum number of bits to search - * @return the number of the first zero bit found, or maxbit if none were found - * in the specified range. - */ -MALI_STATIC_INLINE u32 _mali_osk_find_first_zero_bit( const u32 *addr, u32 maxbit ) -{ - u32 total; - - for ( total = 0; total < maxbit; total += 32, ++addr ) - { - int result; - result = _mali_internal_find_first_zero_bit( *addr ); - - /* non-negative signifies the bit was found */ - if ( result >= 0 ) - { - total += (u32)result; - break; - } - } - - /* Now check if we reached maxbit or above */ - if ( total >= maxbit ) - { - total = maxbit; - } - - return total; /* either the found bit nr, or maxbit if not found */ -} -/** @} */ /* end group _mali_osk_bitops */ - -#ifdef __cplusplus -} -#endif - -#endif /* __MALI_OSK_BITOPS_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_osk_list.h b/drivers/media/video/samsung/mali/common/mali_osk_list.h deleted file mode 100644 index 5987b0a..0000000 --- a/drivers/media/video/samsung/mali/common/mali_osk_list.h +++ /dev/null @@ -1,184 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -/** - * @file mali_osk_list.h - * Implementation of the OS abstraction layer for the kernel device driver - */ - -#ifndef __MALI_OSK_LIST_H__ -#define __MALI_OSK_LIST_H__ - -#ifdef __cplusplus -extern "C" -{ -#endif - -MALI_STATIC_INLINE void __mali_osk_list_add(_mali_osk_list_t *new_entry, _mali_osk_list_t *prev, _mali_osk_list_t *next) -{ - next->prev = new_entry; - new_entry->next = next; - new_entry->prev = prev; - prev->next = new_entry; -} - -MALI_STATIC_INLINE void __mali_osk_list_del(_mali_osk_list_t *prev, _mali_osk_list_t *next) -{ - next->prev = prev; - prev->next = next; -} - -/** @addtogroup _mali_osk_list - * @{ */ - -/** Reference implementations of Doubly-linked Circular Lists are provided. - * There is often no need to re-implement these. - * - * @note The implementation may differ subtly from any lists the OS provides. - * For this reason, these lists should not be mixed with OS-specific lists - * inside the OSK/UKK implementation. */ - -/** @brief Initialize a list element. - * - * All list elements must be initialized before use. - * - * Do not use on any list element that is present in a list without using - * _mali_osk_list_del first, otherwise this will break the list. - * - * @param list the list element to initialize - */ -MALI_STATIC_INLINE void _mali_osk_list_init( _mali_osk_list_t *list ) -{ - list->next = list; - list->prev = list; -} - -/** @brief Insert a single list element after an entry in a list - * - * As an example, if this is inserted to the head of a list, then this becomes - * the first element of the list. - * - * Do not use to move list elements from one list to another, as it will break - * the originating list. - * - * - * @param newlist the list element to insert - * @param list the list in which to insert. The new element will be the next - * entry in this list - */ -MALI_STATIC_INLINE void _mali_osk_list_add( _mali_osk_list_t *new_entry, _mali_osk_list_t *list ) -{ - __mali_osk_list_add(new_entry, list, list->next); -} - -/** @brief Insert a single list element before an entry in a list - * - * As an example, if this is inserted to the head of a list, then this becomes - * the last element of the list. - * - * Do not use to move list elements from one list to another, as it will break - * the originating list. - * - * @param newlist the list element to insert - * @param list the list in which to insert. The new element will be the previous - * entry in this list - */ -MALI_STATIC_INLINE void _mali_osk_list_addtail( _mali_osk_list_t *new_entry, _mali_osk_list_t *list ) -{ - __mali_osk_list_add(new_entry, list->prev, list); -} - -/** @brief Remove a single element from a list - * - * The element will no longer be present in the list. The removed list element - * will be uninitialized, and so should not be traversed. It must be - * initialized before further use. - * - * @param list the list element to remove. - */ -MALI_STATIC_INLINE void _mali_osk_list_del( _mali_osk_list_t *list ) -{ - __mali_osk_list_del(list->prev, list->next); -} - -/** @brief Remove a single element from a list, and re-initialize it - * - * The element will no longer be present in the list. The removed list element - * will initialized, and so can be used as normal. - * - * @param list the list element to remove and initialize. - */ -MALI_STATIC_INLINE void _mali_osk_list_delinit( _mali_osk_list_t *list ) -{ - __mali_osk_list_del(list->prev, list->next); - _mali_osk_list_init(list); -} - -/** @brief Determine whether a list is empty. - * - * An empty list is one that contains a single element that points to itself. - * - * @param list the list to check. - * @return non-zero if the list is empty, and zero otherwise. - */ -MALI_STATIC_INLINE int _mali_osk_list_empty( _mali_osk_list_t *list ) -{ - return list->next == list; -} - -/** @brief Move a list element from one list to another. - * - * The list element must be initialized. - * - * As an example, moving a list item to the head of a new list causes this item - * to be the first element in the new list. - * - * @param move the list element to move - * @param list the new list into which the element will be inserted, as the next - * element in the list. - */ -MALI_STATIC_INLINE void _mali_osk_list_move( _mali_osk_list_t *move_entry, _mali_osk_list_t *list ) -{ - __mali_osk_list_del(move_entry->prev, move_entry->next); - _mali_osk_list_add(move_entry, list); -} - -/** @brief Join two lists - * - * The list element must be initialized. - * - * Allows you to join a list into another list at a specific location - * - * @param list the new list to add - * @param at the location in a list to add the new list into - */ -MALI_STATIC_INLINE void _mali_osk_list_splice( _mali_osk_list_t *list, _mali_osk_list_t *at ) -{ - if (!_mali_osk_list_empty(list)) - { - /* insert all items from 'list' after 'at' */ - _mali_osk_list_t *first = list->next; - _mali_osk_list_t *last = list->prev; - _mali_osk_list_t *split = at->next; - - first->prev = at; - at->next = first; - - last->next = split; - split->prev = last; - } -} -/** @} */ /* end group _mali_osk_list */ - -#ifdef __cplusplus -} -#endif - -#endif /* __MALI_OSK_LIST_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_osk_mali.h b/drivers/media/video/samsung/mali/common/mali_osk_mali.h deleted file mode 100644 index 427fcc8..0000000 --- a/drivers/media/video/samsung/mali/common/mali_osk_mali.h +++ /dev/null @@ -1,222 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -/** - * @file mali_osk_mali.h - * Defines the OS abstraction layer which is specific for the Mali kernel device driver (OSK) - */ - -#ifndef __MALI_OSK_MALI_H__ -#define __MALI_OSK_MALI_H__ - -#include <mali_osk.h> - -#ifdef __cplusplus -extern "C" -{ -#endif - -/** @addtogroup _mali_osk_miscellaneous - * @{ */ - -/** @brief Read the Mali Resource configuration - * - * Populates a _mali_arch_resource_t array from configuration settings, which - * are stored in an OS-specific way. - * - * For example, these may be compiled in to a static structure, or read from - * the filesystem at startup. - * - * On failure, do not call _mali_osk_resources_term. - * - * @param arch_config a pointer to the store the pointer to the resources - * @param num_resources the number of resources read - * @return _MALI_OSK_ERR_OK on success. _MALI_OSK_ERR_NOMEM on allocation - * error. For other failures, a suitable _mali_osk_errcode_t is returned. - */ -_mali_osk_errcode_t _mali_osk_resources_init( _mali_osk_resource_t **arch_config, u32 *num_resources ); - -/** @brief Free resources allocated by _mali_osk_resources_init. - * - * Frees the _mali_arch_resource_t array allocated by _mali_osk_resources_init - * - * @param arch_config a pointer to the stored the pointer to the resources - * @param num_resources the number of resources in the array - */ -void _mali_osk_resources_term( _mali_osk_resource_t **arch_config, u32 num_resources); -/** @} */ /* end group _mali_osk_miscellaneous */ - -/** @addtogroup _mali_osk_low_level_memory - * @{ */ - -/** @brief Initialize a user-space accessible memory range - * - * This initializes a virtual address range such that it is reserved for the - * current process, but does not map any physical pages into this range. - * - * This function may initialize or adjust any members of the - * mali_memory_allocation \a descriptor supplied, before the physical pages are - * mapped in with _mali_osk_mem_mapregion_map(). - * - * The function will always be called with MALI_MEMORY_ALLOCATION_FLAG_MAP_INTO_USERSPACE - * set in \a descriptor->flags. It is an error to call this function without - * setting this flag. Otherwise, \a descriptor->flags bits are reserved for - * future expansion - * - * The \a descriptor's process_addr_mapping_info member can be modified to - * allocate OS-specific information. Note that on input, this will be a - * ukk_private word from the U/K inteface, as inserted by _mali_ukk_mem_mmap(). - * This is used to pass information from the U/K interface to the OSK interface, - * if necessary. The precise usage of the process_addr_mapping_info member - * depends on the U/K implementation of _mali_ukk_mem_mmap(). - * - * Therefore, the U/K implementation of _mali_ukk_mem_mmap() and the OSK - * implementation of _mali_osk_mem_mapregion_init() must agree on the meaning and - * usage of the ukk_private word and process_addr_mapping_info member. - * - * Refer to \ref u_k_api for more information on the U/K interface. - * - * On successful return, \a descriptor's mapping member will be correct for - * use with _mali_osk_mem_mapregion_term() and _mali_osk_mem_mapregion_map(). - * - * @param descriptor the mali_memory_allocation to initialize. - */ -_mali_osk_errcode_t _mali_osk_mem_mapregion_init( mali_memory_allocation * descriptor ); - -/** @brief Terminate a user-space accessible memory range - * - * This terminates a virtual address range reserved in the current user process, - * where none, some or all of the virtual address ranges have mappings to - * physical pages. - * - * It will unmap any physical pages that had been mapped into a reserved - * virtual address range for the current process, and then releases the virtual - * address range. Any extra book-keeping information or resources allocated - * during _mali_osk_mem_mapregion_init() will also be released. - * - * The \a descriptor itself is not freed - this must be handled by the caller of - * _mali_osk_mem_mapregion_term(). - * - * The function will always be called with MALI_MEMORY_ALLOCATION_FLAG_MAP_INTO_USERSPACE - * set in descriptor->flags. It is an error to call this function without - * setting this flag. Otherwise, descriptor->flags bits are reserved for - * future expansion - * - * @param descriptor the mali_memory_allocation to terminate. - */ -void _mali_osk_mem_mapregion_term( mali_memory_allocation * descriptor ); - -/** @brief Map physical pages into a user process's virtual address range - * - * This is used to map a number of physically contigous pages into a - * user-process's virtual address range, which was previously reserved by a - * call to _mali_osk_mem_mapregion_init(). - * - * This need not provide a mapping for the entire virtual address range - * reserved for \a descriptor - it may be used to map single pages per call. - * - * The function will always be called with MALI_MEMORY_ALLOCATION_FLAG_MAP_INTO_USERSPACE - * set in \a descriptor->flags. It is an error to call this function without - * setting this flag. Otherwise, \a descriptor->flags bits are reserved for - * future expansion - * - * The function may supply \a *phys_addr == \ref MALI_MEMORY_ALLOCATION_OS_ALLOCATED_PHYSADDR_MAGIC. - * In this case, \a size must be set to \ref _MALI_OSK_CPU_PAGE_SIZE, and the function - * will allocate the physical page itself. The physical address of the - * allocated page will be returned through \a phys_addr. - * - * It is an error to set \a size != \ref _MALI_OSK_CPU_PAGE_SIZE while - * \a *phys_addr == \ref MALI_MEMORY_ALLOCATION_OS_ALLOCATED_PHYSADDR_MAGIC, - * since it is not always possible for OSs to support such a setting through this - * interface. - * - * @note \b IMPORTANT: This code must validate the input parameters. If the - * range defined by \a offset and \a size is outside the range allocated in - * \a descriptor, then this function \b MUST not attempt any mapping, and must - * instead return a suitable \ref _mali_osk_errcode_t \b failure code. - * - * @param[in,out] descriptor the mali_memory_allocation representing the - * user-process's virtual address range to map into. - * - * @param[in] offset the offset into the virtual address range. This is only added - * to the mapping member of the \a descriptor, and not the \a phys_addr parameter. - * It must be a multiple of \ref _MALI_OSK_CPU_PAGE_SIZE. - * - * @param[in,out] phys_addr a pointer to the physical base address to begin the - * mapping from. If \a size == \ref _MALI_OSK_CPU_PAGE_SIZE and - * \a *phys_addr == \ref MALI_MEMORY_ALLOCATION_OS_ALLOCATED_PHYSADDR_MAGIC, then this - * function will allocate the physical page itself, and return the - * physical address of the page through \a phys_addr, which will be aligned to - * \ref _MALI_OSK_CPU_PAGE_SIZE. Otherwise, \a *phys_addr must be aligned to - * \ref _MALI_OSK_CPU_PAGE_SIZE, and is unmodified after the call. - * \a phys_addr is unaffected by the \a offset parameter. - * - * @param[in] size the number of bytes to map in. This must be a multiple of - * \ref _MALI_OSK_CPU_PAGE_SIZE. - * - * @return _MALI_OSK_ERR_OK on sucess, otherwise a _mali_osk_errcode_t value - * on failure - * - * @note could expand to use _mali_osk_mem_mapregion_flags_t instead of - * \ref MALI_MEMORY_ALLOCATION_OS_ALLOCATED_PHYSADDR_MAGIC, but note that we must - * also modify the mali process address manager in the mmu/memory engine code. - */ -_mali_osk_errcode_t _mali_osk_mem_mapregion_map( mali_memory_allocation * descriptor, u32 offset, u32 *phys_addr, u32 size ); - - -/** @brief Unmap physical pages from a user process's virtual address range - * - * This is used to unmap a number of physically contigous pages from a - * user-process's virtual address range, which were previously mapped by a - * call to _mali_osk_mem_mapregion_map(). If the range specified was allocated - * from OS memory, then that memory will be returned to the OS. Whilst pages - * will be mapped out, the Virtual address range remains reserved, and at the - * same base address. - * - * When this function is used to unmap pages from OS memory - * (_mali_osk_mem_mapregion_map() was called with *phys_addr == - * \ref MALI_MEMORY_ALLOCATION_OS_ALLOCATED_PHYSADDR_MAGIC), then the \a flags must - * include \ref _MALI_OSK_MEM_MAPREGION_FLAG_OS_ALLOCATED_PHYSADDR. This is because - * it is not always easy for an OS implementation to discover whether the - * memory was OS allocated or not (and so, how it should release the memory). - * - * For this reason, only a range of pages of the same allocation type (all OS - * allocated, or none OS allocacted) may be unmapped in one call. Multiple - * calls must be made if allocations of these different types exist across the - * entire region described by the \a descriptor. - * - * The function will always be called with MALI_MEMORY_ALLOCATION_FLAG_MAP_INTO_USERSPACE - * set in \a descriptor->flags. It is an error to call this function without - * setting this flag. Otherwise, \a descriptor->flags bits are reserved for - * future expansion - * - * @param[in,out] descriptor the mali_memory_allocation representing the - * user-process's virtual address range to map into. - * - * @param[in] offset the offset into the virtual address range. This is only added - * to the mapping member of the \a descriptor. \a offset must be a multiple of - * \ref _MALI_OSK_CPU_PAGE_SIZE. - * - * @param[in] size the number of bytes to unmap. This must be a multiple of - * \ref _MALI_OSK_CPU_PAGE_SIZE. - * - * @param[in] flags specifies how the memory should be unmapped. For a range - * of pages that were originally OS allocated, this must have - * \ref _MALI_OSK_MEM_MAPREGION_FLAG_OS_ALLOCATED_PHYSADDR set. - */ -void _mali_osk_mem_mapregion_unmap( mali_memory_allocation * descriptor, u32 offset, u32 size, _mali_osk_mem_mapregion_flags_t flags ); -/** @} */ /* end group _mali_osk_low_level_memory */ - - -#ifdef __cplusplus -} -#endif - -#endif /* __MALI_OSK_MALI_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_osk_profiling.h b/drivers/media/video/samsung/mali/common/mali_osk_profiling.h deleted file mode 100644 index fd9a8fb..0000000 --- a/drivers/media/video/samsung/mali/common/mali_osk_profiling.h +++ /dev/null @@ -1,147 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_OSK_PROFILING_H__ -#define __MALI_OSK_PROFILING_H__ - -#if MALI_TIMELINE_PROFILING_ENABLED - -#if defined (CONFIG_TRACEPOINTS) && !MALI_INTERNAL_TIMELINE_PROFILING_ENABLED -#include "mali_linux_trace.h" -#endif /* CONFIG_TRACEPOINTS && !MALI_INTERNAL_TIMELINE_PROFILING_ENABLED */ - -#include "mali_profiling_events.h" - -#define MALI_PROFILING_MAX_BUFFER_ENTRIES 1048576 - -#define MALI_PROFILING_NO_HW_COUNTER = ((u32)-1) - -/** @defgroup _mali_osk_profiling External profiling connectivity - * @{ */ - -/** - * Initialize the profiling module. - * @return _MALI_OSK_ERR_OK on success, otherwise failure. - */ -_mali_osk_errcode_t _mali_osk_profiling_init(mali_bool auto_start); - -/* - * Terminate the profiling module. - */ -void _mali_osk_profiling_term(void); - -/** - * Start recording profiling data - * - * The specified limit will determine how large the capture buffer is. - * MALI_PROFILING_MAX_BUFFER_ENTRIES determines the maximum size allowed by the device driver. - * - * @param limit The desired maximum number of events to record on input, the actual maximum on output. - * @return _MALI_OSK_ERR_OK on success, otherwise failure. - */ -_mali_osk_errcode_t _mali_osk_profiling_start(u32 * limit); - -/** - * Add an profiling event - * - * @param event_id The event identificator. - * @param data0 First data parameter, depending on event_id specified. - * @param data1 Second data parameter, depending on event_id specified. - * @param data2 Third data parameter, depending on event_id specified. - * @param data3 Fourth data parameter, depending on event_id specified. - * @param data4 Fifth data parameter, depending on event_id specified. - * @return _MALI_OSK_ERR_OK on success, otherwise failure. - */ -#if defined (CONFIG_TRACEPOINTS) && !MALI_INTERNAL_TIMELINE_PROFILING_ENABLED -/* Call Linux tracepoint directly */ -#define _mali_osk_profiling_add_event(event_id, data0, data1, data2, data3, data4) trace_mali_timeline_event((event_id), (data0), (data1), (data2), (data3), (data4)) -#else -/* Internal profiling is handled like a plain function call */ -void _mali_osk_profiling_add_event(u32 event_id, u32 data0, u32 data1, u32 data2, u32 data3, u32 data4); -#endif - -/** - * Report a hardware counter event. - * - * @param counter_id The ID of the counter. - * @param value The value of the counter. - */ - -#if defined (CONFIG_TRACEPOINTS) && !MALI_INTERNAL_TIMELINE_PROFILING_ENABLED -/* Call Linux tracepoint directly */ -#define _mali_osk_profiling_report_hw_counter(counter_id, value) trace_mali_hw_counter(counter_id, value) -#else -/* Internal profiling is handled like a plain function call */ -void _mali_osk_profiling_report_hw_counter(u32 counter_id, u32 value); -#endif - -/** - * Report SW counters - * - * @param counters array of counter values - */ -void _mali_osk_profiling_report_sw_counters(u32 *counters); - -/** - * Stop recording profiling data - * - * @param count Returns the number of recorded events. - * @return _MALI_OSK_ERR_OK on success, otherwise failure. - */ -_mali_osk_errcode_t _mali_osk_profiling_stop(u32 * count); - -/** - * Retrieves the number of events that can be retrieved - * - * @return The number of recorded events that can be retrieved. - */ -u32 _mali_osk_profiling_get_count(void); - -/** - * Retrieve an event - * - * @param index Event index (start with 0 and continue until this function fails to retrieve all events) - * @param timestamp The timestamp for the retrieved event will be stored here. - * @param event_id The event ID for the retrieved event will be stored here. - * @param data The 5 data values for the retrieved event will be stored here. - * @return _MALI_OSK_ERR_OK on success, otherwise failure. - */ -_mali_osk_errcode_t _mali_osk_profiling_get_event(u32 index, u64* timestamp, u32* event_id, u32 data[5]); - -/** - * Clear the recorded buffer. - * - * This is needed in order to start another recording. - * - * @return _MALI_OSK_ERR_OK on success, otherwise failure. - */ -_mali_osk_errcode_t _mali_osk_profiling_clear(void); - -/** - * Checks if a recording of profiling data is in progress - * - * @return MALI_TRUE if recording of profiling data is in progress, MALI_FALSE if not - */ -mali_bool _mali_osk_profiling_is_recording(void); - -/** - * Checks if profiling data is available for retrival - * - * @return MALI_TRUE if profiling data is avaiable, MALI_FALSE if not - */ -mali_bool _mali_osk_profiling_have_recording(void); - -/** @} */ /* end group _mali_osk_profiling */ - -#endif /* MALI_TIMELINE_PROFILING_ENABLED */ - -#endif /* __MALI_OSK_PROFILING_H__ */ - - diff --git a/drivers/media/video/samsung/mali/common/mali_pm.c b/drivers/media/video/samsung/mali/common/mali_pm.c deleted file mode 100644 index 933e54e..0000000 --- a/drivers/media/video/samsung/mali/common/mali_pm.c +++ /dev/null @@ -1,552 +0,0 @@ -/* - * Copyright (C) 2011-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_pm.h" -#include "mali_kernel_common.h" -#include "mali_osk.h" -#include "mali_gp_scheduler.h" -#include "mali_pp_scheduler.h" -#include "mali_platform.h" -#include "mali_kernel_utilization.h" -#include "mali_kernel_core.h" -#include "mali_group.h" - -#define MALI_PM_LIGHT_SLEEP_TIMEOUT 1000 - -enum mali_pm_scheme -{ - MALI_PM_SCHEME_DYNAMIC, - MALI_PM_SCHEME_OS_SUSPENDED, - MALI_PM_SCHEME_ALWAYS_ON -}; - -enum mali_pm_level -{ - MALI_PM_LEVEL_1_ON, - MALI_PM_LEVEL_2_STANDBY, - MALI_PM_LEVEL_3_LIGHT_SLEEP, - MALI_PM_LEVEL_4_DEEP_SLEEP -}; -static _mali_osk_lock_t *mali_pm_lock_set_next_state; -static _mali_osk_lock_t *mali_pm_lock_set_core_states; -static _mali_osk_lock_t *mali_pm_lock_execute_state_change; -static _mali_osk_irq_t *wq_irq; - -static _mali_osk_timer_t *idle_timer = NULL; -static mali_bool idle_timer_running = MALI_FALSE; -static u32 mali_pm_event_number = 0; - -static u32 num_active_gps = 0; -static u32 num_active_pps = 0; - -static enum mali_pm_scheme current_scheme = MALI_PM_SCHEME_DYNAMIC; -static enum mali_pm_level current_level = MALI_PM_LEVEL_1_ON; -static enum mali_pm_level next_level_dynamic = MALI_PM_LEVEL_2_STANDBY; /* Should be the state we go to when we go out of MALI_PM_SCHEME_ALWAYS_ON during init */ - - - -static _mali_osk_errcode_t mali_pm_upper_half(void *data); -static void mali_pm_bottom_half(void *data); -static void mali_pm_powerup(void); -static void mali_pm_powerdown(mali_power_mode power_mode); - -static void timeout_light_sleep(void* arg); -#if 0 -/* Deep sleep timout not supported */ -static void timeout_deep_sleep(void* arg); -#endif -static u32 mali_pm_event_number_get(void); -static void mali_pm_event(enum mali_pm_event pm_event, mali_bool schedule_work, u32 timer_time ); - -_mali_osk_errcode_t mali_pm_initialize(void) -{ - mali_pm_lock_execute_state_change = _mali_osk_lock_init(_MALI_OSK_LOCKFLAG_ORDERED | _MALI_OSK_LOCKFLAG_ORDERED |_MALI_OSK_LOCKFLAG_NONINTERRUPTABLE, 0, _MALI_OSK_LOCK_ORDER_PM_EXECUTE); - - if (NULL != mali_pm_lock_execute_state_change ) - { - mali_pm_lock_set_next_state = _mali_osk_lock_init(_MALI_OSK_LOCKFLAG_ONELOCK| _MALI_OSK_LOCKFLAG_SPINLOCK_IRQ |_MALI_OSK_LOCKFLAG_NONINTERRUPTABLE, 0, _MALI_OSK_LOCK_ORDER_LAST); - - if (NULL != mali_pm_lock_set_next_state) - { - mali_pm_lock_set_core_states = _mali_osk_lock_init(_MALI_OSK_LOCKFLAG_ORDERED | _MALI_OSK_LOCKFLAG_NONINTERRUPTABLE, 0, _MALI_OSK_LOCK_ORDER_PM_CORE_STATE); - - if (NULL != mali_pm_lock_set_core_states) - { - idle_timer = _mali_osk_timer_init(); - if (NULL != idle_timer) - { - wq_irq = _mali_osk_irq_init(_MALI_OSK_IRQ_NUMBER_PMM, - mali_pm_upper_half, - mali_pm_bottom_half, - NULL, - NULL, - (void *)NULL, - "Mali PM deferred work"); - if (NULL != wq_irq) - { - if (_MALI_OSK_ERR_OK == mali_platform_init()) - { -#if MALI_PMM_RUNTIME_JOB_CONTROL_ON - _mali_osk_pm_dev_enable(); - mali_pm_powerup(); -#endif - return _MALI_OSK_ERR_OK; - } - - _mali_osk_irq_term(wq_irq); - } - - _mali_osk_timer_del(idle_timer); - _mali_osk_timer_term(idle_timer); - } - _mali_osk_lock_term(mali_pm_lock_set_core_states); - } - _mali_osk_lock_term(mali_pm_lock_set_next_state); - } - _mali_osk_lock_term(mali_pm_lock_execute_state_change); - } - - return _MALI_OSK_ERR_FAULT; -} - -void mali_pm_terminate(void) -{ - mali_platform_deinit(); - _mali_osk_irq_term(wq_irq); - _mali_osk_timer_del(idle_timer); - _mali_osk_timer_term(idle_timer); - _mali_osk_lock_term(mali_pm_lock_execute_state_change); - _mali_osk_lock_term(mali_pm_lock_set_next_state); - _mali_osk_lock_term(mali_pm_lock_set_core_states); -} - - -inline void mali_pm_lock(void) -{ - _mali_osk_lock_wait(mali_pm_lock_set_next_state, _MALI_OSK_LOCKMODE_RW); -} - -inline void mali_pm_unlock(void) -{ - _mali_osk_lock_signal(mali_pm_lock_set_next_state, _MALI_OSK_LOCKMODE_RW); -} - -inline void mali_pm_execute_state_change_lock(void) -{ - _mali_osk_lock_wait(mali_pm_lock_execute_state_change,_MALI_OSK_LOCKMODE_RW); -} - -inline void mali_pm_execute_state_change_unlock(void) -{ - _mali_osk_lock_signal(mali_pm_lock_execute_state_change, _MALI_OSK_LOCKMODE_RW); -} - -static void mali_pm_powerup(void) -{ -#if !MALI_PMM_RUNTIME_JOB_CONTROL_ON - MALI_DEBUG_PRINT(3, ("Mali PM: Setting GPU power mode to MALI_POWER_MODE_ON\n")); - mali_platform_power_mode_change(MALI_POWER_MODE_ON); -#else - /* Aquire our reference */ - _mali_osk_pm_dev_activate(); -#endif - mali_group_power_on(); -} - -static void mali_pm_powerdown(mali_power_mode power_mode) -{ - if ( (MALI_PM_LEVEL_1_ON == current_level) || (MALI_PM_LEVEL_2_STANDBY == current_level) ) - { - mali_group_power_off(); - } - -#if !MALI_PMM_RUNTIME_JOB_CONTROL_ON - mali_platform_power_mode_change(power_mode); -#else - _mali_osk_pm_dev_idle(); - - if (MALI_POWER_MODE_DEEP_SLEEP == power_mode) - { - mali_platform_power_mode_change(power_mode); - } -#endif -} - -mali_bool mali_pm_is_powered_on(void) -{ - mali_bool is_on = MALI_TRUE; - - if( ! (MALI_PM_SCHEME_ALWAYS_ON == current_scheme || MALI_PM_SCHEME_DYNAMIC == current_scheme) ) - { - is_on = MALI_FALSE; - } - else if ( ! (MALI_PM_LEVEL_1_ON == current_level || MALI_PM_LEVEL_2_STANDBY == current_level)) - { - is_on = MALI_FALSE; - } - else if ( ! (MALI_PM_LEVEL_1_ON == next_level_dynamic || MALI_PM_LEVEL_2_STANDBY == next_level_dynamic)) - { - is_on = MALI_FALSE; - } - - return is_on; -} - -MALI_DEBUG_CODE( -static const char *state_as_string(enum mali_pm_level level) -{ - switch(level) - { - case MALI_PM_LEVEL_1_ON: - return "MALI_PM_LEVEL_1_ON"; - case MALI_PM_LEVEL_2_STANDBY: - return "MALI_PM_LEVEL_2_STANDBY"; - case MALI_PM_LEVEL_3_LIGHT_SLEEP: - return "MALI_PM_LEVEL_3_LIGHT_SLEEP"; - case MALI_PM_LEVEL_4_DEEP_SLEEP: - return "MALI_PM_LEVEL_4_DEEP_SLEEP"; - default: - return "UNKNOWN LEVEL"; - } -}); - -/* This could be used from another thread (work queue), if we need that */ -static void mali_pm_process_next(void) -{ - enum mali_pm_level pm_level_to_set; - - _mali_osk_lock_wait(mali_pm_lock_execute_state_change, _MALI_OSK_LOCKMODE_RW); - - pm_level_to_set = current_level; - - if (MALI_PM_SCHEME_DYNAMIC == current_scheme) - { - pm_level_to_set = next_level_dynamic; - - MALI_DEBUG_PRINT(4, ("Mali PM: Dynamic scheme; Changing Mali GPU power state from %s to: %s\n", state_as_string(current_level), state_as_string(pm_level_to_set))); - - if (current_level == pm_level_to_set) - { - goto end_function; /* early out, no change in power level */ - } - - /* Start timers according to new state, so we get STANDBY -> LIGHT_SLEEP -> DEEP_SLEEP */ - - if (MALI_TRUE == idle_timer_running) - { - /* There is an existing timeout, so delete it */ - _mali_osk_timer_del(idle_timer); - idle_timer_running = MALI_FALSE; - } - - /* Making sure that we turn on through the platform file - Since it was turned OFF directly through the platform file. - This might lead to double turn-on, but the plaform file supports that.*/ - if ( current_level == MALI_PM_LEVEL_4_DEEP_SLEEP) - { - mali_pm_powerup(); - mali_kernel_core_wakeup(); - - } - if (MALI_PM_LEVEL_1_ON == pm_level_to_set) - { - if (MALI_PM_LEVEL_2_STANDBY != current_level) - { - /* We only need to do anything if we came from one of the sleeping states */ - mali_pm_powerup(); - - /* Wake up Mali cores since we came from a sleep state */ - mali_kernel_core_wakeup(); - } - } - else if (MALI_PM_LEVEL_2_STANDBY == pm_level_to_set) - { - /* This is just an internal state, so we don't bother to report it to the platform file */ - idle_timer_running = MALI_TRUE; - _mali_osk_timer_setcallback(idle_timer, timeout_light_sleep, (void*) mali_pm_event_number_get()); - _mali_osk_timer_add(idle_timer, _mali_osk_time_mstoticks(MALI_PM_LIGHT_SLEEP_TIMEOUT)); - } - else if (MALI_PM_LEVEL_3_LIGHT_SLEEP == pm_level_to_set) - { - mali_pm_powerdown(MALI_POWER_MODE_LIGHT_SLEEP); - } - else if (MALI_PM_LEVEL_4_DEEP_SLEEP == pm_level_to_set) - { - MALI_DEBUG_PRINT(2, ("Mali PM: Setting GPU power mode to MALI_POWER_MODE_DEEP_SLEEP\n")); - mali_pm_powerdown(MALI_POWER_MODE_DEEP_SLEEP); - } - } - else if (MALI_PM_SCHEME_OS_SUSPENDED == current_scheme) - { - MALI_DEBUG_PRINT(4, ("Mali PM: OS scheme; Changing Mali GPU power state from %s to: %s\n", state_as_string(current_level), state_as_string(MALI_PM_LEVEL_4_DEEP_SLEEP))); - - pm_level_to_set = MALI_PM_LEVEL_4_DEEP_SLEEP; - - if (current_level == pm_level_to_set) - { - goto end_function; /* early out, no change in power level */ - } - - /* Cancel any timers */ - if (MALI_TRUE == idle_timer_running) - { - /* There is an existing timeout, so delete it */ - _mali_osk_timer_del(idle_timer); - idle_timer_running = MALI_FALSE; - } - - MALI_DEBUG_PRINT(2, ("Mali PM: Setting GPU power mode to MALI_POWER_MODE_DEEP_SLEEP\n")); - mali_pm_powerdown(MALI_POWER_MODE_DEEP_SLEEP); - next_level_dynamic = current_level; - } - else if (MALI_PM_SCHEME_ALWAYS_ON == current_scheme) - { - MALI_DEBUG_PRINT(4, ("Mali PM: Always on scheme; Changing Mali GPU power state from %s to: %s\n", state_as_string(current_level), state_as_string(MALI_PM_LEVEL_1_ON))); - - pm_level_to_set = MALI_PM_LEVEL_1_ON; - if (current_level == pm_level_to_set) - { - goto end_function; /* early out, no change in power level */ - } - - MALI_DEBUG_PRINT(2, ("Mali PM: Setting GPU power mode to MALI_POWER_MODE_ON\n")); - mali_pm_powerup(); - if (MALI_PM_LEVEL_2_STANDBY != current_level) - { - /* Wake up Mali cores since we came from a sleep state */ - mali_kernel_core_wakeup(); - } - } - else - { - MALI_PRINT_ERROR(("MALI PM: Illegal scheme")); - } - - current_level = pm_level_to_set; - -end_function: - _mali_osk_lock_signal(mali_pm_lock_execute_state_change, _MALI_OSK_LOCKMODE_RW); - -} - -void mali_pm_always_on(mali_bool enable) -{ - if (MALI_TRUE == enable) - { - /* The event is processed in current thread synchronously */ - mali_pm_event(MALI_PM_EVENT_SCHEME_ALWAYS_ON, MALI_FALSE, 0 ); - } - else - { - /* The event is processed in current thread synchronously */ - mali_pm_event(MALI_PM_EVENT_SCHEME_DYNAMIC_CONTROLL, MALI_FALSE, 0 ); - } -} - -static _mali_osk_errcode_t mali_pm_upper_half(void *data) -{ - /* not used */ - return _MALI_OSK_ERR_OK; -} - -static void mali_pm_bottom_half(void *data) -{ - mali_pm_process_next(); -} - -static u32 mali_pm_event_number_get(void) -{ - u32 retval; - - mali_pm_lock(); /* spinlock: mali_pm_lock_set_next_state */ - retval = ++mali_pm_event_number; - if (0==retval ) retval = ++mali_pm_event_number; - mali_pm_unlock(); - - return retval; -} - -static void mali_pm_event(enum mali_pm_event pm_event, mali_bool schedule_work, u32 timer_time ) -{ - mali_pm_lock(); /* spinlock: mali_pm_lock_set_next_state */ - /* Only timer events should set this variable, all other events must set it to zero. */ - if ( 0 != timer_time ) - { - MALI_DEBUG_ASSERT( (pm_event==MALI_PM_EVENT_TIMER_LIGHT_SLEEP) || (pm_event==MALI_PM_EVENT_TIMER_DEEP_SLEEP) ); - if ( mali_pm_event_number != timer_time ) - { - /* In this case there have been processed newer events since the timer event was set up. - If so we always ignore the timing event */ - mali_pm_unlock(); - return; - } - } - else - { - /* Delete possible ongoing timers - if ( (MALI_PM_LEVEL_2_STANDBY==current_level) || (MALI_PM_LEVEL_3_LIGHT_SLEEP==current_level) ) - { - _mali_osk_timer_del(idle_timer); - } - */ - } - mali_pm_event_number++; - switch (pm_event) - { - case MALI_PM_EVENT_CORES_WORKING: - next_level_dynamic = MALI_PM_LEVEL_1_ON; - MALI_DEBUG_ASSERT( MALI_PM_SCHEME_OS_SUSPENDED != current_scheme ); - break; - case MALI_PM_EVENT_CORES_IDLE: - next_level_dynamic = MALI_PM_LEVEL_2_STANDBY; - /*MALI_DEBUG_ASSERT( MALI_PM_SCHEME_OS_SUSPENDED != current_scheme );*/ - break; - case MALI_PM_EVENT_TIMER_LIGHT_SLEEP: - MALI_DEBUG_ASSERT( MALI_PM_SCHEME_ALWAYS_ON != current_scheme ); - MALI_DEBUG_ASSERT( MALI_PM_SCHEME_OS_SUSPENDED != current_scheme ); - next_level_dynamic = MALI_PM_LEVEL_3_LIGHT_SLEEP; - break; - case MALI_PM_EVENT_TIMER_DEEP_SLEEP: - MALI_DEBUG_ASSERT( MALI_PM_SCHEME_ALWAYS_ON != current_scheme ); - MALI_DEBUG_ASSERT( MALI_PM_SCHEME_OS_SUSPENDED != current_scheme ); - next_level_dynamic = MALI_PM_LEVEL_4_DEEP_SLEEP; - break; - case MALI_PM_EVENT_OS_SUSPEND: - MALI_DEBUG_ASSERT( MALI_PM_SCHEME_ALWAYS_ON != current_scheme ); - MALI_DEBUG_ASSERT( MALI_PM_SCHEME_OS_SUSPENDED != current_scheme ); - current_scheme = MALI_PM_SCHEME_OS_SUSPENDED; - next_level_dynamic = MALI_PM_LEVEL_4_DEEP_SLEEP; /* Dynamic scheme will go into level when we are resumed */ - break; - case MALI_PM_EVENT_OS_RESUME: - MALI_DEBUG_ASSERT(MALI_PM_SCHEME_OS_SUSPENDED == current_scheme ); - current_scheme = MALI_PM_SCHEME_DYNAMIC; - break; - case MALI_PM_EVENT_SCHEME_ALWAYS_ON: - MALI_DEBUG_ASSERT( MALI_PM_SCHEME_OS_SUSPENDED != current_scheme ); - current_scheme = MALI_PM_SCHEME_ALWAYS_ON; - break; - case MALI_PM_EVENT_SCHEME_DYNAMIC_CONTROLL: - MALI_DEBUG_ASSERT( MALI_PM_SCHEME_ALWAYS_ON == current_scheme || MALI_PM_SCHEME_DYNAMIC == current_scheme ); - current_scheme = MALI_PM_SCHEME_DYNAMIC; - break; - default: - MALI_DEBUG_PRINT_ERROR(("Unknown next state.")); - mali_pm_unlock(); - return; - } - mali_pm_unlock(); - - if (MALI_TRUE == schedule_work) - { - _mali_osk_irq_schedulework(wq_irq); - } - else - { - mali_pm_process_next(); - } -} - -static void timeout_light_sleep(void* arg) -{ - /* State change only if no newer power events have happend from the time in arg. - Actual work will be scheduled on worker thread. */ - mali_pm_event(MALI_PM_EVENT_TIMER_LIGHT_SLEEP, MALI_TRUE, (u32) arg); -} - -void mali_pm_core_event(enum mali_core_event core_event) -{ - mali_bool transition_working = MALI_FALSE; - mali_bool transition_idle = MALI_FALSE; - - _mali_osk_lock_wait(mali_pm_lock_set_core_states, _MALI_OSK_LOCKMODE_RW); - - switch (core_event) - { - case MALI_CORE_EVENT_GP_START: - if (num_active_pps + num_active_gps == 0) - { - transition_working = MALI_TRUE; - } - num_active_gps++; - break; - case MALI_CORE_EVENT_GP_STOP: - if (num_active_pps + num_active_gps == 1) - { - transition_idle = MALI_TRUE; - } - num_active_gps--; - break; - case MALI_CORE_EVENT_PP_START: - if (num_active_pps + num_active_gps == 0) - { - transition_working = MALI_TRUE; - } - num_active_pps++; - break; - case MALI_CORE_EVENT_PP_STOP: - if (num_active_pps + num_active_gps == 1) - { - transition_idle = MALI_TRUE; - } - num_active_pps--; - break; - } - - if (transition_working == MALI_TRUE) - { -#ifdef CONFIG_MALI400_GPU_UTILIZATION - mali_utilization_core_start(_mali_osk_time_get_ns()); -#endif - mali_pm_event(MALI_PM_EVENT_CORES_WORKING, MALI_FALSE, 0); /* process event in same thread */ - } - else if (transition_idle == MALI_TRUE) - { -#ifdef CONFIG_MALI400_GPU_UTILIZATION - mali_utilization_core_end(_mali_osk_time_get_ns()); -#endif - mali_pm_event(MALI_PM_EVENT_CORES_IDLE, MALI_FALSE, 0); /* process event in same thread */ - } - - _mali_osk_lock_signal(mali_pm_lock_set_core_states, _MALI_OSK_LOCKMODE_RW); -} - -void mali_pm_os_suspend(void) -{ - MALI_DEBUG_PRINT(2, ("Mali PM: OS suspending...\n")); - - mali_gp_scheduler_suspend(); - mali_pp_scheduler_suspend(); - mali_pm_event(MALI_PM_EVENT_OS_SUSPEND, MALI_FALSE, 0); /* process event in same thread */ - - MALI_DEBUG_PRINT(2, ("Mali PM: OS suspend completed\n")); -} - -void mali_pm_os_resume(void) -{ - MALI_DEBUG_PRINT(2, ("Mali PM: OS resuming...\n")); - - mali_pm_event(MALI_PM_EVENT_OS_RESUME, MALI_FALSE, 0); /* process event in same thread */ - mali_gp_scheduler_resume(); - mali_pp_scheduler_resume(); - - MALI_DEBUG_PRINT(2, ("Mali PM: OS resume completed\n")); -} - -void mali_pm_runtime_suspend(void) -{ - MALI_DEBUG_PRINT(2, ("Mali PM: OS runtime suspended\n")); - mali_platform_power_mode_change(MALI_POWER_MODE_LIGHT_SLEEP); -} - -void mali_pm_runtime_resume(void) -{ - MALI_DEBUG_PRINT(2, ("Mali PM: OS runtime resumed\n")); - mali_platform_power_mode_change(MALI_POWER_MODE_ON); -} diff --git a/drivers/media/video/samsung/mali/common/mali_pm.h b/drivers/media/video/samsung/mali/common/mali_pm.h deleted file mode 100644 index d4ccfde..0000000 --- a/drivers/media/video/samsung/mali/common/mali_pm.h +++ /dev/null @@ -1,56 +0,0 @@ -/* - * Copyright (C) 2011-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_PM_H__ -#define __MALI_PM_H__ - -#include "mali_osk.h" - -enum mali_core_event -{ - MALI_CORE_EVENT_GP_START, - MALI_CORE_EVENT_GP_STOP, - MALI_CORE_EVENT_PP_START, - MALI_CORE_EVENT_PP_STOP -}; - -enum mali_pm_event -{ - MALI_PM_EVENT_CORES_WORKING, - MALI_PM_EVENT_CORES_IDLE, - MALI_PM_EVENT_TIMER_LIGHT_SLEEP, - MALI_PM_EVENT_TIMER_DEEP_SLEEP, - MALI_PM_EVENT_OS_SUSPEND, - MALI_PM_EVENT_OS_RESUME, - MALI_PM_EVENT_SCHEME_ALWAYS_ON, - MALI_PM_EVENT_SCHEME_DYNAMIC_CONTROLL, -}; - -_mali_osk_errcode_t mali_pm_initialize(void); -void mali_pm_terminate(void); -void mali_pm_always_on(mali_bool enable); - -void mali_pm_lock(void); -void mali_pm_unlock(void); -void mali_pm_execute_state_change_lock(void); - -void mali_pm_execute_state_change_unlock(void); - -mali_bool mali_pm_is_powered_on(void); - -void mali_pm_core_event(enum mali_core_event core_event); - -void mali_pm_os_suspend(void); -void mali_pm_os_resume(void); -void mali_pm_runtime_suspend(void); -void mali_pm_runtime_resume(void); - - -#endif /* __MALI_PM_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_pmu.c b/drivers/media/video/samsung/mali/common/mali_pmu.c deleted file mode 100644 index 348b5dc..0000000 --- a/drivers/media/video/samsung/mali/common/mali_pmu.c +++ /dev/null @@ -1,199 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -/** - * @file mali_pmu.c - * Mali driver functions for Mali 400 PMU hardware - */ -#include "mali_hw_core.h" -#include "mali_pmu.h" -#include "mali_pp.h" -#include "mali_kernel_common.h" -#include "mali_osk.h" - -static u32 mali_pmu_detect_mask(u32 number_of_pp_cores, u32 number_of_l2_caches); - -/** @brief MALI inbuilt PMU hardware info and PMU hardware has knowledge of cores power mask - */ -struct mali_pmu_core -{ - struct mali_hw_core hw_core; - u32 mali_registered_cores_power_mask; -}; - -static struct mali_pmu_core *mali_global_pmu_core = NULL; - -/** @brief Register layout for hardware PMU - */ -typedef enum { - PMU_REG_ADDR_MGMT_POWER_UP = 0x00, /*< Power up register */ - PMU_REG_ADDR_MGMT_POWER_DOWN = 0x04, /*< Power down register */ - PMU_REG_ADDR_MGMT_STATUS = 0x08, /*< Core sleep status register */ - PMU_REG_ADDR_MGMT_INT_MASK = 0x0C, /*< Interrupt mask register */ - PMU_REGISTER_ADDRESS_SPACE_SIZE = 0x10, /*< Size of register space */ -} pmu_reg_addr_mgmt_addr; - -struct mali_pmu_core *mali_pmu_create(_mali_osk_resource_t *resource, u32 number_of_pp_cores, u32 number_of_l2_caches) -{ - struct mali_pmu_core* pmu; - - MALI_DEBUG_ASSERT(NULL == mali_global_pmu_core); - MALI_DEBUG_PRINT(2, ("Mali PMU: Creating Mali PMU core\n")); - - pmu = (struct mali_pmu_core *)_mali_osk_malloc(sizeof(struct mali_pmu_core)); - if (NULL != pmu) - { - pmu->mali_registered_cores_power_mask = mali_pmu_detect_mask(number_of_pp_cores, number_of_l2_caches); - if (_MALI_OSK_ERR_OK == mali_hw_core_create(&pmu->hw_core, resource, PMU_REGISTER_ADDRESS_SPACE_SIZE)) - { - if (_MALI_OSK_ERR_OK == mali_pmu_reset(pmu)) - { - mali_global_pmu_core = pmu; - return pmu; - } - mali_hw_core_delete(&pmu->hw_core); - } - _mali_osk_free(pmu); - } - - return NULL; -} - -void mali_pmu_delete(struct mali_pmu_core *pmu) -{ - MALI_DEBUG_ASSERT_POINTER(pmu); - - mali_hw_core_delete(&pmu->hw_core); - _mali_osk_free(pmu); - pmu = NULL; -} - -_mali_osk_errcode_t mali_pmu_reset(struct mali_pmu_core *pmu) -{ - /* Don't use interrupts - just poll status */ - mali_hw_core_register_write(&pmu->hw_core, PMU_REG_ADDR_MGMT_INT_MASK, 0); - return _MALI_OSK_ERR_OK; -} - -_mali_osk_errcode_t mali_pmu_powerdown_all(struct mali_pmu_core *pmu) -{ - u32 stat; - u32 timeout; - - MALI_DEBUG_ASSERT_POINTER(pmu); - MALI_DEBUG_ASSERT( pmu->mali_registered_cores_power_mask != 0 ); - MALI_DEBUG_PRINT( 4, ("Mali PMU: power down (0x%08X)\n", pmu->mali_registered_cores_power_mask) ); - - mali_hw_core_register_write(&pmu->hw_core, PMU_REG_ADDR_MGMT_POWER_DOWN, pmu->mali_registered_cores_power_mask); - - /* Wait for cores to be powered down (100 x 100us = 100ms) */ - timeout = 100; - do - { - /* Get status of sleeping cores */ - stat = mali_hw_core_register_read(&pmu->hw_core, PMU_REG_ADDR_MGMT_STATUS); - stat &= pmu->mali_registered_cores_power_mask; - if( stat == pmu->mali_registered_cores_power_mask ) break; /* All cores we wanted are now asleep */ - _mali_osk_time_ubusydelay(100); - timeout--; - } while( timeout > 0 ); - - if( timeout == 0 ) - { - return _MALI_OSK_ERR_TIMEOUT; - } - - return _MALI_OSK_ERR_OK; -} - -_mali_osk_errcode_t mali_pmu_powerup_all(struct mali_pmu_core *pmu) -{ - u32 stat; - u32 timeout; - - MALI_DEBUG_ASSERT_POINTER(pmu); - MALI_DEBUG_ASSERT( pmu->mali_registered_cores_power_mask != 0 ); /* Shouldn't be zero */ - MALI_DEBUG_PRINT( 4, ("Mali PMU: power up (0x%08X)\n", pmu->mali_registered_cores_power_mask) ); - - mali_hw_core_register_write(&pmu->hw_core, PMU_REG_ADDR_MGMT_POWER_UP, pmu->mali_registered_cores_power_mask); - - /* Wait for cores to be powered up (100 x 100us = 100ms) */ - timeout = 100; - do - { - /* Get status of sleeping cores */ - stat = mali_hw_core_register_read(&pmu->hw_core,PMU_REG_ADDR_MGMT_STATUS); - stat &= pmu->mali_registered_cores_power_mask; - if( stat == 0 ) break; /* All cores we wanted are now awake */ - _mali_osk_time_ubusydelay(100); - timeout--; - } while( timeout > 0 ); - - if( timeout == 0 ) - { - return _MALI_OSK_ERR_TIMEOUT; - } - - return _MALI_OSK_ERR_OK; -} - -struct mali_pmu_core *mali_pmu_get_global_pmu_core(void) -{ - return mali_global_pmu_core; -} - -static u32 mali_pmu_detect_mask(u32 number_of_pp_cores, u32 number_of_l2_caches) -{ - u32 mask = 0; - - if (number_of_l2_caches == 1) - { - /* Mali-300 or Mali-400 */ - u32 i; - - /* GP */ - mask = 0x01; - - /* L2 cache */ - mask |= 0x01<<1; - - /* Set bit for each PP core */ - for (i = 0; i < number_of_pp_cores; i++) - { - mask |= 0x01<<(i+2); - } - } - else if (number_of_l2_caches > 1) - { - /* Mali-450 */ - - /* GP (including its L2 cache) */ - mask = 0x01; - - /* There is always at least one PP (including its L2 cache) */ - mask |= 0x01<<1; - - /* Additional PP cores in same L2 cache */ - if (number_of_pp_cores >= 2) - { - mask |= 0x01<<2; - } - - /* Additional PP cores in a third L2 cache */ - if (number_of_pp_cores >= 5) - { - mask |= 0x01<<3; - } - } - - MALI_DEBUG_PRINT(4, ("Mali PMU: Power mask is 0x%08X (%u + %u)\n", mask, number_of_pp_cores, number_of_l2_caches)); - - return mask; -} diff --git a/drivers/media/video/samsung/mali/common/mali_pmu.h b/drivers/media/video/samsung/mali/common/mali_pmu.h deleted file mode 100644 index fd10c08..0000000 --- a/drivers/media/video/samsung/mali/common/mali_pmu.h +++ /dev/null @@ -1,70 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -/** - * @file mali_platform.h - * Platform specific Mali driver functions - */ - -#include "mali_osk.h" - -struct mali_pmu_core; - -/** @brief Initialisation of MALI PMU - * - * This is called from entry point of the driver in order to create and intialize the PMU resource - * - * @param resource it will be a pointer to a PMU resource - * @param number_of_pp_cores Number of found PP resources in configuration - * @param number_of_l2_caches Number of found L2 cache resources in configuration - * @return The created PMU object, or NULL in case of failure. - */ -struct mali_pmu_core *mali_pmu_create(_mali_osk_resource_t *resource, u32 number_of_pp_cores, u32 number_of_l2_caches); - -/** @brief It deallocates the PMU resource - * - * This is called on the exit of the driver to terminate the PMU resource - * - * @param pmu Pointer to PMU core object to delete - */ -void mali_pmu_delete(struct mali_pmu_core *pmu); - -/** @brief Reset PMU core - * - * @param pmu Pointer to PMU core object to reset - * @return _MALI_OSK_ERR_OK on success, otherwise failure. - */ -_mali_osk_errcode_t mali_pmu_reset(struct mali_pmu_core *pmu); - -/** @brief MALI GPU power down using MALI in-built PMU - * - * called to power down all cores - * - * @param pmu Pointer to PMU core object to power down - * @return _MALI_OSK_ERR_OK on success otherwise, a suitable _mali_osk_errcode_t error. - */ -_mali_osk_errcode_t mali_pmu_powerdown_all(struct mali_pmu_core *pmu); - - -/** @brief MALI GPU power up using MALI in-built PMU - * - * called to power up all cores - * - * @param pmu Pointer to PMU core object to power up - * @return _MALI_OSK_ERR_OK on success otherwise, a suitable _mali_osk_errcode_t error. - */ -_mali_osk_errcode_t mali_pmu_powerup_all(struct mali_pmu_core *pmu); - - -/** @brief Retrieves the Mali PMU core object (if any) - * - * @return The Mali PMU object, or NULL if no PMU exists. - */ -struct mali_pmu_core *mali_pmu_get_global_pmu_core(void); diff --git a/drivers/media/video/samsung/mali/common/mali_pp.c b/drivers/media/video/samsung/mali/common/mali_pp.c deleted file mode 100644 index 5549f82..0000000 --- a/drivers/media/video/samsung/mali/common/mali_pp.c +++ /dev/null @@ -1,710 +0,0 @@ -/* - * Copyright (C) 2011-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_pp.h" -#include "mali_hw_core.h" -#include "mali_group.h" -#include "mali_osk.h" -#include "regs/mali_200_regs.h" -#include "mali_kernel_common.h" -#include "mali_kernel_core.h" -#if MALI_TIMELINE_PROFILING_ENABLED -#include "mali_osk_profiling.h" -#endif - -/* See mali_gp.c file for description on how to handle the interrupt mask. - * This is how to do it on PP: mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_MASK, MALI200_REG_VAL_IRQ_MASK_USED); - */ - -#define MALI_MAX_NUMBER_OF_PP_CORES 8 - -/** - * Definition of the PP core struct - * Used to track a PP core in the system. - */ -struct mali_pp_core -{ - struct mali_hw_core hw_core; /**< Common for all HW cores */ - struct mali_group *group; /**< Parent group for this core */ - _mali_osk_irq_t *irq; /**< IRQ handler */ - u32 core_id; /**< Unique core ID */ - struct mali_pp_job *running_job; /**< Current running (super) job */ - u32 running_sub_job; /**< Current running sub job */ - _mali_osk_timer_t *timeout_timer; /**< timeout timer for this core */ - u32 timeout_job_id; /**< job id for the timed out job - relevant only if pp_core_timed_out == MALI_TRUE */ - mali_bool core_timed_out; /**< if MALI_TRUE, this pp core has timed out; if MALI_FALSE, no timeout on this pp core */ - u32 counter_src0; /**< Performance counter 0, MALI_HW_CORE_NO_COUNTER for disabled */ - u32 counter_src1; /**< Performance counter 1, MALI_HW_CORE_NO_COUNTER for disabled */ - u32 counter_src0_used; /**< The selected performance counter 0 when a job is running */ - u32 counter_src1_used; /**< The selected performance counter 1 when a job is running */ -}; - -static struct mali_pp_core* mali_global_pp_cores[MALI_MAX_NUMBER_OF_PP_CORES]; -static u32 mali_global_num_pp_cores = 0; - -/* Interrupt handlers */ -static _mali_osk_errcode_t mali_pp_upper_half(void *data); -static void mali_pp_bottom_half(void *data); -static void mali_pp_irq_probe_trigger(void *data); -static _mali_osk_errcode_t mali_pp_irq_probe_ack(void *data); -static void mali_pp_post_process_job(struct mali_pp_core *core); -static void mali_pp_timeout(void *data); - -struct mali_pp_core *mali_pp_create(const _mali_osk_resource_t *resource, struct mali_group *group) -{ - struct mali_pp_core* core = NULL; - - MALI_DEBUG_PRINT(2, ("Mali PP: Creating Mali PP core: %s\n", resource->description)); - MALI_DEBUG_PRINT(2, ("Mali PP: Base address of PP core: 0x%x\n", resource->base)); - - if (mali_global_num_pp_cores >= MALI_MAX_NUMBER_OF_PP_CORES) - { - MALI_PRINT_ERROR(("Mali PP: Too many PP core objects created\n")); - return NULL; - } - - core = _mali_osk_malloc(sizeof(struct mali_pp_core)); - if (NULL != core) - { - core->group = group; - core->core_id = mali_global_num_pp_cores; - core->running_job = NULL; - core->counter_src0 = MALI_HW_CORE_NO_COUNTER; - core->counter_src1 = MALI_HW_CORE_NO_COUNTER; - core->counter_src0_used = MALI_HW_CORE_NO_COUNTER; - core->counter_src1_used = MALI_HW_CORE_NO_COUNTER; - if (_MALI_OSK_ERR_OK == mali_hw_core_create(&core->hw_core, resource, MALI200_REG_SIZEOF_REGISTER_BANK)) - { - _mali_osk_errcode_t ret; - - mali_group_lock(group); - ret = mali_pp_reset(core); - mali_group_unlock(group); - - if (_MALI_OSK_ERR_OK == ret) - { - /* Setup IRQ handlers (which will do IRQ probing if needed) */ - core->irq = _mali_osk_irq_init(resource->irq, - mali_pp_upper_half, - mali_pp_bottom_half, - mali_pp_irq_probe_trigger, - mali_pp_irq_probe_ack, - core, - "mali_pp_irq_handlers"); - if (NULL != core->irq) - { - /* Initialise the timeout timer */ - core->timeout_timer = _mali_osk_timer_init(); - if(NULL != core->timeout_timer) - { - _mali_osk_timer_setcallback(core->timeout_timer, mali_pp_timeout, (void *)core); - - mali_global_pp_cores[mali_global_num_pp_cores] = core; - mali_global_num_pp_cores++; - - return core; - } - else - { - MALI_PRINT_ERROR(("Failed to setup timeout timer for PP core %s\n", core->hw_core.description)); - /* Release IRQ handlers */ - _mali_osk_irq_term(core->irq); - } - } - else - { - MALI_PRINT_ERROR(("Mali PP: Failed to setup interrupt handlers for PP core %s\n", core->hw_core.description)); - } - } - mali_hw_core_delete(&core->hw_core); - } - - _mali_osk_free(core); - } - else - { - MALI_PRINT_ERROR(("Mali PP: Failed to allocate memory for PP core\n")); - } - - return NULL; -} - -void mali_pp_delete(struct mali_pp_core *core) -{ - u32 i; - - MALI_DEBUG_ASSERT_POINTER(core); - - _mali_osk_timer_term(core->timeout_timer); - _mali_osk_irq_term(core->irq); - mali_hw_core_delete(&core->hw_core); - - /* Remove core from global list */ - for (i = 0; i < mali_global_num_pp_cores; i++) - { - if (mali_global_pp_cores[i] == core) - { - mali_global_pp_cores[i] = NULL; - mali_global_num_pp_cores--; - break; - } - } - - _mali_osk_free(core); -} - -void mali_pp_stop_bus(struct mali_pp_core *core) -{ - MALI_DEBUG_ASSERT_POINTER(core); - /* Will only send the stop bus command, and not wait for it to complete */ - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_CTRL_MGMT, MALI200_REG_VAL_CTRL_MGMT_STOP_BUS); -} - -_mali_osk_errcode_t mali_pp_stop_bus_wait(struct mali_pp_core *core) -{ - int i; - const int request_loop_count = 20; - - MALI_DEBUG_ASSERT_POINTER(core); - MALI_ASSERT_GROUP_LOCKED(core->group); - - /* Send the stop bus command. */ - mali_pp_stop_bus(core); - - /* Wait for bus to be stopped */ - for (i = 0; i < request_loop_count; i++) - { - if (mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_STATUS) & MALI200_REG_VAL_STATUS_BUS_STOPPED) - break; - _mali_osk_time_ubusydelay(10); - } - - if (request_loop_count == i) - { - MALI_PRINT_ERROR(("Mali PP: Failed to stop bus on %s. Status: 0x%08x\n", core->hw_core.description, mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_STATUS))); - return _MALI_OSK_ERR_FAULT; - } - return _MALI_OSK_ERR_OK; -} - -_mali_osk_errcode_t mali_pp_hard_reset(struct mali_pp_core *core) -{ - /* Bus must be stopped before calling this function */ - const int reset_finished_loop_count = 15; - const u32 reset_invalid_value = 0xC0FFE000; - const u32 reset_check_value = 0xC01A0000; - int i; - - MALI_DEBUG_ASSERT_POINTER(core); - MALI_DEBUG_PRINT(2, ("Mali PP: Hard reset of core %s\n", core->hw_core.description)); - MALI_ASSERT_GROUP_LOCKED(core->group); - - mali_pp_post_process_job(core); /* @@@@ is there some cases where it is unsafe to post process the job here? */ - - /* Set register to a bogus value. The register will be used to detect when reset is complete */ - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_WRITE_BOUNDARY_LOW, reset_invalid_value); - - /* Force core to reset */ - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_CTRL_MGMT, MALI200_REG_VAL_CTRL_MGMT_FORCE_RESET); - - /* Wait for reset to be complete */ - for (i = 0; i < reset_finished_loop_count; i++) - { - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_WRITE_BOUNDARY_LOW, reset_check_value); - if (reset_check_value == mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_WRITE_BOUNDARY_LOW)) - { - break; - } - _mali_osk_time_ubusydelay(10); - } - - if (i == reset_finished_loop_count) - { - MALI_PRINT_ERROR(("Mali PP: The hard reset loop didn't work, unable to recover\n")); - } - - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_WRITE_BOUNDARY_LOW, 0x00000000); /* set it back to the default */ - /* Re-enable interrupts */ - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_CLEAR, MALI200_REG_VAL_IRQ_MASK_ALL); - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_MASK, MALI200_REG_VAL_IRQ_MASK_USED); - - return _MALI_OSK_ERR_OK; -} - -_mali_osk_errcode_t mali_pp_reset(struct mali_pp_core *core) -{ - int i; - const int request_loop_count = 20; - - MALI_DEBUG_ASSERT_POINTER(core); - MALI_DEBUG_PRINT(4, ("Mali PP: Reset of core %s\n", core->hw_core.description)); - MALI_ASSERT_GROUP_LOCKED(core->group); - - mali_pp_post_process_job(core); /* @@@@ is there some cases where it is unsafe to post process the job here? */ - - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_MASK, 0); /* disable the IRQs */ - -#if defined(USING_MALI200) - - /* On Mali-200, stop the bus, then do a hard reset of the core */ - - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_CTRL_MGMT, MALI200_REG_VAL_CTRL_MGMT_STOP_BUS); - - for (i = 0; i < request_loop_count; i++) - { - if (mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_STATUS) & MALI200_REG_VAL_STATUS_BUS_STOPPED) - { - break; - } - _mali_osk_time_ubusydelay(10); - } - - if (request_loop_count == i) - { - MALI_PRINT_ERROR(("Mali PP: Failed to stop bus for core %s, unable to recover\n", core->hw_core.description)); - return _MALI_OSK_ERR_FAULT ; - } - - /* the bus was stopped OK, do the hard reset */ - mali_pp_hard_reset(core); - -#elif defined(USING_MALI400) - - /* Mali-300 and Mali-400 have a safe reset command which we use */ - - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_CLEAR, MALI400PP_REG_VAL_IRQ_RESET_COMPLETED); - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_CTRL_MGMT, MALI400PP_REG_VAL_CTRL_MGMT_SOFT_RESET); - - for (i = 0; i < request_loop_count; i++) - { - if (mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_RAWSTAT) & MALI400PP_REG_VAL_IRQ_RESET_COMPLETED) - { - break; - } - _mali_osk_time_ubusydelay(10); - } - - if (request_loop_count == i) - { - MALI_DEBUG_PRINT(2, ("Mali PP: Failed to reset core %s, Status: 0x%08x\n", core->hw_core.description, mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_STATUS))); - return _MALI_OSK_ERR_FAULT; - } -#else -#error "no supported mali core defined" -#endif - - /* Re-enable interrupts */ - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_CLEAR, MALI200_REG_VAL_IRQ_MASK_ALL); - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_MASK, MALI200_REG_VAL_IRQ_MASK_USED); - - return _MALI_OSK_ERR_OK; -} - -void mali_pp_job_start(struct mali_pp_core *core, struct mali_pp_job *job, u32 sub_job) -{ - u32 *frame_registers = mali_pp_job_get_frame_registers(job); - u32 *wb0_registers = mali_pp_job_get_wb0_registers(job); - u32 *wb1_registers = mali_pp_job_get_wb1_registers(job); - u32 *wb2_registers = mali_pp_job_get_wb2_registers(job); - core->counter_src0_used = core->counter_src0; - core->counter_src1_used = core->counter_src1; - - MALI_DEBUG_ASSERT_POINTER(core); - MALI_ASSERT_GROUP_LOCKED(core->group); - - mali_hw_core_register_write_array_relaxed(&core->hw_core, MALI200_REG_ADDR_FRAME, frame_registers, MALI200_NUM_REGS_FRAME); - if (0 != sub_job) - { - /* - * There are two frame registers which are different for each sub job. - * For the first sub job, these are correctly represented in the frame register array, - * but we need to patch these for all other sub jobs - */ - mali_hw_core_register_write_relaxed(&core->hw_core, MALI200_REG_ADDR_FRAME, mali_pp_job_get_addr_frame(job, sub_job)); - mali_hw_core_register_write_relaxed(&core->hw_core, MALI200_REG_ADDR_STACK, mali_pp_job_get_addr_stack(job, sub_job)); - } - - if (wb0_registers[0]) /* M200_WB0_REG_SOURCE_SELECT register */ - { - mali_hw_core_register_write_array_relaxed(&core->hw_core, MALI200_REG_ADDR_WB0, wb0_registers, MALI200_NUM_REGS_WBx); - } - - if (wb1_registers[0]) /* M200_WB1_REG_SOURCE_SELECT register */ - { - mali_hw_core_register_write_array_relaxed(&core->hw_core, MALI200_REG_ADDR_WB1, wb1_registers, MALI200_NUM_REGS_WBx); - } - - if (wb2_registers[0]) /* M200_WB2_REG_SOURCE_SELECT register */ - { - mali_hw_core_register_write_array_relaxed(&core->hw_core, MALI200_REG_ADDR_WB2, wb2_registers, MALI200_NUM_REGS_WBx); - } - - /* This selects which performance counters we are reading */ - if (MALI_HW_CORE_NO_COUNTER != core->counter_src0_used || MALI_HW_CORE_NO_COUNTER != core->counter_src1_used) - { - /* global_config has enabled HW counters, this will override anything specified by user space */ - if (MALI_HW_CORE_NO_COUNTER != core->counter_src0_used) - { - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_0_SRC, core->counter_src0_used); - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_0_ENABLE, MALI200_REG_VAL_PERF_CNT_ENABLE); - } - if (MALI_HW_CORE_NO_COUNTER != core->counter_src1_used) - { - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_1_SRC, core->counter_src1_used); - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_1_ENABLE, MALI200_REG_VAL_PERF_CNT_ENABLE); - } - } - else - { - /* Use HW counters from job object, if any */ - u32 perf_counter_flag = mali_pp_job_get_perf_counter_flag(job); - if (0 != perf_counter_flag) - { - if (perf_counter_flag & _MALI_PERFORMANCE_COUNTER_FLAG_SRC0_ENABLE) - { - core->counter_src0_used = mali_pp_job_get_perf_counter_src0(job); - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_0_SRC, core->counter_src0_used); - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_0_ENABLE, MALI200_REG_VAL_PERF_CNT_ENABLE); - } - - if (perf_counter_flag & _MALI_PERFORMANCE_COUNTER_FLAG_SRC1_ENABLE) - { - core->counter_src1_used = mali_pp_job_get_perf_counter_src1(job); - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_1_SRC, core->counter_src1_used); - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_1_ENABLE, MALI200_REG_VAL_PERF_CNT_ENABLE); - } - } - } - - MALI_DEBUG_PRINT(3, ("Mali PP: Starting job 0x%08X part %u/%u on PP core %s\n", job, sub_job + 1, mali_pp_job_get_sub_job_count(job), core->hw_core.description)); - - /* Adding barrier to make sure all rester writes are finished */ - _mali_osk_write_mem_barrier(); - - /* This is the command that starts the core. */ - mali_hw_core_register_write_relaxed(&core->hw_core, MALI200_REG_ADDR_MGMT_CTRL_MGMT, MALI200_REG_VAL_CTRL_MGMT_START_RENDERING); - - /* Adding barrier to make sure previous rester writes is finished */ - _mali_osk_write_mem_barrier(); - - /* Setup the timeout timer value and save the job id for the job running on the pp core */ - _mali_osk_timer_add(core->timeout_timer, _mali_osk_time_mstoticks(mali_max_job_runtime)); - core->timeout_job_id = mali_pp_job_get_id(job); - -#if MALI_TIMELINE_PROFILING_ENABLED - _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_SINGLE | MALI_PROFILING_MAKE_EVENT_CHANNEL_PP(core->core_id) | MALI_PROFILING_EVENT_REASON_SINGLE_HW_FLUSH, job->frame_builder_id, job->flush_id, 0, 0, 0); - _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_START|MALI_PROFILING_MAKE_EVENT_CHANNEL_PP(core->core_id), job->pid, job->tid, 0, 0, 0); -#endif - - core->running_job = job; - core->running_sub_job = sub_job; -} - -u32 mali_pp_core_get_version(struct mali_pp_core *core) -{ - MALI_DEBUG_ASSERT_POINTER(core); - return mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_VERSION); -} - -u32 mali_pp_core_get_id(struct mali_pp_core *core) -{ - MALI_DEBUG_ASSERT_POINTER(core); - return core->core_id; -} - -mali_bool mali_pp_core_set_counter_src0(struct mali_pp_core *core, u32 counter) -{ - MALI_DEBUG_ASSERT_POINTER(core); - - core->counter_src0 = counter; - return MALI_TRUE; -} - -mali_bool mali_pp_core_set_counter_src1(struct mali_pp_core *core, u32 counter) -{ - MALI_DEBUG_ASSERT_POINTER(core); - - core->counter_src1 = counter; - return MALI_TRUE; -} - -u32 mali_pp_core_get_counter_src0(struct mali_pp_core *core) -{ - MALI_DEBUG_ASSERT_POINTER(core); - return core->counter_src0; -} - -u32 mali_pp_core_get_counter_src1(struct mali_pp_core *core) -{ - MALI_DEBUG_ASSERT_POINTER(core); - return core->counter_src1; -} - -struct mali_pp_core* mali_pp_get_global_pp_core(u32 index) -{ - if (MALI_MAX_NUMBER_OF_PP_CORES > index) - { - return mali_global_pp_cores[index]; - } - - return NULL; -} - -u32 mali_pp_get_glob_num_pp_cores(void) -{ - return mali_global_num_pp_cores; -} - -u32 mali_pp_get_max_num_pp_cores(void) -{ - return MALI_MAX_NUMBER_OF_PP_CORES; -} - -/* ------------- interrupt handling below ------------------ */ -static _mali_osk_errcode_t mali_pp_upper_half(void *data) -{ - struct mali_pp_core *core = (struct mali_pp_core *)data; - u32 irq_readout; - - irq_readout = mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_STATUS); - if (MALI200_REG_VAL_IRQ_MASK_NONE != irq_readout) - { - /* Mask out all IRQs from this core until IRQ is handled */ - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_MASK, MALI200_REG_VAL_IRQ_MASK_NONE); - -#if MALI_TIMELINE_PROFILING_ENABLED - _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_SINGLE|MALI_PROFILING_MAKE_EVENT_CHANNEL_PP(core->core_id)|MALI_PROFILING_EVENT_REASON_SINGLE_HW_INTERRUPT, irq_readout, 0, 0, 0, 0); -#endif - - /* We do need to handle this in a bottom half */ - _mali_osk_irq_schedulework(core->irq); - return _MALI_OSK_ERR_OK; - } - - return _MALI_OSK_ERR_FAULT; -} - -static void mali_pp_bottom_half(void *data) -{ - struct mali_pp_core *core = (struct mali_pp_core *)data; - u32 irq_readout; - u32 irq_errors; - -#if MALI_TIMELINE_PROFILING_ENABLED -#if 0 /* Bottom half TLP logging is currently not supported */ - _mali_osk_profiling_add_event( MALI_PROFILING_EVENT_TYPE_START| MALI_PROFILING_EVENT_CHANNEL_SOFTWARE , _mali_osk_get_pid(), _mali_osk_get_tid(), 0, 0, 0); -#endif -#endif - - mali_group_lock(core->group); /* Group lock grabbed in core handlers, but released in common group handler */ - - if ( MALI_FALSE == mali_group_power_is_on(core->group) ) - { - MALI_PRINT_ERROR(("Interrupt bottom half of %s when core is OFF.", core->hw_core.description)); - mali_group_unlock(core->group); - return; - } - - irq_readout = mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_RAWSTAT) & MALI200_REG_VAL_IRQ_MASK_USED; - - MALI_DEBUG_PRINT(4, ("Mali PP: Bottom half IRQ 0x%08X from core %s\n", irq_readout, core->hw_core.description)); - - if (irq_readout & MALI200_REG_VAL_IRQ_END_OF_FRAME) - { - mali_pp_post_process_job(core); - MALI_DEBUG_PRINT(3, ("Mali PP: Job completed, calling group handler\n")); - mali_group_bottom_half(core->group, GROUP_EVENT_PP_JOB_COMPLETED); /* Will release group lock */ - return; - } - - /* - * Now lets look at the possible error cases (IRQ indicating error or timeout) - * END_OF_FRAME and HANG interrupts are not considered error. - */ - irq_errors = irq_readout & ~(MALI200_REG_VAL_IRQ_END_OF_FRAME|MALI200_REG_VAL_IRQ_HANG); - if (0 != irq_errors) - { - mali_pp_post_process_job(core); - MALI_PRINT_ERROR(("Mali PP: Unknown interrupt 0x%08X from core %s, aborting job\n", - irq_readout, core->hw_core.description)); - mali_group_bottom_half(core->group, GROUP_EVENT_PP_JOB_FAILED); /* Will release group lock */ - return; - } - else if (MALI_TRUE == core->core_timed_out) /* SW timeout */ - { - if (core->timeout_job_id == mali_pp_job_get_id(core->running_job)) - { - mali_pp_post_process_job(core); - MALI_DEBUG_PRINT(2, ("Mali PP: Job %d timed out on core %s\n", - mali_pp_job_get_id(core->running_job), core->hw_core.description)); - mali_group_bottom_half(core->group, GROUP_EVENT_PP_JOB_TIMED_OUT); /* Will release group lock */ - } - else - { - mali_group_unlock(core->group); - } - core->core_timed_out = MALI_FALSE; - return; - } - else if (irq_readout & MALI200_REG_VAL_IRQ_HANG) - { - /* Just ignore hang interrupts, the job timer will detect hanging jobs anyways */ - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_CLEAR, MALI200_REG_VAL_IRQ_HANG); - } - - /* - * The only way to get here is if we got a HANG interrupt, which we ignore. - * Re-enable interrupts and let core continue to run - */ - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_MASK, MALI200_REG_VAL_IRQ_MASK_USED); - mali_group_unlock(core->group); - -#if MALI_TIMELINE_PROFILING_ENABLED -#if 0 /* Bottom half TLP logging is currently not supported */ - _mali_osk_profiling_add_event( MALI_PROFILING_EVENT_TYPE_STOP| MALI_PROFILING_EVENT_CHANNEL_SOFTWARE , _mali_osk_get_pid(), _mali_osk_get_tid(), 0, 0, 0); -#endif -#endif -} - -static void mali_pp_irq_probe_trigger(void *data) -{ - struct mali_pp_core *core = (struct mali_pp_core *)data; - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_MASK, MALI200_REG_VAL_IRQ_MASK_USED); /* @@@@ This should not be needed */ - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_RAWSTAT, MALI200_REG_VAL_IRQ_FORCE_HANG); - _mali_osk_mem_barrier(); -} - -static _mali_osk_errcode_t mali_pp_irq_probe_ack(void *data) -{ - struct mali_pp_core *core = (struct mali_pp_core *)data; - u32 irq_readout; - - irq_readout = mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_STATUS); - if (MALI200_REG_VAL_IRQ_FORCE_HANG & irq_readout) - { - mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_CLEAR, MALI200_REG_VAL_IRQ_FORCE_HANG); - _mali_osk_mem_barrier(); - return _MALI_OSK_ERR_OK; - } - - return _MALI_OSK_ERR_FAULT; -} - - -/* ------ local helper functions below --------- */ -static void mali_pp_post_process_job(struct mali_pp_core *core) -{ - MALI_ASSERT_GROUP_LOCKED(core->group); - - if (NULL != core->running_job) - { - u32 val0 = 0; - u32 val1 = 0; -#if MALI_TIMELINE_PROFILING_ENABLED - int counter_index = COUNTER_FP0_C0 + (2 * core->core_id); -#endif - - if (MALI_HW_CORE_NO_COUNTER != core->counter_src0_used) - { - val0 = mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_0_VALUE); - if (mali_pp_job_get_perf_counter_flag(core->running_job) && - _MALI_PERFORMANCE_COUNTER_FLAG_SRC0_ENABLE && mali_pp_job_get_perf_counter_src0(core->running_job) == core->counter_src0_used) - { - /* We retrieved the counter that user space asked for, so return the value through the job object */ - mali_pp_job_set_perf_counter_value0(core->running_job, core->running_sub_job, val0); - } - else - { - /* User space asked for a counter, but this is not what we retrived (overridden by counter src set on core) */ - mali_pp_job_set_perf_counter_value0(core->running_job, core->running_sub_job, MALI_HW_CORE_INVALID_VALUE); - } - -#if MALI_TIMELINE_PROFILING_ENABLED - _mali_osk_profiling_report_hw_counter(counter_index, val0); -#endif - } - - if (MALI_HW_CORE_NO_COUNTER != core->counter_src1_used) - { - val1 = mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_1_VALUE); - if (mali_pp_job_get_perf_counter_flag(core->running_job) && - _MALI_PERFORMANCE_COUNTER_FLAG_SRC1_ENABLE && mali_pp_job_get_perf_counter_src1(core->running_job) == core->counter_src1_used) - { - /* We retrieved the counter that user space asked for, so return the value through the job object */ - mali_pp_job_set_perf_counter_value1(core->running_job, core->running_sub_job, val1); - } - else - { - /* User space asked for a counter, but this is not what we retrived (overridden by counter src set on core) */ - mali_pp_job_set_perf_counter_value1(core->running_job, core->running_sub_job, MALI_HW_CORE_INVALID_VALUE); - } - -#if MALI_TIMELINE_PROFILING_ENABLED - _mali_osk_profiling_report_hw_counter(counter_index + 1, val1); -#endif - } - -#if MALI_TIMELINE_PROFILING_ENABLED - _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_STOP|MALI_PROFILING_MAKE_EVENT_CHANNEL_PP(core->core_id), - val0, val1, core->counter_src0_used | (core->counter_src1_used << 8), 0, 0); -#endif - - /* We are no longer running a job... */ - core->running_job = NULL; - _mali_osk_timer_del(core->timeout_timer); - } -} - -/* callback function for pp core timeout */ -static void mali_pp_timeout(void *data) -{ - struct mali_pp_core * core = ((struct mali_pp_core *)data); - - MALI_DEBUG_PRINT(3, ("Mali PP: TIMEOUT callback \n")); - core->core_timed_out = MALI_TRUE; - _mali_osk_irq_schedulework(core->irq); -} - -#if 0 -static void mali_pp_print_registers(struct mali_pp_core *core) -{ - MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_VERSION = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_VERSION))); - MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_CURRENT_REND_LIST_ADDR = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_CURRENT_REND_LIST_ADDR))); - MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_STATUS = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_STATUS))); - MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_INT_RAWSTAT = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_RAWSTAT))); - MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_INT_MASK = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_MASK))); - MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_INT_STATUS = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_STATUS))); - MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_BUS_ERROR_STATUS = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_BUS_ERROR_STATUS))); - MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_PERF_CNT_0_ENABLE = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_0_ENABLE))); - MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_PERF_CNT_0_SRC = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_0_SRC))); - MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_PERF_CNT_0_VALUE = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_0_VALUE))); - MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_PERF_CNT_1_ENABLE = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_1_ENABLE))); - MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_PERF_CNT_1_SRC = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_1_SRC))); - MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_PERF_CNT_1_VALUE = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_1_VALUE))); -} -#endif - -#if 0 -void mali_pp_print_state(struct mali_pp_core *core) -{ - MALI_DEBUG_PRINT(2, ("Mali PP: State: 0x%08x\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_STATUS) )); -} -#endif - -#if MALI_STATE_TRACKING -u32 mali_pp_dump_state(struct mali_pp_core *core, char *buf, u32 size) -{ - int n = 0; - - n += _mali_osk_snprintf(buf + n, size - n, "\tPP #%d: %s\n", core->core_id, core->hw_core.description); - - return n; -} -#endif diff --git a/drivers/media/video/samsung/mali/common/mali_pp.h b/drivers/media/video/samsung/mali/common/mali_pp.h deleted file mode 100644 index 9b425a0..0000000 --- a/drivers/media/video/samsung/mali/common/mali_pp.h +++ /dev/null @@ -1,47 +0,0 @@ -/* - * Copyright (C) 2011-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_PP_H__ -#define __MALI_PP_H__ - -#include "mali_osk.h" -#include "mali_pp_job.h" - -struct mali_pp_core; -struct mali_group; - -_mali_osk_errcode_t mali_pp_initialize(void); -void mali_pp_terminate(void); - -struct mali_pp_core *mali_pp_create(const _mali_osk_resource_t * resource, struct mali_group *group); -void mali_pp_delete(struct mali_pp_core *core); - -void mali_pp_stop_bus(struct mali_pp_core *core); -_mali_osk_errcode_t mali_pp_stop_bus_wait(struct mali_pp_core *core); -_mali_osk_errcode_t mali_pp_reset(struct mali_pp_core *core); -_mali_osk_errcode_t mali_pp_hard_reset(struct mali_pp_core *core); - -void mali_pp_job_start(struct mali_pp_core *core, struct mali_pp_job *job, u32 sub_job); - -u32 mali_pp_core_get_version(struct mali_pp_core *core); - -u32 mali_pp_core_get_id(struct mali_pp_core *core); - -mali_bool mali_pp_core_set_counter_src0(struct mali_pp_core *core, u32 counter); -mali_bool mali_pp_core_set_counter_src1(struct mali_pp_core *core, u32 counter); -u32 mali_pp_core_get_counter_src0(struct mali_pp_core *core); -u32 mali_pp_core_get_counter_src1(struct mali_pp_core *core); -struct mali_pp_core* mali_pp_get_global_pp_core(u32 index); -u32 mali_pp_get_glob_num_pp_cores(void); -u32 mali_pp_get_max_num_pp_cores(void); -/* Debug */ -u32 mali_pp_dump_state(struct mali_pp_core *core, char *buf, u32 size); - -#endif /* __MALI_PP_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_pp_job.c b/drivers/media/video/samsung/mali/common/mali_pp_job.c deleted file mode 100644 index 47b8a0a..0000000 --- a/drivers/media/video/samsung/mali/common/mali_pp_job.c +++ /dev/null @@ -1,95 +0,0 @@ -/* - * Copyright (C) 2011-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_pp_job.h" -#include "mali_osk.h" -#include "mali_osk_list.h" -#include "mali_kernel_common.h" -#include "mali_uk_types.h" - -struct mali_pp_job *mali_pp_job_create(struct mali_session_data *session, _mali_uk_pp_start_job_s *args, u32 id) -{ - struct mali_pp_job *job; - - if (args->num_cores > _MALI_PP_MAX_SUB_JOBS) - { - MALI_PRINT_ERROR(("Mali PP job: Too many sub jobs specified in job object\n")); - return NULL; - } - - job = _mali_osk_malloc(sizeof(struct mali_pp_job)); - if (NULL != job) - { - u32 i; - _mali_osk_list_init(&job->list); - job->session = session; - job->id = id; - job->user_id = args->user_job_ptr; - job->barrier = args->flags & _MALI_PP_JOB_FLAG_BARRIER ? MALI_TRUE : MALI_FALSE; - job->active_barrier = job->barrier; - job->no_notification = args->flags & _MALI_PP_JOB_FLAG_NO_NOTIFICATION ? MALI_TRUE : MALI_FALSE; - _mali_osk_memcpy(job->frame_registers, args->frame_registers, sizeof(job->frame_registers)); - _mali_osk_memcpy(job->frame_registers_addr_frame, args->frame_registers_addr_frame, sizeof(job->frame_registers_addr_frame)); - _mali_osk_memcpy(job->frame_registers_addr_stack, args->frame_registers_addr_stack, sizeof(job->frame_registers_addr_stack)); - - /* Only copy write back registers for the units that are enabled */ - job->wb0_registers[0] = 0; - job->wb1_registers[0] = 0; - job->wb2_registers[0] = 0; - if (args->wb0_registers[0]) /* M200_WB0_REG_SOURCE_SELECT register */ - { - _mali_osk_memcpy(job->wb0_registers, args->wb0_registers, sizeof(job->wb0_registers)); - } - if (args->wb1_registers[0]) /* M200_WB1_REG_SOURCE_SELECT register */ - { - _mali_osk_memcpy(job->wb1_registers, args->wb1_registers, sizeof(job->wb1_registers)); - } - if (args->wb2_registers[0]) /* M200_WB2_REG_SOURCE_SELECT register */ - { - _mali_osk_memcpy(job->wb2_registers, args->wb2_registers, sizeof(job->wb2_registers)); - } - - job->perf_counter_flag = args->perf_counter_flag; - job->perf_counter_src0 = args->perf_counter_src0; - job->perf_counter_src1 = args->perf_counter_src1; - for (i = 0; i < args->num_cores; i++) - { - job->perf_counter_value0[i] = 0; - job->perf_counter_value1[i] = 0; - } - job->sub_job_count = args->num_cores; - job->sub_jobs_started = 0; - job->sub_jobs_completed = 0; - job->sub_job_errors = 0; - - job->pid = _mali_osk_get_pid(); - job->tid = _mali_osk_get_tid(); - job->frame_builder_id = args->frame_builder_id; - job->flush_id = args->flush_id; - - return job; - } - - return NULL; -} - -void mali_pp_job_delete(struct mali_pp_job *job) -{ - _mali_osk_free(job); -} - -_mali_osk_errcode_t mali_pp_job_check(struct mali_pp_job *job) -{ - if ((0 == job->frame_registers[0]) || (0 == job->frame_registers[1])) - { - return _MALI_OSK_ERR_FAULT; - } - return _MALI_OSK_ERR_OK; -} diff --git a/drivers/media/video/samsung/mali/common/mali_pp_job.h b/drivers/media/video/samsung/mali/common/mali_pp_job.h deleted file mode 100644 index 4399c1d..0000000 --- a/drivers/media/video/samsung/mali/common/mali_pp_job.h +++ /dev/null @@ -1,273 +0,0 @@ -/* - * Copyright (C) 2011-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_PP_JOB_H__ -#define __MALI_PP_JOB_H__ - -#include "mali_osk.h" -#include "mali_osk_list.h" -#include "mali_uk_types.h" -#include "mali_session.h" -#include "mali_kernel_common.h" -#include "regs/mali_200_regs.h" - -/** - * The structure represends a PP job, including all sub-jobs - * (This struct unfortunatly needs to be public because of how the _mali_osk_list_* - * mechanism works) - */ -struct mali_pp_job -{ - _mali_osk_list_t list; /**< Used to link jobs together in the scheduler queue */ - struct mali_session_data *session; /**< Session which submitted this job */ - u32 id; /**< identifier for this job in kernel space (sequencial numbering) */ - u32 user_id; /**< identifier for the job in user space */ - u32 frame_registers[_MALI_PP_MAX_FRAME_REGISTERS]; /**< core specific registers associated with this job, see ARM DDI0415A */ - u32 frame_registers_addr_frame[_MALI_PP_MAX_SUB_JOBS - 1]; /**< ADDR_FRAME registers for sub job 1-7 */ - u32 frame_registers_addr_stack[_MALI_PP_MAX_SUB_JOBS - 1]; /**< ADDR_STACK registers for sub job 1-7 */ - u32 wb0_registers[_MALI_PP_MAX_WB_REGISTERS]; /**< Write back unit 0 registers */ - u32 wb1_registers[_MALI_PP_MAX_WB_REGISTERS]; /**< Write back unit 1 registers */ - u32 wb2_registers[_MALI_PP_MAX_WB_REGISTERS]; /**< Write back unit 2 registers */ - u32 perf_counter_flag; /**< bitmask indicating which performance counters to enable, see \ref _MALI_PERFORMANCE_COUNTER_FLAG_SRC0_ENABLE and related macro definitions */ - u32 perf_counter_src0; /**< Source id for performance counter 0 (see ARM DDI0415A, Table 3-60) */ - u32 perf_counter_src1; /**< Source id for performance counter 1 (see ARM DDI0415A, Table 3-60) */ - u32 perf_counter_value0[_MALI_PP_MAX_SUB_JOBS]; /**< Value of performance counter 0 (to be returned to user space), one for each sub job */ - u32 perf_counter_value1[_MALI_PP_MAX_SUB_JOBS]; /**< Value of performance counter 1 (to be returned to user space), one for each sub job */ - u32 sub_job_count; /**< Total number of sub-jobs in this superjob */ - u32 sub_jobs_started; /**< Total number of sub-jobs started (always started in ascending order) */ - u32 sub_jobs_completed; /**< Number of completed sub-jobs in this superjob */ - u32 sub_job_errors; /**< Bitfield with errors (errors for each single sub-job is or'ed together) */ - u32 pid; /**< Process ID of submitting process */ - u32 tid; /**< Thread ID of submitting thread */ - u32 frame_builder_id; /**< id of the originating frame builder */ - u32 flush_id; /**< flush id within the originating frame builder */ - mali_bool barrier; /**< [in] MALI_TRUE means wait for all my previous jobs to complete before scheduling this one */ - mali_bool active_barrier; /**< [in] Changes from MALI_TRUE to MALI_FALSE when barrier has been resolved */ - mali_bool no_notification; /**< [in] MALI_TRUE means do not notify user space when this job has completed */ -}; - -struct mali_pp_job *mali_pp_job_create(struct mali_session_data *session, _mali_uk_pp_start_job_s *args, u32 id); -void mali_pp_job_delete(struct mali_pp_job *job); - -_mali_osk_errcode_t mali_pp_job_check(struct mali_pp_job *job); - -/****************************************************** - * simple utility functions for dealing with pp jobs: - *****************************************************/ - -MALI_STATIC_INLINE u32 mali_pp_job_get_id(struct mali_pp_job *job) -{ - return (NULL == job) ? 0 : job->id; -} - -MALI_STATIC_INLINE u32 mali_pp_job_get_user_id(struct mali_pp_job *job) -{ - return job->user_id; -} - -MALI_STATIC_INLINE u32 mali_pp_job_get_frame_builder_id(struct mali_pp_job *job) -{ - return job->frame_builder_id; -} - -MALI_STATIC_INLINE u32 mali_pp_job_get_flush_id(struct mali_pp_job *job) -{ - return job->flush_id; -} - -MALI_STATIC_INLINE u32* mali_pp_job_get_frame_registers(struct mali_pp_job *job) -{ - return job->frame_registers; -} - -MALI_STATIC_INLINE u32 mali_pp_job_get_addr_frame(struct mali_pp_job *job, u32 sub_job) -{ - if (sub_job == 0) - { - return job->frame_registers[MALI200_REG_ADDR_FRAME / sizeof(u32)]; - } - else if (sub_job < _MALI_PP_MAX_SUB_JOBS) - { - return job->frame_registers_addr_frame[sub_job - 1]; - } - - return 0; -} - -MALI_STATIC_INLINE u32 mali_pp_job_get_addr_stack(struct mali_pp_job *job, u32 sub_job) -{ - if (sub_job == 0) - { - return job->frame_registers[MALI200_REG_ADDR_STACK / sizeof(u32)]; - } - else if (sub_job < _MALI_PP_MAX_SUB_JOBS) - { - return job->frame_registers_addr_stack[sub_job - 1]; - } - - return 0; -} - -MALI_STATIC_INLINE u32* mali_pp_job_get_wb0_registers(struct mali_pp_job *job) -{ - return job->wb0_registers; -} - -MALI_STATIC_INLINE u32* mali_pp_job_get_wb1_registers(struct mali_pp_job *job) -{ - return job->wb1_registers; -} - -MALI_STATIC_INLINE u32* mali_pp_job_get_wb2_registers(struct mali_pp_job *job) -{ - return job->wb2_registers; -} - -MALI_STATIC_INLINE void mali_pp_job_disable_wb0(struct mali_pp_job *job) -{ - job->wb0_registers[MALI200_REG_ADDR_WB_SOURCE_SELECT] = 0; -} - -MALI_STATIC_INLINE void mali_pp_job_disable_wb1(struct mali_pp_job *job) -{ - job->wb1_registers[MALI200_REG_ADDR_WB_SOURCE_SELECT] = 0; -} - -MALI_STATIC_INLINE void mali_pp_job_disable_wb2(struct mali_pp_job *job) -{ - job->wb2_registers[MALI200_REG_ADDR_WB_SOURCE_SELECT] = 0; -} - -MALI_STATIC_INLINE struct mali_session_data *mali_pp_job_get_session(struct mali_pp_job *job) -{ - return job->session; -} - -MALI_STATIC_INLINE mali_bool mali_pp_job_has_unstarted_sub_jobs(struct mali_pp_job *job) -{ - return (job->sub_jobs_started < job->sub_job_count) ? MALI_TRUE : MALI_FALSE; -} - -/* Function used when we are terminating a session with jobs. Return TRUE if it has a rendering job. - Makes sure that no new subjobs is started. */ -MALI_STATIC_INLINE mali_bool mali_pp_job_is_currently_rendering_and_if_so_abort_new_starts(struct mali_pp_job *job) -{ - /* All can not be started, since then it would not be in the job queue */ - MALI_DEBUG_ASSERT( job->sub_jobs_started != job->sub_job_count ); - - /* If at least one job is started */ - if ( (job->sub_jobs_started > 0) ) - { - /* If at least one job is currently being rendered, and thus assigned to a group and core */ - if (job->sub_jobs_started > job->sub_jobs_completed ) - { - u32 jobs_remaining = job->sub_job_count - job->sub_jobs_started; - job->sub_jobs_started += jobs_remaining; - job->sub_jobs_completed += jobs_remaining; - job->sub_job_errors += jobs_remaining; - /* Returning TRUE indicating that we can not delete this job which is being redered */ - return MALI_TRUE; - } - } - /* The job is not being rendered to at the moment and can then safely be deleted */ - return MALI_FALSE; -} - -MALI_STATIC_INLINE mali_bool mali_pp_job_is_complete(struct mali_pp_job *job) -{ - return (job->sub_job_count == job->sub_jobs_completed) ? MALI_TRUE : MALI_FALSE; -} - -MALI_STATIC_INLINE u32 mali_pp_job_get_first_unstarted_sub_job(struct mali_pp_job *job) -{ - return job->sub_jobs_started; -} - -MALI_STATIC_INLINE u32 mali_pp_job_get_sub_job_count(struct mali_pp_job *job) -{ - return job->sub_job_count; -} - -MALI_STATIC_INLINE void mali_pp_job_mark_sub_job_started(struct mali_pp_job *job, u32 sub_job) -{ - /* Assert that we are marking the "first unstarted sub job" as started */ - MALI_DEBUG_ASSERT(job->sub_jobs_started == sub_job); - job->sub_jobs_started++; -} - -MALI_STATIC_INLINE void mali_pp_job_mark_sub_job_completed(struct mali_pp_job *job, mali_bool success) -{ - job->sub_jobs_completed++; - if ( MALI_FALSE == success ) - { - job->sub_job_errors++; - } -} - -MALI_STATIC_INLINE mali_bool mali_pp_job_was_success(struct mali_pp_job *job) -{ - if ( 0 == job->sub_job_errors ) - { - return MALI_TRUE; - } - return MALI_FALSE; -} - -MALI_STATIC_INLINE mali_bool mali_pp_job_has_active_barrier(struct mali_pp_job *job) -{ - return job->active_barrier; -} - -MALI_STATIC_INLINE void mali_pp_job_barrier_enforced(struct mali_pp_job *job) -{ - job->active_barrier = MALI_FALSE; -} - -MALI_STATIC_INLINE mali_bool mali_pp_job_use_no_notification(struct mali_pp_job *job) -{ - return job->no_notification; -} - -MALI_STATIC_INLINE u32 mali_pp_job_get_perf_counter_flag(struct mali_pp_job *job) -{ - return job->perf_counter_flag; -} - -MALI_STATIC_INLINE u32 mali_pp_job_get_perf_counter_src0(struct mali_pp_job *job) -{ - return job->perf_counter_src0; -} - -MALI_STATIC_INLINE u32 mali_pp_job_get_perf_counter_src1(struct mali_pp_job *job) -{ - return job->perf_counter_src1; -} - -MALI_STATIC_INLINE u32 mali_pp_job_get_perf_counter_value0(struct mali_pp_job *job, u32 sub_job) -{ - return job->perf_counter_value0[sub_job]; -} - -MALI_STATIC_INLINE u32 mali_pp_job_get_perf_counter_value1(struct mali_pp_job *job, u32 sub_job) -{ - return job->perf_counter_value1[sub_job]; -} - -MALI_STATIC_INLINE void mali_pp_job_set_perf_counter_value0(struct mali_pp_job *job, u32 sub_job, u32 value) -{ - job->perf_counter_value0[sub_job] = value; -} - -MALI_STATIC_INLINE void mali_pp_job_set_perf_counter_value1(struct mali_pp_job *job, u32 sub_job, u32 value) -{ - job->perf_counter_value1[sub_job] = value; -} - -#endif /* __MALI_PP_JOB_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_pp_scheduler.c b/drivers/media/video/samsung/mali/common/mali_pp_scheduler.c deleted file mode 100644 index a944055..0000000 --- a/drivers/media/video/samsung/mali/common/mali_pp_scheduler.c +++ /dev/null @@ -1,594 +0,0 @@ -/* - * Copyright (C) 2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_pp_scheduler.h" -#include "mali_kernel_common.h" -#include "mali_osk.h" -#include "mali_osk_list.h" -#include "mali_scheduler.h" -#include "mali_pp.h" -#include "mali_pp_job.h" -#include "mali_group.h" -#include "mali_cluster.h" - -/* Maximum of 8 PP cores (a group can only have maximum of 1 PP core) */ -#define MALI_MAX_NUMBER_OF_PP_GROUPS 8 - -static mali_bool mali_pp_scheduler_is_suspended(void); - -enum mali_pp_slot_state -{ - MALI_PP_SLOT_STATE_IDLE, - MALI_PP_SLOT_STATE_WORKING, -}; - -/* A render slot is an entity which jobs can be scheduled onto */ -struct mali_pp_slot -{ - struct mali_group *group; - /* - * We keep track of the state here as well as in the group object - * so we don't need to take the group lock so often (and also avoid clutter with the working lock) - */ - enum mali_pp_slot_state state; - struct mali_session_data *session; -}; - -static u32 pp_version = 0; -static _MALI_OSK_LIST_HEAD(job_queue); /* List of jobs with some unscheduled work */ -static struct mali_pp_slot slots[MALI_MAX_NUMBER_OF_PP_GROUPS]; -static u32 num_slots = 0; -static u32 num_slots_idle = 0; - -/* Variables to allow safe pausing of the scheduler */ -static _mali_osk_wait_queue_t *pp_scheduler_working_wait_queue = NULL; -static u32 pause_count = 0; - -static _mali_osk_lock_t *pp_scheduler_lock = NULL; -/* Contains tid of thread that locked the scheduler or 0, if not locked */ -MALI_DEBUG_CODE(static u32 pp_scheduler_lock_owner = 0); - -_mali_osk_errcode_t mali_pp_scheduler_initialize(void) -{ - u32 i; - - _MALI_OSK_INIT_LIST_HEAD(&job_queue); - - pp_scheduler_lock = _mali_osk_lock_init(_MALI_OSK_LOCKFLAG_ORDERED |_MALI_OSK_LOCKFLAG_NONINTERRUPTABLE, 0, _MALI_OSK_LOCK_ORDER_SCHEDULER); - if (NULL == pp_scheduler_lock) - { - return _MALI_OSK_ERR_NOMEM; - } - - pp_scheduler_working_wait_queue = _mali_osk_wait_queue_init(); - if (NULL == pp_scheduler_working_wait_queue) - { - _mali_osk_lock_term(pp_scheduler_lock); - return _MALI_OSK_ERR_NOMEM; - } - - /* Find all the available PP cores */ - for (i = 0; i < mali_cluster_get_glob_num_clusters(); i++) - { - u32 group_id = 0; - struct mali_cluster *curr_cluster = mali_cluster_get_global_cluster(i); - struct mali_group *group = mali_cluster_get_group(curr_cluster, group_id); - while (NULL != group) - { - struct mali_pp_core *pp_core = mali_group_get_pp_core(group); - if (NULL != pp_core) - { - if (0 == pp_version) - { - /* Retrieve PP version from first avaiable PP core */ - pp_version = mali_pp_core_get_version(pp_core); - } - slots[num_slots].group = group; - slots[num_slots].state = MALI_PP_SLOT_STATE_IDLE; - slots[num_slots].session = NULL; - num_slots++; - num_slots_idle++; - } - group_id++; - group = mali_cluster_get_group(curr_cluster, group_id); - } - } - - return _MALI_OSK_ERR_OK; -} - -void mali_pp_scheduler_terminate(void) -{ - _mali_osk_wait_queue_term(pp_scheduler_working_wait_queue); - _mali_osk_lock_term(pp_scheduler_lock); -} - -MALI_STATIC_INLINE void mali_pp_scheduler_lock(void) -{ - if(_MALI_OSK_ERR_OK != _mali_osk_lock_wait(pp_scheduler_lock, _MALI_OSK_LOCKMODE_RW)) - { - /* Non-interruptable lock failed: this should never happen. */ - MALI_DEBUG_ASSERT(0); - } - MALI_DEBUG_PRINT(5, ("Mali PP scheduler: PP scheduler lock taken\n")); - MALI_DEBUG_ASSERT(0 == pp_scheduler_lock_owner); - MALI_DEBUG_CODE(pp_scheduler_lock_owner = _mali_osk_get_tid()); -} - -MALI_STATIC_INLINE void mali_pp_scheduler_unlock(void) -{ - MALI_DEBUG_PRINT(5, ("Mali PP scheduler: Releasing PP scheduler lock\n")); - MALI_DEBUG_ASSERT(_mali_osk_get_tid() == pp_scheduler_lock_owner); - MALI_DEBUG_CODE(pp_scheduler_lock_owner = 0); - _mali_osk_lock_signal(pp_scheduler_lock, _MALI_OSK_LOCKMODE_RW); -} - -#ifdef DEBUG -MALI_STATIC_INLINE void mali_pp_scheduler_assert_locked(void) -{ - MALI_DEBUG_ASSERT(_mali_osk_get_tid() == pp_scheduler_lock_owner); -} -#define MALI_ASSERT_PP_SCHEDULER_LOCKED() mali_pp_scheduler_assert_locked() -#else -#define MALI_ASSERT_PP_SCHEDULER_LOCKED() -#endif - -static mali_bool mali_pp_scheduler_session_has_running_jobs(struct mali_session_data *session) -{ - u32 i; - - MALI_ASSERT_PP_SCHEDULER_LOCKED(); - - if (num_slots_idle == num_slots) - { - return MALI_FALSE; - } - - for (i = 0; i < num_slots; i++) - { - if (MALI_PP_SLOT_STATE_WORKING == slots[i].state) - { - if (slots[i].session == session) - { - return MALI_TRUE; - } - } - } - - return MALI_FALSE; -} - -static void mali_pp_scheduler_schedule(void) -{ - u32 i; - struct mali_pp_job *job; -#if MALI_PP_SCHEDULER_FORCE_NO_JOB_OVERLAP_BETWEEN_APPS - struct mali_session_data * session; -#endif - - MALI_ASSERT_PP_SCHEDULER_LOCKED(); - - if (0 < pause_count || 0 == num_slots_idle || _mali_osk_list_empty(&job_queue)) - { - MALI_DEBUG_PRINT(4, ("Mali PP scheduler: Nothing to schedule (paused=%u, idle slots=%u)\n", - pause_count, num_slots_idle)); - return; /* Nothing to do, so early out */ - } - - -#if MALI_PP_SCHEDULER_FORCE_NO_JOB_OVERLAP - if ( num_slots_idle < num_slots ) - { - MALI_DEBUG_PRINT(4, ("Mali PP scheduler: Job not started, since only %d/%d cores are available\n", num_slots_idle,num_slots)); - return; - } -#endif - -#if MALI_PP_SCHEDULER_FORCE_NO_JOB_OVERLAP_BETWEEN_APPS - /* Finding initial session for the PP cores */ - job = _MALI_OSK_LIST_ENTRY(job_queue.next, struct mali_pp_job, list); - session = job->session; - if ( num_slots != num_slots_idle ) - { - for (i = 0; (i < num_slots) ; i++) - { - if ( slots[i].state == MALI_PP_SLOT_STATE_IDLE ) - { - continue; - } - session = mali_group_get_session(slots[i].group); - break; - } - } -#endif - - for (i = 0; (i < num_slots) && (0 < num_slots_idle); i++) - { - u32 sub_job; - - if (_mali_osk_list_empty(&job_queue)) /* move this check down to where we know we have started all sub jobs for this job??? */ - { - break; /* No more jobs to schedule, so early out */ - } - - if (MALI_PP_SLOT_STATE_IDLE != slots[i].state) - { - continue; - } - - job = _MALI_OSK_LIST_ENTRY(job_queue.next, struct mali_pp_job, list); - MALI_DEBUG_ASSERT(mali_pp_job_has_unstarted_sub_jobs(job)); /* All jobs on the job_queue should have unstarted sub jobs */ - - if (MALI_TRUE == mali_pp_job_has_active_barrier(job)) - { - if (MALI_TRUE == mali_pp_scheduler_session_has_running_jobs(mali_pp_job_get_session(job))) - { - /* There is already a running job from this session, so we need to enforce the barrier */ - return; - } - else - { - /* Barrier is now enforced, update job object so we don't delay execution of sub-jobs */ - mali_pp_job_barrier_enforced(job); - } - } - - #if MALI_PP_SCHEDULER_KEEP_SUB_JOB_STARTS_ALIGNED - if ( (0==job->sub_jobs_started) && (num_slots_idle < num_slots) && (job->sub_job_count > num_slots_idle)) - { - MALI_DEBUG_PRINT(4, ("Mali PP scheduler: Job with %d subjobs not started, since only %d/%d cores are available\n", job->sub_job_count, num_slots_idle,num_slots)); - return; - } - #endif - - #if MALI_PP_SCHEDULER_FORCE_NO_JOB_OVERLAP_BETWEEN_APPS - if ( job->session != session ) - { - MALI_DEBUG_PRINT(4, ("Mali PP scheduler: Job not started since existing job is from another application\n")); - return; - } - #endif - - sub_job = mali_pp_job_get_first_unstarted_sub_job(job); - - MALI_DEBUG_PRINT(4, ("Mali PP scheduler: Starting job %u (0x%08X) part %u/%u\n", mali_pp_job_get_id(job), job, sub_job + 1, mali_pp_job_get_sub_job_count(job))); - if (_MALI_OSK_ERR_OK == mali_group_start_pp_job(slots[i].group, job, sub_job)) - { - MALI_DEBUG_PRINT(4, ("Mali PP scheduler: Job %u (0x%08X) part %u/%u started\n", mali_pp_job_get_id(job), job, sub_job + 1, mali_pp_job_get_sub_job_count(job))); - - /* Mark this sub job as started */ - mali_pp_job_mark_sub_job_started(job, sub_job); - - /* Mark slot as busy */ - slots[i].state = MALI_PP_SLOT_STATE_WORKING; - slots[i].session = mali_pp_job_get_session(job); - num_slots_idle--; - - if (!mali_pp_job_has_unstarted_sub_jobs(job)) - { - /* - * All sub jobs have now started for this job, remove this job from the job queue. - * The job will now only be referred to by the slots which are running it. - * The last slot to complete will make sure it is returned to user space. - */ - _mali_osk_list_del(&job->list); -#if MALI_PP_SCHEDULER_FORCE_NO_JOB_OVERLAP - MALI_DEBUG_PRINT(6, ("Mali PP scheduler: Skip scheduling more jobs when MALI_PP_SCHEDULER_FORCE_NO_JOB_OVERLAP is set.\n")); - return; -#endif - } - } - else - { - MALI_DEBUG_PRINT(3, ("Mali PP scheduler: Failed to start PP job\n")); - return; - } - } -} - -static void mali_pp_scheduler_return_job_to_user(struct mali_pp_job *job) -{ - if (MALI_FALSE == mali_pp_job_use_no_notification(job)) - { - _mali_osk_notification_t *notobj = _mali_osk_notification_create(_MALI_NOTIFICATION_PP_FINISHED, sizeof(_mali_uk_pp_job_finished_s)); - if (NULL != notobj) - { - u32 i; - u32 sub_jobs = mali_pp_job_get_sub_job_count(job); - mali_bool success = mali_pp_job_was_success(job); - - _mali_uk_pp_job_finished_s *jobres = notobj->result_buffer; - _mali_osk_memset(jobres, 0, sizeof(_mali_uk_pp_job_finished_s)); /* @@@@ can be removed once we initialize all members in this struct */ - jobres->user_job_ptr = mali_pp_job_get_user_id(job); - if (MALI_TRUE == success) - { - jobres->status = _MALI_UK_JOB_STATUS_END_SUCCESS; - } - else - { - jobres->status = _MALI_UK_JOB_STATUS_END_UNKNOWN_ERR; - } - - for (i = 0; i < sub_jobs; i++) - { - jobres->perf_counter0[i] = mali_pp_job_get_perf_counter_value0(job, i); - jobres->perf_counter1[i] = mali_pp_job_get_perf_counter_value1(job, i); - } - - mali_session_send_notification(mali_pp_job_get_session(job), notobj); - } - else - { - MALI_PRINT_ERROR(("Mali PP scheduler: Unable to allocate notification object\n")); - } - } - - mali_pp_job_delete(job); -} - -void mali_pp_scheduler_do_schedule(void) -{ - mali_pp_scheduler_lock(); - - mali_pp_scheduler_schedule(); - - mali_pp_scheduler_unlock(); -} - -void mali_pp_scheduler_job_done(struct mali_group *group, struct mali_pp_job *job, u32 sub_job, mali_bool success) -{ - u32 i; - mali_bool job_is_done; - - MALI_DEBUG_PRINT(3, ("Mali PP scheduler: Job %u (0x%08X) part %u/%u completed (%s)\n", mali_pp_job_get_id(job), job, sub_job + 1, mali_pp_job_get_sub_job_count(job), success ? "success" : "failure")); - - mali_pp_scheduler_lock(); - - /* Find slot which was running this job */ - for (i = 0; i < num_slots; i++) - { - if (slots[i].group == group) - { - MALI_DEBUG_ASSERT(MALI_PP_SLOT_STATE_WORKING == slots[i].state); - slots[i].state = MALI_PP_SLOT_STATE_IDLE; - slots[i].session = NULL; - num_slots_idle++; - mali_pp_job_mark_sub_job_completed(job, success); - } - } - - /* If paused, then this was the last job, so wake up sleeping workers */ - if (pause_count > 0) - { - /* Wake up sleeping workers. Their wake-up condition is that - * num_slots == num_slots_idle, so unless we are done working, no - * threads will actually be woken up. - */ - _mali_osk_wait_queue_wake_up(pp_scheduler_working_wait_queue); - } - else - { - mali_pp_scheduler_schedule(); - } - - job_is_done = mali_pp_job_is_complete(job); - - mali_pp_scheduler_unlock(); - - if (job_is_done) - { - /* Send notification back to user space */ - MALI_DEBUG_PRINT(4, ("Mali PP scheduler: All parts completed for job %u (0x%08X)\n", mali_pp_job_get_id(job), job)); - mali_pp_scheduler_return_job_to_user(job); - } -} - -void mali_pp_scheduler_suspend(void) -{ - mali_pp_scheduler_lock(); - pause_count++; /* Increment the pause_count so that no more jobs will be scheduled */ - mali_pp_scheduler_unlock(); - - /*mali_pp_scheduler_working_lock();*/ - /* We have now aquired the working lock, which means that we have successfully paused the scheduler */ - /*mali_pp_scheduler_working_unlock();*/ - - /* go to sleep. When woken up again (in mali_pp_scheduler_job_done), the - * mali_pp_scheduler_suspended() function will be called. This will return true - * iff state is idle and pause_count > 0, so if the core is active this - * will not do anything. - */ - _mali_osk_wait_queue_wait_event(pp_scheduler_working_wait_queue, mali_pp_scheduler_is_suspended); -} - -void mali_pp_scheduler_resume(void) -{ - mali_pp_scheduler_lock(); - pause_count--; /* Decrement pause_count to allow scheduling again (if it reaches 0) */ - if (0 == pause_count) - { - mali_pp_scheduler_schedule(); - } - mali_pp_scheduler_unlock(); -} - -_mali_osk_errcode_t _mali_ukk_pp_start_job(_mali_uk_pp_start_job_s *args) -{ - struct mali_session_data *session; - struct mali_pp_job *job; - - MALI_DEBUG_ASSERT_POINTER(args); - MALI_DEBUG_ASSERT_POINTER(args->ctx); - - session = (struct mali_session_data*)args->ctx; - - job = mali_pp_job_create(session, args, mali_scheduler_get_new_id()); - if (NULL == job) - { - return _MALI_OSK_ERR_NOMEM; - } - - if (_MALI_OSK_ERR_OK != mali_pp_job_check(job)) - { - /* Not a valid job, return to user immediately */ - mali_pp_job_mark_sub_job_completed(job, MALI_FALSE); /* Flagging the job as failed. */ - mali_pp_scheduler_return_job_to_user(job); /* This will also delete the job object */ - return _MALI_OSK_ERR_OK; /* User is notified via a notification, so this call is ok */ - } - -#if PROFILING_SKIP_PP_JOBS || PROFILING_SKIP_PP_AND_GP_JOBS -#warning PP jobs will not be executed - mali_pp_scheduler_return_job_to_user(job); - return _MALI_OSK_ERR_OK; -#endif - - mali_pp_scheduler_lock(); - - _mali_osk_list_addtail(&job->list, &job_queue); - - MALI_DEBUG_PRINT(3, ("Mali PP scheduler: Job %u (0x%08X) with %u parts queued\n", mali_pp_job_get_id(job), job, mali_pp_job_get_sub_job_count(job))); - - mali_pp_scheduler_schedule(); - - mali_pp_scheduler_unlock(); - - return _MALI_OSK_ERR_OK; -} - -_mali_osk_errcode_t _mali_ukk_get_pp_number_of_cores(_mali_uk_get_pp_number_of_cores_s *args) -{ - MALI_DEBUG_ASSERT_POINTER(args); - MALI_DEBUG_ASSERT_POINTER(args->ctx); - args->number_of_cores = num_slots; - return _MALI_OSK_ERR_OK; -} - -_mali_osk_errcode_t _mali_ukk_get_pp_core_version(_mali_uk_get_pp_core_version_s *args) -{ - MALI_DEBUG_ASSERT_POINTER(args); - MALI_DEBUG_ASSERT_POINTER(args->ctx); - args->version = pp_version; - return _MALI_OSK_ERR_OK; -} - -void _mali_ukk_pp_job_disable_wb(_mali_uk_pp_disable_wb_s *args) -{ - struct mali_session_data *session; - struct mali_pp_job *job; - struct mali_pp_job *tmp; - - MALI_DEBUG_ASSERT_POINTER(args); - MALI_DEBUG_ASSERT_POINTER(args->ctx); - - session = (struct mali_session_data*)args->ctx; - - mali_pp_scheduler_lock(); - - /* Check queue for jobs that match */ - _MALI_OSK_LIST_FOREACHENTRY(job, tmp, &job_queue, struct mali_pp_job, list) - { - if (mali_pp_job_get_session(job) == session && - mali_pp_job_get_frame_builder_id(job) == (u32)args->fb_id && - mali_pp_job_get_flush_id(job) == (u32)args->flush_id) - { - if (args->wbx & _MALI_UK_PP_JOB_WB0) - { - mali_pp_job_disable_wb0(job); - } - if (args->wbx & _MALI_UK_PP_JOB_WB1) - { - mali_pp_job_disable_wb1(job); - } - if (args->wbx & _MALI_UK_PP_JOB_WB2) - { - mali_pp_job_disable_wb2(job); - } - break; - } - } - - mali_pp_scheduler_unlock(); -} - -void mali_pp_scheduler_abort_session(struct mali_session_data *session) -{ - struct mali_pp_job *job, *tmp; - int i; - - mali_pp_scheduler_lock(); - MALI_DEBUG_PRINT(3, ("Mali PP scheduler: Aborting all jobs from session 0x%08x\n", session)); - - /* Check queue for jobs and remove */ - _MALI_OSK_LIST_FOREACHENTRY(job, tmp, &job_queue, struct mali_pp_job, list) - { - if (mali_pp_job_get_session(job) == session) - { - _mali_osk_list_del(&(job->list)); - - if ( mali_pp_job_is_currently_rendering_and_if_so_abort_new_starts(job) ) - { - /* The job is in the render pipeline, we can not delete it yet. */ - /* It will be deleted in the mali_group_abort_session() call below */ - MALI_DEBUG_PRINT(4, ("Mali PP scheduler: Keeping partially started PP job 0x%08x in queue\n", job)); - continue; - } - MALI_DEBUG_PRINT(4, ("Mali PP scheduler: Removing PP job 0x%08x from queue\n", job)); - mali_pp_job_delete(job); - } - } - - mali_pp_scheduler_unlock(); - - /* Abort running jobs from this session */ - for (i = 0; i < num_slots; i++) - { - struct mali_group *group = slots[i].group; - - MALI_DEBUG_PRINT(5, ("PP sched abort: Looking at group 0x%08x\n", group)); - - if (MALI_PP_SLOT_STATE_WORKING == slots[i].state) - { - MALI_DEBUG_PRINT(4, ("Mali PP scheduler: Aborting session 0x%08x from group 0x%08x\n", session, group)); - - mali_group_abort_session(group, session); - } - } -} - -static mali_bool mali_pp_scheduler_is_suspended(void) -{ - mali_bool ret; - - mali_pp_scheduler_lock(); - ret = pause_count > 0 && num_slots == num_slots_idle; - mali_pp_scheduler_unlock(); - - return ret; -} - -#if MALI_STATE_TRACKING -u32 mali_pp_scheduler_dump_state(char *buf, u32 size) -{ - int n = 0; - int i; - - n += _mali_osk_snprintf(buf + n, size - n, "PP:\n"); - n += _mali_osk_snprintf(buf + n, size - n, "\tQueue is %s\n", _mali_osk_list_empty(&job_queue) ? "empty" : "not empty"); - n += _mali_osk_snprintf(buf + n, size - n, "\n"); - - for (i = 0; i < num_slots; i++) - { - n += mali_group_dump_state(slots[i].group, buf + n, size - n); - n += _mali_osk_snprintf(buf + n, size - n, "\t\tState: %d\n", slots[i].state); - } - - return n; -} -#endif diff --git a/drivers/media/video/samsung/mali/common/mali_pp_scheduler.h b/drivers/media/video/samsung/mali/common/mali_pp_scheduler.h deleted file mode 100644 index 48eb3bd..0000000 --- a/drivers/media/video/samsung/mali/common/mali_pp_scheduler.h +++ /dev/null @@ -1,38 +0,0 @@ -/* - * Copyright (C) 2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_PP_SCHEDULER_H__ -#define __MALI_PP_SCHEDULER_H__ - -#include "mali_osk.h" -#include "mali_cluster.h" -#include "mali_pp_job.h" - -_mali_osk_errcode_t mali_pp_scheduler_initialize(void); -void mali_pp_scheduler_terminate(void); - -void mali_pp_scheduler_do_schedule(void); -void mali_pp_scheduler_job_done(struct mali_group *group, struct mali_pp_job *job, u32 sub_job, mali_bool success); - -void mali_pp_scheduler_suspend(void); -void mali_pp_scheduler_resume(void); - -/** @brief Abort all PP jobs from session running or queued - * - * This functions aborts all PP jobs from the specified session. Queued jobs are removed from the queue and jobs - * currently running on a core will be aborted. - * - * @param session Pointer to session whose jobs should be aborted - */ -void mali_pp_scheduler_abort_session(struct mali_session_data *session); - -u32 mali_pp_scheduler_dump_state(char *buf, u32 size); - -#endif /* __MALI_PP_SCHEDULER_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_scheduler.c b/drivers/media/video/samsung/mali/common/mali_scheduler.c deleted file mode 100644 index f360209..0000000 --- a/drivers/media/video/samsung/mali/common/mali_scheduler.c +++ /dev/null @@ -1,37 +0,0 @@ -/* - * Copyright (C) 2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_kernel_common.h" -#include "mali_osk.h" - -static _mali_osk_atomic_t mali_job_autonumber; - -_mali_osk_errcode_t mali_scheduler_initialize(void) -{ - if ( _MALI_OSK_ERR_OK != _mali_osk_atomic_init(&mali_job_autonumber, 0)) - { - MALI_DEBUG_PRINT(1, ("Initialization of atomic job id counter failed.\n")); - return _MALI_OSK_ERR_FAULT; - } - - return _MALI_OSK_ERR_OK; -} - -void mali_scheduler_terminate(void) -{ - _mali_osk_atomic_term(&mali_job_autonumber); -} - -u32 mali_scheduler_get_new_id(void) -{ - u32 job_id = _mali_osk_atomic_inc_return(&mali_job_autonumber); - return job_id; -} - diff --git a/drivers/media/video/samsung/mali/common/mali_scheduler.h b/drivers/media/video/samsung/mali/common/mali_scheduler.h deleted file mode 100644 index 74f0947..0000000 --- a/drivers/media/video/samsung/mali/common/mali_scheduler.h +++ /dev/null @@ -1,21 +0,0 @@ -/* - * Copyright (C) 2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_SCHEDULER_H__ -#define __MALI_SCHEDULER_H__ - -#include "mali_osk.h" - -_mali_osk_errcode_t mali_scheduler_initialize(void); -void mali_scheduler_terminate(void); - -u32 mali_scheduler_get_new_id(void); - -#endif /* __MALI_SCHEDULER_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_session.c b/drivers/media/video/samsung/mali/common/mali_session.c deleted file mode 100644 index 2394bb9..0000000 --- a/drivers/media/video/samsung/mali/common/mali_session.c +++ /dev/null @@ -1,47 +0,0 @@ -/* - * Copyright (C) 2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_osk.h" -#include "mali_osk_list.h" -#include "mali_session.h" - -_MALI_OSK_LIST_HEAD(mali_sessions); - -_mali_osk_lock_t *mali_sessions_lock; - -_mali_osk_errcode_t mali_session_initialize(void) -{ - _MALI_OSK_INIT_LIST_HEAD(&mali_sessions); - - mali_sessions_lock = _mali_osk_lock_init(_MALI_OSK_LOCKFLAG_READERWRITER | _MALI_OSK_LOCKFLAG_ORDERED, 0, _MALI_OSK_LOCK_ORDER_SESSIONS); - - if (NULL == mali_sessions_lock) return _MALI_OSK_ERR_NOMEM; - - return _MALI_OSK_ERR_OK; -} - -void mali_session_terminate(void) -{ - _mali_osk_lock_term(mali_sessions_lock); -} - -void mali_session_add(struct mali_session_data *session) -{ - mali_session_lock(); - _mali_osk_list_add(&session->link, &mali_sessions); - mali_session_unlock(); -} - -void mali_session_remove(struct mali_session_data *session) -{ - mali_session_lock(); - _mali_osk_list_delinit(&session->link); - mali_session_unlock(); -} diff --git a/drivers/media/video/samsung/mali/common/mali_session.h b/drivers/media/video/samsung/mali/common/mali_session.h deleted file mode 100644 index c8640b5..0000000 --- a/drivers/media/video/samsung/mali/common/mali_session.h +++ /dev/null @@ -1,65 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_SESSION_H__ -#define __MALI_SESSION_H__ - -#include "mali_mmu_page_directory.h" -#include "mali_kernel_descriptor_mapping.h" -#include "mali_osk.h" -#include "mali_osk_list.h" - -struct mali_session_data -{ - _mali_osk_notification_queue_t * ioctl_queue; - - _mali_osk_lock_t *memory_lock; /**< Lock protecting the vm manipulation */ - mali_descriptor_mapping * descriptor_mapping; /**< Mapping between userspace descriptors and our pointers */ - _mali_osk_list_t memory_head; /**< Track all the memory allocated in this session, for freeing on abnormal termination */ - - struct mali_page_directory *page_directory; /**< MMU page directory for this session */ - - _MALI_OSK_LIST_HEAD(link); /**< Link for list of all sessions */ -}; - -_mali_osk_errcode_t mali_session_initialize(void); -void mali_session_terminate(void); - -/* List of all sessions. Actual list head in mali_kernel_core.c */ -extern _mali_osk_list_t mali_sessions; -/* Lock to protect modification and access to the mali_sessions list */ -extern _mali_osk_lock_t *mali_sessions_lock; - -MALI_STATIC_INLINE void mali_session_lock(void) -{ - _mali_osk_lock_wait(mali_sessions_lock, _MALI_OSK_LOCKMODE_RW); -} - -MALI_STATIC_INLINE void mali_session_unlock(void) -{ - _mali_osk_lock_signal(mali_sessions_lock, _MALI_OSK_LOCKMODE_RW); -} - -void mali_session_add(struct mali_session_data *session); -void mali_session_remove(struct mali_session_data *session); -#define MALI_SESSION_FOREACH(session, tmp, link) \ - _MALI_OSK_LIST_FOREACHENTRY(session, tmp, &mali_sessions, struct mali_session_data, link) - -MALI_STATIC_INLINE struct mali_page_directory *mali_session_get_page_directory(struct mali_session_data *session) -{ - return session->page_directory; -} - -MALI_STATIC_INLINE void mali_session_send_notification(struct mali_session_data *session, _mali_osk_notification_t *object) -{ - _mali_osk_notification_queue_send(session->ioctl_queue, object); -} - -#endif /* __MALI_SESSION_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_ukk.h b/drivers/media/video/samsung/mali/common/mali_ukk.h deleted file mode 100644 index 6b018d0..0000000 --- a/drivers/media/video/samsung/mali/common/mali_ukk.h +++ /dev/null @@ -1,612 +0,0 @@ -/* - * Copyright (C) 2010-2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -/** - * @file mali_ukk.h - * Defines the kernel-side interface of the user-kernel interface - */ - -#ifndef __MALI_UKK_H__ -#define __MALI_UKK_H__ - -#include "mali_osk.h" -#include "mali_uk_types.h" - -#ifdef __cplusplus -extern "C" -{ -#endif - -/** - * @addtogroup uddapi Unified Device Driver (UDD) APIs - * - * @{ - */ - -/** - * @addtogroup u_k_api UDD User/Kernel Interface (U/K) APIs - * - * - The _mali_uk functions are an abstraction of the interface to the device - * driver. On certain OSs, this would be implemented via the IOCTL interface. - * On other OSs, it could be via extension of some Device Driver Class, or - * direct function call for Bare metal/RTOSs. - * - It is important to note that: - * - The Device Driver has implemented the _mali_ukk set of functions - * - The Base Driver calls the corresponding set of _mali_uku functions. - * - What requires porting is solely the calling mechanism from User-side to - * Kernel-side, and propagating back the results. - * - Each U/K function is associated with a (group, number) pair from - * \ref _mali_uk_functions to make it possible for a common function in the - * Base Driver and Device Driver to route User/Kernel calls from/to the - * correct _mali_uk function. For example, in an IOCTL system, the IOCTL number - * would be formed based on the group and number assigned to the _mali_uk - * function, as listed in \ref _mali_uk_functions. On the user-side, each - * _mali_uku function would just make an IOCTL with the IOCTL-code being an - * encoded form of the (group, number) pair. On the kernel-side, the Device - * Driver's IOCTL handler decodes the IOCTL-code back into a (group, number) - * pair, and uses this to determine which corresponding _mali_ukk should be - * called. - * - Refer to \ref _mali_uk_functions for more information about this - * (group, number) pairing. - * - In a system where there is no distinction between user and kernel-side, - * the U/K interface may be implemented as:@code - * MALI_STATIC_INLINE _mali_osk_errcode_t _mali_uku_examplefunction( _mali_uk_examplefunction_s *args ) - * { - * return mali_ukk_examplefunction( args ); - * } - * @endcode - * - Therefore, all U/K calls behave \em as \em though they were direct - * function calls (but the \b implementation \em need \em not be a direct - * function calls) - * - * @note Naming the _mali_uk functions the same on both User and Kernel sides - * on non-RTOS systems causes debugging issues when setting breakpoints. In - * this case, it is not clear which function the breakpoint is put on. - * Therefore the _mali_uk functions in user space are prefixed with \c _mali_uku - * and in kernel space with \c _mali_ukk. The naming for the argument - * structures is unaffected. - * - * - The _mali_uk functions are synchronous. - * - Arguments to the _mali_uk functions are passed in a structure. The only - * parameter passed to the _mali_uk functions is a pointer to this structure. - * This first member of this structure, ctx, is a pointer to a context returned - * by _mali_uku_open(). For example:@code - * typedef struct - * { - * void *ctx; - * u32 number_of_cores; - * } _mali_uk_get_gp_number_of_cores_s; - * @endcode - * - * - Each _mali_uk function has its own argument structure named after the - * function. The argument is distinguished by the _s suffix. - * - The argument types are defined by the base driver and user-kernel - * interface. - * - All _mali_uk functions return a standard \ref _mali_osk_errcode_t. - * - Only arguments of type input or input/output need be initialized before - * calling a _mali_uk function. - * - Arguments of type output and input/output are only valid when the - * _mali_uk function returns \ref _MALI_OSK_ERR_OK. - * - The \c ctx member is always invalid after it has been used by a - * _mali_uk function, except for the context management functions - * - * - * \b Interface \b restrictions - * - * The requirements of the interface mean that an implementation of the - * User-kernel interface may do no 'real' work. For example, the following are - * illegal in the User-kernel implementation: - * - Calling functions necessary for operation on all systems, which would - * not otherwise get called on RTOS systems. - * - For example, a U/K interface that calls multiple _mali_ukk functions - * during one particular U/K call. This could not be achieved by the same code - * which uses direct function calls for the U/K interface. - * - Writing in values to the args members, when otherwise these members would - * not hold a useful value for a direct function call U/K interface. - * - For example, U/K interface implementation that take NULL members in - * their arguments structure from the user side, but those members are - * replaced with non-NULL values in the kernel-side of the U/K interface - * implementation. A scratch area for writing data is one such example. In this - * case, a direct function call U/K interface would segfault, because no code - * would be present to replace the NULL pointer with a meaningful pointer. - * - Note that we discourage the case where the U/K implementation changes - * a NULL argument member to non-NULL, and then the Device Driver code (outside - * of the U/K layer) re-checks this member for NULL, and corrects it when - * necessary. Whilst such code works even on direct function call U/K - * intefaces, it reduces the testing coverage of the Device Driver code. This - * is because we have no way of testing the NULL == value path on an OS - * implementation. - * - * A number of allowable examples exist where U/K interfaces do 'real' work: - * - The 'pointer switching' technique for \ref _mali_ukk_get_system_info - * - In this case, without the pointer switching on direct function call - * U/K interface, the Device Driver code still sees the same thing: a pointer - * to which it can write memory. This is because such a system has no - * distinction between a user and kernel pointer. - * - Writing an OS-specific value into the ukk_private member for - * _mali_ukk_mem_mmap(). - * - In this case, this value is passed around by Device Driver code, but - * its actual value is never checked. Device Driver code simply passes it from - * the U/K layer to the OSK layer, where it can be acted upon. In this case, - * \em some OS implementations of the U/K (_mali_ukk_mem_mmap()) and OSK - * (_mali_osk_mem_mapregion_init()) functions will collaborate on the - * meaning of ukk_private member. On other OSs, it may be unused by both - * U/K and OSK layers - * - Therefore, on error inside the U/K interface implementation itself, - * it will be as though the _mali_ukk function itself had failed, and cleaned - * up after itself. - * - Compare this to a direct function call U/K implementation, where all - * error cleanup is handled by the _mali_ukk function itself. The direct - * function call U/K interface implementation is automatically atomic. - * - * The last example highlights a consequence of all U/K interface - * implementations: they must be atomic with respect to the Device Driver code. - * And therefore, should Device Driver code succeed but the U/K implementation - * fail afterwards (but before return to user-space), then the U/K - * implementation must cause appropriate cleanup actions to preserve the - * atomicity of the interface. - * - * @{ - */ - - -/** @defgroup _mali_uk_context U/K Context management - * - * These functions allow for initialisation of the user-kernel interface once per process. - * - * Generally the context will store the OS specific object to communicate with the kernel device driver and further - * state information required by the specific implementation. The context is shareable among all threads in the caller process. - * - * On IOCTL systems, this is likely to be a file descriptor as a result of opening the kernel device driver. - * - * On a bare-metal/RTOS system with no distinction between kernel and - * user-space, the U/K interface simply calls the _mali_ukk variant of the - * function by direct function call. In this case, the context returned is the - * mali_session_data from _mali_ukk_open(). - * - * The kernel side implementations of the U/K interface expect the first member of the argument structure to - * be the context created by _mali_uku_open(). On some OS implementations, the meaning of this context - * will be different between user-side and kernel-side. In which case, the kernel-side will need to replace this context - * with the kernel-side equivalent, because user-side will not have access to kernel-side data. The context parameter - * in the argument structure therefore has to be of type input/output. - * - * It should be noted that the caller cannot reuse the \c ctx member of U/K - * argument structure after a U/K call, because it may be overwritten. Instead, - * the context handle must always be stored elsewhere, and copied into - * the appropriate U/K argument structure for each user-side call to - * the U/K interface. This is not usually a problem, since U/K argument - * structures are usually placed on the stack. - * - * @{ */ - -/** @brief Begin a new Mali Device Driver session - * - * This is used to obtain a per-process context handle for all future U/K calls. - * - * @param context pointer to storage to return a (void*)context handle. - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_open( void **context ); - -/** @brief End a Mali Device Driver session - * - * This should be called when the process no longer requires use of the Mali Device Driver. - * - * The context handle must not be used after it has been closed. - * - * @param context pointer to a stored (void*)context handle. - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_close( void **context ); - -/** @} */ /* end group _mali_uk_context */ - - -/** @addtogroup _mali_uk_core U/K Core - * - * The core functions provide the following functionality: - * - verify that the user and kernel API are compatible - * - retrieve information about the cores and memory banks in the system - * - wait for the result of jobs started on a core - * - * @{ */ - -/** @brief Waits for a job notification. - * - * Sleeps until notified or a timeout occurs. Returns information about the notification. - * - * @param args see _mali_uk_wait_for_notification_s in "mali_utgard_uk_types.h" - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_wait_for_notification( _mali_uk_wait_for_notification_s *args ); - -/** @brief Post a notification to the notification queue of this application. - * - * @param args see _mali_uk_post_notification_s in "mali_utgard_uk_types.h" - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_post_notification( _mali_uk_post_notification_s *args ); - -/** @brief Verifies if the user and kernel side of this API are compatible. - * - * @param args see _mali_uk_get_api_version_s in "mali_utgard_uk_types.h" - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_get_api_version( _mali_uk_get_api_version_s *args ); - -/** @brief Get the user space settings applicable for calling process. - * - * @param args see _mali_uk_get_user_settings_s in "mali_utgard_uk_types.h" - */ -_mali_osk_errcode_t _mali_ukk_get_user_settings(_mali_uk_get_user_settings_s *args); - -/** @brief Get a user space setting applicable for calling process. - * - * @param args see _mali_uk_get_user_setting_s in "mali_utgard_uk_types.h" - */ -_mali_osk_errcode_t _mali_ukk_get_user_setting(_mali_uk_get_user_setting_s *args); - -/** @} */ /* end group _mali_uk_core */ - - -/** @addtogroup _mali_uk_memory U/K Memory - * - * The memory functions provide functionality with and without a Mali-MMU present. - * - * For Mali-MMU based systems, the following functionality is provided: - * - Initialize and terminate MALI virtual address space - * - Allocate/deallocate physical memory to a MALI virtual address range and map into/unmap from the - * current process address space - * - Map/unmap external physical memory into the MALI virtual address range - * - * For Mali-nonMMU based systems: - * - Allocate/deallocate MALI memory - * - * @{ */ - -/** - * @brief Initialize the Mali-MMU Memory system - * - * For Mali-MMU builds of the drivers, this function must be called before any - * other functions in the \ref _mali_uk_memory group are called. - * - * @note This function is for Mali-MMU builds \b only. It should not be called - * when the drivers are built without Mali-MMU support. - * - * @param args see \ref _mali_uk_init_mem_s in mali_utgard_uk_types.h - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable - * _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_init_mem( _mali_uk_init_mem_s *args ); - -/** - * @brief Terminate the MMU Memory system - * - * For Mali-MMU builds of the drivers, this function must be called when - * functions in the \ref _mali_uk_memory group will no longer be called. This - * function must be called before the application terminates. - * - * @note This function is for Mali-MMU builds \b only. It should not be called - * when the drivers are built without Mali-MMU support. - * - * @param args see \ref _mali_uk_term_mem_s in mali_utgard_uk_types.h - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable - * _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_term_mem( _mali_uk_term_mem_s *args ); - -/** @brief Map Mali Memory into the current user process - * - * Maps Mali memory into the current user process in a generic way. - * - * This function is to be used for Mali-MMU mode. The function is available in both Mali-MMU and Mali-nonMMU modes, - * but should not be called by a user process in Mali-nonMMU mode. - * - * The implementation and operation of _mali_ukk_mem_mmap() is dependant on whether the driver is built for Mali-MMU - * or Mali-nonMMU: - * - In the nonMMU case, _mali_ukk_mem_mmap() requires a physical address to be specified. For this reason, an OS U/K - * implementation should not allow this to be called from user-space. In any case, nonMMU implementations are - * inherently insecure, and so the overall impact is minimal. Mali-MMU mode should be used if security is desired. - * - In the MMU case, _mali_ukk_mem_mmap() the _mali_uk_mem_mmap_s::phys_addr - * member is used for the \em Mali-virtual address desired for the mapping. The - * implementation of _mali_ukk_mem_mmap() will allocate both the CPU-virtual - * and CPU-physical addresses, and can cope with mapping a contiguous virtual - * address range to a sequence of non-contiguous physical pages. In this case, - * the CPU-physical addresses are not communicated back to the user-side, as - * they are unnecsessary; the \em Mali-virtual address range must be used for - * programming Mali structures. - * - * In the second (MMU) case, _mali_ukk_mem_mmap() handles management of - * CPU-virtual and CPU-physical ranges, but the \em caller must manage the - * \em Mali-virtual address range from the user-side. - * - * @note Mali-virtual address ranges are entirely separate between processes. - * It is not possible for a process to accidentally corrupt another process' - * \em Mali-virtual address space. - * - * @param args see _mali_uk_mem_mmap_s in "mali_utgard_uk_types.h" - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_mem_mmap( _mali_uk_mem_mmap_s *args ); - -/** @brief Unmap Mali Memory from the current user process - * - * Unmaps Mali memory from the current user process in a generic way. This only operates on Mali memory supplied - * from _mali_ukk_mem_mmap(). - * - * @param args see _mali_uk_mem_munmap_s in "mali_utgard_uk_types.h" - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_mem_munmap( _mali_uk_mem_munmap_s *args ); - -/** @brief Determine the buffer size necessary for an MMU page table dump. - * @param args see _mali_uk_query_mmu_page_table_dump_size_s in mali_utgard_uk_types.h - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_query_mmu_page_table_dump_size( _mali_uk_query_mmu_page_table_dump_size_s *args ); -/** @brief Dump MMU Page tables. - * @param args see _mali_uk_dump_mmu_page_table_s in mali_utgard_uk_types.h - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_dump_mmu_page_table( _mali_uk_dump_mmu_page_table_s * args ); - -/** @brief Map a physically contiguous range of memory into Mali - * @param args see _mali_uk_map_external_mem_s in mali_utgard_uk_types.h - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_map_external_mem( _mali_uk_map_external_mem_s *args ); - -/** @brief Unmap a physically contiguous range of memory from Mali - * @param args see _mali_uk_unmap_external_mem_s in mali_utgard_uk_types.h - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_unmap_external_mem( _mali_uk_unmap_external_mem_s *args ); - -#if MALI_USE_UNIFIED_MEMORY_PROVIDER != 0 -/** @brief Map UMP memory into Mali - * @param args see _mali_uk_attach_ump_mem_s in mali_utgard_uk_types.h - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_attach_ump_mem( _mali_uk_attach_ump_mem_s *args ); -/** @brief Unmap UMP memory from Mali - * @param args see _mali_uk_release_ump_mem_s in mali_utgard_uk_types.h - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_release_ump_mem( _mali_uk_release_ump_mem_s *args ); -#endif /* MALI_USE_UNIFIED_MEMORY_PROVIDER */ - -/** @brief Determine virtual-to-physical mapping of a contiguous memory range - * (optional) - * - * This allows the user-side to do a virtual-to-physical address translation. - * In conjunction with _mali_uku_map_external_mem, this can be used to do - * direct rendering. - * - * This function will only succeed on a virtual range that is mapped into the - * current process, and that is contigious. - * - * If va is not page-aligned, then it is rounded down to the next page - * boundary. The remainer is added to size, such that ((u32)va)+size before - * rounding is equal to ((u32)va)+size after rounding. The rounded modified - * va and size will be written out into args on success. - * - * If the supplied size is zero, or not a multiple of the system's PAGE_SIZE, - * then size will be rounded up to the next multiple of PAGE_SIZE before - * translation occurs. The rounded up size will be written out into args on - * success. - * - * On most OSs, virtual-to-physical address translation is a priveledged - * function. Therefore, the implementer must validate the range supplied, to - * ensure they are not providing arbitrary virtual-to-physical address - * translations. While it is unlikely such a mechanism could be used to - * compromise the security of a system on its own, it is possible it could be - * combined with another small security risk to cause a much larger security - * risk. - * - * @note This is an optional part of the interface, and is only used by certain - * implementations of libEGL. If the platform layer in your libEGL - * implementation does not require Virtual-to-Physical address translation, - * then this function need not be implemented. A stub implementation should not - * be required either, as it would only be removed by the compiler's dead code - * elimination. - * - * @note if implemented, this function is entirely platform-dependant, and does - * not exist in common code. - * - * @param args see _mali_uk_va_to_mali_pa_s in "mali_utgard_uk_types.h" - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_va_to_mali_pa( _mali_uk_va_to_mali_pa_s * args ); - -/** @} */ /* end group _mali_uk_memory */ - - -/** @addtogroup _mali_uk_pp U/K Fragment Processor - * - * The Fragment Processor (aka PP (Pixel Processor)) functions provide the following functionality: - * - retrieving version of the fragment processors - * - determine number of fragment processors - * - starting a job on a fragment processor - * - * @{ */ - -/** @brief Issue a request to start a new job on a Fragment Processor. - * - * If the request fails args->status is set to _MALI_UK_START_JOB_NOT_STARTED_DO_REQUEUE and you can - * try to start the job again. - * - * An existing job could be returned for requeueing if the new job has a higher priority than a previously started job - * which the hardware hasn't actually started processing yet. In this case the new job will be started instead and the - * existing one returned, otherwise the new job is started and the status field args->status is set to - * _MALI_UK_START_JOB_STARTED. - * - * Job completion can be awaited with _mali_ukk_wait_for_notification(). - * - * @param args see _mali_uk_pp_start_job_s in "mali_utgard_uk_types.h" - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_pp_start_job( _mali_uk_pp_start_job_s *args ); - -/** @brief Returns the number of Fragment Processors in the system - * - * @param args see _mali_uk_get_pp_number_of_cores_s in "mali_utgard_uk_types.h" - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_get_pp_number_of_cores( _mali_uk_get_pp_number_of_cores_s *args ); - -/** @brief Returns the version that all Fragment Processor cores are compatible with. - * - * This function may only be called when _mali_ukk_get_pp_number_of_cores() indicated at least one Fragment - * Processor core is available. - * - * @param args see _mali_uk_get_pp_core_version_s in "mali_utgard_uk_types.h" - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_get_pp_core_version( _mali_uk_get_pp_core_version_s *args ); - -/** @brief Disable Write-back unit(s) on specified job - * - * @param args see _mali_uk_get_pp_core_version_s in "mali_utgard_uk_types.h" - */ -void _mali_ukk_pp_job_disable_wb(_mali_uk_pp_disable_wb_s *args); - - -/** @} */ /* end group _mali_uk_pp */ - - -/** @addtogroup _mali_uk_gp U/K Vertex Processor - * - * The Vertex Processor (aka GP (Geometry Processor)) functions provide the following functionality: - * - retrieving version of the Vertex Processors - * - determine number of Vertex Processors available - * - starting a job on a Vertex Processor - * - * @{ */ - -/** @brief Issue a request to start a new job on a Vertex Processor. - * - * If the request fails args->status is set to _MALI_UK_START_JOB_NOT_STARTED_DO_REQUEUE and you can - * try to start the job again. - * - * An existing job could be returned for requeueing if the new job has a higher priority than a previously started job - * which the hardware hasn't actually started processing yet. In this case the new job will be started and the - * existing one returned, otherwise the new job is started and the status field args->status is set to - * _MALI_UK_START_JOB_STARTED. - * - * Job completion can be awaited with _mali_ukk_wait_for_notification(). - * - * @param args see _mali_uk_gp_start_job_s in "mali_utgard_uk_types.h" - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_gp_start_job( _mali_uk_gp_start_job_s *args ); - -/** @brief Returns the number of Vertex Processors in the system. - * - * @param args see _mali_uk_get_gp_number_of_cores_s in "mali_utgard_uk_types.h" - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_get_gp_number_of_cores( _mali_uk_get_gp_number_of_cores_s *args ); - -/** @brief Returns the version that all Vertex Processor cores are compatible with. - * - * This function may only be called when _mali_uk_get_gp_number_of_cores() indicated at least one Vertex - * Processor core is available. - * - * @param args see _mali_uk_get_gp_core_version_s in "mali_utgard_uk_types.h" - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_get_gp_core_version( _mali_uk_get_gp_core_version_s *args ); - -/** @brief Resume or abort suspended Vertex Processor jobs. - * - * After receiving notification that a Vertex Processor job was suspended from - * _mali_ukk_wait_for_notification() you can use this function to resume or abort the job. - * - * @param args see _mali_uk_gp_suspend_response_s in "mali_utgard_uk_types.h" - * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure. - */ -_mali_osk_errcode_t _mali_ukk_gp_suspend_response( _mali_uk_gp_suspend_response_s *args ); - -/** @} */ /* end group _mali_uk_gp */ - -#if MALI_TIMELINE_PROFILING_ENABLED -/** @addtogroup _mali_uk_profiling U/K Timeline profiling module - * @{ */ - -/** @brief Start recording profiling events. - * - * @param args see _mali_uk_profiling_start_s in "mali_utgard_uk_types.h" - */ -_mali_osk_errcode_t _mali_ukk_profiling_start(_mali_uk_profiling_start_s *args); - -/** @brief Add event to profiling buffer. - * - * @param args see _mali_uk_profiling_add_event_s in "mali_utgard_uk_types.h" - */ -_mali_osk_errcode_t _mali_ukk_profiling_add_event(_mali_uk_profiling_add_event_s *args); - -/** @brief Stop recording profiling events. - * - * @param args see _mali_uk_profiling_stop_s in "mali_utgard_uk_types.h" - */ -_mali_osk_errcode_t _mali_ukk_profiling_stop(_mali_uk_profiling_stop_s *args); - -/** @brief Retrieve a recorded profiling event. - * - * @param args see _mali_uk_profiling_get_event_s in "mali_utgard_uk_types.h" - */ -_mali_osk_errcode_t _mali_ukk_profiling_get_event(_mali_uk_profiling_get_event_s *args); - -/** @brief Clear recorded profiling events. - * - * @param args see _mali_uk_profiling_clear_s in "mali_utgard_uk_types.h" - */ -_mali_osk_errcode_t _mali_ukk_profiling_clear(_mali_uk_profiling_clear_s *args); - -/** @} */ /* end group _mali_uk_profiling */ -#endif - -/** @addtogroup _mali_uk_vsync U/K VSYNC reporting module - * @{ */ - -/** @brief Report events related to vsync. - * - * @note Events should be reported when starting to wait for vsync and when the - * waiting is finished. This information can then be used in kernel space to - * complement the GPU utilization metric. - * - * @param args see _mali_uk_vsync_event_report_s in "mali_utgard_uk_types.h" - */ -_mali_osk_errcode_t _mali_ukk_vsync_event_report(_mali_uk_vsync_event_report_s *args); - -/** @} */ /* end group _mali_uk_vsync */ - -/** @addtogroup _mali_sw_counters_report U/K Software counter reporting - * @{ */ - -/** @brief Report software counters. - * - * @param args see _mali_uk_sw_counters_report_s in "mali_uk_types.h" - */ -_mali_osk_errcode_t _mali_ukk_sw_counters_report(_mali_uk_sw_counters_report_s *args); - -/** @} */ /* end group _mali_sw_counters_report */ - -/** @} */ /* end group u_k_api */ - -/** @} */ /* end group uddapi */ - -u32 _mali_ukk_report_memory_usage(void); - -#ifdef __cplusplus -} -#endif - -#endif /* __MALI_UKK_H__ */ diff --git a/drivers/media/video/samsung/mali/common/mali_user_settings_db.c b/drivers/media/video/samsung/mali/common/mali_user_settings_db.c deleted file mode 100644 index d3f1e50..0000000 --- a/drivers/media/video/samsung/mali/common/mali_user_settings_db.c +++ /dev/null @@ -1,88 +0,0 @@ -/** - * Copyright (C) 2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include "mali_osk.h" -#include "mali_kernel_common.h" -#include "mali_uk_types.h" -#include "mali_user_settings_db.h" -#include "mali_session.h" - -static u32 mali_user_settings[_MALI_UK_USER_SETTING_MAX]; -const char *_mali_uk_user_setting_descriptions[] = _MALI_UK_USER_SETTING_DESCRIPTIONS; - -static void mali_user_settings_notify(_mali_uk_user_setting_t setting, u32 value) -{ - struct mali_session_data *session, *tmp; - - mali_session_lock(); - MALI_SESSION_FOREACH(session, tmp, link) - { - _mali_osk_notification_t *notobj = _mali_osk_notification_create(_MALI_NOTIFICATION_SETTINGS_CHANGED, sizeof(_mali_uk_settings_changed_s)); - _mali_uk_settings_changed_s *data = notobj->result_buffer; - data->setting = setting; - data->value = value; - - mali_session_send_notification(session, notobj); - } - mali_session_unlock(); -} - -void mali_set_user_setting(_mali_uk_user_setting_t setting, u32 value) -{ - mali_bool notify = MALI_FALSE; - - MALI_DEBUG_ASSERT(setting < _MALI_UK_USER_SETTING_MAX && setting >= 0); - - if (mali_user_settings[setting] != value) - { - notify = MALI_TRUE; - } - - mali_user_settings[setting] = value; - - if (notify) - { - mali_user_settings_notify(setting, value); - } -} - -u32 mali_get_user_setting(_mali_uk_user_setting_t setting) -{ - MALI_DEBUG_ASSERT(setting < _MALI_UK_USER_SETTING_MAX && setting >= 0); - - return mali_user_settings[setting]; -} - -_mali_osk_errcode_t _mali_ukk_get_user_setting(_mali_uk_get_user_setting_s *args) -{ - _mali_uk_user_setting_t setting; - MALI_DEBUG_ASSERT_POINTER(args); - - setting = args->setting; - - if (0 <= setting && _MALI_UK_USER_SETTING_MAX > setting) - { - args->value = mali_user_settings[setting]; - return _MALI_OSK_ERR_OK; - } - else - { - return _MALI_OSK_ERR_INVALID_ARGS; - } -} - -_mali_osk_errcode_t _mali_ukk_get_user_settings(_mali_uk_get_user_settings_s *args) -{ - MALI_DEBUG_ASSERT_POINTER(args); - - _mali_osk_memcpy(args->settings, mali_user_settings, sizeof(mali_user_settings)); - - return _MALI_OSK_ERR_OK; -} diff --git a/drivers/media/video/samsung/mali/common/mali_user_settings_db.h b/drivers/media/video/samsung/mali/common/mali_user_settings_db.h deleted file mode 100644 index fbb9415..0000000 --- a/drivers/media/video/samsung/mali/common/mali_user_settings_db.h +++ /dev/null @@ -1,40 +0,0 @@ -/** - * Copyright (C) 2012 ARM Limited. All rights reserved. - * - * This program is free software and is provided to you under the terms of the GNU General Public License version 2 - * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. - * - * A copy of the licence is included with the program, and can also be obtained from Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#ifndef __MALI_USER_SETTINGS_DB_H__ -#define __MALI_USER_SETTINGS_DB_H__ - -#ifdef __cplusplus -extern "C" -{ -#endif - -#include "mali_uk_types.h" - -/** @brief Set Mali user setting in DB - * - * Update the DB with a new value for \a setting. If the value is different from theprevious set value running sessions will be notified of the change. - * - * @param setting the setting to be changed - * @param value the new value to set - */ -void mali_set_user_setting(_mali_uk_user_setting_t setting, u32 value); - -/** @brief Get current Mali user setting value from DB - * - * @param setting the setting to extract - * @return the value of the selected setting - */ -u32 mali_get_user_setting(_mali_uk_user_setting_t setting); - -#ifdef __cplusplus -} -#endif -#endif /* __MALI_KERNEL_USER_SETTING__ */ |