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/*
* 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_osk.h"
#include "mali_osk_list.h"
#include "ump_osk.h"
#include "ump_uk_types.h"
#include "ump_kernel_interface_ref_drv.h"
#include "ump_kernel_common.h"
#include "ump_kernel_descriptor_mapping.h"
#define UMP_MINIMUM_SIZE 4096
#define UMP_MINIMUM_SIZE_MASK (~(UMP_MINIMUM_SIZE-1))
#define UMP_SIZE_ALIGN(x) (((x)+UMP_MINIMUM_SIZE-1)&UMP_MINIMUM_SIZE_MASK)
#define UMP_ADDR_ALIGN_OFFSET(x) ((x)&(UMP_MINIMUM_SIZE-1))
static void phys_blocks_release(void * ctx, struct ump_dd_mem * descriptor);
UMP_KERNEL_API_EXPORT ump_dd_handle ump_dd_handle_create_from_phys_blocks(ump_dd_physical_block * blocks, unsigned long num_blocks)
{
ump_dd_mem * mem;
unsigned long size_total = 0;
int map_id;
u32 i;
/* Go through the input blocks and verify that they are sane */
for (i=0; i < num_blocks; i++)
{
unsigned long addr = blocks[i].addr;
unsigned long size = blocks[i].size;
DBG_MSG(5, ("Adding physical memory to new handle. Address: 0x%08lx, size: %lu\n", addr, size));
size_total += blocks[i].size;
if (0 != UMP_ADDR_ALIGN_OFFSET(addr))
{
MSG_ERR(("Trying to create UMP memory from unaligned physical address. Address: 0x%08lx\n", addr));
return UMP_DD_HANDLE_INVALID;
}
if (0 != UMP_ADDR_ALIGN_OFFSET(size))
{
MSG_ERR(("Trying to create UMP memory with unaligned size. Size: %lu\n", size));
return UMP_DD_HANDLE_INVALID;
}
}
/* Allocate the ump_dd_mem struct for this allocation */
mem = _mali_osk_malloc(sizeof(*mem));
if (NULL == mem)
{
DBG_MSG(1, ("Could not allocate ump_dd_mem in ump_dd_handle_create_from_phys_blocks()\n"));
return UMP_DD_HANDLE_INVALID;
}
/* Find a secure ID for this allocation */
_mali_osk_lock_wait(device.secure_id_map_lock, _MALI_OSK_LOCKMODE_RW);
map_id = ump_descriptor_mapping_allocate_mapping(device.secure_id_map, (void*) mem);
if (map_id < 0)
{
_mali_osk_lock_signal(device.secure_id_map_lock, _MALI_OSK_LOCKMODE_RW);
_mali_osk_free(mem);
DBG_MSG(1, ("Failed to allocate secure ID in ump_dd_handle_create_from_phys_blocks()\n"));
return UMP_DD_HANDLE_INVALID;
}
/* Now, make a copy of the block information supplied by the user */
mem->block_array = _mali_osk_malloc(sizeof(ump_dd_physical_block)* num_blocks);
if (NULL == mem->block_array)
{
ump_descriptor_mapping_free(device.secure_id_map, map_id);
_mali_osk_lock_signal(device.secure_id_map_lock, _MALI_OSK_LOCKMODE_RW);
_mali_osk_free(mem);
DBG_MSG(1, ("Could not allocate a mem handle for function ump_dd_handle_create_from_phys_blocks().\n"));
return UMP_DD_HANDLE_INVALID;
}
_mali_osk_memcpy(mem->block_array, blocks, sizeof(ump_dd_physical_block) * num_blocks);
/* And setup the rest of the ump_dd_mem struct */
_mali_osk_atomic_init(&mem->ref_count, 1);
mem->secure_id = (ump_secure_id)map_id;
mem->size_bytes = size_total;
mem->nr_blocks = num_blocks;
mem->backend_info = NULL;
mem->ctx = NULL;
mem->release_func = phys_blocks_release;
/* For now UMP handles created by ump_dd_handle_create_from_phys_blocks() is forced to be Uncached */
mem->is_cached = 0;
mem->hw_device = _UMP_UK_USED_BY_CPU;
mem->lock_usage = UMP_NOT_LOCKED;
_mali_osk_lock_signal(device.secure_id_map_lock, _MALI_OSK_LOCKMODE_RW);
DBG_MSG(3, ("UMP memory created. ID: %u, size: %lu\n", mem->secure_id, mem->size_bytes));
return (ump_dd_handle)mem;
}
static void phys_blocks_release(void * ctx, struct ump_dd_mem * descriptor)
{
_mali_osk_free(descriptor->block_array);
descriptor->block_array = NULL;
}
_mali_osk_errcode_t _ump_ukk_allocate( _ump_uk_allocate_s *user_interaction )
{
ump_session_data * session_data = NULL;
ump_dd_mem *new_allocation = NULL;
ump_session_memory_list_element * session_memory_element = NULL;
int map_id;
DEBUG_ASSERT_POINTER( user_interaction );
DEBUG_ASSERT_POINTER( user_interaction->ctx );
session_data = (ump_session_data *) user_interaction->ctx;
session_memory_element = _mali_osk_calloc( 1, sizeof(ump_session_memory_list_element));
if (NULL == session_memory_element)
{
DBG_MSG(1, ("Failed to allocate ump_session_memory_list_element in ump_ioctl_allocate()\n"));
return _MALI_OSK_ERR_NOMEM;
}
new_allocation = _mali_osk_calloc( 1, sizeof(ump_dd_mem));
if (NULL==new_allocation)
{
_mali_osk_free(session_memory_element);
DBG_MSG(1, ("Failed to allocate ump_dd_mem in _ump_ukk_allocate()\n"));
return _MALI_OSK_ERR_NOMEM;
}
/* Create a secure ID for this allocation */
_mali_osk_lock_wait(device.secure_id_map_lock, _MALI_OSK_LOCKMODE_RW);
map_id = ump_descriptor_mapping_allocate_mapping(device.secure_id_map, (void*)new_allocation);
if (map_id < 0)
{
_mali_osk_lock_signal(device.secure_id_map_lock, _MALI_OSK_LOCKMODE_RW);
_mali_osk_free(session_memory_element);
_mali_osk_free(new_allocation);
DBG_MSG(1, ("Failed to allocate secure ID in ump_ioctl_allocate()\n"));
return - _MALI_OSK_ERR_INVALID_FUNC;
}
/* Initialize the part of the new_allocation that we know so for */
new_allocation->secure_id = (ump_secure_id)map_id;
_mali_osk_atomic_init(&new_allocation->ref_count,1);
if ( 0==(UMP_REF_DRV_UK_CONSTRAINT_USE_CACHE & user_interaction->constraints) )
new_allocation->is_cached = 0;
else new_allocation->is_cached = 1;
/* special case a size of 0, we should try to emulate what malloc does in this case, which is to return a valid pointer that must be freed, but can't be dereferences */
if (0 == user_interaction->size)
{
user_interaction->size = 1; /* emulate by actually allocating the minimum block size */
}
new_allocation->size_bytes = UMP_SIZE_ALIGN(user_interaction->size); /* Page align the size */
new_allocation->lock_usage = UMP_NOT_LOCKED;
/* Now, ask the active memory backend to do the actual memory allocation */
if (!device.backend->allocate( device.backend->ctx, new_allocation ) )
{
DBG_MSG(3, ("OOM: No more UMP memory left. Failed to allocate memory in ump_ioctl_allocate(). Size: %lu, requested size: %lu\n", new_allocation->size_bytes, (unsigned long)user_interaction->size));
ump_descriptor_mapping_free(device.secure_id_map, map_id);
_mali_osk_lock_signal(device.secure_id_map_lock, _MALI_OSK_LOCKMODE_RW);
_mali_osk_free(new_allocation);
_mali_osk_free(session_memory_element);
return _MALI_OSK_ERR_INVALID_FUNC;
}
new_allocation->hw_device = _UMP_UK_USED_BY_CPU;
new_allocation->ctx = device.backend->ctx;
new_allocation->release_func = device.backend->release;
_mali_osk_lock_signal(device.secure_id_map_lock, _MALI_OSK_LOCKMODE_RW);
/* Initialize the session_memory_element, and add it to the session object */
session_memory_element->mem = new_allocation;
_mali_osk_lock_wait(session_data->lock, _MALI_OSK_LOCKMODE_RW);
_mali_osk_list_add(&(session_memory_element->list), &(session_data->list_head_session_memory_list));
_mali_osk_lock_signal(session_data->lock, _MALI_OSK_LOCKMODE_RW);
user_interaction->secure_id = new_allocation->secure_id;
user_interaction->size = new_allocation->size_bytes;
DBG_MSG(3, ("UMP memory allocated. ID: %u, size: %lu\n", new_allocation->secure_id, new_allocation->size_bytes));
return _MALI_OSK_ERR_OK;
}
/* MALI_SEC */
UMP_KERNEL_API_EXPORT ump_dd_status_code ump_dd_meminfo_set(ump_dd_handle memh, void* args)
{
ump_dd_mem * mem;
ump_secure_id secure_id;
DEBUG_ASSERT_POINTER(memh);
secure_id = ump_dd_secure_id_get(memh);
_mali_osk_lock_wait(device.secure_id_map_lock, _MALI_OSK_LOCKMODE_RW);
if (0 == ump_descriptor_mapping_get(device.secure_id_map, (int)secure_id, (void**)&mem))
{
device.backend->set(mem, args);
}
else
{
_mali_osk_lock_signal(device.secure_id_map_lock, _MALI_OSK_LOCKMODE_RW);
DBG_MSG(1, ("Failed to look up mapping in ump_meminfo_set(). ID: %u\n", (ump_secure_id)secure_id));
return UMP_DD_INVALID;
}
_mali_osk_lock_signal(device.secure_id_map_lock, _MALI_OSK_LOCKMODE_RW);
return UMP_DD_SUCCESS;
}
UMP_KERNEL_API_EXPORT void *ump_dd_meminfo_get(ump_secure_id secure_id, void* args)
{
ump_dd_mem * mem;
void *result;
_mali_osk_lock_wait(device.secure_id_map_lock, _MALI_OSK_LOCKMODE_RW);
if (0 == ump_descriptor_mapping_get(device.secure_id_map, (int)secure_id, (void**)&mem))
{
result = device.backend->get(mem, args);
}
else
{
_mali_osk_lock_signal(device.secure_id_map_lock, _MALI_OSK_LOCKMODE_RW);
DBG_MSG(1, ("Failed to look up mapping in ump_meminfo_get(). ID: %u\n", (ump_secure_id)secure_id));
return UMP_DD_HANDLE_INVALID;
}
_mali_osk_lock_signal(device.secure_id_map_lock, _MALI_OSK_LOCKMODE_RW);
return result;
}
UMP_KERNEL_API_EXPORT ump_dd_handle ump_dd_handle_get_from_vaddr(unsigned long vaddr)
{
ump_dd_mem * mem;
DBG_MSG(5, ("Getting handle from Virtual address. vaddr: %u\n", vaddr));
_ump_osk_mem_mapregion_get(&mem, vaddr);
DBG_MSG(1, ("Getting handle's Handle : 0x%8lx\n", mem));
return (ump_dd_handle)mem;
}
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