/* * 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_REG_POLL_COUNT_FAST 1000 #define MALI_REG_POLL_COUNT_SLOW 1000000 _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); } /* Conditionally write a register. * The register will only be written if the new value is different from the old_value. * If the new value is different, the old value will also be updated */ MALI_STATIC_INLINE void mali_hw_core_register_write_relaxed_conditional(struct mali_hw_core *core, u32 relative_address, u32 new_val, const u32 old_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)); if(old_val != 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]); } } /* Conditionally write a set of registers. * The register will only be written if the new value is different from the old_value. * If the new value is different, the old value will also be updated */ MALI_STATIC_INLINE void mali_hw_core_register_write_array_relaxed_conditional(struct mali_hw_core *core, u32 relative_address, u32 *write_array, u32 nr_of_regs, const u32* old_array) { 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++) { if(old_array[i] != write_array[i]) { mali_hw_core_register_write_relaxed(core, relative_address + i*4, write_array[i]); } } } #endif /* __MALI_HW_CORE_H__ */