/* * Copyright (C) 2011-2015 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_pp.h" #include "mali_hw_core.h" #include "mali_group.h" #include "regs/mali_200_regs.h" #include "mali_kernel_common.h" #include "mali_kernel_core.h" #if defined(CONFIG_MALI400_PROFILING) #include "mali_osk_profiling.h" #endif /* Number of frame registers on Mali-200 */ #define MALI_PP_MALI200_NUM_FRAME_REGISTERS ((0x04C/4)+1) /* Number of frame registers on Mali-300 and later */ #define MALI_PP_MALI400_NUM_FRAME_REGISTERS ((0x058/4)+1) static struct mali_pp_core *mali_global_pp_cores[MALI_MAX_NUMBER_OF_PP_CORES] = { NULL }; static u32 mali_global_num_pp_cores = 0; /* Interrupt handlers */ static void mali_pp_irq_probe_trigger(void *data); static _mali_osk_errcode_t mali_pp_irq_probe_ack(void *data); struct mali_pp_core *mali_pp_create(const _mali_osk_resource_t *resource, struct mali_group *group, mali_bool is_virtual, u32 bcast_id) { 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_calloc(1, sizeof(struct mali_pp_core)); if (NULL != core) { core->core_id = mali_global_num_pp_cores; core->bcast_id = bcast_id; if (_MALI_OSK_ERR_OK == mali_hw_core_create(&core->hw_core, resource, MALI200_REG_SIZEOF_REGISTER_BANK)) { _mali_osk_errcode_t ret; if (!is_virtual) { ret = mali_pp_reset(core); } else { ret = _MALI_OSK_ERR_OK; } if (_MALI_OSK_ERR_OK == ret) { ret = mali_group_add_pp_core(group, core); if (_MALI_OSK_ERR_OK == ret) { /* Setup IRQ handlers (which will do IRQ probing if needed) */ MALI_DEBUG_ASSERT(!is_virtual || -1 != resource->irq); core->irq = _mali_osk_irq_init(resource->irq, mali_group_upper_half_pp, group, mali_pp_irq_probe_trigger, mali_pp_irq_probe_ack, core, resource->description); if (NULL != core->irq) { mali_global_pp_cores[mali_global_num_pp_cores] = core; mali_global_num_pp_cores++; return core; } else { MALI_PRINT_ERROR(("Mali PP: Failed to setup interrupt handlers for PP core %s\n", core->hw_core.description)); } mali_group_remove_pp_core(group); } else { MALI_PRINT_ERROR(("Mali PP: Failed to add core %s to group\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_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--; if (i != mali_global_num_pp_cores) { /* We removed a PP core from the middle of the array -- move the last * PP core to the current position to close the gap */ mali_global_pp_cores[i] = mali_global_pp_cores[mali_global_num_pp_cores]; mali_global_pp_cores[mali_global_num_pp_cores] = NULL; } 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; MALI_DEBUG_ASSERT_POINTER(core); /* Send the stop bus command. */ mali_pp_stop_bus(core); /* Wait for bus to be stopped */ for (i = 0; i < MALI_REG_POLL_COUNT_FAST; i++) { if (mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_STATUS) & MALI200_REG_VAL_STATUS_BUS_STOPPED) break; } if (MALI_REG_POLL_COUNT_FAST == 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; } /* Frame register reset values. * Taken from the Mali400 TRM, 3.6. Pixel processor control register summary */ static const u32 mali_frame_registers_reset_values[_MALI_PP_MAX_FRAME_REGISTERS] = { 0x0, /* Renderer List Address Register */ 0x0, /* Renderer State Word Base Address Register */ 0x0, /* Renderer Vertex Base Register */ 0x2, /* Feature Enable Register */ 0x0, /* Z Clear Value Register */ 0x0, /* Stencil Clear Value Register */ 0x0, /* ABGR Clear Value 0 Register */ 0x0, /* ABGR Clear Value 1 Register */ 0x0, /* ABGR Clear Value 2 Register */ 0x0, /* ABGR Clear Value 3 Register */ 0x0, /* Bounding Box Left Right Register */ 0x0, /* Bounding Box Bottom Register */ 0x0, /* FS Stack Address Register */ 0x0, /* FS Stack Size and Initial Value Register */ 0x0, /* Reserved */ 0x0, /* Reserved */ 0x0, /* Origin Offset X Register */ 0x0, /* Origin Offset Y Register */ 0x75, /* Subpixel Specifier Register */ 0x0, /* Tiebreak mode Register */ 0x0, /* Polygon List Format Register */ 0x0, /* Scaling Register */ 0x0 /* Tilebuffer configuration Register */ }; /* WBx register reset values */ static const u32 mali_wb_registers_reset_values[_MALI_PP_MAX_WB_REGISTERS] = { 0x0, /* WBx Source Select Register */ 0x0, /* WBx Target Address Register */ 0x0, /* WBx Target Pixel Format Register */ 0x0, /* WBx Target AA Format Register */ 0x0, /* WBx Target Layout */ 0x0, /* WBx Target Scanline Length */ 0x0, /* WBx Target Flags Register */ 0x0, /* WBx MRT Enable Register */ 0x0, /* WBx MRT Offset Register */ 0x0, /* WBx Global Test Enable Register */ 0x0, /* WBx Global Test Reference Value Register */ 0x0 /* WBx Global Test Compare Function Register */ }; /* Performance Counter 0 Enable Register reset value */ static const u32 mali_perf_cnt_enable_reset_value = 0; _mali_osk_errcode_t mali_pp_hard_reset(struct mali_pp_core *core) { /* Bus must be stopped before calling this function */ const u32 reset_wait_target_register = MALI200_REG_ADDR_MGMT_PERF_CNT_0_LIMIT; 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)); /* Set register to a bogus value. The register will be used to detect when reset is complete */ mali_hw_core_register_write_relaxed(&core->hw_core, reset_wait_target_register, reset_invalid_value); mali_hw_core_register_write_relaxed(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_MASK, MALI200_REG_VAL_IRQ_MASK_NONE); /* 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 < MALI_REG_POLL_COUNT_FAST; 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 (MALI_REG_POLL_COUNT_FAST == i) { MALI_PRINT_ERROR(("Mali PP: The hard reset loop didn't work, unable to recover\n")); } mali_hw_core_register_write(&core->hw_core, reset_wait_target_register, 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; } void mali_pp_reset_async(struct mali_pp_core *core) { MALI_DEBUG_ASSERT_POINTER(core); MALI_DEBUG_PRINT(4, ("Mali PP: Reset of core %s\n", core->hw_core.description)); mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_MASK, 0); /* disable the IRQs */ mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_RAWSTAT, MALI200_REG_VAL_IRQ_MASK_ALL); mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_CTRL_MGMT, MALI400PP_REG_VAL_CTRL_MGMT_SOFT_RESET); } _mali_osk_errcode_t mali_pp_reset_wait(struct mali_pp_core *core) { int i; u32 rawstat = 0; for (i = 0; i < MALI_REG_POLL_COUNT_FAST; i++) { u32 status = mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_STATUS); if (!(status & MALI200_REG_VAL_STATUS_RENDERING_ACTIVE)) { rawstat = mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_RAWSTAT); if (rawstat == MALI400PP_REG_VAL_IRQ_RESET_COMPLETED) { break; } } } if (i == MALI_REG_POLL_COUNT_FAST) { MALI_PRINT_ERROR(("Mali PP: Failed to reset core %s, rawstat: 0x%08x\n", core->hw_core.description, rawstat)); return _MALI_OSK_ERR_FAULT; } /* 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) { mali_pp_reset_async(core); return mali_pp_reset_wait(core); } void mali_pp_job_start(struct mali_pp_core *core, struct mali_pp_job *job, u32 sub_job, mali_bool restart_virtual) { u32 relative_address; u32 start_index; u32 nr_of_regs; 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); u32 counter_src0 = mali_pp_job_get_perf_counter_src0(job, sub_job); u32 counter_src1 = mali_pp_job_get_perf_counter_src1(job, sub_job); MALI_DEBUG_ASSERT_POINTER(core); /* Write frame registers */ /* * There are two frame registers which are different for each sub job: * 1. The Renderer List Address Register (MALI200_REG_ADDR_FRAME) * 2. The FS Stack Address Register (MALI200_REG_ADDR_STACK) */ mali_hw_core_register_write_relaxed_conditional(&core->hw_core, MALI200_REG_ADDR_FRAME, mali_pp_job_get_addr_frame(job, sub_job), mali_frame_registers_reset_values[MALI200_REG_ADDR_FRAME / sizeof(u32)]); /* For virtual jobs, the stack address shouldn't be broadcast but written individually */ if (!mali_pp_job_is_virtual(job) || restart_virtual) { mali_hw_core_register_write_relaxed_conditional(&core->hw_core, MALI200_REG_ADDR_STACK, mali_pp_job_get_addr_stack(job, sub_job), mali_frame_registers_reset_values[MALI200_REG_ADDR_STACK / sizeof(u32)]); } /* Write registers between MALI200_REG_ADDR_FRAME and MALI200_REG_ADDR_STACK */ relative_address = MALI200_REG_ADDR_RSW; start_index = MALI200_REG_ADDR_RSW / sizeof(u32); nr_of_regs = (MALI200_REG_ADDR_STACK - MALI200_REG_ADDR_RSW) / sizeof(u32); mali_hw_core_register_write_array_relaxed_conditional(&core->hw_core, relative_address, &frame_registers[start_index], nr_of_regs, &mali_frame_registers_reset_values[start_index]); /* MALI200_REG_ADDR_STACK_SIZE */ relative_address = MALI200_REG_ADDR_STACK_SIZE; start_index = MALI200_REG_ADDR_STACK_SIZE / sizeof(u32); mali_hw_core_register_write_relaxed_conditional(&core->hw_core, relative_address, frame_registers[start_index], mali_frame_registers_reset_values[start_index]); /* Skip 2 reserved registers */ /* Write remaining registers */ relative_address = MALI200_REG_ADDR_ORIGIN_OFFSET_X; start_index = MALI200_REG_ADDR_ORIGIN_OFFSET_X / sizeof(u32); nr_of_regs = MALI_PP_MALI400_NUM_FRAME_REGISTERS - MALI200_REG_ADDR_ORIGIN_OFFSET_X / sizeof(u32); mali_hw_core_register_write_array_relaxed_conditional(&core->hw_core, relative_address, &frame_registers[start_index], nr_of_regs, &mali_frame_registers_reset_values[start_index]); /* Write WBx registers */ if (wb0_registers[0]) { /* M200_WB0_REG_SOURCE_SELECT register */ mali_hw_core_register_write_array_relaxed_conditional(&core->hw_core, MALI200_REG_ADDR_WB0, wb0_registers, _MALI_PP_MAX_WB_REGISTERS, mali_wb_registers_reset_values); } if (wb1_registers[0]) { /* M200_WB1_REG_SOURCE_SELECT register */ mali_hw_core_register_write_array_relaxed_conditional(&core->hw_core, MALI200_REG_ADDR_WB1, wb1_registers, _MALI_PP_MAX_WB_REGISTERS, mali_wb_registers_reset_values); } if (wb2_registers[0]) { /* M200_WB2_REG_SOURCE_SELECT register */ mali_hw_core_register_write_array_relaxed_conditional(&core->hw_core, MALI200_REG_ADDR_WB2, wb2_registers, _MALI_PP_MAX_WB_REGISTERS, mali_wb_registers_reset_values); } if (MALI_HW_CORE_NO_COUNTER != counter_src0) { mali_hw_core_register_write_relaxed(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_0_SRC, counter_src0); mali_hw_core_register_write_relaxed_conditional(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_0_ENABLE, MALI200_REG_VAL_PERF_CNT_ENABLE, mali_perf_cnt_enable_reset_value); } if (MALI_HW_CORE_NO_COUNTER != counter_src1) { mali_hw_core_register_write_relaxed(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_1_SRC, counter_src1); mali_hw_core_register_write_relaxed_conditional(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_1_ENABLE, MALI200_REG_VAL_PERF_CNT_ENABLE, mali_perf_cnt_enable_reset_value); } #ifdef CONFIG_MALI400_HEATMAPS_ENABLED if (job->uargs.perf_counter_flag & _MALI_PERFORMANCE_COUNTER_FLAG_HEATMAP_ENABLE) { mali_hw_core_register_write_relaxed(&core->hw_core, MALI200_REG_ADDR_MGMT_PERFMON_CONTR, ((job->uargs.tilesx & 0x3FF) << 16) | 1); mali_hw_core_register_write_relaxed(&core->hw_core, MALI200_REG_ADDR_MGMT_PERFMON_BASE, job->uargs.heatmap_mem & 0xFFFFFFF8); } #endif /* CONFIG_MALI400_HEATMAPS_ENABLED */ 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. * * Don't actually run the job if PROFILING_SKIP_PP_JOBS are set, just * force core to assert the completion interrupt. */ #if !defined(PROFILING_SKIP_PP_JOBS) mali_hw_core_register_write_relaxed(&core->hw_core, MALI200_REG_ADDR_MGMT_CTRL_MGMT, MALI200_REG_VAL_CTRL_MGMT_START_RENDERING); #else mali_hw_core_register_write_relaxed(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_RAWSTAT, MALI200_REG_VAL_IRQ_END_OF_FRAME); #endif /* Adding barrier to make sure previous rester writes is finished */ _mali_osk_write_mem_barrier(); } 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); } struct mali_pp_core *mali_pp_get_global_pp_core(u32 index) { if (mali_global_num_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; } /* ------------- interrupt handling below ------------------ */ 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); mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_RAWSTAT, MALI200_REG_VAL_IRQ_BUS_ERROR); _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_BUS_ERROR & irq_readout) { mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_CLEAR, MALI200_REG_VAL_IRQ_BUS_ERROR); _mali_osk_mem_barrier(); return _MALI_OSK_ERR_OK; } return _MALI_OSK_ERR_FAULT; } #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 void mali_pp_update_performance_counters(struct mali_pp_core *parent, struct mali_pp_core *child, struct mali_pp_job *job, u32 subjob) { u32 val0 = 0; u32 val1 = 0; u32 counter_src0 = mali_pp_job_get_perf_counter_src0(job, subjob); u32 counter_src1 = mali_pp_job_get_perf_counter_src1(job, subjob); #if defined(CONFIG_MALI400_PROFILING) int counter_index = COUNTER_FP_0_C0 + (2 * child->core_id); #endif if (MALI_HW_CORE_NO_COUNTER != counter_src0) { val0 = mali_hw_core_register_read(&child->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_0_VALUE); mali_pp_job_set_perf_counter_value0(job, subjob, val0); #if defined(CONFIG_MALI400_PROFILING) _mali_osk_profiling_report_hw_counter(counter_index, val0); _mali_osk_profiling_record_global_counters(counter_index, val0); #endif } if (MALI_HW_CORE_NO_COUNTER != counter_src1) { val1 = mali_hw_core_register_read(&child->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_1_VALUE); mali_pp_job_set_perf_counter_value1(job, subjob, val1); #if defined(CONFIG_MALI400_PROFILING) _mali_osk_profiling_report_hw_counter(counter_index + 1, val1); _mali_osk_profiling_record_global_counters(counter_index + 1, val1); #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