Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Christian Gmeiner | 1894 | 96.34% | 18 | 78.26% |
The etnaviv authors | 62 | 3.15% | 1 | 4.35% |
Lucas Stach | 5 | 0.25% | 2 | 8.70% |
Dan Carpenter | 3 | 0.15% | 1 | 4.35% |
Justin Stitt | 2 | 0.10% | 1 | 4.35% |
Total | 1966 | 23 |
// SPDX-License-Identifier: GPL-2.0 /* * Copyright (C) 2017 Etnaviv Project * Copyright (C) 2017 Zodiac Inflight Innovations */ #include "common.xml.h" #include "etnaviv_gpu.h" #include "etnaviv_perfmon.h" #include "state_hi.xml.h" struct etnaviv_pm_domain; struct etnaviv_pm_signal { char name[64]; u32 data; u32 (*sample)(struct etnaviv_gpu *gpu, const struct etnaviv_pm_domain *domain, const struct etnaviv_pm_signal *signal); }; struct etnaviv_pm_domain { char name[64]; /* profile register */ u32 profile_read; u32 profile_config; u8 nr_signals; const struct etnaviv_pm_signal *signal; }; struct etnaviv_pm_domain_meta { unsigned int feature; const struct etnaviv_pm_domain *domains; u32 nr_domains; }; static u32 perf_reg_read(struct etnaviv_gpu *gpu, const struct etnaviv_pm_domain *domain, const struct etnaviv_pm_signal *signal) { gpu_write(gpu, domain->profile_config, signal->data); return gpu_read(gpu, domain->profile_read); } static inline void pipe_select(struct etnaviv_gpu *gpu, u32 clock, unsigned pipe) { clock &= ~(VIVS_HI_CLOCK_CONTROL_DEBUG_PIXEL_PIPE__MASK); clock |= VIVS_HI_CLOCK_CONTROL_DEBUG_PIXEL_PIPE(pipe); gpu_write(gpu, VIVS_HI_CLOCK_CONTROL, clock); } static u32 pipe_perf_reg_read(struct etnaviv_gpu *gpu, const struct etnaviv_pm_domain *domain, const struct etnaviv_pm_signal *signal) { u32 clock = gpu_read(gpu, VIVS_HI_CLOCK_CONTROL); u32 value = 0; unsigned i; for (i = 0; i < gpu->identity.pixel_pipes; i++) { pipe_select(gpu, clock, i); value += perf_reg_read(gpu, domain, signal); } /* switch back to pixel pipe 0 to prevent GPU hang */ pipe_select(gpu, clock, 0); return value; } static u32 pipe_reg_read(struct etnaviv_gpu *gpu, const struct etnaviv_pm_domain *domain, const struct etnaviv_pm_signal *signal) { u32 clock = gpu_read(gpu, VIVS_HI_CLOCK_CONTROL); u32 value = 0; unsigned i; for (i = 0; i < gpu->identity.pixel_pipes; i++) { pipe_select(gpu, clock, i); value += gpu_read(gpu, signal->data); } /* switch back to pixel pipe 0 to prevent GPU hang */ pipe_select(gpu, clock, 0); return value; } static u32 hi_total_cycle_read(struct etnaviv_gpu *gpu, const struct etnaviv_pm_domain *domain, const struct etnaviv_pm_signal *signal) { u32 reg = VIVS_HI_PROFILE_TOTAL_CYCLES; if (gpu->identity.model == chipModel_GC880 || gpu->identity.model == chipModel_GC2000 || gpu->identity.model == chipModel_GC2100) reg = VIVS_MC_PROFILE_CYCLE_COUNTER; return gpu_read(gpu, reg); } static u32 hi_total_idle_cycle_read(struct etnaviv_gpu *gpu, const struct etnaviv_pm_domain *domain, const struct etnaviv_pm_signal *signal) { u32 reg = VIVS_HI_PROFILE_IDLE_CYCLES; if (gpu->identity.model == chipModel_GC880 || gpu->identity.model == chipModel_GC2000 || gpu->identity.model == chipModel_GC2100) reg = VIVS_HI_PROFILE_TOTAL_CYCLES; return gpu_read(gpu, reg); } static const struct etnaviv_pm_domain doms_3d[] = { { .name = "HI", .profile_read = VIVS_MC_PROFILE_HI_READ, .profile_config = VIVS_MC_PROFILE_CONFIG2, .nr_signals = 7, .signal = (const struct etnaviv_pm_signal[]) { { "TOTAL_READ_BYTES8", VIVS_HI_PROFILE_READ_BYTES8, &pipe_reg_read, }, { "TOTAL_WRITE_BYTES8", VIVS_HI_PROFILE_WRITE_BYTES8, &pipe_reg_read, }, { "TOTAL_CYCLES", 0, &hi_total_cycle_read }, { "IDLE_CYCLES", 0, &hi_total_idle_cycle_read }, { "AXI_CYCLES_READ_REQUEST_STALLED", VIVS_MC_PROFILE_CONFIG2_HI_AXI_CYCLES_READ_REQUEST_STALLED, &perf_reg_read }, { "AXI_CYCLES_WRITE_REQUEST_STALLED", VIVS_MC_PROFILE_CONFIG2_HI_AXI_CYCLES_WRITE_REQUEST_STALLED, &perf_reg_read }, { "AXI_CYCLES_WRITE_DATA_STALLED", VIVS_MC_PROFILE_CONFIG2_HI_AXI_CYCLES_WRITE_DATA_STALLED, &perf_reg_read } } }, { .name = "PE", .profile_read = VIVS_MC_PROFILE_PE_READ, .profile_config = VIVS_MC_PROFILE_CONFIG0, .nr_signals = 4, .signal = (const struct etnaviv_pm_signal[]) { { "PIXEL_COUNT_KILLED_BY_COLOR_PIPE", VIVS_MC_PROFILE_CONFIG0_PE_PIXEL_COUNT_KILLED_BY_COLOR_PIPE, &pipe_perf_reg_read }, { "PIXEL_COUNT_KILLED_BY_DEPTH_PIPE", VIVS_MC_PROFILE_CONFIG0_PE_PIXEL_COUNT_KILLED_BY_DEPTH_PIPE, &pipe_perf_reg_read }, { "PIXEL_COUNT_DRAWN_BY_COLOR_PIPE", VIVS_MC_PROFILE_CONFIG0_PE_PIXEL_COUNT_DRAWN_BY_COLOR_PIPE, &pipe_perf_reg_read }, { "PIXEL_COUNT_DRAWN_BY_DEPTH_PIPE", VIVS_MC_PROFILE_CONFIG0_PE_PIXEL_COUNT_DRAWN_BY_DEPTH_PIPE, &pipe_perf_reg_read } } }, { .name = "SH", .profile_read = VIVS_MC_PROFILE_SH_READ, .profile_config = VIVS_MC_PROFILE_CONFIG0, .nr_signals = 9, .signal = (const struct etnaviv_pm_signal[]) { { "SHADER_CYCLES", VIVS_MC_PROFILE_CONFIG0_SH_SHADER_CYCLES, &perf_reg_read }, { "PS_INST_COUNTER", VIVS_MC_PROFILE_CONFIG0_SH_PS_INST_COUNTER, &perf_reg_read }, { "RENDERED_PIXEL_COUNTER", VIVS_MC_PROFILE_CONFIG0_SH_RENDERED_PIXEL_COUNTER, &perf_reg_read }, { "VS_INST_COUNTER", VIVS_MC_PROFILE_CONFIG0_SH_VS_INST_COUNTER, &pipe_perf_reg_read }, { "RENDERED_VERTICE_COUNTER", VIVS_MC_PROFILE_CONFIG0_SH_RENDERED_VERTICE_COUNTER, &pipe_perf_reg_read }, { "VTX_BRANCH_INST_COUNTER", VIVS_MC_PROFILE_CONFIG0_SH_VTX_BRANCH_INST_COUNTER, &pipe_perf_reg_read }, { "VTX_TEXLD_INST_COUNTER", VIVS_MC_PROFILE_CONFIG0_SH_VTX_TEXLD_INST_COUNTER, &pipe_perf_reg_read }, { "PXL_BRANCH_INST_COUNTER", VIVS_MC_PROFILE_CONFIG0_SH_PXL_BRANCH_INST_COUNTER, &pipe_perf_reg_read }, { "PXL_TEXLD_INST_COUNTER", VIVS_MC_PROFILE_CONFIG0_SH_PXL_TEXLD_INST_COUNTER, &pipe_perf_reg_read } } }, { .name = "PA", .profile_read = VIVS_MC_PROFILE_PA_READ, .profile_config = VIVS_MC_PROFILE_CONFIG1, .nr_signals = 6, .signal = (const struct etnaviv_pm_signal[]) { { "INPUT_VTX_COUNTER", VIVS_MC_PROFILE_CONFIG1_PA_INPUT_VTX_COUNTER, &perf_reg_read }, { "INPUT_PRIM_COUNTER", VIVS_MC_PROFILE_CONFIG1_PA_INPUT_PRIM_COUNTER, &perf_reg_read }, { "OUTPUT_PRIM_COUNTER", VIVS_MC_PROFILE_CONFIG1_PA_OUTPUT_PRIM_COUNTER, &perf_reg_read }, { "DEPTH_CLIPPED_COUNTER", VIVS_MC_PROFILE_CONFIG1_PA_DEPTH_CLIPPED_COUNTER, &pipe_perf_reg_read }, { "TRIVIAL_REJECTED_COUNTER", VIVS_MC_PROFILE_CONFIG1_PA_TRIVIAL_REJECTED_COUNTER, &pipe_perf_reg_read }, { "CULLED_COUNTER", VIVS_MC_PROFILE_CONFIG1_PA_CULLED_COUNTER, &pipe_perf_reg_read } } }, { .name = "SE", .profile_read = VIVS_MC_PROFILE_SE_READ, .profile_config = VIVS_MC_PROFILE_CONFIG1, .nr_signals = 2, .signal = (const struct etnaviv_pm_signal[]) { { "CULLED_TRIANGLE_COUNT", VIVS_MC_PROFILE_CONFIG1_SE_CULLED_TRIANGLE_COUNT, &perf_reg_read }, { "CULLED_LINES_COUNT", VIVS_MC_PROFILE_CONFIG1_SE_CULLED_LINES_COUNT, &perf_reg_read } } }, { .name = "RA", .profile_read = VIVS_MC_PROFILE_RA_READ, .profile_config = VIVS_MC_PROFILE_CONFIG1, .nr_signals = 7, .signal = (const struct etnaviv_pm_signal[]) { { "VALID_PIXEL_COUNT", VIVS_MC_PROFILE_CONFIG1_RA_VALID_PIXEL_COUNT, &perf_reg_read }, { "TOTAL_QUAD_COUNT", VIVS_MC_PROFILE_CONFIG1_RA_TOTAL_QUAD_COUNT, &perf_reg_read }, { "VALID_QUAD_COUNT_AFTER_EARLY_Z", VIVS_MC_PROFILE_CONFIG1_RA_VALID_QUAD_COUNT_AFTER_EARLY_Z, &perf_reg_read }, { "TOTAL_PRIMITIVE_COUNT", VIVS_MC_PROFILE_CONFIG1_RA_TOTAL_PRIMITIVE_COUNT, &perf_reg_read }, { "PIPE_CACHE_MISS_COUNTER", VIVS_MC_PROFILE_CONFIG1_RA_PIPE_CACHE_MISS_COUNTER, &perf_reg_read }, { "PREFETCH_CACHE_MISS_COUNTER", VIVS_MC_PROFILE_CONFIG1_RA_PREFETCH_CACHE_MISS_COUNTER, &perf_reg_read }, { "CULLED_QUAD_COUNT", VIVS_MC_PROFILE_CONFIG1_RA_CULLED_QUAD_COUNT, &perf_reg_read } } }, { .name = "TX", .profile_read = VIVS_MC_PROFILE_TX_READ, .profile_config = VIVS_MC_PROFILE_CONFIG1, .nr_signals = 9, .signal = (const struct etnaviv_pm_signal[]) { { "TOTAL_BILINEAR_REQUESTS", VIVS_MC_PROFILE_CONFIG1_TX_TOTAL_BILINEAR_REQUESTS, &perf_reg_read }, { "TOTAL_TRILINEAR_REQUESTS", VIVS_MC_PROFILE_CONFIG1_TX_TOTAL_TRILINEAR_REQUESTS, &perf_reg_read }, { "TOTAL_DISCARDED_TEXTURE_REQUESTS", VIVS_MC_PROFILE_CONFIG1_TX_TOTAL_DISCARDED_TEXTURE_REQUESTS, &perf_reg_read }, { "TOTAL_TEXTURE_REQUESTS", VIVS_MC_PROFILE_CONFIG1_TX_TOTAL_TEXTURE_REQUESTS, &perf_reg_read }, { "MEM_READ_COUNT", VIVS_MC_PROFILE_CONFIG1_TX_MEM_READ_COUNT, &perf_reg_read }, { "MEM_READ_IN_8B_COUNT", VIVS_MC_PROFILE_CONFIG1_TX_MEM_READ_IN_8B_COUNT, &perf_reg_read }, { "CACHE_MISS_COUNT", VIVS_MC_PROFILE_CONFIG1_TX_CACHE_MISS_COUNT, &perf_reg_read }, { "CACHE_HIT_TEXEL_COUNT", VIVS_MC_PROFILE_CONFIG1_TX_CACHE_HIT_TEXEL_COUNT, &perf_reg_read }, { "CACHE_MISS_TEXEL_COUNT", VIVS_MC_PROFILE_CONFIG1_TX_CACHE_MISS_TEXEL_COUNT, &perf_reg_read } } }, { .name = "MC", .profile_read = VIVS_MC_PROFILE_MC_READ, .profile_config = VIVS_MC_PROFILE_CONFIG2, .nr_signals = 3, .signal = (const struct etnaviv_pm_signal[]) { { "TOTAL_READ_REQ_8B_FROM_PIPELINE", VIVS_MC_PROFILE_CONFIG2_MC_TOTAL_READ_REQ_8B_FROM_PIPELINE, &perf_reg_read }, { "TOTAL_READ_REQ_8B_FROM_IP", VIVS_MC_PROFILE_CONFIG2_MC_TOTAL_READ_REQ_8B_FROM_IP, &perf_reg_read }, { "TOTAL_WRITE_REQ_8B_FROM_PIPELINE", VIVS_MC_PROFILE_CONFIG2_MC_TOTAL_WRITE_REQ_8B_FROM_PIPELINE, &perf_reg_read } } } }; static const struct etnaviv_pm_domain doms_2d[] = { { .name = "PE", .profile_read = VIVS_MC_PROFILE_PE_READ, .profile_config = VIVS_MC_PROFILE_CONFIG0, .nr_signals = 1, .signal = (const struct etnaviv_pm_signal[]) { { "PIXELS_RENDERED_2D", VIVS_MC_PROFILE_CONFIG0_PE_PIXELS_RENDERED_2D, &pipe_perf_reg_read } } } }; static const struct etnaviv_pm_domain doms_vg[] = { }; static const struct etnaviv_pm_domain_meta doms_meta[] = { { .feature = chipFeatures_PIPE_3D, .nr_domains = ARRAY_SIZE(doms_3d), .domains = &doms_3d[0] }, { .feature = chipFeatures_PIPE_2D, .nr_domains = ARRAY_SIZE(doms_2d), .domains = &doms_2d[0] }, { .feature = chipFeatures_PIPE_VG, .nr_domains = ARRAY_SIZE(doms_vg), .domains = &doms_vg[0] } }; static unsigned int num_pm_domains(const struct etnaviv_gpu *gpu) { unsigned int num = 0, i; for (i = 0; i < ARRAY_SIZE(doms_meta); i++) { const struct etnaviv_pm_domain_meta *meta = &doms_meta[i]; if (gpu->identity.features & meta->feature) num += meta->nr_domains; } return num; } static const struct etnaviv_pm_domain *pm_domain(const struct etnaviv_gpu *gpu, unsigned int index) { const struct etnaviv_pm_domain *domain = NULL; unsigned int offset = 0, i; for (i = 0; i < ARRAY_SIZE(doms_meta); i++) { const struct etnaviv_pm_domain_meta *meta = &doms_meta[i]; if (!(gpu->identity.features & meta->feature)) continue; if (index - offset >= meta->nr_domains) { offset += meta->nr_domains; continue; } domain = meta->domains + (index - offset); } return domain; } int etnaviv_pm_query_dom(struct etnaviv_gpu *gpu, struct drm_etnaviv_pm_domain *domain) { const unsigned int nr_domains = num_pm_domains(gpu); const struct etnaviv_pm_domain *dom; if (domain->iter >= nr_domains) return -EINVAL; dom = pm_domain(gpu, domain->iter); if (!dom) return -EINVAL; domain->id = domain->iter; domain->nr_signals = dom->nr_signals; strscpy_pad(domain->name, dom->name, sizeof(domain->name)); domain->iter++; if (domain->iter == nr_domains) domain->iter = 0xff; return 0; } int etnaviv_pm_query_sig(struct etnaviv_gpu *gpu, struct drm_etnaviv_pm_signal *signal) { const unsigned int nr_domains = num_pm_domains(gpu); const struct etnaviv_pm_domain *dom; const struct etnaviv_pm_signal *sig; if (signal->domain >= nr_domains) return -EINVAL; dom = pm_domain(gpu, signal->domain); if (!dom) return -EINVAL; if (signal->iter >= dom->nr_signals) return -EINVAL; sig = &dom->signal[signal->iter]; signal->id = signal->iter; strscpy_pad(signal->name, sig->name, sizeof(signal->name)); signal->iter++; if (signal->iter == dom->nr_signals) signal->iter = 0xffff; return 0; } int etnaviv_pm_req_validate(const struct drm_etnaviv_gem_submit_pmr *r, u32 exec_state) { const struct etnaviv_pm_domain_meta *meta = &doms_meta[exec_state]; const struct etnaviv_pm_domain *dom; if (r->domain >= meta->nr_domains) return -EINVAL; dom = meta->domains + r->domain; if (r->signal >= dom->nr_signals) return -EINVAL; return 0; } void etnaviv_perfmon_process(struct etnaviv_gpu *gpu, const struct etnaviv_perfmon_request *pmr, u32 exec_state) { const struct etnaviv_pm_domain_meta *meta = &doms_meta[exec_state]; const struct etnaviv_pm_domain *dom; const struct etnaviv_pm_signal *sig; u32 *bo = pmr->bo_vma; u32 val; dom = meta->domains + pmr->domain; sig = &dom->signal[pmr->signal]; val = sig->sample(gpu, dom, sig); *(bo + pmr->offset) = val; }
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