/* * Copyright 2015 Advanced Micro Devices, Inc. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #include "radeon/r600_cs.h" #include "radeon/r600_query.h" #include "util/u_memory.h" #include "si_pipe.h" #include "sid.h" enum si_pc_reg_layout { /* All secondary selector dwords follow as one block after the primary * selector dwords for the counters that have secondary selectors. */ SI_PC_MULTI_BLOCK = 0, /* Each secondary selector dword follows immediately afters the * corresponding primary. */ SI_PC_MULTI_ALTERNATE = 1, /* All secondary selector dwords follow as one block after all primary * selector dwords. */ SI_PC_MULTI_TAIL = 2, /* Free-form arrangement of selector registers. */ SI_PC_MULTI_CUSTOM = 3, SI_PC_MULTI_MASK = 3, /* Registers are laid out in decreasing rather than increasing order. */ SI_PC_REG_REVERSE = 4, SI_PC_FAKE = 8, }; struct si_pc_block_base { const char *name; unsigned num_counters; unsigned flags; unsigned select_or; unsigned select0; unsigned counter0_lo; unsigned *select; unsigned *counters; unsigned num_multi; unsigned num_prelude; unsigned layout; }; struct si_pc_block { struct si_pc_block_base *b; unsigned selectors; unsigned instances; }; /* The order is chosen to be compatible with GPUPerfStudio's hardcoding of * performance counter group IDs. */ static const char * const si_pc_shader_type_suffixes[] = { "", "_ES", "_GS", "_VS", "_PS", "_LS", "_HS", "_CS" }; static const unsigned si_pc_shader_type_bits[] = { 0x7f, S_036780_ES_EN(1), S_036780_GS_EN(1), S_036780_VS_EN(1), S_036780_PS_EN(1), S_036780_LS_EN(1), S_036780_HS_EN(1), S_036780_CS_EN(1), }; static struct si_pc_block_base cik_CB = { .name = "CB", .num_counters = 4, .flags = R600_PC_BLOCK_SE | R600_PC_BLOCK_INSTANCE_GROUPS, .select0 = R_037000_CB_PERFCOUNTER_FILTER, .counter0_lo = R_035018_CB_PERFCOUNTER0_LO, .num_multi = 1, .num_prelude = 1, .layout = SI_PC_MULTI_ALTERNATE, }; static unsigned cik_CPC_select[] = { R_036024_CPC_PERFCOUNTER0_SELECT, R_036010_CPC_PERFCOUNTER0_SELECT1, R_03600C_CPC_PERFCOUNTER1_SELECT, }; static struct si_pc_block_base cik_CPC = { .name = "CPC", .num_counters = 2, .select = cik_CPC_select, .counter0_lo = R_034018_CPC_PERFCOUNTER0_LO, .num_multi = 1, .layout = SI_PC_MULTI_CUSTOM | SI_PC_REG_REVERSE, }; static struct si_pc_block_base cik_CPF = { .name = "CPF", .num_counters = 2, .select0 = R_03601C_CPF_PERFCOUNTER0_SELECT, .counter0_lo = R_034028_CPF_PERFCOUNTER0_LO, .num_multi = 1, .layout = SI_PC_MULTI_ALTERNATE | SI_PC_REG_REVERSE, }; static struct si_pc_block_base cik_CPG = { .name = "CPG", .num_counters = 2, .select0 = R_036008_CPG_PERFCOUNTER0_SELECT, .counter0_lo = R_034008_CPG_PERFCOUNTER0_LO, .num_multi = 1, .layout = SI_PC_MULTI_ALTERNATE | SI_PC_REG_REVERSE, }; static struct si_pc_block_base cik_DB = { .name = "DB", .num_counters = 4, .flags = R600_PC_BLOCK_SE | R600_PC_BLOCK_INSTANCE_GROUPS, .select0 = R_037100_DB_PERFCOUNTER0_SELECT, .counter0_lo = R_035100_DB_PERFCOUNTER0_LO, .num_multi = 3, // really only 2, but there's a gap between registers .layout = SI_PC_MULTI_ALTERNATE, }; static struct si_pc_block_base cik_GDS = { .name = "GDS", .num_counters = 4, .select0 = R_036A00_GDS_PERFCOUNTER0_SELECT, .counter0_lo = R_034A00_GDS_PERFCOUNTER0_LO, .num_multi = 1, .layout = SI_PC_MULTI_TAIL, }; static unsigned cik_GRBM_counters[] = { R_034100_GRBM_PERFCOUNTER0_LO, R_03410C_GRBM_PERFCOUNTER1_LO, }; static struct si_pc_block_base cik_GRBM = { .name = "GRBM", .num_counters = 2, .select0 = R_036100_GRBM_PERFCOUNTER0_SELECT, .counters = cik_GRBM_counters, }; static struct si_pc_block_base cik_GRBMSE = { .name = "GRBMSE", .num_counters = 4, .select0 = R_036108_GRBM_SE0_PERFCOUNTER_SELECT, .counter0_lo = R_034114_GRBM_SE0_PERFCOUNTER_LO, }; static struct si_pc_block_base cik_IA = { .name = "IA", .num_counters = 4, .select0 = R_036210_IA_PERFCOUNTER0_SELECT, .counter0_lo = R_034220_IA_PERFCOUNTER0_LO, .num_multi = 1, .layout = SI_PC_MULTI_TAIL, }; static struct si_pc_block_base cik_PA_SC = { .name = "PA_SC", .num_counters = 8, .flags = R600_PC_BLOCK_SE, .select0 = R_036500_PA_SC_PERFCOUNTER0_SELECT, .counter0_lo = R_034500_PA_SC_PERFCOUNTER0_LO, .num_multi = 1, .layout = SI_PC_MULTI_ALTERNATE, }; /* According to docs, PA_SU counters are only 48 bits wide. */ static struct si_pc_block_base cik_PA_SU = { .name = "PA_SU", .num_counters = 4, .flags = R600_PC_BLOCK_SE, .select0 = R_036400_PA_SU_PERFCOUNTER0_SELECT, .counter0_lo = R_034400_PA_SU_PERFCOUNTER0_LO, .num_multi = 2, .layout = SI_PC_MULTI_ALTERNATE, }; static struct si_pc_block_base cik_SPI = { .name = "SPI", .num_counters = 6, .flags = R600_PC_BLOCK_SE, .select0 = R_036600_SPI_PERFCOUNTER0_SELECT, .counter0_lo = R_034604_SPI_PERFCOUNTER0_LO, .num_multi = 4, .layout = SI_PC_MULTI_BLOCK, }; static struct si_pc_block_base cik_SQ = { .name = "SQ", .num_counters = 16, .flags = R600_PC_BLOCK_SE | R600_PC_BLOCK_SHADER, .select0 = R_036700_SQ_PERFCOUNTER0_SELECT, .select_or = S_036700_SQC_BANK_MASK(15) | S_036700_SQC_CLIENT_MASK(15) | S_036700_SIMD_MASK(15), .counter0_lo = R_034700_SQ_PERFCOUNTER0_LO, }; static struct si_pc_block_base cik_SX = { .name = "SX", .num_counters = 4, .flags = R600_PC_BLOCK_SE, .select0 = R_036900_SX_PERFCOUNTER0_SELECT, .counter0_lo = R_034900_SX_PERFCOUNTER0_LO, .num_multi = 2, .layout = SI_PC_MULTI_TAIL, }; static struct si_pc_block_base cik_TA = { .name = "TA", .num_counters = 2, .flags = R600_PC_BLOCK_SE | R600_PC_BLOCK_INSTANCE_GROUPS | R600_PC_BLOCK_SHADER_WINDOWED, .select0 = R_036B00_TA_PERFCOUNTER0_SELECT, .counter0_lo = R_034B00_TA_PERFCOUNTER0_LO, .num_multi = 1, .layout = SI_PC_MULTI_ALTERNATE, }; static struct si_pc_block_base cik_TD = { .name = "TD", .num_counters = 2, .flags = R600_PC_BLOCK_SE | R600_PC_BLOCK_INSTANCE_GROUPS | R600_PC_BLOCK_SHADER_WINDOWED, .select0 = R_036C00_TD_PERFCOUNTER0_SELECT, .counter0_lo = R_034C00_TD_PERFCOUNTER0_LO, .num_multi = 1, .layout = SI_PC_MULTI_ALTERNATE, }; static struct si_pc_block_base cik_TCA = { .name = "TCA", .num_counters = 4, .flags = R600_PC_BLOCK_INSTANCE_GROUPS, .select0 = R_036E40_TCA_PERFCOUNTER0_SELECT, .counter0_lo = R_034E40_TCA_PERFCOUNTER0_LO, .num_multi = 2, .layout = SI_PC_MULTI_ALTERNATE, }; static struct si_pc_block_base cik_TCC = { .name = "TCC", .num_counters = 4, .flags = R600_PC_BLOCK_INSTANCE_GROUPS, .select0 = R_036E00_TCC_PERFCOUNTER0_SELECT, .counter0_lo = R_034E00_TCC_PERFCOUNTER0_LO, .num_multi = 2, .layout = SI_PC_MULTI_ALTERNATE, }; static struct si_pc_block_base cik_TCP = { .name = "TCP", .num_counters = 4, .flags = R600_PC_BLOCK_SE | R600_PC_BLOCK_INSTANCE_GROUPS | R600_PC_BLOCK_SHADER_WINDOWED, .select0 = R_036D00_TCP_PERFCOUNTER0_SELECT, .counter0_lo = R_034D00_TCP_PERFCOUNTER0_LO, .num_multi = 2, .layout = SI_PC_MULTI_ALTERNATE, }; static struct si_pc_block_base cik_VGT = { .name = "VGT", .num_counters = 4, .flags = R600_PC_BLOCK_SE, .select0 = R_036230_VGT_PERFCOUNTER0_SELECT, .counter0_lo = R_034240_VGT_PERFCOUNTER0_LO, .num_multi = 1, .layout = SI_PC_MULTI_TAIL, }; static struct si_pc_block_base cik_WD = { .name = "WD", .num_counters = 4, .select0 = R_036200_WD_PERFCOUNTER0_SELECT, .counter0_lo = R_034200_WD_PERFCOUNTER0_LO, }; static struct si_pc_block_base cik_MC = { .name = "MC", .num_counters = 4, .layout = SI_PC_FAKE, }; static struct si_pc_block_base cik_SRBM = { .name = "SRBM", .num_counters = 2, .layout = SI_PC_FAKE, }; /* Both the number of instances and selectors varies between chips of the same * class. We only differentiate by class here and simply expose the maximum * number over all chips in a class. * * Unfortunately, GPUPerfStudio uses the order of performance counter groups * blindly once it believes it has identified the hardware, so the order of * blocks here matters. */ static struct si_pc_block groups_CIK[] = { { &cik_CB, 226, 4 }, { &cik_CPF, 17 }, { &cik_DB, 257, 4 }, { &cik_GRBM, 34 }, { &cik_GRBMSE, 15 }, { &cik_PA_SU, 153 }, { &cik_PA_SC, 395 }, { &cik_SPI, 186 }, { &cik_SQ, 252 }, { &cik_SX, 32 }, { &cik_TA, 111, 11 }, { &cik_TCA, 39, 2 }, { &cik_TCC, 160, 16 }, { &cik_TD, 55, 11 }, { &cik_TCP, 154, 11 }, { &cik_GDS, 121 }, { &cik_VGT, 140 }, { &cik_IA, 22 }, { &cik_MC, 22 }, { &cik_SRBM, 19 }, { &cik_WD, 22 }, { &cik_CPG, 46 }, { &cik_CPC, 22 }, }; static struct si_pc_block groups_VI[] = { { &cik_CB, 405, 4 }, { &cik_CPF, 19 }, { &cik_DB, 257, 4 }, { &cik_GRBM, 34 }, { &cik_GRBMSE, 15 }, { &cik_PA_SU, 153 }, { &cik_PA_SC, 397 }, { &cik_SPI, 197 }, { &cik_SQ, 273 }, { &cik_SX, 34 }, { &cik_TA, 119, 16 }, { &cik_TCA, 35, 2 }, { &cik_TCC, 192, 16 }, { &cik_TD, 55, 16 }, { &cik_TCP, 180, 16 }, { &cik_GDS, 121 }, { &cik_VGT, 147 }, { &cik_IA, 24 }, { &cik_MC, 22 }, { &cik_SRBM, 27 }, { &cik_WD, 37 }, { &cik_CPG, 48 }, { &cik_CPC, 24 }, }; static struct si_pc_block groups_gfx9[] = { { &cik_CB, 438, 4 }, { &cik_CPF, 32 }, { &cik_DB, 328, 4 }, { &cik_GRBM, 38 }, { &cik_GRBMSE, 16 }, { &cik_PA_SU, 292 }, { &cik_PA_SC, 491 }, { &cik_SPI, 196 }, { &cik_SQ, 374 }, { &cik_SX, 208 }, { &cik_TA, 119, 16 }, { &cik_TCA, 35, 2 }, { &cik_TCC, 256, 16 }, { &cik_TD, 57, 16 }, { &cik_TCP, 85, 16 }, { &cik_GDS, 121 }, { &cik_VGT, 148 }, { &cik_IA, 32 }, { &cik_WD, 58 }, { &cik_CPG, 59 }, { &cik_CPC, 35 }, }; static void si_pc_get_size(struct r600_perfcounter_block *group, unsigned count, unsigned *selectors, unsigned *num_select_dw, unsigned *num_read_dw) { struct si_pc_block *sigroup = (struct si_pc_block *)group->data; struct si_pc_block_base *regs = sigroup->b; unsigned layout_multi = regs->layout & SI_PC_MULTI_MASK; if (regs->layout & SI_PC_FAKE) { *num_select_dw = 0; } else if (layout_multi == SI_PC_MULTI_BLOCK) { if (count < regs->num_multi) *num_select_dw = 2 * (count + 2) + regs->num_prelude; else *num_select_dw = 2 + count + regs->num_multi + regs->num_prelude; } else if (layout_multi == SI_PC_MULTI_TAIL) { *num_select_dw = 4 + count + MIN2(count, regs->num_multi) + regs->num_prelude; } else if (layout_multi == SI_PC_MULTI_CUSTOM) { assert(regs->num_prelude == 0); *num_select_dw = 3 * (count + MIN2(count, regs->num_multi)); } else { assert(layout_multi == SI_PC_MULTI_ALTERNATE); *num_select_dw = 2 + count + MIN2(count, regs->num_multi) + regs->num_prelude; } *num_read_dw = 6 * count; } static void si_pc_emit_instance(struct r600_common_context *ctx, int se, int instance) { struct radeon_winsys_cs *cs = ctx->gfx.cs; unsigned value = S_030800_SH_BROADCAST_WRITES(1); if (se >= 0) { value |= S_030800_SE_INDEX(se); } else { value |= S_030800_SE_BROADCAST_WRITES(1); } if (instance >= 0) { value |= S_030800_INSTANCE_INDEX(instance); } else { value |= S_030800_INSTANCE_BROADCAST_WRITES(1); } radeon_set_uconfig_reg(cs, R_030800_GRBM_GFX_INDEX, value); } static void si_pc_emit_shaders(struct r600_common_context *ctx, unsigned shaders) { struct radeon_winsys_cs *cs = ctx->gfx.cs; radeon_set_uconfig_reg_seq(cs, R_036780_SQ_PERFCOUNTER_CTRL, 2); radeon_emit(cs, shaders & 0x7f); radeon_emit(cs, 0xffffffff); } static void si_pc_emit_select(struct r600_common_context *ctx, struct r600_perfcounter_block *group, unsigned count, unsigned *selectors) { struct si_pc_block *sigroup = (struct si_pc_block *)group->data; struct si_pc_block_base *regs = sigroup->b; struct radeon_winsys_cs *cs = ctx->gfx.cs; unsigned idx; unsigned layout_multi = regs->layout & SI_PC_MULTI_MASK; unsigned dw; assert(count <= regs->num_counters); if (regs->layout & SI_PC_FAKE) return; if (layout_multi == SI_PC_MULTI_BLOCK) { assert(!(regs->layout & SI_PC_REG_REVERSE)); dw = count + regs->num_prelude; if (count >= regs->num_multi) dw += regs->num_multi; radeon_set_uconfig_reg_seq(cs, regs->select0, dw); for (idx = 0; idx < regs->num_prelude; ++idx) radeon_emit(cs, 0); for (idx = 0; idx < MIN2(count, regs->num_multi); ++idx) radeon_emit(cs, selectors[idx] | regs->select_or); if (count < regs->num_multi) { unsigned select1 = regs->select0 + 4 * regs->num_multi; radeon_set_uconfig_reg_seq(cs, select1, count); } for (idx = 0; idx < MIN2(count, regs->num_multi); ++idx) radeon_emit(cs, 0); if (count > regs->num_multi) { for (idx = regs->num_multi; idx < count; ++idx) radeon_emit(cs, selectors[idx] | regs->select_or); } } else if (layout_multi == SI_PC_MULTI_TAIL) { unsigned select1, select1_count; assert(!(regs->layout & SI_PC_REG_REVERSE)); radeon_set_uconfig_reg_seq(cs, regs->select0, count + regs->num_prelude); for (idx = 0; idx < regs->num_prelude; ++idx) radeon_emit(cs, 0); for (idx = 0; idx < count; ++idx) radeon_emit(cs, selectors[idx] | regs->select_or); select1 = regs->select0 + 4 * regs->num_counters; select1_count = MIN2(count, regs->num_multi); radeon_set_uconfig_reg_seq(cs, select1, select1_count); for (idx = 0; idx < select1_count; ++idx) radeon_emit(cs, 0); } else if (layout_multi == SI_PC_MULTI_CUSTOM) { unsigned *reg = regs->select; for (idx = 0; idx < count; ++idx) { radeon_set_uconfig_reg(cs, *reg++, selectors[idx] | regs->select_or); if (idx < regs->num_multi) radeon_set_uconfig_reg(cs, *reg++, 0); } } else { assert(layout_multi == SI_PC_MULTI_ALTERNATE); unsigned reg_base = regs->select0; unsigned reg_count = count + MIN2(count, regs->num_multi); reg_count += regs->num_prelude; if (!(regs->layout & SI_PC_REG_REVERSE)) { radeon_set_uconfig_reg_seq(cs, reg_base, reg_count); for (idx = 0; idx < regs->num_prelude; ++idx) radeon_emit(cs, 0); for (idx = 0; idx < count; ++idx) { radeon_emit(cs, selectors[idx] | regs->select_or); if (idx < regs->num_multi) radeon_emit(cs, 0); } } else { reg_base -= (reg_count - 1) * 4; radeon_set_uconfig_reg_seq(cs, reg_base, reg_count); for (idx = count; idx > 0; --idx) { if (idx <= regs->num_multi) radeon_emit(cs, 0); radeon_emit(cs, selectors[idx - 1] | regs->select_or); } for (idx = 0; idx < regs->num_prelude; ++idx) radeon_emit(cs, 0); } } } static void si_pc_emit_start(struct r600_common_context *ctx, struct r600_resource *buffer, uint64_t va) { struct radeon_winsys_cs *cs = ctx->gfx.cs; radeon_add_to_buffer_list(ctx, &ctx->gfx, buffer, RADEON_USAGE_WRITE, RADEON_PRIO_QUERY); radeon_emit(cs, PKT3(PKT3_COPY_DATA, 4, 0)); radeon_emit(cs, COPY_DATA_SRC_SEL(COPY_DATA_IMM) | COPY_DATA_DST_SEL(COPY_DATA_MEM)); radeon_emit(cs, 1); /* immediate */ radeon_emit(cs, 0); /* unused */ radeon_emit(cs, va); radeon_emit(cs, va >> 32); radeon_set_uconfig_reg(cs, R_036020_CP_PERFMON_CNTL, S_036020_PERFMON_STATE(V_036020_DISABLE_AND_RESET)); radeon_emit(cs, PKT3(PKT3_EVENT_WRITE, 0, 0)); radeon_emit(cs, EVENT_TYPE(V_028A90_PERFCOUNTER_START) | EVENT_INDEX(0)); radeon_set_uconfig_reg(cs, R_036020_CP_PERFMON_CNTL, S_036020_PERFMON_STATE(V_036020_START_COUNTING)); } /* Note: The buffer was already added in si_pc_emit_start, so we don't have to * do it again in here. */ static void si_pc_emit_stop(struct r600_common_context *ctx, struct r600_resource *buffer, uint64_t va) { struct radeon_winsys_cs *cs = ctx->gfx.cs; si_gfx_write_event_eop(ctx, V_028A90_BOTTOM_OF_PIPE_TS, 0, EOP_DATA_SEL_VALUE_32BIT, buffer, va, 0, R600_NOT_QUERY); si_gfx_wait_fence(ctx, va, 0, 0xffffffff); radeon_emit(cs, PKT3(PKT3_EVENT_WRITE, 0, 0)); radeon_emit(cs, EVENT_TYPE(V_028A90_PERFCOUNTER_SAMPLE) | EVENT_INDEX(0)); radeon_emit(cs, PKT3(PKT3_EVENT_WRITE, 0, 0)); radeon_emit(cs, EVENT_TYPE(V_028A90_PERFCOUNTER_STOP) | EVENT_INDEX(0)); radeon_set_uconfig_reg(cs, R_036020_CP_PERFMON_CNTL, S_036020_PERFMON_STATE(V_036020_STOP_COUNTING) | S_036020_PERFMON_SAMPLE_ENABLE(1)); } static void si_pc_emit_read(struct r600_common_context *ctx, struct r600_perfcounter_block *group, unsigned count, unsigned *selectors, struct r600_resource *buffer, uint64_t va) { struct si_pc_block *sigroup = (struct si_pc_block *)group->data; struct si_pc_block_base *regs = sigroup->b; struct radeon_winsys_cs *cs = ctx->gfx.cs; unsigned idx; unsigned reg = regs->counter0_lo; unsigned reg_delta = 8; if (!(regs->layout & SI_PC_FAKE)) { if (regs->layout & SI_PC_REG_REVERSE) reg_delta = -reg_delta; for (idx = 0; idx < count; ++idx) { if (regs->counters) reg = regs->counters[idx]; radeon_emit(cs, PKT3(PKT3_COPY_DATA, 4, 0)); radeon_emit(cs, COPY_DATA_SRC_SEL(COPY_DATA_PERF) | COPY_DATA_DST_SEL(COPY_DATA_MEM) | COPY_DATA_COUNT_SEL); /* 64 bits */ radeon_emit(cs, reg >> 2); radeon_emit(cs, 0); /* unused */ radeon_emit(cs, va); radeon_emit(cs, va >> 32); va += sizeof(uint64_t); reg += reg_delta; } } else { for (idx = 0; idx < count; ++idx) { radeon_emit(cs, PKT3(PKT3_COPY_DATA, 4, 0)); radeon_emit(cs, COPY_DATA_SRC_SEL(COPY_DATA_IMM) | COPY_DATA_DST_SEL(COPY_DATA_MEM) | COPY_DATA_COUNT_SEL); radeon_emit(cs, 0); /* immediate */ radeon_emit(cs, 0); radeon_emit(cs, va); radeon_emit(cs, va >> 32); va += sizeof(uint64_t); } } } static void si_pc_cleanup(struct r600_common_screen *rscreen) { si_perfcounters_do_destroy(rscreen->perfcounters); rscreen->perfcounters = NULL; } void si_init_perfcounters(struct si_screen *screen) { struct r600_perfcounters *pc; struct si_pc_block *blocks; unsigned num_blocks; unsigned i; switch (screen->b.chip_class) { case CIK: blocks = groups_CIK; num_blocks = ARRAY_SIZE(groups_CIK); break; case VI: blocks = groups_VI; num_blocks = ARRAY_SIZE(groups_VI); break; case GFX9: blocks = groups_gfx9; num_blocks = ARRAY_SIZE(groups_gfx9); break; case SI: default: return; /* not implemented */ } if (screen->b.info.max_sh_per_se != 1) { /* This should not happen on non-SI chips. */ fprintf(stderr, "si_init_perfcounters: max_sh_per_se = %d not " "supported (inaccurate performance counters)\n", screen->b.info.max_sh_per_se); } pc = CALLOC_STRUCT(r600_perfcounters); if (!pc) return; pc->num_start_cs_dwords = 14; pc->num_stop_cs_dwords = 14 + si_gfx_write_fence_dwords(&screen->b); pc->num_instance_cs_dwords = 3; pc->num_shaders_cs_dwords = 4; pc->num_shader_types = ARRAY_SIZE(si_pc_shader_type_bits); pc->shader_type_suffixes = si_pc_shader_type_suffixes; pc->shader_type_bits = si_pc_shader_type_bits; pc->get_size = si_pc_get_size; pc->emit_instance = si_pc_emit_instance; pc->emit_shaders = si_pc_emit_shaders; pc->emit_select = si_pc_emit_select; pc->emit_start = si_pc_emit_start; pc->emit_stop = si_pc_emit_stop; pc->emit_read = si_pc_emit_read; pc->cleanup = si_pc_cleanup; if (!si_perfcounters_init(pc, num_blocks)) goto error; for (i = 0; i < num_blocks; ++i) { struct si_pc_block *block = &blocks[i]; unsigned instances = block->instances; if (!strcmp(block->b->name, "IA")) { if (screen->b.info.max_se > 2) instances = 2; } si_perfcounters_add_block(&screen->b, pc, block->b->name, block->b->flags, block->b->num_counters, block->selectors, instances, block); } screen->b.perfcounters = pc; return; error: si_perfcounters_do_destroy(pc); }