/* * Copyright 2015 Samuel Pitoiset * * 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 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. */ #define NV50_PUSH_EXPLICIT_SPACE_CHECKING #include "nv50/nv50_context.h" #include "nv50/nv50_query_hw_sm.h" #include "nv_object.xml.h" #include "nv50/nv50_compute.xml.h" /* === PERFORMANCE MONITORING COUNTERS for NV84+ === */ /* NOTE: intentionally using the same names as NV */ static const char *nv50_hw_sm_query_names[] = { "branch", "divergent_branch", "instructions", "prof_trigger_00", "prof_trigger_01", "prof_trigger_02", "prof_trigger_03", "prof_trigger_04", "prof_trigger_05", "prof_trigger_06", "prof_trigger_07", "sm_cta_launched", "warp_serialize", }; static const uint64_t nv50_read_hw_sm_counters_code[] = { /* and b32 $r0 $r0 0x0000ffff * add b32 $c0 $r0 $r0 $r0 * (lg $c0) ret * mov $r0 $pm0 * mov $r1 $pm1 * mov $r2 $pm2 * mov $r3 $pm3 * mov $r4 $physid * ld $r5 b32 s[0x10] * ld $r6 b32 s[0x14] * and b32 $r4 $r4 0x000f0000 * shr u32 $r4 $r4 0x10 * mul $r4 u24 $r4 0x14 * add b32 $r5 $r5 $r4 * st b32 g15[$r5] $r0 * add b32 $r5 $r5 0x04 * st b32 g15[$r5] $r1 * add b32 $r5 $r5 0x04 * st b32 g15[$r5] $r2 * add b32 $r5 $r5 0x04 * st b32 g15[$r5] $r3 * add b32 $r5 $r5 0x04 * exit st b32 g15[$r5] $r6 */ 0x00000fffd03f0001ULL, 0x040007c020000001ULL, 0x0000028030000003ULL, 0x6001078000000001ULL, 0x6001478000000005ULL, 0x6001878000000009ULL, 0x6001c7800000000dULL, 0x6000078000000011ULL, 0x4400c78010000815ULL, 0x4400c78010000a19ULL, 0x0000f003d0000811ULL, 0xe410078030100811ULL, 0x0000000340540811ULL, 0x0401078020000a15ULL, 0xa0c00780d00f0a01ULL, 0x0000000320048a15ULL, 0xa0c00780d00f0a05ULL, 0x0000000320048a15ULL, 0xa0c00780d00f0a09ULL, 0x0000000320048a15ULL, 0xa0c00780d00f0a0dULL, 0x0000000320048a15ULL, 0xa0c00781d00f0a19ULL, }; struct nv50_hw_sm_counter_cfg { uint32_t mode : 4; /* LOGOP, LOGOP_PULSE */ uint32_t unit : 8; /* UNK[0-5] */ uint32_t sig : 8; /* signal selection */ }; struct nv50_hw_sm_query_cfg { struct nv50_hw_sm_counter_cfg ctr[4]; uint8_t num_counters; }; #define _Q(n, m, u, s) [NV50_HW_SM_QUERY_##n] = { { { NV50_COMPUTE_MP_PM_CONTROL_MODE_##m, NV50_COMPUTE_MP_PM_CONTROL_UNIT_##u, s, }, {}, {}, {} }, 1 } /* ==== Compute capability 1.1 (G84+) ==== */ static const struct nv50_hw_sm_query_cfg sm11_hw_sm_queries[] = { _Q(BRANCH, LOGOP, UNK4, 0x02), _Q(DIVERGENT_BRANCH, LOGOP, UNK4, 0x09), _Q(INSTRUCTIONS, LOGOP, UNK4, 0x04), _Q(PROF_TRIGGER_0, LOGOP, UNK1, 0x26), _Q(PROF_TRIGGER_1, LOGOP, UNK1, 0x27), _Q(PROF_TRIGGER_2, LOGOP, UNK1, 0x28), _Q(PROF_TRIGGER_3, LOGOP, UNK1, 0x29), _Q(PROF_TRIGGER_4, LOGOP, UNK1, 0x2a), _Q(PROF_TRIGGER_5, LOGOP, UNK1, 0x2b), _Q(PROF_TRIGGER_6, LOGOP, UNK1, 0x2c), _Q(PROF_TRIGGER_7, LOGOP, UNK1, 0x2d), _Q(SM_CTA_LAUNCHED, LOGOP, UNK1, 0x33), _Q(WARP_SERIALIZE, LOGOP, UNK0, 0x0b), }; static inline uint16_t nv50_hw_sm_get_func(uint8_t slot) { switch (slot) { case 0: return 0xaaaa; case 1: return 0xcccc; case 2: return 0xf0f0; case 3: return 0xff00; } return 0; } static const struct nv50_hw_sm_query_cfg * nv50_hw_sm_query_get_cfg(struct nv50_context *nv50, struct nv50_hw_query *hq) { struct nv50_query *q = &hq->base; return &sm11_hw_sm_queries[q->type - NV50_HW_SM_QUERY(0)]; } static void nv50_hw_sm_destroy_query(struct nv50_context *nv50, struct nv50_hw_query *hq) { struct nv50_query *q = &hq->base; nv50_hw_query_allocate(nv50, q, 0); nouveau_fence_ref(NULL, &hq->fence); FREE(hq); } static boolean nv50_hw_sm_begin_query(struct nv50_context *nv50, struct nv50_hw_query *hq) { struct nv50_screen *screen = nv50->screen; struct nouveau_pushbuf *push = nv50->base.pushbuf; struct nv50_hw_sm_query *hsq = nv50_hw_sm_query(hq); const struct nv50_hw_sm_query_cfg *cfg; uint16_t func; int i, c; cfg = nv50_hw_sm_query_get_cfg(nv50, hq); /* check if we have enough free counter slots */ if (screen->pm.num_hw_sm_active + cfg->num_counters > 4) { NOUVEAU_ERR("Not enough free MP counter slots !\n"); return false; } assert(cfg->num_counters <= 4); PUSH_SPACE(push, 4 * 4); /* set sequence field to 0 (used to check if result is available) */ for (i = 0; i < screen->MPsInTP; ++i) { const unsigned b = (0x14 / 4) * i; hq->data[b + 16] = 0; } hq->sequence++; for (i = 0; i < cfg->num_counters; i++) { screen->pm.num_hw_sm_active++; /* find free counter slots */ for (c = 0; c < 4; ++c) { if (!screen->pm.mp_counter[c]) { hsq->ctr[i] = c; screen->pm.mp_counter[c] = hsq; break; } } /* select func to aggregate counters */ func = nv50_hw_sm_get_func(c); /* configure and reset the counter(s) */ BEGIN_NV04(push, NV50_COMPUTE(MP_PM_CONTROL(c)), 1); PUSH_DATA (push, (cfg->ctr[i].sig << 24) | (func << 8) | cfg->ctr[i].unit | cfg->ctr[i].mode); BEGIN_NV04(push, NV50_COMPUTE(MP_PM_SET(c)), 1); PUSH_DATA (push, 0); } return true; } static void nv50_hw_sm_end_query(struct nv50_context *nv50, struct nv50_hw_query *hq) { struct nv50_screen *screen = nv50->screen; struct pipe_context *pipe = &nv50->base.pipe; struct nouveau_pushbuf *push = nv50->base.pushbuf; struct nv50_hw_sm_query *hsq = nv50_hw_sm_query(hq); uint32_t mask; uint32_t input[3]; const uint block[3] = { 32, 1, 1 }; const uint grid[3] = { screen->MPsInTP, screen->TPs, 1 }; int c; if (unlikely(!screen->pm.prog)) { struct nv50_program *prog = CALLOC_STRUCT(nv50_program); prog->type = PIPE_SHADER_COMPUTE; prog->translated = true; prog->max_gpr = 7; prog->parm_size = 8; prog->code = (uint32_t *)nv50_read_hw_sm_counters_code; prog->code_size = sizeof(nv50_read_hw_sm_counters_code); screen->pm.prog = prog; } /* disable all counting */ PUSH_SPACE(push, 8); for (c = 0; c < 4; c++) { if (screen->pm.mp_counter[c]) { BEGIN_NV04(push, NV50_COMPUTE(MP_PM_CONTROL(c)), 1); PUSH_DATA (push, 0); } } /* release counters for this query */ for (c = 0; c < 4; c++) { if (screen->pm.mp_counter[c] == hsq) { screen->pm.num_hw_sm_active--; screen->pm.mp_counter[c] = NULL; } } BCTX_REFN_bo(nv50->bufctx_cp, CP_QUERY, NOUVEAU_BO_GART | NOUVEAU_BO_WR, hq->bo); PUSH_SPACE(push, 2); BEGIN_NV04(push, SUBC_COMPUTE(NV50_GRAPH_SERIALIZE), 1); PUSH_DATA (push, 0); pipe->bind_compute_state(pipe, screen->pm.prog); input[0] = hq->bo->offset + hq->base_offset; input[1] = hq->sequence; pipe->launch_grid(pipe, block, grid, 0, input); nouveau_bufctx_reset(nv50->bufctx_cp, NV50_BIND_CP_QUERY); /* re-active other counters */ PUSH_SPACE(push, 8); mask = 0; for (c = 0; c < 4; c++) { const struct nv50_hw_sm_query_cfg *cfg; unsigned i; hsq = screen->pm.mp_counter[c]; if (!hsq) continue; cfg = nv50_hw_sm_query_get_cfg(nv50, &hsq->base); for (i = 0; i < cfg->num_counters; i++) { uint16_t func; if (mask & (1 << hsq->ctr[i])) break; mask |= 1 << hsq->ctr[i]; func = nv50_hw_sm_get_func(hsq->ctr[i]); BEGIN_NV04(push, NV50_COMPUTE(MP_PM_CONTROL(hsq->ctr[i])), 1); PUSH_DATA (push, (cfg->ctr[i].sig << 24) | (func << 8) | cfg->ctr[i].unit | cfg->ctr[i].mode); } } } static inline bool nv50_hw_sm_query_read_data(uint32_t count[32][4], struct nv50_context *nv50, bool wait, struct nv50_hw_query *hq, const struct nv50_hw_sm_query_cfg *cfg, unsigned mp_count) { struct nv50_hw_sm_query *hsq = nv50_hw_sm_query(hq); unsigned p, c; for (p = 0; p < mp_count; ++p) { const unsigned b = (0x14 / 4) * p; for (c = 0; c < cfg->num_counters; ++c) { if (hq->data[b + 4] != hq->sequence) { if (!wait) return false; if (nouveau_bo_wait(hq->bo, NOUVEAU_BO_RD, nv50->base.client)) return false; } count[p][c] = hq->data[b + hsq->ctr[c]]; } } return true; } static boolean nv50_hw_sm_get_query_result(struct nv50_context *nv50, struct nv50_hw_query *hq, boolean wait, union pipe_query_result *result) { uint32_t count[32][4]; uint64_t value = 0; unsigned mp_count = MIN2(nv50->screen->MPsInTP, 32); unsigned p, c; const struct nv50_hw_sm_query_cfg *cfg; bool ret; cfg = nv50_hw_sm_query_get_cfg(nv50, hq); ret = nv50_hw_sm_query_read_data(count, nv50, wait, hq, cfg, mp_count); if (!ret) return false; for (c = 0; c < cfg->num_counters; ++c) for (p = 0; p < mp_count; ++p) value += count[p][c]; /* We only count a single TP, and simply multiply by the total number of * TPs to compute result over all TPs. This is inaccurate, but enough! */ value *= nv50->screen->TPs; *(uint64_t *)result = value; return true; } static const struct nv50_hw_query_funcs hw_sm_query_funcs = { .destroy_query = nv50_hw_sm_destroy_query, .begin_query = nv50_hw_sm_begin_query, .end_query = nv50_hw_sm_end_query, .get_query_result = nv50_hw_sm_get_query_result, }; struct nv50_hw_query * nv50_hw_sm_create_query(struct nv50_context *nv50, unsigned type) { struct nv50_hw_sm_query *hsq; struct nv50_hw_query *hq; unsigned space; if (type < NV50_HW_SM_QUERY(0) || type > NV50_HW_SM_QUERY_LAST) return NULL; hsq = CALLOC_STRUCT(nv50_hw_sm_query); if (!hsq) return NULL; hq = &hsq->base; hq->funcs = &hw_sm_query_funcs; hq->base.type = type; /* * for each MP: * [00] = MP.C0 * [04] = MP.C1 * [08] = MP.C2 * [0c] = MP.C3 * [10] = MP.sequence */ space = (4 + 1) * nv50->screen->MPsInTP * sizeof(uint32_t); if (!nv50_hw_query_allocate(nv50, &hq->base, space)) { FREE(hq); return NULL; } return hq; } int nv50_hw_sm_get_driver_query_info(struct nv50_screen *screen, unsigned id, struct pipe_driver_query_info *info) { int count = 0; if (screen->compute) if (screen->base.class_3d >= NV84_3D_CLASS) count += NV50_HW_SM_QUERY_COUNT; if (!info) return count; if (id < count) { if (screen->compute) { if (screen->base.class_3d >= NV84_3D_CLASS) { info->name = nv50_hw_sm_query_names[id]; info->query_type = NV50_HW_SM_QUERY(id); info->group_id = NV50_HW_SM_QUERY_GROUP; return 1; } } } return 0; }