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|
/*
* Copyright 2015 Advanced Micro Devices, Inc.
* All Rights Reserved.
*
* 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 "si_build_pm4.h"
#include "si_query.h"
#include "util/u_memory.h"
#include "ac_perfcounter.h"
struct si_query_group {
struct si_query_group *next;
struct ac_pc_block *block;
unsigned sub_gid; /* only used during init */
unsigned result_base; /* only used during init */
int se;
int instance;
unsigned num_counters;
unsigned selectors[AC_QUERY_MAX_COUNTERS];
};
struct si_query_counter {
unsigned base;
unsigned qwords;
unsigned stride; /* in uint64s */
};
struct si_query_pc {
struct si_query b;
struct si_query_buffer buffer;
/* Size of the results in memory, in bytes. */
unsigned result_size;
unsigned shaders;
unsigned num_counters;
struct si_query_counter *counters;
struct si_query_group *groups;
};
static void si_pc_emit_instance(struct si_context *sctx, int se, int instance)
{
struct radeon_cmdbuf *cs = &sctx->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 (sctx->chip_class >= GFX10) {
/* TODO: Expose counters from each shader array separately if needed. */
value |= S_030800_SA_BROADCAST_WRITES(1);
}
if (instance >= 0) {
value |= S_030800_INSTANCE_INDEX(instance);
} else {
value |= S_030800_INSTANCE_BROADCAST_WRITES(1);
}
radeon_begin(cs);
radeon_set_uconfig_reg(R_030800_GRBM_GFX_INDEX, value);
radeon_end();
}
static void si_pc_emit_shaders(struct si_context *sctx, unsigned shaders)
{
struct radeon_cmdbuf *cs = &sctx->gfx_cs;
radeon_begin(cs);
radeon_set_uconfig_reg_seq(R_036780_SQ_PERFCOUNTER_CTRL, 2, false);
radeon_emit(shaders & 0x7f);
radeon_emit(0xffffffff);
radeon_end();
}
static void si_pc_emit_select(struct si_context *sctx, struct ac_pc_block *block, unsigned count,
unsigned *selectors)
{
struct ac_pc_block_base *regs = block->b->b;
struct radeon_cmdbuf *cs = &sctx->gfx_cs;
unsigned idx;
assert(count <= regs->num_counters);
/* Fake counters. */
if (!regs->select0)
return;
radeon_begin(cs);
for (idx = 0; idx < count; ++idx) {
radeon_set_uconfig_reg_seq(regs->select0[idx], 1, false);
radeon_emit(selectors[idx] | regs->select_or);
}
for (idx = 0; idx < regs->num_spm_counters; idx++) {
radeon_set_uconfig_reg_seq(regs->select1[idx], 1, false);
radeon_emit(0);
}
radeon_end();
}
static void si_pc_emit_start(struct si_context *sctx, struct si_resource *buffer, uint64_t va)
{
struct radeon_cmdbuf *cs = &sctx->gfx_cs;
si_cp_copy_data(sctx, &sctx->gfx_cs, COPY_DATA_DST_MEM, buffer, va - buffer->gpu_address,
COPY_DATA_IMM, NULL, 1);
radeon_begin(cs);
radeon_set_uconfig_reg(R_036020_CP_PERFMON_CNTL,
S_036020_PERFMON_STATE(V_036020_CP_PERFMON_STATE_DISABLE_AND_RESET));
radeon_emit(PKT3(PKT3_EVENT_WRITE, 0, 0));
radeon_emit(EVENT_TYPE(V_028A90_PERFCOUNTER_START) | EVENT_INDEX(0));
radeon_set_uconfig_reg(R_036020_CP_PERFMON_CNTL,
S_036020_PERFMON_STATE(V_036020_CP_PERFMON_STATE_START_COUNTING));
radeon_end();
}
/* 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 si_context *sctx, struct si_resource *buffer, uint64_t va)
{
struct radeon_cmdbuf *cs = &sctx->gfx_cs;
si_cp_release_mem(sctx, cs, V_028A90_BOTTOM_OF_PIPE_TS, 0, EOP_DST_SEL_MEM, EOP_INT_SEL_NONE,
EOP_DATA_SEL_VALUE_32BIT, buffer, va, 0, SI_NOT_QUERY);
si_cp_wait_mem(sctx, cs, va, 0, 0xffffffff, WAIT_REG_MEM_EQUAL);
radeon_begin(cs);
radeon_emit(PKT3(PKT3_EVENT_WRITE, 0, 0));
radeon_emit(EVENT_TYPE(V_028A90_PERFCOUNTER_SAMPLE) | EVENT_INDEX(0));
radeon_emit(PKT3(PKT3_EVENT_WRITE, 0, 0));
radeon_emit(EVENT_TYPE(V_028A90_PERFCOUNTER_STOP) | EVENT_INDEX(0));
radeon_set_uconfig_reg(
R_036020_CP_PERFMON_CNTL,
S_036020_PERFMON_STATE(V_036020_CP_PERFMON_STATE_STOP_COUNTING) | S_036020_PERFMON_SAMPLE_ENABLE(1));
radeon_end();
}
static void si_pc_emit_read(struct si_context *sctx, struct ac_pc_block *block, unsigned count,
uint64_t va)
{
struct ac_pc_block_base *regs = block->b->b;
struct radeon_cmdbuf *cs = &sctx->gfx_cs;
unsigned idx;
unsigned reg = regs->counter0_lo;
unsigned reg_delta = 8;
radeon_begin(cs);
if (regs->select0) {
for (idx = 0; idx < count; ++idx) {
if (regs->counters)
reg = regs->counters[idx];
radeon_emit(PKT3(PKT3_COPY_DATA, 4, 0));
radeon_emit(COPY_DATA_SRC_SEL(COPY_DATA_PERF) | COPY_DATA_DST_SEL(COPY_DATA_DST_MEM) |
COPY_DATA_COUNT_SEL); /* 64 bits */
radeon_emit(reg >> 2);
radeon_emit(0); /* unused */
radeon_emit(va);
radeon_emit(va >> 32);
va += sizeof(uint64_t);
reg += reg_delta;
}
} else {
/* Fake counters. */
for (idx = 0; idx < count; ++idx) {
radeon_emit(PKT3(PKT3_COPY_DATA, 4, 0));
radeon_emit(COPY_DATA_SRC_SEL(COPY_DATA_IMM) | COPY_DATA_DST_SEL(COPY_DATA_DST_MEM) |
COPY_DATA_COUNT_SEL);
radeon_emit(0); /* immediate */
radeon_emit(0);
radeon_emit(va);
radeon_emit(va >> 32);
va += sizeof(uint64_t);
}
}
radeon_end();
}
static void si_pc_query_destroy(struct si_context *sctx, struct si_query *squery)
{
struct si_query_pc *query = (struct si_query_pc *)squery;
while (query->groups) {
struct si_query_group *group = query->groups;
query->groups = group->next;
FREE(group);
}
FREE(query->counters);
si_query_buffer_destroy(sctx->screen, &query->buffer);
FREE(query);
}
void si_inhibit_clockgating(struct si_context *sctx, struct radeon_cmdbuf *cs, bool inhibit)
{
radeon_begin(&sctx->gfx_cs);
if (sctx->chip_class >= GFX10) {
radeon_set_uconfig_reg(R_037390_RLC_PERFMON_CLK_CNTL,
S_037390_PERFMON_CLOCK_STATE(inhibit));
} else if (sctx->chip_class >= GFX8) {
radeon_set_uconfig_reg(R_0372FC_RLC_PERFMON_CLK_CNTL,
S_0372FC_PERFMON_CLOCK_STATE(inhibit));
}
radeon_end();
}
static void si_pc_query_resume(struct si_context *sctx, struct si_query *squery)
/*
struct si_query_hw *hwquery,
struct si_resource *buffer, uint64_t va)*/
{
struct si_query_pc *query = (struct si_query_pc *)squery;
int current_se = -1;
int current_instance = -1;
if (!si_query_buffer_alloc(sctx, &query->buffer, NULL, query->result_size))
return;
si_need_gfx_cs_space(sctx, 0);
if (query->shaders)
si_pc_emit_shaders(sctx, query->shaders);
si_inhibit_clockgating(sctx, &sctx->gfx_cs, true);
for (struct si_query_group *group = query->groups; group; group = group->next) {
struct ac_pc_block *block = group->block;
if (group->se != current_se || group->instance != current_instance) {
current_se = group->se;
current_instance = group->instance;
si_pc_emit_instance(sctx, group->se, group->instance);
}
si_pc_emit_select(sctx, block, group->num_counters, group->selectors);
}
if (current_se != -1 || current_instance != -1)
si_pc_emit_instance(sctx, -1, -1);
uint64_t va = query->buffer.buf->gpu_address + query->buffer.results_end;
si_pc_emit_start(sctx, query->buffer.buf, va);
}
static void si_pc_query_suspend(struct si_context *sctx, struct si_query *squery)
{
struct si_query_pc *query = (struct si_query_pc *)squery;
if (!query->buffer.buf)
return;
uint64_t va = query->buffer.buf->gpu_address + query->buffer.results_end;
query->buffer.results_end += query->result_size;
si_pc_emit_stop(sctx, query->buffer.buf, va);
for (struct si_query_group *group = query->groups; group; group = group->next) {
struct ac_pc_block *block = group->block;
unsigned se = group->se >= 0 ? group->se : 0;
unsigned se_end = se + 1;
if ((block->b->b->flags & AC_PC_BLOCK_SE) && (group->se < 0))
se_end = sctx->screen->info.max_se;
do {
unsigned instance = group->instance >= 0 ? group->instance : 0;
do {
si_pc_emit_instance(sctx, se, instance);
si_pc_emit_read(sctx, block, group->num_counters, va);
va += sizeof(uint64_t) * group->num_counters;
} while (group->instance < 0 && ++instance < block->num_instances);
} while (++se < se_end);
}
si_pc_emit_instance(sctx, -1, -1);
si_inhibit_clockgating(sctx, &sctx->gfx_cs, false);
}
static bool si_pc_query_begin(struct si_context *ctx, struct si_query *squery)
{
struct si_query_pc *query = (struct si_query_pc *)squery;
si_query_buffer_reset(ctx, &query->buffer);
list_addtail(&query->b.active_list, &ctx->active_queries);
ctx->num_cs_dw_queries_suspend += query->b.num_cs_dw_suspend;
si_pc_query_resume(ctx, squery);
return true;
}
static bool si_pc_query_end(struct si_context *ctx, struct si_query *squery)
{
struct si_query_pc *query = (struct si_query_pc *)squery;
si_pc_query_suspend(ctx, squery);
list_del(&squery->active_list);
ctx->num_cs_dw_queries_suspend -= squery->num_cs_dw_suspend;
return query->buffer.buf != NULL;
}
static void si_pc_query_add_result(struct si_query_pc *query, void *buffer,
union pipe_query_result *result)
{
uint64_t *results = buffer;
unsigned i, j;
for (i = 0; i < query->num_counters; ++i) {
struct si_query_counter *counter = &query->counters[i];
for (j = 0; j < counter->qwords; ++j) {
uint32_t value = results[counter->base + j * counter->stride];
result->batch[i].u64 += value;
}
}
}
static bool si_pc_query_get_result(struct si_context *sctx, struct si_query *squery, bool wait,
union pipe_query_result *result)
{
struct si_query_pc *query = (struct si_query_pc *)squery;
memset(result, 0, sizeof(result->batch[0]) * query->num_counters);
for (struct si_query_buffer *qbuf = &query->buffer; qbuf; qbuf = qbuf->previous) {
unsigned usage = PIPE_MAP_READ | (wait ? 0 : PIPE_MAP_DONTBLOCK);
unsigned results_base = 0;
void *map;
if (squery->b.flushed)
map = sctx->ws->buffer_map(sctx->ws, qbuf->buf->buf, NULL, usage);
else
map = si_buffer_map(sctx, qbuf->buf, usage);
if (!map)
return false;
while (results_base != qbuf->results_end) {
si_pc_query_add_result(query, map + results_base, result);
results_base += query->result_size;
}
}
return true;
}
static const struct si_query_ops batch_query_ops = {
.destroy = si_pc_query_destroy,
.begin = si_pc_query_begin,
.end = si_pc_query_end,
.get_result = si_pc_query_get_result,
.suspend = si_pc_query_suspend,
.resume = si_pc_query_resume,
};
static struct si_query_group *get_group_state(struct si_screen *screen, struct si_query_pc *query,
struct ac_pc_block *block, unsigned sub_gid)
{
struct si_perfcounters *pc = screen->perfcounters;
struct si_query_group *group = query->groups;
while (group) {
if (group->block == block && group->sub_gid == sub_gid)
return group;
group = group->next;
}
group = CALLOC_STRUCT(si_query_group);
if (!group)
return NULL;
group->block = block;
group->sub_gid = sub_gid;
if (block->b->b->flags & AC_PC_BLOCK_SHADER) {
unsigned sub_gids = block->num_instances;
unsigned shader_id;
unsigned shaders;
unsigned query_shaders;
if (ac_pc_block_has_per_se_groups(&pc->base, block))
sub_gids = sub_gids * screen->info.max_se;
shader_id = sub_gid / sub_gids;
sub_gid = sub_gid % sub_gids;
shaders = ac_pc_shader_type_bits[shader_id];
query_shaders = query->shaders & ~AC_PC_SHADERS_WINDOWING;
if (query_shaders && query_shaders != shaders) {
fprintf(stderr, "si_perfcounter: incompatible shader groups\n");
FREE(group);
return NULL;
}
query->shaders = shaders;
}
if (block->b->b->flags & AC_PC_BLOCK_SHADER_WINDOWED && !query->shaders) {
// A non-zero value in query->shaders ensures that the shader
// masking is reset unless the user explicitly requests one.
query->shaders = AC_PC_SHADERS_WINDOWING;
}
if (ac_pc_block_has_per_se_groups(&pc->base, block)) {
group->se = sub_gid / block->num_instances;
sub_gid = sub_gid % block->num_instances;
} else {
group->se = -1;
}
if (ac_pc_block_has_per_instance_groups(&pc->base, block)) {
group->instance = sub_gid;
} else {
group->instance = -1;
}
group->next = query->groups;
query->groups = group;
return group;
}
struct pipe_query *si_create_batch_query(struct pipe_context *ctx, unsigned num_queries,
unsigned *query_types)
{
struct si_screen *screen = (struct si_screen *)ctx->screen;
struct si_perfcounters *pc = screen->perfcounters;
struct ac_pc_block *block;
struct si_query_group *group;
struct si_query_pc *query;
unsigned base_gid, sub_gid, sub_index;
unsigned i, j;
if (!pc)
return NULL;
query = CALLOC_STRUCT(si_query_pc);
if (!query)
return NULL;
query->b.ops = &batch_query_ops;
query->num_counters = num_queries;
/* Collect selectors per group */
for (i = 0; i < num_queries; ++i) {
unsigned sub_gid;
if (query_types[i] < SI_QUERY_FIRST_PERFCOUNTER)
goto error;
block =
ac_lookup_counter(&pc->base, query_types[i] - SI_QUERY_FIRST_PERFCOUNTER, &base_gid, &sub_index);
if (!block)
goto error;
sub_gid = sub_index / block->b->selectors;
sub_index = sub_index % block->b->selectors;
group = get_group_state(screen, query, block, sub_gid);
if (!group)
goto error;
if (group->num_counters >= block->b->b->num_counters) {
fprintf(stderr, "perfcounter group %s: too many selected\n", block->b->b->name);
goto error;
}
group->selectors[group->num_counters] = sub_index;
++group->num_counters;
}
/* Compute result bases and CS size per group */
query->b.num_cs_dw_suspend = pc->num_stop_cs_dwords;
query->b.num_cs_dw_suspend += pc->num_instance_cs_dwords;
i = 0;
for (group = query->groups; group; group = group->next) {
struct ac_pc_block *block = group->block;
unsigned read_dw;
unsigned instances = 1;
if ((block->b->b->flags & AC_PC_BLOCK_SE) && group->se < 0)
instances = screen->info.max_se;
if (group->instance < 0)
instances *= block->num_instances;
group->result_base = i;
query->result_size += sizeof(uint64_t) * instances * group->num_counters;
i += instances * group->num_counters;
read_dw = 6 * group->num_counters;
query->b.num_cs_dw_suspend += instances * read_dw;
query->b.num_cs_dw_suspend += instances * pc->num_instance_cs_dwords;
}
if (query->shaders) {
if (query->shaders == AC_PC_SHADERS_WINDOWING)
query->shaders = 0xffffffff;
}
/* Map user-supplied query array to result indices */
query->counters = CALLOC(num_queries, sizeof(*query->counters));
for (i = 0; i < num_queries; ++i) {
struct si_query_counter *counter = &query->counters[i];
struct ac_pc_block *block;
block =
ac_lookup_counter(&pc->base, query_types[i] - SI_QUERY_FIRST_PERFCOUNTER, &base_gid, &sub_index);
sub_gid = sub_index / block->b->selectors;
sub_index = sub_index % block->b->selectors;
group = get_group_state(screen, query, block, sub_gid);
assert(group != NULL);
for (j = 0; j < group->num_counters; ++j) {
if (group->selectors[j] == sub_index)
break;
}
counter->base = group->result_base + j;
counter->stride = group->num_counters;
counter->qwords = 1;
if ((block->b->b->flags & AC_PC_BLOCK_SE) && group->se < 0)
counter->qwords = screen->info.max_se;
if (group->instance < 0)
counter->qwords *= block->num_instances;
}
return (struct pipe_query *)query;
error:
si_pc_query_destroy((struct si_context *)ctx, &query->b);
return NULL;
}
int si_get_perfcounter_info(struct si_screen *screen, unsigned index,
struct pipe_driver_query_info *info)
{
struct si_perfcounters *pc = screen->perfcounters;
struct ac_pc_block *block;
unsigned base_gid, sub;
if (!pc)
return 0;
if (!info) {
unsigned bid, num_queries = 0;
for (bid = 0; bid < pc->base.num_blocks; ++bid) {
num_queries += pc->base.blocks[bid].b->selectors * pc->base.blocks[bid].num_groups;
}
return num_queries;
}
block = ac_lookup_counter(&pc->base, index, &base_gid, &sub);
if (!block)
return 0;
if (!block->selector_names) {
if (!ac_init_block_names(&screen->info, &pc->base, block))
return 0;
}
info->name = block->selector_names + sub * block->selector_name_stride;
info->query_type = SI_QUERY_FIRST_PERFCOUNTER + index;
info->max_value.u64 = 0;
info->type = PIPE_DRIVER_QUERY_TYPE_UINT64;
info->result_type = PIPE_DRIVER_QUERY_RESULT_TYPE_AVERAGE;
info->group_id = base_gid + sub / block->b->selectors;
info->flags = PIPE_DRIVER_QUERY_FLAG_BATCH;
if (sub > 0 && sub + 1 < block->b->selectors * block->num_groups)
info->flags |= PIPE_DRIVER_QUERY_FLAG_DONT_LIST;
return 1;
}
int si_get_perfcounter_group_info(struct si_screen *screen, unsigned index,
struct pipe_driver_query_group_info *info)
{
struct si_perfcounters *pc = screen->perfcounters;
struct ac_pc_block *block;
if (!pc)
return 0;
if (!info)
return pc->base.num_groups;
block = ac_lookup_group(&pc->base, &index);
if (!block)
return 0;
if (!block->group_names) {
if (!ac_init_block_names(&screen->info, &pc->base, block))
return 0;
}
info->name = block->group_names + index * block->group_name_stride;
info->num_queries = block->b->selectors;
info->max_active_queries = block->b->b->num_counters;
return 1;
}
void si_destroy_perfcounters(struct si_screen *screen)
{
struct si_perfcounters *pc = screen->perfcounters;
if (!pc)
return;
ac_destroy_perfcounters(&pc->base);
FREE(pc);
screen->perfcounters = NULL;
}
void si_init_perfcounters(struct si_screen *screen)
{
bool separate_se, separate_instance;
separate_se = debug_get_bool_option("RADEON_PC_SEPARATE_SE", false);
separate_instance = debug_get_bool_option("RADEON_PC_SEPARATE_INSTANCE", false);
screen->perfcounters = CALLOC_STRUCT(si_perfcounters);
if (!screen->perfcounters)
return;
screen->perfcounters->num_stop_cs_dwords = 14 + si_cp_write_fence_dwords(screen);
screen->perfcounters->num_instance_cs_dwords = 3;
if (!ac_init_perfcounters(&screen->info, separate_se, separate_instance,
&screen->perfcounters->base)) {
si_destroy_perfcounters(screen);
}
}
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