/************************************************************************** * * Copyright 2015 Advanced Micro Devices, Inc. * Copyright 2008 VMware, 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 * on the rights to use, copy, modify, merge, publish, distribute, sub * license, 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 NON-INFRINGEMENT. IN NO EVENT SHALL * THE AUTHOR(S) AND/OR THEIR SUPPLIERS 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 "dd_pipe.h" #include "util/u_dump.h" #include "util/u_format.h" #include "util/u_framebuffer.h" #include "util/u_helpers.h" #include "util/u_inlines.h" #include "util/u_memory.h" #include "tgsi/tgsi_parse.h" #include "tgsi/tgsi_scan.h" #include "os/os_time.h" #include static FILE * dd_get_file_stream(struct dd_screen *dscreen, unsigned apitrace_call_number) { struct pipe_screen *screen = dscreen->screen; FILE *f = dd_get_debug_file(dscreen->verbose); if (!f) return NULL; fprintf(f, "Driver vendor: %s\n", screen->get_vendor(screen)); fprintf(f, "Device vendor: %s\n", screen->get_device_vendor(screen)); fprintf(f, "Device name: %s\n\n", screen->get_name(screen)); if (apitrace_call_number) fprintf(f, "Last apitrace call: %u\n\n", apitrace_call_number); return f; } static void dd_dump_dmesg(FILE *f) { char line[2000]; FILE *p = popen("dmesg | tail -n60", "r"); if (!p) return; fprintf(f, "\nLast 60 lines of dmesg:\n\n"); while (fgets(line, sizeof(line), p)) fputs(line, f); pclose(p); } static void dd_close_file_stream(FILE *f) { fclose(f); } static unsigned dd_num_active_viewports(struct dd_draw_state *dstate) { struct tgsi_shader_info info; const struct tgsi_token *tokens; if (dstate->shaders[PIPE_SHADER_GEOMETRY]) tokens = dstate->shaders[PIPE_SHADER_GEOMETRY]->state.shader.tokens; else if (dstate->shaders[PIPE_SHADER_TESS_EVAL]) tokens = dstate->shaders[PIPE_SHADER_TESS_EVAL]->state.shader.tokens; else if (dstate->shaders[PIPE_SHADER_VERTEX]) tokens = dstate->shaders[PIPE_SHADER_VERTEX]->state.shader.tokens; else return 1; tgsi_scan_shader(tokens, &info); return info.writes_viewport_index ? PIPE_MAX_VIEWPORTS : 1; } #define COLOR_RESET "\033[0m" #define COLOR_SHADER "\033[1;32m" #define COLOR_STATE "\033[1;33m" #define DUMP(name, var) do { \ fprintf(f, COLOR_STATE #name ": " COLOR_RESET); \ util_dump_##name(f, var); \ fprintf(f, "\n"); \ } while(0) #define DUMP_I(name, var, i) do { \ fprintf(f, COLOR_STATE #name " %i: " COLOR_RESET, i); \ util_dump_##name(f, var); \ fprintf(f, "\n"); \ } while(0) #define DUMP_M(name, var, member) do { \ fprintf(f, " " #member ": "); \ util_dump_##name(f, (var)->member); \ fprintf(f, "\n"); \ } while(0) #define DUMP_M_ADDR(name, var, member) do { \ fprintf(f, " " #member ": "); \ util_dump_##name(f, &(var)->member); \ fprintf(f, "\n"); \ } while(0) static void print_named_value(FILE *f, const char *name, int value) { fprintf(f, COLOR_STATE "%s" COLOR_RESET " = %i\n", name, value); } static void print_named_xvalue(FILE *f, const char *name, int value) { fprintf(f, COLOR_STATE "%s" COLOR_RESET " = 0x%08x\n", name, value); } static void util_dump_uint(FILE *f, unsigned i) { fprintf(f, "%u", i); } static void util_dump_hex(FILE *f, unsigned i) { fprintf(f, "0x%x", i); } static void util_dump_double(FILE *f, double d) { fprintf(f, "%f", d); } static void util_dump_format(FILE *f, enum pipe_format format) { fprintf(f, "%s", util_format_name(format)); } static void util_dump_color_union(FILE *f, const union pipe_color_union *color) { fprintf(f, "{f = {%f, %f, %f, %f}, ui = {%u, %u, %u, %u}", color->f[0], color->f[1], color->f[2], color->f[3], color->ui[0], color->ui[1], color->ui[2], color->ui[3]); } static void util_dump_query(FILE *f, struct dd_query *query) { if (query->type >= PIPE_QUERY_DRIVER_SPECIFIC) fprintf(f, "PIPE_QUERY_DRIVER_SPECIFIC + %i", query->type - PIPE_QUERY_DRIVER_SPECIFIC); else fprintf(f, "%s", util_dump_query_type(query->type, false)); } static void dd_dump_render_condition(struct dd_draw_state *dstate, FILE *f) { if (dstate->render_cond.query) { fprintf(f, "render condition:\n"); DUMP_M(query, &dstate->render_cond, query); DUMP_M(uint, &dstate->render_cond, condition); DUMP_M(uint, &dstate->render_cond, mode); fprintf(f, "\n"); } } static void dd_dump_draw_vbo(struct dd_draw_state *dstate, struct pipe_draw_info *info, FILE *f) { int sh, i; const char *shader_str[PIPE_SHADER_TYPES]; shader_str[PIPE_SHADER_VERTEX] = "VERTEX"; shader_str[PIPE_SHADER_TESS_CTRL] = "TESS_CTRL"; shader_str[PIPE_SHADER_TESS_EVAL] = "TESS_EVAL"; shader_str[PIPE_SHADER_GEOMETRY] = "GEOMETRY"; shader_str[PIPE_SHADER_FRAGMENT] = "FRAGMENT"; shader_str[PIPE_SHADER_COMPUTE] = "COMPUTE"; DUMP(draw_info, info); if (info->indexed) { DUMP(index_buffer, &dstate->index_buffer); if (dstate->index_buffer.buffer) DUMP_M(resource, &dstate->index_buffer, buffer); } if (info->count_from_stream_output) DUMP_M(stream_output_target, info, count_from_stream_output); if (info->indirect) DUMP_M(resource, info, indirect); fprintf(f, "\n"); /* TODO: dump active queries */ dd_dump_render_condition(dstate, f); for (i = 0; i < PIPE_MAX_ATTRIBS; i++) if (dstate->vertex_buffers[i].buffer || dstate->vertex_buffers[i].user_buffer) { DUMP_I(vertex_buffer, &dstate->vertex_buffers[i], i); if (dstate->vertex_buffers[i].buffer) DUMP_M(resource, &dstate->vertex_buffers[i], buffer); } if (dstate->velems) { print_named_value(f, "num vertex elements", dstate->velems->state.velems.count); for (i = 0; i < dstate->velems->state.velems.count; i++) { fprintf(f, " "); DUMP_I(vertex_element, &dstate->velems->state.velems.velems[i], i); } } print_named_value(f, "num stream output targets", dstate->num_so_targets); for (i = 0; i < dstate->num_so_targets; i++) if (dstate->so_targets[i]) { DUMP_I(stream_output_target, dstate->so_targets[i], i); DUMP_M(resource, dstate->so_targets[i], buffer); fprintf(f, " offset = %i\n", dstate->so_offsets[i]); } fprintf(f, "\n"); for (sh = 0; sh < PIPE_SHADER_TYPES; sh++) { if (sh == PIPE_SHADER_COMPUTE) continue; if (sh == PIPE_SHADER_TESS_CTRL && !dstate->shaders[PIPE_SHADER_TESS_CTRL] && dstate->shaders[PIPE_SHADER_TESS_EVAL]) fprintf(f, "tess_state: {default_outer_level = {%f, %f, %f, %f}, " "default_inner_level = {%f, %f}}\n", dstate->tess_default_levels[0], dstate->tess_default_levels[1], dstate->tess_default_levels[2], dstate->tess_default_levels[3], dstate->tess_default_levels[4], dstate->tess_default_levels[5]); if (sh == PIPE_SHADER_FRAGMENT) if (dstate->rs) { unsigned num_viewports = dd_num_active_viewports(dstate); if (dstate->rs->state.rs.clip_plane_enable) DUMP(clip_state, &dstate->clip_state); for (i = 0; i < num_viewports; i++) DUMP_I(viewport_state, &dstate->viewports[i], i); if (dstate->rs->state.rs.scissor) for (i = 0; i < num_viewports; i++) DUMP_I(scissor_state, &dstate->scissors[i], i); DUMP(rasterizer_state, &dstate->rs->state.rs); if (dstate->rs->state.rs.poly_stipple_enable) DUMP(poly_stipple, &dstate->polygon_stipple); fprintf(f, "\n"); } if (!dstate->shaders[sh]) continue; fprintf(f, COLOR_SHADER "begin shader: %s" COLOR_RESET "\n", shader_str[sh]); DUMP(shader_state, &dstate->shaders[sh]->state.shader); for (i = 0; i < PIPE_MAX_CONSTANT_BUFFERS; i++) if (dstate->constant_buffers[sh][i].buffer || dstate->constant_buffers[sh][i].user_buffer) { DUMP_I(constant_buffer, &dstate->constant_buffers[sh][i], i); if (dstate->constant_buffers[sh][i].buffer) DUMP_M(resource, &dstate->constant_buffers[sh][i], buffer); } for (i = 0; i < PIPE_MAX_SAMPLERS; i++) if (dstate->sampler_states[sh][i]) DUMP_I(sampler_state, &dstate->sampler_states[sh][i]->state.sampler, i); for (i = 0; i < PIPE_MAX_SAMPLERS; i++) if (dstate->sampler_views[sh][i]) { DUMP_I(sampler_view, dstate->sampler_views[sh][i], i); DUMP_M(resource, dstate->sampler_views[sh][i], texture); } /* TODO: print shader images */ /* TODO: print shader buffers */ fprintf(f, COLOR_SHADER "end shader: %s" COLOR_RESET "\n\n", shader_str[sh]); } if (dstate->dsa) DUMP(depth_stencil_alpha_state, &dstate->dsa->state.dsa); DUMP(stencil_ref, &dstate->stencil_ref); if (dstate->blend) DUMP(blend_state, &dstate->blend->state.blend); DUMP(blend_color, &dstate->blend_color); print_named_value(f, "min_samples", dstate->min_samples); print_named_xvalue(f, "sample_mask", dstate->sample_mask); fprintf(f, "\n"); DUMP(framebuffer_state, &dstate->framebuffer_state); for (i = 0; i < dstate->framebuffer_state.nr_cbufs; i++) if (dstate->framebuffer_state.cbufs[i]) { fprintf(f, " " COLOR_STATE "cbufs[%i]:" COLOR_RESET "\n ", i); DUMP(surface, dstate->framebuffer_state.cbufs[i]); fprintf(f, " "); DUMP(resource, dstate->framebuffer_state.cbufs[i]->texture); } if (dstate->framebuffer_state.zsbuf) { fprintf(f, " " COLOR_STATE "zsbuf:" COLOR_RESET "\n "); DUMP(surface, dstate->framebuffer_state.zsbuf); fprintf(f, " "); DUMP(resource, dstate->framebuffer_state.zsbuf->texture); } fprintf(f, "\n"); } static void dd_dump_launch_grid(struct dd_draw_state *dstate, struct pipe_grid_info *info, FILE *f) { fprintf(f, "%s:\n", __func__+8); /* TODO */ } static void dd_dump_resource_copy_region(struct dd_draw_state *dstate, struct call_resource_copy_region *info, FILE *f) { fprintf(f, "%s:\n", __func__+8); DUMP_M(resource, info, dst); DUMP_M(uint, info, dst_level); DUMP_M(uint, info, dstx); DUMP_M(uint, info, dsty); DUMP_M(uint, info, dstz); DUMP_M(resource, info, src); DUMP_M(uint, info, src_level); DUMP_M_ADDR(box, info, src_box); } static void dd_dump_blit(struct dd_draw_state *dstate, struct pipe_blit_info *info, FILE *f) { fprintf(f, "%s:\n", __func__+8); DUMP_M(resource, info, dst.resource); DUMP_M(uint, info, dst.level); DUMP_M_ADDR(box, info, dst.box); DUMP_M(format, info, dst.format); DUMP_M(resource, info, src.resource); DUMP_M(uint, info, src.level); DUMP_M_ADDR(box, info, src.box); DUMP_M(format, info, src.format); DUMP_M(hex, info, mask); DUMP_M(uint, info, filter); DUMP_M(uint, info, scissor_enable); DUMP_M_ADDR(scissor_state, info, scissor); DUMP_M(uint, info, render_condition_enable); if (info->render_condition_enable) dd_dump_render_condition(dstate, f); } static void dd_dump_generate_mipmap(struct dd_draw_state *dstate, FILE *f) { fprintf(f, "%s:\n", __func__+8); /* TODO */ } static void dd_dump_flush_resource(struct dd_draw_state *dstate, struct pipe_resource *res, FILE *f) { fprintf(f, "%s:\n", __func__+8); DUMP(resource, res); } static void dd_dump_clear(struct dd_draw_state *dstate, struct call_clear *info, FILE *f) { fprintf(f, "%s:\n", __func__+8); DUMP_M(uint, info, buffers); DUMP_M_ADDR(color_union, info, color); DUMP_M(double, info, depth); DUMP_M(hex, info, stencil); } static void dd_dump_clear_buffer(struct dd_draw_state *dstate, struct call_clear_buffer *info, FILE *f) { int i; const char *value = (const char*)info->clear_value; fprintf(f, "%s:\n", __func__+8); DUMP_M(resource, info, res); DUMP_M(uint, info, offset); DUMP_M(uint, info, size); DUMP_M(uint, info, clear_value_size); fprintf(f, " clear_value:"); for (i = 0; i < info->clear_value_size; i++) fprintf(f, " %02x", value[i]); fprintf(f, "\n"); } static void dd_dump_clear_render_target(struct dd_draw_state *dstate, FILE *f) { fprintf(f, "%s:\n", __func__+8); /* TODO */ } static void dd_dump_clear_depth_stencil(struct dd_draw_state *dstate, FILE *f) { fprintf(f, "%s:\n", __func__+8); /* TODO */ } static void dd_dump_driver_state(struct dd_context *dctx, FILE *f, unsigned flags) { if (dctx->pipe->dump_debug_state) { fprintf(f,"\n\n**************************************************" "***************************\n"); fprintf(f, "Driver-specific state:\n\n"); dctx->pipe->dump_debug_state(dctx->pipe, f, flags); } } static void dd_dump_call(FILE *f, struct dd_draw_state *state, struct dd_call *call) { switch (call->type) { case CALL_DRAW_VBO: dd_dump_draw_vbo(state, &call->info.draw_vbo, f); break; case CALL_LAUNCH_GRID: dd_dump_launch_grid(state, &call->info.launch_grid, f); break; case CALL_RESOURCE_COPY_REGION: dd_dump_resource_copy_region(state, &call->info.resource_copy_region, f); break; case CALL_BLIT: dd_dump_blit(state, &call->info.blit, f); break; case CALL_FLUSH_RESOURCE: dd_dump_flush_resource(state, call->info.flush_resource, f); break; case CALL_CLEAR: dd_dump_clear(state, &call->info.clear, f); break; case CALL_CLEAR_BUFFER: dd_dump_clear_buffer(state, &call->info.clear_buffer, f); break; case CALL_CLEAR_RENDER_TARGET: dd_dump_clear_render_target(state, f); break; case CALL_CLEAR_DEPTH_STENCIL: dd_dump_clear_depth_stencil(state, f); break; case CALL_GENERATE_MIPMAP: dd_dump_generate_mipmap(state, f); break; } } static void dd_write_report(struct dd_context *dctx, struct dd_call *call, unsigned flags, bool dump_dmesg) { FILE *f = dd_get_file_stream(dd_screen(dctx->base.screen), dctx->draw_state.apitrace_call_number); if (!f) return; dd_dump_call(f, &dctx->draw_state, call); dd_dump_driver_state(dctx, f, flags); if (dump_dmesg) dd_dump_dmesg(f); dd_close_file_stream(f); } static void dd_kill_process(void) { sync(); fprintf(stderr, "dd: Aborting the process...\n"); fflush(stdout); fflush(stderr); exit(1); } static bool dd_flush_and_check_hang(struct dd_context *dctx, struct pipe_fence_handle **flush_fence, unsigned flush_flags) { struct pipe_fence_handle *fence = NULL; struct pipe_context *pipe = dctx->pipe; struct pipe_screen *screen = pipe->screen; uint64_t timeout_ms = dd_screen(dctx->base.screen)->timeout_ms; bool idle; assert(timeout_ms > 0); pipe->flush(pipe, &fence, flush_flags); if (flush_fence) screen->fence_reference(screen, flush_fence, fence); if (!fence) return false; idle = screen->fence_finish(screen, fence, timeout_ms * 1000000); screen->fence_reference(screen, &fence, NULL); if (!idle) fprintf(stderr, "dd: GPU hang detected!\n"); return !idle; } static void dd_flush_and_handle_hang(struct dd_context *dctx, struct pipe_fence_handle **fence, unsigned flags, const char *cause) { if (dd_flush_and_check_hang(dctx, fence, flags)) { FILE *f = dd_get_file_stream(dd_screen(dctx->base.screen), dctx->draw_state.apitrace_call_number); if (f) { fprintf(f, "dd: %s.\n", cause); dd_dump_driver_state(dctx, f, PIPE_DUMP_DEVICE_STATUS_REGISTERS | PIPE_DUMP_CURRENT_STATES | PIPE_DUMP_CURRENT_SHADERS | PIPE_DUMP_LAST_COMMAND_BUFFER); dd_dump_dmesg(f); dd_close_file_stream(f); } /* Terminate the process to prevent future hangs. */ dd_kill_process(); } } static void dd_unreference_copy_of_call(struct dd_call *dst) { switch (dst->type) { case CALL_DRAW_VBO: pipe_so_target_reference(&dst->info.draw_vbo.count_from_stream_output, NULL); pipe_resource_reference(&dst->info.draw_vbo.indirect, NULL); pipe_resource_reference(&dst->info.draw_vbo.indirect_params, NULL); break; case CALL_LAUNCH_GRID: pipe_resource_reference(&dst->info.launch_grid.indirect, NULL); break; case CALL_RESOURCE_COPY_REGION: pipe_resource_reference(&dst->info.resource_copy_region.dst, NULL); pipe_resource_reference(&dst->info.resource_copy_region.src, NULL); break; case CALL_BLIT: pipe_resource_reference(&dst->info.blit.dst.resource, NULL); pipe_resource_reference(&dst->info.blit.src.resource, NULL); break; case CALL_FLUSH_RESOURCE: pipe_resource_reference(&dst->info.flush_resource, NULL); break; case CALL_CLEAR: break; case CALL_CLEAR_BUFFER: pipe_resource_reference(&dst->info.clear_buffer.res, NULL); break; case CALL_CLEAR_RENDER_TARGET: break; case CALL_CLEAR_DEPTH_STENCIL: break; case CALL_GENERATE_MIPMAP: pipe_resource_reference(&dst->info.generate_mipmap.res, NULL); break; } } static void dd_copy_call(struct dd_call *dst, struct dd_call *src) { dst->type = src->type; switch (src->type) { case CALL_DRAW_VBO: pipe_so_target_reference(&dst->info.draw_vbo.count_from_stream_output, src->info.draw_vbo.count_from_stream_output); pipe_resource_reference(&dst->info.draw_vbo.indirect, src->info.draw_vbo.indirect); pipe_resource_reference(&dst->info.draw_vbo.indirect_params, src->info.draw_vbo.indirect_params); dst->info.draw_vbo = src->info.draw_vbo; break; case CALL_LAUNCH_GRID: pipe_resource_reference(&dst->info.launch_grid.indirect, src->info.launch_grid.indirect); dst->info.launch_grid = src->info.launch_grid; break; case CALL_RESOURCE_COPY_REGION: pipe_resource_reference(&dst->info.resource_copy_region.dst, src->info.resource_copy_region.dst); pipe_resource_reference(&dst->info.resource_copy_region.src, src->info.resource_copy_region.src); dst->info.resource_copy_region = src->info.resource_copy_region; break; case CALL_BLIT: pipe_resource_reference(&dst->info.blit.dst.resource, src->info.blit.dst.resource); pipe_resource_reference(&dst->info.blit.src.resource, src->info.blit.src.resource); dst->info.blit = src->info.blit; break; case CALL_FLUSH_RESOURCE: pipe_resource_reference(&dst->info.flush_resource, src->info.flush_resource); break; case CALL_CLEAR: dst->info.clear = src->info.clear; break; case CALL_CLEAR_BUFFER: pipe_resource_reference(&dst->info.clear_buffer.res, src->info.clear_buffer.res); dst->info.clear_buffer = src->info.clear_buffer; break; case CALL_CLEAR_RENDER_TARGET: break; case CALL_CLEAR_DEPTH_STENCIL: break; case CALL_GENERATE_MIPMAP: pipe_resource_reference(&dst->info.generate_mipmap.res, src->info.generate_mipmap.res); dst->info.generate_mipmap = src->info.generate_mipmap; break; } } static void dd_init_copy_of_draw_state(struct dd_draw_state_copy *state) { unsigned i,j; /* Just clear pointers to gallium objects. Don't clear the whole structure, * because it would kill performance with its size of 130 KB. */ memset(&state->base.index_buffer, 0, sizeof(state->base.index_buffer)); memset(state->base.vertex_buffers, 0, sizeof(state->base.vertex_buffers)); memset(state->base.so_targets, 0, sizeof(state->base.so_targets)); memset(state->base.constant_buffers, 0, sizeof(state->base.constant_buffers)); memset(state->base.sampler_views, 0, sizeof(state->base.sampler_views)); memset(state->base.shader_images, 0, sizeof(state->base.shader_images)); memset(state->base.shader_buffers, 0, sizeof(state->base.shader_buffers)); memset(&state->base.framebuffer_state, 0, sizeof(state->base.framebuffer_state)); memset(state->shaders, 0, sizeof(state->shaders)); state->base.render_cond.query = &state->render_cond; for (i = 0; i < PIPE_SHADER_TYPES; i++) { state->base.shaders[i] = &state->shaders[i]; for (j = 0; j < PIPE_MAX_SAMPLERS; j++) state->base.sampler_states[i][j] = &state->sampler_states[i][j]; } state->base.velems = &state->velems; state->base.rs = &state->rs; state->base.dsa = &state->dsa; state->base.blend = &state->blend; } static void dd_unreference_copy_of_draw_state(struct dd_draw_state_copy *state) { struct dd_draw_state *dst = &state->base; unsigned i,j; util_set_index_buffer(&dst->index_buffer, NULL); for (i = 0; i < ARRAY_SIZE(dst->vertex_buffers); i++) pipe_resource_reference(&dst->vertex_buffers[i].buffer, NULL); for (i = 0; i < ARRAY_SIZE(dst->so_targets); i++) pipe_so_target_reference(&dst->so_targets[i], NULL); for (i = 0; i < PIPE_SHADER_TYPES; i++) { if (dst->shaders[i]) tgsi_free_tokens(dst->shaders[i]->state.shader.tokens); for (j = 0; j < PIPE_MAX_CONSTANT_BUFFERS; j++) pipe_resource_reference(&dst->constant_buffers[i][j].buffer, NULL); for (j = 0; j < PIPE_MAX_SAMPLERS; j++) pipe_sampler_view_reference(&dst->sampler_views[i][j], NULL); for (j = 0; j < PIPE_MAX_SHADER_IMAGES; j++) pipe_resource_reference(&dst->shader_images[i][j].resource, NULL); for (j = 0; j < PIPE_MAX_SHADER_BUFFERS; j++) pipe_resource_reference(&dst->shader_buffers[i][j].buffer, NULL); } util_unreference_framebuffer_state(&dst->framebuffer_state); } static void dd_copy_draw_state(struct dd_draw_state *dst, struct dd_draw_state *src) { unsigned i,j; if (src->render_cond.query) { *dst->render_cond.query = *src->render_cond.query; dst->render_cond.condition = src->render_cond.condition; dst->render_cond.mode = src->render_cond.mode; } else { dst->render_cond.query = NULL; } util_set_index_buffer(&dst->index_buffer, &src->index_buffer); for (i = 0; i < ARRAY_SIZE(src->vertex_buffers); i++) { pipe_resource_reference(&dst->vertex_buffers[i].buffer, src->vertex_buffers[i].buffer); memcpy(&dst->vertex_buffers[i], &src->vertex_buffers[i], sizeof(src->vertex_buffers[i])); } dst->num_so_targets = src->num_so_targets; for (i = 0; i < ARRAY_SIZE(src->so_targets); i++) pipe_so_target_reference(&dst->so_targets[i], src->so_targets[i]); memcpy(dst->so_offsets, src->so_offsets, sizeof(src->so_offsets)); for (i = 0; i < PIPE_SHADER_TYPES; i++) { if (!src->shaders[i]) { dst->shaders[i] = NULL; continue; } if (src->shaders[i]) { dst->shaders[i]->state.shader = src->shaders[i]->state.shader; dst->shaders[i]->state.shader.tokens = tgsi_dup_tokens(src->shaders[i]->state.shader.tokens); } else { dst->shaders[i] = NULL; } for (j = 0; j < PIPE_MAX_CONSTANT_BUFFERS; j++) { pipe_resource_reference(&dst->constant_buffers[i][j].buffer, src->constant_buffers[i][j].buffer); memcpy(&dst->constant_buffers[i][j], &src->constant_buffers[i][j], sizeof(src->constant_buffers[i][j])); } for (j = 0; j < PIPE_MAX_SAMPLERS; j++) { pipe_sampler_view_reference(&dst->sampler_views[i][j], src->sampler_views[i][j]); if (src->sampler_states[i][j]) dst->sampler_states[i][j]->state.sampler = src->sampler_states[i][j]->state.sampler; else dst->sampler_states[i][j] = NULL; } /* TODO: shader buffers & images */ } if (src->velems) dst->velems->state.velems = src->velems->state.velems; else dst->velems = NULL; if (src->rs) dst->rs->state.rs = src->rs->state.rs; else dst->rs = NULL; if (src->dsa) dst->dsa->state.dsa = src->dsa->state.dsa; else dst->dsa = NULL; if (src->blend) dst->blend->state.blend = src->blend->state.blend; else dst->blend = NULL; dst->blend_color = src->blend_color; dst->stencil_ref = src->stencil_ref; dst->sample_mask = src->sample_mask; dst->min_samples = src->min_samples; dst->clip_state = src->clip_state; util_copy_framebuffer_state(&dst->framebuffer_state, &src->framebuffer_state); memcpy(dst->scissors, src->scissors, sizeof(src->scissors)); memcpy(dst->viewports, src->viewports, sizeof(src->viewports)); memcpy(dst->tess_default_levels, src->tess_default_levels, sizeof(src->tess_default_levels)); dst->apitrace_call_number = src->apitrace_call_number; } static void dd_free_record(struct dd_draw_record **record) { struct dd_draw_record *next = (*record)->next; dd_unreference_copy_of_call(&(*record)->call); dd_unreference_copy_of_draw_state(&(*record)->draw_state); FREE((*record)->driver_state_log); FREE(*record); *record = next; } static void dd_dump_record(struct dd_context *dctx, struct dd_draw_record *record, uint32_t hw_sequence_no, int64_t now) { FILE *f = dd_get_file_stream(dd_screen(dctx->base.screen), record->draw_state.base.apitrace_call_number); if (!f) return; fprintf(f, "Draw call sequence # = %u\n", record->sequence_no); fprintf(f, "HW reached sequence # = %u\n", hw_sequence_no); fprintf(f, "Elapsed time = %"PRIi64" ms\n\n", (now - record->timestamp) / 1000); dd_dump_call(f, &record->draw_state.base, &record->call); fprintf(f, "%s\n", record->driver_state_log); dctx->pipe->dump_debug_state(dctx->pipe, f, PIPE_DUMP_DEVICE_STATUS_REGISTERS); dd_dump_dmesg(f); fclose(f); } PIPE_THREAD_ROUTINE(dd_thread_pipelined_hang_detect, input) { struct dd_context *dctx = (struct dd_context *)input; struct dd_screen *dscreen = dd_screen(dctx->base.screen); pipe_mutex_lock(dctx->mutex); while (!dctx->kill_thread) { struct dd_draw_record **record = &dctx->records; /* Loop over all records. */ while (*record) { int64_t now; /* If the fence has been signalled, release the record and all older * records. */ if (*dctx->mapped_fence >= (*record)->sequence_no) { while (*record) dd_free_record(record); break; } /* The fence hasn't been signalled. Check the timeout. */ now = os_time_get(); if (os_time_timeout((*record)->timestamp, (*record)->timestamp + dscreen->timeout_ms * 1000, now)) { fprintf(stderr, "GPU hang detected.\n"); /* Get the oldest unsignalled draw call. */ while ((*record)->next && *dctx->mapped_fence < (*record)->next->sequence_no) record = &(*record)->next; dd_dump_record(dctx, *record, *dctx->mapped_fence, now); dd_kill_process(); } record = &(*record)->next; } /* Unlock and sleep before starting all over again. */ pipe_mutex_unlock(dctx->mutex); os_time_sleep(10000); /* 10 ms */ pipe_mutex_lock(dctx->mutex); } /* Thread termination. */ while (dctx->records) dd_free_record(&dctx->records); pipe_mutex_unlock(dctx->mutex); return 0; } static char * dd_get_driver_shader_log(struct dd_context *dctx) { FILE *f; char *buf; int written_bytes; if (!dctx->max_log_buffer_size) dctx->max_log_buffer_size = 16 * 1024; /* Keep increasing the buffer size until there is enough space. * * open_memstream can resize automatically, but it's VERY SLOW. * fmemopen is much faster. */ while (1) { buf = malloc(dctx->max_log_buffer_size); buf[0] = 0; f = fmemopen(buf, dctx->max_log_buffer_size, "a"); if (!f) { free(buf); return NULL; } dd_dump_driver_state(dctx, f, PIPE_DUMP_CURRENT_SHADERS); written_bytes = ftell(f); fclose(f); /* Return if the backing buffer is large enough. */ if (written_bytes < dctx->max_log_buffer_size - 1) break; /* Try again. */ free(buf); dctx->max_log_buffer_size *= 2; } return buf; } static void dd_pipelined_process_draw(struct dd_context *dctx, struct dd_call *call) { struct pipe_context *pipe = dctx->pipe; struct dd_draw_record *record; char *log; /* Make a record of the draw call. */ record = MALLOC_STRUCT(dd_draw_record); if (!record) return; /* Create the log. */ log = dd_get_driver_shader_log(dctx); if (!log) { FREE(record); return; } /* Update the fence with the GPU. * * radeonsi/clear_buffer waits in the command processor until shaders are * idle before writing to memory. That's a necessary condition for isolating * draw calls. */ dctx->sequence_no++; pipe->clear_buffer(pipe, dctx->fence, 0, 4, &dctx->sequence_no, 4); /* Initialize the record. */ record->timestamp = os_time_get(); record->sequence_no = dctx->sequence_no; record->driver_state_log = log; memset(&record->call, 0, sizeof(record->call)); dd_copy_call(&record->call, call); dd_init_copy_of_draw_state(&record->draw_state); dd_copy_draw_state(&record->draw_state.base, &dctx->draw_state); /* Add the record to the list. */ pipe_mutex_lock(dctx->mutex); record->next = dctx->records; dctx->records = record; pipe_mutex_unlock(dctx->mutex); } static void dd_context_flush(struct pipe_context *_pipe, struct pipe_fence_handle **fence, unsigned flags) { struct dd_context *dctx = dd_context(_pipe); struct pipe_context *pipe = dctx->pipe; switch (dd_screen(dctx->base.screen)->mode) { case DD_DETECT_HANGS: dd_flush_and_handle_hang(dctx, fence, flags, "GPU hang detected in pipe->flush()"); break; case DD_DETECT_HANGS_PIPELINED: /* nothing to do here */ case DD_DUMP_ALL_CALLS: case DD_DUMP_APITRACE_CALL: pipe->flush(pipe, fence, flags); break; default: assert(0); } } static void dd_before_draw(struct dd_context *dctx) { struct dd_screen *dscreen = dd_screen(dctx->base.screen); if (dscreen->mode == DD_DETECT_HANGS && !dscreen->no_flush && dctx->num_draw_calls >= dscreen->skip_count) dd_flush_and_handle_hang(dctx, NULL, 0, "GPU hang most likely caused by internal " "driver commands"); } static void dd_after_draw(struct dd_context *dctx, struct dd_call *call) { struct dd_screen *dscreen = dd_screen(dctx->base.screen); struct pipe_context *pipe = dctx->pipe; if (dctx->num_draw_calls >= dscreen->skip_count) { switch (dscreen->mode) { case DD_DETECT_HANGS: if (!dscreen->no_flush && dd_flush_and_check_hang(dctx, NULL, 0)) { dd_write_report(dctx, call, PIPE_DUMP_DEVICE_STATUS_REGISTERS | PIPE_DUMP_CURRENT_STATES | PIPE_DUMP_CURRENT_SHADERS | PIPE_DUMP_LAST_COMMAND_BUFFER, true); /* Terminate the process to prevent future hangs. */ dd_kill_process(); } break; case DD_DETECT_HANGS_PIPELINED: dd_pipelined_process_draw(dctx, call); break; case DD_DUMP_ALL_CALLS: if (!dscreen->no_flush) pipe->flush(pipe, NULL, 0); dd_write_report(dctx, call, 0, false); break; case DD_DUMP_APITRACE_CALL: if (dscreen->apitrace_dump_call == dctx->draw_state.apitrace_call_number) { dd_write_report(dctx, call, 0, false); /* No need to continue. */ exit(0); } break; default: assert(0); } } ++dctx->num_draw_calls; if (dscreen->skip_count && dctx->num_draw_calls % 10000 == 0) fprintf(stderr, "Gallium debugger reached %u draw calls.\n", dctx->num_draw_calls); } static void dd_context_draw_vbo(struct pipe_context *_pipe, const struct pipe_draw_info *info) { struct dd_context *dctx = dd_context(_pipe); struct pipe_context *pipe = dctx->pipe; struct dd_call call; call.type = CALL_DRAW_VBO; call.info.draw_vbo = *info; dd_before_draw(dctx); pipe->draw_vbo(pipe, info); dd_after_draw(dctx, &call); } static void dd_context_launch_grid(struct pipe_context *_pipe, const struct pipe_grid_info *info) { struct dd_context *dctx = dd_context(_pipe); struct pipe_context *pipe = dctx->pipe; struct dd_call call; call.type = CALL_LAUNCH_GRID; call.info.launch_grid = *info; dd_before_draw(dctx); pipe->launch_grid(pipe, info); dd_after_draw(dctx, &call); } static void dd_context_resource_copy_region(struct pipe_context *_pipe, struct pipe_resource *dst, unsigned dst_level, unsigned dstx, unsigned dsty, unsigned dstz, struct pipe_resource *src, unsigned src_level, const struct pipe_box *src_box) { struct dd_context *dctx = dd_context(_pipe); struct pipe_context *pipe = dctx->pipe; struct dd_call call; call.type = CALL_RESOURCE_COPY_REGION; call.info.resource_copy_region.dst = dst; call.info.resource_copy_region.dst_level = dst_level; call.info.resource_copy_region.dstx = dstx; call.info.resource_copy_region.dsty = dsty; call.info.resource_copy_region.dstz = dstz; call.info.resource_copy_region.src = src; call.info.resource_copy_region.src_level = src_level; call.info.resource_copy_region.src_box = *src_box; dd_before_draw(dctx); pipe->resource_copy_region(pipe, dst, dst_level, dstx, dsty, dstz, src, src_level, src_box); dd_after_draw(dctx, &call); } static void dd_context_blit(struct pipe_context *_pipe, const struct pipe_blit_info *info) { struct dd_context *dctx = dd_context(_pipe); struct pipe_context *pipe = dctx->pipe; struct dd_call call; call.type = CALL_BLIT; call.info.blit = *info; dd_before_draw(dctx); pipe->blit(pipe, info); dd_after_draw(dctx, &call); } static boolean dd_context_generate_mipmap(struct pipe_context *_pipe, struct pipe_resource *res, enum pipe_format format, unsigned base_level, unsigned last_level, unsigned first_layer, unsigned last_layer) { struct dd_context *dctx = dd_context(_pipe); struct pipe_context *pipe = dctx->pipe; struct dd_call call; boolean result; call.type = CALL_GENERATE_MIPMAP; call.info.generate_mipmap.res = res; call.info.generate_mipmap.format = format; call.info.generate_mipmap.base_level = base_level; call.info.generate_mipmap.last_level = last_level; call.info.generate_mipmap.first_layer = first_layer; call.info.generate_mipmap.last_layer = last_layer; dd_before_draw(dctx); result = pipe->generate_mipmap(pipe, res, format, base_level, last_level, first_layer, last_layer); dd_after_draw(dctx, &call); return result; } static void dd_context_flush_resource(struct pipe_context *_pipe, struct pipe_resource *resource) { struct dd_context *dctx = dd_context(_pipe); struct pipe_context *pipe = dctx->pipe; struct dd_call call; call.type = CALL_FLUSH_RESOURCE; call.info.flush_resource = resource; dd_before_draw(dctx); pipe->flush_resource(pipe, resource); dd_after_draw(dctx, &call); } static void dd_context_clear(struct pipe_context *_pipe, unsigned buffers, const union pipe_color_union *color, double depth, unsigned stencil) { struct dd_context *dctx = dd_context(_pipe); struct pipe_context *pipe = dctx->pipe; struct dd_call call; call.type = CALL_CLEAR; call.info.clear.buffers = buffers; call.info.clear.color = *color; call.info.clear.depth = depth; call.info.clear.stencil = stencil; dd_before_draw(dctx); pipe->clear(pipe, buffers, color, depth, stencil); dd_after_draw(dctx, &call); } static void dd_context_clear_render_target(struct pipe_context *_pipe, struct pipe_surface *dst, const union pipe_color_union *color, unsigned dstx, unsigned dsty, unsigned width, unsigned height) { struct dd_context *dctx = dd_context(_pipe); struct pipe_context *pipe = dctx->pipe; struct dd_call call; call.type = CALL_CLEAR_RENDER_TARGET; dd_before_draw(dctx); pipe->clear_render_target(pipe, dst, color, dstx, dsty, width, height); dd_after_draw(dctx, &call); } static void dd_context_clear_depth_stencil(struct pipe_context *_pipe, struct pipe_surface *dst, unsigned clear_flags, double depth, unsigned stencil, unsigned dstx, unsigned dsty, unsigned width, unsigned height) { struct dd_context *dctx = dd_context(_pipe); struct pipe_context *pipe = dctx->pipe; struct dd_call call; call.type = CALL_CLEAR_DEPTH_STENCIL; dd_before_draw(dctx); pipe->clear_depth_stencil(pipe, dst, clear_flags, depth, stencil, dstx, dsty, width, height); dd_after_draw(dctx, &call); } static void dd_context_clear_buffer(struct pipe_context *_pipe, struct pipe_resource *res, unsigned offset, unsigned size, const void *clear_value, int clear_value_size) { struct dd_context *dctx = dd_context(_pipe); struct pipe_context *pipe = dctx->pipe; struct dd_call call; call.type = CALL_CLEAR_BUFFER; call.info.clear_buffer.res = res; call.info.clear_buffer.offset = offset; call.info.clear_buffer.size = size; call.info.clear_buffer.clear_value = clear_value; call.info.clear_buffer.clear_value_size = clear_value_size; dd_before_draw(dctx); pipe->clear_buffer(pipe, res, offset, size, clear_value, clear_value_size); dd_after_draw(dctx, &call); } void dd_init_draw_functions(struct dd_context *dctx) { CTX_INIT(flush); CTX_INIT(draw_vbo); CTX_INIT(launch_grid); CTX_INIT(resource_copy_region); CTX_INIT(blit); CTX_INIT(clear); CTX_INIT(clear_render_target); CTX_INIT(clear_depth_stencil); CTX_INIT(clear_buffer); CTX_INIT(flush_resource); CTX_INIT(generate_mipmap); }