/* * Copyright © 2016 Intel Corporation * * 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 #include #include #include #include #include #include #include #include #include #include #include #include "util/macros.h" #include "aub_read.h" #include "aub_mem.h" #include "common/gen_disasm.h" #define xtzalloc(name) ((decltype(&name)) calloc(1, sizeof(name))) #define xtalloc(name) ((decltype(&name)) malloc(sizeof(name))) struct aub_file { uint8_t *map, *end, *cursor; uint16_t pci_id; char app_name[33]; /* List of batch buffers to process */ struct { const uint8_t *start; const uint8_t *end; } *execs; int n_execs; int n_allocated_execs; uint32_t idx_reg_write; /* Device state */ struct gen_device_info devinfo; struct gen_spec *spec; struct gen_disasm *disasm; }; static void store_exec_begin(struct aub_file *file) { if (unlikely(file->n_execs >= file->n_allocated_execs)) { file->n_allocated_execs = MAX2(2U * file->n_allocated_execs, 4096 / sizeof(file->execs[0])); file->execs = (decltype(file->execs)) realloc(static_cast(file->execs), file->n_allocated_execs * sizeof(file->execs[0])); } file->execs[file->n_execs++].start = file->cursor; } static void store_exec_end(struct aub_file *file) { if (file->n_execs > 0 && file->execs[file->n_execs - 1].end == NULL) file->execs[file->n_execs - 1].end = file->cursor; } static void handle_mem_write(void *user_data, uint64_t phys_addr, const void *data, uint32_t data_len) { struct aub_file *file = (struct aub_file *) user_data; file->idx_reg_write = 0; store_exec_end(file); } static void handle_ring_write(void *user_data, enum drm_i915_gem_engine_class engine, const void *ring_data, uint32_t ring_data_len) { struct aub_file *file = (struct aub_file *) user_data; file->idx_reg_write = 0; store_exec_begin(file); } static void handle_reg_write(void *user_data, uint32_t reg_offset, uint32_t reg_value) { struct aub_file *file = (struct aub_file *) user_data; /* Only store the first register write of a series (execlist writes take * involve 2 dwords). */ if (file->idx_reg_write++ == 0) store_exec_begin(file); } static void handle_info(void *user_data, int pci_id, const char *app_name) { struct aub_file *file = (struct aub_file *) user_data; store_exec_end(file); file->pci_id = pci_id; snprintf(file->app_name, sizeof(app_name), "%s", app_name); if (!gen_get_device_info(file->pci_id, &file->devinfo)) { fprintf(stderr, "can't find device information: pci_id=0x%x\n", file->pci_id); exit(EXIT_FAILURE); } file->spec = gen_spec_load(&file->devinfo); file->disasm = gen_disasm_create(&file->devinfo); } static void handle_error(void *user_data, const void *aub_data, const char *msg) { fprintf(stderr, "ERROR: %s\n", msg); } static struct aub_file * aub_file_open(const char *filename) { struct aub_file *file; struct stat sb; int fd; file = xtzalloc(*file); fd = open(filename, O_RDWR); if (fd == -1) { fprintf(stderr, "open %s failed: %s\n", filename, strerror(errno)); exit(EXIT_FAILURE); } if (fstat(fd, &sb) == -1) { fprintf(stderr, "stat failed: %s\n", strerror(errno)); exit(EXIT_FAILURE); } file->map = (uint8_t *) mmap(NULL, sb.st_size, PROT_READ, MAP_SHARED, fd, 0); if (file->map == MAP_FAILED) { fprintf(stderr, "mmap failed: %s\n", strerror(errno)); exit(EXIT_FAILURE); } close(fd); file->cursor = file->map; file->end = file->map + sb.st_size; struct aub_read aub_read = {}; aub_read.user_data = file; aub_read.info = handle_info; aub_read.error = handle_error; aub_read.reg_write = handle_reg_write; aub_read.ring_write = handle_ring_write; aub_read.local_write = handle_mem_write; aub_read.phys_write = handle_mem_write; aub_read.ggtt_write = handle_mem_write; aub_read.ggtt_entry_write = handle_mem_write; int consumed; while (file->cursor < file->end && (consumed = aub_read_command(&aub_read, file->cursor, file->end - file->cursor)) > 0) { file->cursor += consumed; } /* Ensure we have an end on the last register write. */ if (file->n_execs > 0 && file->execs[file->n_execs - 1].end == NULL) file->execs[file->n_execs - 1].end = file->end; return file; } /**/ static void update_mem_for_exec(struct aub_mem *mem, struct aub_file *file, int exec_idx) { struct aub_read read = {}; read.user_data = mem; read.local_write = aub_mem_local_write; read.phys_write = aub_mem_phys_write; read.ggtt_write = aub_mem_ggtt_write; read.ggtt_entry_write = aub_mem_ggtt_entry_write; /* Replay the aub file from the beginning up to just before the * commands we want to read. where the context setup happens. */ const uint8_t *iter = file->map; while (iter < file->execs[exec_idx].start) { iter += aub_read_command(&read, iter, file->execs[exec_idx].start - iter); } } /* UI */ #include #include "imgui.h" #include "imgui_impl_gtk3.h" #include "imgui_impl_opengl3.h" #include "aubinator_viewer.h" #include "aubinator_viewer_urb.h" #include "imgui_memory_editor.h" struct window { struct list_head link; /* link in the global list of windows */ struct list_head parent_link; /* link in parent window list of children */ struct list_head children_windows; /* list of children windows */ char name[128]; bool opened; ImVec2 position; ImVec2 size; void (*display)(struct window*); void (*destroy)(struct window*); }; struct edit_window { struct window base; struct aub_mem *mem; uint64_t address; uint32_t len; struct gen_batch_decode_bo aub_bo; uint64_t aub_offset; struct gen_batch_decode_bo gtt_bo; uint64_t gtt_offset; struct MemoryEditor editor; }; struct pml4_window { struct window base; struct aub_mem *mem; }; struct shader_window { struct window base; uint64_t address; char *shader; size_t shader_size; }; struct urb_window { struct window base; uint32_t end_urb_offset; struct aub_decode_urb_stage_state urb_stages[AUB_DECODE_N_STAGE]; AubinatorViewerUrb urb_view; }; struct batch_window { struct window base; struct aub_mem mem; struct aub_read read; bool uses_ppgtt; bool collapsed; int exec_idx; struct aub_viewer_decode_cfg decode_cfg; struct aub_viewer_decode_ctx decode_ctx; struct pml4_window pml4_window; char edit_address[20]; }; static struct Context { struct aub_file *file; char *input_file; char *xml_path; GtkWidget *gtk_window; /* UI state*/ bool show_commands_window; bool show_registers_window; struct aub_viewer_cfg cfg; struct list_head windows; struct window file_window; struct window commands_window; struct window registers_window; } context; static int map_key(int k) { return ImGuiKey_COUNT + k; } static bool has_ctrl_key(int key) { return ImGui::GetIO().KeyCtrl && ImGui::IsKeyPressed(map_key(key)); } static bool window_has_ctrl_key(int key) { return ImGui::IsRootWindowOrAnyChildFocused() && has_ctrl_key(key); } static void destroy_window_noop(struct window *win) { } /* Shader windows */ static void display_shader_window(struct window *win) { struct shader_window *window = (struct shader_window *) win; if (window->shader) { ImGui::InputTextMultiline("Assembly", window->shader, window->shader_size, ImGui::GetContentRegionAvail(), ImGuiInputTextFlags_ReadOnly); } else { ImGui::Text("Shader not available"); } } static void destroy_shader_window(struct window *win) { struct shader_window *window = (struct shader_window *) win; free(window->shader); free(window); } static struct shader_window * new_shader_window(struct aub_mem *mem, uint64_t address, const char *desc) { struct shader_window *window = xtzalloc(*window); snprintf(window->base.name, sizeof(window->base.name), "%s (0x%lx)##%p", desc, address, window); list_inithead(&window->base.parent_link); window->base.position = ImVec2(-1, -1); window->base.size = ImVec2(700, 300); window->base.opened = true; window->base.display = display_shader_window; window->base.destroy = destroy_shader_window; struct gen_batch_decode_bo shader_bo; if (mem->pml4) shader_bo = aub_mem_get_ppgtt_bo(mem, address); else shader_bo = aub_mem_get_ggtt_bo(mem, address); if (shader_bo.map) { FILE *f = open_memstream(&window->shader, &window->shader_size); if (f) { gen_disasm_disassemble(context.file->disasm, shader_bo.map, 0, f); fclose(f); } } list_addtail(&window->base.link, &context.windows); return window; } /* URB windows */ static void display_urb_window(struct window *win) { struct urb_window *window = (struct urb_window *) win; static const char *stages[] = { [AUB_DECODE_STAGE_VS] = "VS", [AUB_DECODE_STAGE_HS] = "HS", [AUB_DECODE_STAGE_DS] = "DS", [AUB_DECODE_STAGE_GS] = "GS", [AUB_DECODE_STAGE_PS] = "PS", [AUB_DECODE_STAGE_CS] = "CS", }; ImGui::Text("URB allocation:"); window->urb_view.DrawAllocation("##urb", ARRAY_SIZE(window->urb_stages), window->end_urb_offset, stages, &window->urb_stages[0]); } static void destroy_urb_window(struct window *win) { struct urb_window *window = (struct urb_window *) win; free(window); } static struct urb_window * new_urb_window(struct aub_viewer_decode_ctx *decode_ctx, uint64_t address) { struct urb_window *window = xtzalloc(*window); snprintf(window->base.name, sizeof(window->base.name), "URB view (0x%lx)##%p", address, window); list_inithead(&window->base.parent_link); window->base.position = ImVec2(-1, -1); window->base.size = ImVec2(700, 300); window->base.opened = true; window->base.display = display_urb_window; window->base.destroy = destroy_urb_window; window->end_urb_offset = decode_ctx->end_urb_offset; memcpy(window->urb_stages, decode_ctx->urb_stages, sizeof(window->urb_stages)); window->urb_view = AubinatorViewerUrb(); list_addtail(&window->base.link, &context.windows); return window; } /* Memory editor windows */ static uint8_t read_edit_window(const uint8_t *data, size_t off) { struct edit_window *window = (struct edit_window *) data; return *((const uint8_t *) window->gtt_bo.map + window->gtt_offset + off); } static void write_edit_window(uint8_t *data, size_t off, uint8_t d) { struct edit_window *window = (struct edit_window *) data; uint8_t *gtt = (uint8_t *) window->gtt_bo.map + window->gtt_offset + off; uint8_t *aub = (uint8_t *) window->aub_bo.map + window->aub_offset + off; *gtt = *aub = d; } static void display_edit_window(struct window *win) { struct edit_window *window = (struct edit_window *) win; if (window->aub_bo.map && window->gtt_bo.map) { ImGui::BeginChild(ImGui::GetID("##block")); window->editor.DrawContents((uint8_t *) window, MIN3(window->len, window->gtt_bo.size - window->gtt_offset, window->aub_bo.size - window->aub_offset), window->address); ImGui::EndChild(); } else { ImGui::Text("Memory view at 0x%lx not available", window->address); } } static void destroy_edit_window(struct window *win) { struct edit_window *window = (struct edit_window *) win; if (window->aub_bo.map) mprotect((void *) window->aub_bo.map, 4096, PROT_READ); free(window); } static struct edit_window * new_edit_window(struct aub_mem *mem, uint64_t address, uint32_t len) { struct edit_window *window = xtzalloc(*window); snprintf(window->base.name, sizeof(window->base.name), "Editing aub at 0x%lx##%p", address, window); list_inithead(&window->base.parent_link); window->base.position = ImVec2(-1, -1); window->base.size = ImVec2(500, 600); window->base.opened = true; window->base.display = display_edit_window; window->base.destroy = destroy_edit_window; window->mem = mem; window->address = address; window->aub_bo = aub_mem_get_ppgtt_addr_aub_data(mem, address); window->gtt_bo = aub_mem_get_ppgtt_addr_data(mem, address); window->len = len; window->editor = MemoryEditor(); window->editor.OptShowDataPreview = true; window->editor.OptShowAscii = false; window->editor.ReadFn = read_edit_window; window->editor.WriteFn = write_edit_window; if (window->aub_bo.map) { uint64_t unaligned_map = (uint64_t) window->aub_bo.map; window->aub_bo.map = (const void *)(unaligned_map & ~0xffful); window->aub_offset = unaligned_map - (uint64_t) window->aub_bo.map; if (mprotect((void *) window->aub_bo.map, window->aub_bo.size, PROT_READ | PROT_WRITE) != 0) { window->aub_bo.map = NULL; } } window->gtt_offset = address - window->gtt_bo.addr; list_addtail(&window->base.link, &context.windows); return window; } /* 4 level page table walk windows */ static void display_pml4_level(struct aub_mem *mem, uint64_t table_addr, uint64_t table_virt_addr, int level) { if (level == 0) return; struct gen_batch_decode_bo table_bo = aub_mem_get_phys_addr_data(mem, table_addr); const uint64_t *table = (const uint64_t *) ((const uint8_t *) table_bo.map + table_addr - table_bo.addr); if (!table) { ImGui::TextColored(context.cfg.missing_color, "Page not available"); return; } uint64_t addr_increment = 1ULL << (12 + 9 * (level - 1)); if (level == 1) { for (int e = 0; e < 512; e++) { bool available = (table[e] & 1) != 0; uint64_t entry_virt_addr = table_virt_addr + e * addr_increment; if (!available) continue; ImGui::Text("Entry%03i - phys_addr=0x%lx - virt_addr=0x%lx", e, table[e], entry_virt_addr); } } else { for (int e = 0; e < 512; e++) { bool available = (table[e] & 1) != 0; uint64_t entry_virt_addr = table_virt_addr + e * addr_increment; if (available && ImGui::TreeNodeEx(&table[e], available ? ImGuiTreeNodeFlags_Framed : 0, "Entry%03i - phys_addr=0x%lx - virt_addr=0x%lx", e, table[e], entry_virt_addr)) { display_pml4_level(mem, table[e] & ~0xffful, entry_virt_addr, level -1); ImGui::TreePop(); } } } } static void display_pml4_window(struct window *win) { struct pml4_window *window = (struct pml4_window *) win; ImGui::Text("pml4: %lx", window->mem->pml4); ImGui::BeginChild(ImGui::GetID("##block")); display_pml4_level(window->mem, window->mem->pml4, 0, 4); ImGui::EndChild(); } static void show_pml4_window(struct pml4_window *window, struct aub_mem *mem) { if (window->base.opened) { window->base.opened = false; return; } snprintf(window->base.name, sizeof(window->base.name), "4-Level page tables##%p", window); list_inithead(&window->base.parent_link); window->base.position = ImVec2(-1, -1); window->base.size = ImVec2(500, 600); window->base.opened = true; window->base.display = display_pml4_window; window->base.destroy = destroy_window_noop; window->mem = mem; list_addtail(&window->base.link, &context.windows); } /* Batch decoding windows */ static void display_decode_options(struct aub_viewer_decode_cfg *cfg) { char name[40]; snprintf(name, sizeof(name), "command filter##%p", &cfg->command_filter); cfg->command_filter.Draw(name); ImGui::SameLine(); snprintf(name, sizeof(name), "field filter##%p", &cfg->field_filter); cfg->field_filter.Draw(name); ImGui::SameLine(); if (ImGui::Button("Dwords")) cfg->show_dwords ^= 1; } static void batch_display_shader(void *user_data, const char *shader_desc, uint64_t address) { struct batch_window *window = (struct batch_window *) user_data; struct shader_window *shader_window = new_shader_window(&window->mem, address, shader_desc); list_add(&shader_window->base.parent_link, &window->base.children_windows); } static void batch_display_urb(void *user_data, const struct aub_decode_urb_stage_state *stages) { struct batch_window *window = (struct batch_window *) user_data; struct urb_window *urb_window = new_urb_window(&window->decode_ctx, 0); list_add(&urb_window->base.parent_link, &window->base.children_windows); } static void batch_edit_address(void *user_data, uint64_t address, uint32_t len) { struct batch_window *window = (struct batch_window *) user_data; struct edit_window *edit_window = new_edit_window(&window->mem, address, len); list_add(&edit_window->base.parent_link, &window->base.children_windows); } static struct gen_batch_decode_bo batch_get_bo(void *user_data, uint64_t address) { struct batch_window *window = (struct batch_window *) user_data; if (window->uses_ppgtt) return aub_mem_get_ppgtt_bo(&window->mem, address); else return aub_mem_get_ggtt_bo(&window->mem, address); } static void update_batch_window(struct batch_window *window, bool reset, int exec_idx) { if (reset) aub_mem_fini(&window->mem); aub_mem_init(&window->mem); window->exec_idx = MAX2(MIN2(context.file->n_execs - 1, exec_idx), 0); update_mem_for_exec(&window->mem, context.file, window->exec_idx); } static void display_batch_ring_write(void *user_data, enum drm_i915_gem_engine_class engine, const void *data, uint32_t data_len) { struct batch_window *window = (struct batch_window *) user_data; window->uses_ppgtt = false; aub_viewer_render_batch(&window->decode_ctx, data, data_len, 0); } static void display_batch_execlist_write(void *user_data, enum drm_i915_gem_engine_class engine, uint64_t context_descriptor) { struct batch_window *window = (struct batch_window *) user_data; const uint32_t pphwsp_size = 4096; uint32_t pphwsp_addr = context_descriptor & 0xfffff000; struct gen_batch_decode_bo pphwsp_bo = aub_mem_get_ggtt_bo(&window->mem, pphwsp_addr); uint32_t *context_img = (uint32_t *)((uint8_t *)pphwsp_bo.map + (pphwsp_addr - pphwsp_bo.addr) + pphwsp_size); uint32_t ring_buffer_head = context_img[5]; uint32_t ring_buffer_tail = context_img[7]; uint32_t ring_buffer_start = context_img[9]; uint32_t ring_buffer_length = (context_img[11] & 0x1ff000) + 4096; window->mem.pml4 = (uint64_t)context_img[49] << 32 | context_img[51]; struct gen_batch_decode_bo ring_bo = aub_mem_get_ggtt_bo(&window->mem, ring_buffer_start); assert(ring_bo.size > 0); void *commands = (uint8_t *)ring_bo.map + (ring_buffer_start - ring_bo.addr) + ring_buffer_head; window->uses_ppgtt = true; window->decode_ctx.engine = engine; aub_viewer_render_batch(&window->decode_ctx, commands, MIN2(ring_buffer_tail - ring_buffer_head, ring_buffer_length), ring_buffer_start + ring_buffer_head); } static void display_batch_window(struct window *win) { struct batch_window *window = (struct batch_window *) win; ImGui::PushItemWidth(ImGui::GetContentRegionAvailWidth() / (2 * 2)); if (window_has_ctrl_key('f')) ImGui::SetKeyboardFocusHere(); display_decode_options(&window->decode_cfg); ImGui::PopItemWidth(); if (ImGui::InputInt("Execbuf", &window->exec_idx)) update_batch_window(window, true, window->exec_idx); if (window_has_ctrl_key('p')) update_batch_window(window, true, window->exec_idx - 1); if (window_has_ctrl_key('n')) update_batch_window(window, true, window->exec_idx + 1); ImGui::Text("execbuf %i", window->exec_idx); if (ImGui::Button("Show PPGTT")) { show_pml4_window(&window->pml4_window, &window->mem); } ImGui::BeginChild(ImGui::GetID("##block")); struct aub_read read = {}; read.user_data = window; read.ring_write = display_batch_ring_write; read.execlist_write = display_batch_execlist_write; const uint8_t *iter = context.file->execs[window->exec_idx].start; while (iter < context.file->execs[window->exec_idx].end) { iter += aub_read_command(&read, iter, context.file->execs[window->exec_idx].end - iter); } ImGui::EndChild(); } static void destroy_batch_window(struct window *win) { struct batch_window *window = (struct batch_window *) win; aub_mem_fini(&window->mem); /* This works because children windows are inserted at the back of the * list, ensuring the deletion loop goes through the children after calling * this function. */ list_for_each_entry(struct window, child_window, &window->base.children_windows, parent_link) child_window->opened = false; window->pml4_window.base.opened = false; free(window); } static void new_batch_window(int exec_idx) { struct batch_window *window = xtzalloc(*window); snprintf(window->base.name, sizeof(window->base.name), "Batch view##%p", window); list_inithead(&window->base.parent_link); list_inithead(&window->base.children_windows); window->base.position = ImVec2(-1, -1); window->base.size = ImVec2(600, 700); window->base.opened = true; window->base.display = display_batch_window; window->base.destroy = destroy_batch_window; window->collapsed = true; window->decode_cfg = aub_viewer_decode_cfg(); aub_viewer_decode_ctx_init(&window->decode_ctx, &context.cfg, &window->decode_cfg, context.file->spec, context.file->disasm, batch_get_bo, NULL, window); window->decode_ctx.display_shader = batch_display_shader; window->decode_ctx.display_urb = batch_display_urb; window->decode_ctx.edit_address = batch_edit_address; update_batch_window(window, false, exec_idx); list_addtail(&window->base.link, &context.windows); } /**/ static void display_registers_window(struct window *win) { static struct ImGuiTextFilter filter; if (window_has_ctrl_key('f')) ImGui::SetKeyboardFocusHere(); filter.Draw(); ImGui::BeginChild(ImGui::GetID("##block")); hash_table_foreach(context.file->spec->registers_by_name, entry) { struct gen_group *reg = (struct gen_group *) entry->data; if (filter.PassFilter(reg->name) && ImGui::CollapsingHeader(reg->name)) { const struct gen_field *field = reg->fields; while (field) { ImGui::Text("%s : %i -> %i\n", field->name, field->start, field->end); field = field->next; } } } ImGui::EndChild(); } static void show_register_window(void) { struct window *window = &context.registers_window; if (window->opened) { window->opened = false; return; } snprintf(window->name, sizeof(window->name), "Registers"); list_inithead(&window->parent_link); window->position = ImVec2(-1, -1); window->size = ImVec2(200, 400); window->opened = true; window->display = display_registers_window; window->destroy = destroy_window_noop; list_addtail(&window->link, &context.windows); } static void display_commands_window(struct window *win) { static struct ImGuiTextFilter cmd_filter; if (window_has_ctrl_key('f')) ImGui::SetKeyboardFocusHere(); cmd_filter.Draw("name filter"); static struct ImGuiTextFilter field_filter; field_filter.Draw("field filter"); static char opcode_str[9] = { 0, }; ImGui::InputText("opcode filter", opcode_str, sizeof(opcode_str), ImGuiInputTextFlags_CharsHexadecimal); size_t opcode_len = strlen(opcode_str); uint64_t opcode = strtol(opcode_str, NULL, 16); static bool show_dwords = true; if (ImGui::Button("Dwords")) show_dwords ^= 1; ImGui::BeginChild(ImGui::GetID("##block")); hash_table_foreach(context.file->spec->commands, entry) { struct gen_group *cmd = (struct gen_group *) entry->data; if ((cmd_filter.PassFilter(cmd->name) && (opcode_len == 0 || (opcode & cmd->opcode_mask) == cmd->opcode)) && ImGui::CollapsingHeader(cmd->name)) { const struct gen_field *field = cmd->fields; int32_t last_dword = -1; while (field) { if (show_dwords && field->start / 32 != last_dword) { for (last_dword = MAX2(0, last_dword + 1); last_dword < field->start / 32; last_dword++) { ImGui::TextColored(context.cfg.dwords_color, "Dword %d", last_dword); } ImGui::TextColored(context.cfg.dwords_color, "Dword %d", last_dword); } if (field_filter.PassFilter(field->name)) ImGui::Text("%s : %i -> %i\n", field->name, field->start, field->end); field = field->next; } } } hash_table_foreach(context.file->spec->structs, entry) { struct gen_group *cmd = (struct gen_group *) entry->data; if (cmd_filter.PassFilter(cmd->name) && opcode_len == 0 && ImGui::CollapsingHeader(cmd->name)) { const struct gen_field *field = cmd->fields; int32_t last_dword = -1; while (field) { if (show_dwords && field->start / 32 != last_dword) { last_dword = field->start / 32; ImGui::TextColored(context.cfg.dwords_color, "Dword %d", last_dword); } if (field_filter.PassFilter(field->name)) ImGui::Text("%s : %i -> %i\n", field->name, field->start, field->end); field = field->next; } } } ImGui::EndChild(); } static void show_commands_window(void) { struct window *window = &context.commands_window; if (window->opened) { window->opened = false; return; } snprintf(window->name, sizeof(window->name), "Commands & structs"); list_inithead(&window->parent_link); window->position = ImVec2(-1, -1); window->size = ImVec2(300, 400); window->opened = true; window->display = display_commands_window; window->destroy = destroy_window_noop; list_addtail(&window->link, &context.windows); } /* Main window */ static const char * human_size(size_t size) { unsigned divisions = 0; double v = size; double divider = 1024; while (v >= divider) { v /= divider; divisions++; } static const char *units[] = { "Bytes", "Kilobytes", "Megabytes", "Gigabytes" }; static char result[20]; snprintf(result, sizeof(result), "%.2f %s", v, divisions >= ARRAY_SIZE(units) ? "Too much!" : units[divisions]); return result; } static void display_aubfile_window(struct window *win) { ImGuiColorEditFlags cflags = (ImGuiColorEditFlags_NoAlpha | ImGuiColorEditFlags_NoLabel | ImGuiColorEditFlags_NoInputs); struct aub_viewer_cfg *cfg = &context.cfg; ImGui::ColorEdit3("background", (float *)&cfg->clear_color, cflags); ImGui::SameLine(); ImGui::ColorEdit3("missing", (float *)&cfg->missing_color, cflags); ImGui::SameLine(); ImGui::ColorEdit3("error", (float *)&cfg->error_color, cflags); ImGui::SameLine(); ImGui::ColorEdit3("highlight", (float *)&cfg->highlight_color, cflags); ImGui::SameLine(); ImGui::ColorEdit3("dwords", (float *)&cfg->dwords_color, cflags); ImGui::SameLine(); if (ImGui::Button("Commands list") || has_ctrl_key('c')) { show_commands_window(); } ImGui::SameLine(); if (ImGui::Button("Registers list") || has_ctrl_key('r')) { show_register_window(); } ImGui::SameLine(); if (ImGui::Button("Help") || has_ctrl_key('h')) { ImGui::OpenPopup("Help"); } if (ImGui::Button("New batch window") || has_ctrl_key('b')) { new_batch_window(0); } ImGui::Text("File name: %s", context.input_file); ImGui::Text("File size: %s", human_size(context.file->end - context.file->map)); ImGui::Text("Execbufs %u", context.file->n_execs); ImGui::Text("PCI ID: 0x%x", context.file->pci_id); ImGui::Text("Application name: %s", context.file->app_name); ImGui::Text(gen_get_device_name(context.file->pci_id)); ImGui::SetNextWindowContentWidth(500); if (ImGui::BeginPopupModal("Help", NULL, ImGuiWindowFlags_AlwaysAutoResize)) { ImGui::Text("Some global keybindings:"); ImGui::Separator(); static const char *texts[] = { "Ctrl-h", "show this screen", "Ctrl-c", "show commands list", "Ctrl-r", "show registers list", "Ctrl-b", "new batch window", "Ctrl-p/n", "switch to previous/next batch buffer", "Ctrl-Tab", "switch focus between window", "Ctrl-left/right", "align window to the side of the screen", }; float align = 0.0f; for (uint32_t i = 0; i < ARRAY_SIZE(texts); i += 2) align = MAX2(align, ImGui::CalcTextSize(texts[i]).x); align += ImGui::GetStyle().WindowPadding.x + 10; for (uint32_t i = 0; i < ARRAY_SIZE(texts); i += 2) { ImGui::Text(texts[i]); ImGui::SameLine(align); ImGui::Text(texts[i + 1]); } if (ImGui::Button("Done") || ImGui::IsKeyPressed(ImGuiKey_Escape)) ImGui::CloseCurrentPopup(); ImGui::EndPopup(); } } static void show_aubfile_window(void) { struct window *window = &context.file_window; if (window->opened) return; snprintf(window->name, sizeof(window->name), "Aubinator Viewer: Intel AUB file decoder/editor"); list_inithead(&window->parent_link); window->size = ImVec2(-1, 250); window->position = ImVec2(0, 0); window->opened = true; window->display = display_aubfile_window; window->destroy = NULL; list_addtail(&window->link, &context.windows); } /* Main redrawing */ static void display_windows(void) { /* Start by disposing closed windows, we don't want to destroy windows that * have already been scheduled to be painted. So destroy always happens on * the next draw cycle, prior to any drawing. */ list_for_each_entry_safe(struct window, window, &context.windows, link) { if (window->opened) continue; /* Can't close this one. */ if (window == &context.file_window) { window->opened = true; continue; } list_del(&window->link); list_del(&window->parent_link); if (window->destroy) window->destroy(window); } list_for_each_entry(struct window, window, &context.windows, link) { ImGui::SetNextWindowPos(window->position, ImGuiCond_FirstUseEver); ImGui::SetNextWindowSize(window->size, ImGuiCond_FirstUseEver); if (ImGui::Begin(window->name, &window->opened)) { window->display(window); window->position = ImGui::GetWindowPos(); window->size = ImGui::GetWindowSize(); } if (window_has_ctrl_key('w')) window->opened = false; ImGui::End(); } } static void repaint_area(GtkGLArea *area, GdkGLContext *gdk_gl_context) { ImGui_ImplOpenGL3_NewFrame(); ImGui_ImplGtk3_NewFrame(); ImGui::NewFrame(); display_windows(); ImGui::EndFrame(); ImGui::Render(); glClearColor(context.cfg.clear_color.Value.x, context.cfg.clear_color.Value.y, context.cfg.clear_color.Value.z, 1.0); glClear(GL_COLOR_BUFFER_BIT); ImGui_ImplOpenGL3_RenderDrawData(ImGui::GetDrawData()); } static void realize_area(GtkGLArea *area) { ImGui::CreateContext(); ImGui_ImplGtk3_Init(GTK_WIDGET(area), true); ImGui_ImplOpenGL3_Init("#version 130"); list_inithead(&context.windows); ImGui::StyleColorsDark(); context.cfg = aub_viewer_cfg(); ImGuiIO& io = ImGui::GetIO(); io.ConfigFlags |= ImGuiConfigFlags_NavEnableKeyboard; } static void unrealize_area(GtkGLArea *area) { gtk_gl_area_make_current(area); ImGui_ImplOpenGL3_Shutdown(); ImGui_ImplGtk3_Shutdown(); ImGui::DestroyContext(); } static void size_allocate_area(GtkGLArea *area, GdkRectangle *allocation, gpointer user_data) { if (!gtk_widget_get_realized(GTK_WIDGET(area))) return; /* We want to catch only initial size allocate. */ g_signal_handlers_disconnect_by_func(area, (gpointer) size_allocate_area, user_data); show_aubfile_window(); } static void print_help(const char *progname, FILE *file) { fprintf(file, "Usage: %s [OPTION]... FILE\n" "Decode aub file contents from FILE.\n\n" " --help display this help and exit\n" " -x, --xml=DIR load hardware xml description from directory DIR\n", progname); } int main(int argc, char *argv[]) { int c, i; bool help = false; const struct option aubinator_opts[] = { { "help", no_argument, (int *) &help, true }, { "xml", required_argument, NULL, 'x' }, { NULL, 0, NULL, 0 } }; memset(&context, 0, sizeof(context)); i = 0; while ((c = getopt_long(argc, argv, "x:s:", aubinator_opts, &i)) != -1) { switch (c) { case 'x': context.xml_path = strdup(optarg); break; default: break; } } if (optind < argc) context.input_file = argv[optind]; if (help || !context.input_file) { print_help(argv[0], stderr); exit(0); } context.file = aub_file_open(context.input_file); gtk_init(NULL, NULL); context.gtk_window = gtk_window_new(GTK_WINDOW_TOPLEVEL); gtk_window_set_title(GTK_WINDOW(context.gtk_window), "Aubinator Viewer"); g_signal_connect(context.gtk_window, "delete-event", G_CALLBACK(gtk_main_quit), NULL); gtk_window_resize(GTK_WINDOW(context.gtk_window), 1280, 720); GtkWidget* gl_area = gtk_gl_area_new(); g_signal_connect(gl_area, "render", G_CALLBACK(repaint_area), NULL); g_signal_connect(gl_area, "realize", G_CALLBACK(realize_area), NULL); g_signal_connect(gl_area, "unrealize", G_CALLBACK(unrealize_area), NULL); g_signal_connect(gl_area, "size_allocate", G_CALLBACK(size_allocate_area), NULL); gtk_container_add(GTK_CONTAINER(context.gtk_window), gl_area); gtk_widget_show_all(context.gtk_window); gtk_main(); free(context.xml_path); return EXIT_SUCCESS; }