/* * Copyright © 2020 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 "util/libdrm.h" #include "dev/intel_device_info.h" #include "dev/intel_device_info_serialize.h" #include "dev/intel_hwconfig.h" #include "compiler/brw_compiler.h" static int error(char *fmt, ...) { va_list ap; va_start(ap, fmt); vfprintf(stderr, fmt, ap); va_end(ap); return EXIT_FAILURE; } static void print_base_devinfo(const struct intel_device_info *devinfo) { fprintf(stdout, "devinfo struct size = %zu\n", sizeof(*devinfo)); fprintf(stdout, " name: %s\n", devinfo->name); fprintf(stdout, " gen: %u\n", devinfo->ver); fprintf(stdout, " PCI device id: 0x%x\n", devinfo->pci_device_id); fprintf(stdout, " PCI domain: 0x%x\n", devinfo->pci_domain); fprintf(stdout, " PCI bus: 0x%x\n", devinfo->pci_bus); fprintf(stdout, " PCI dev: 0x%x\n", devinfo->pci_dev); fprintf(stdout, " PCI function: 0x%x\n", devinfo->pci_func); fprintf(stdout, " PCI revision id: 0x%x\n", devinfo->pci_revision_id); fprintf(stdout, " revision: %u\n", devinfo->revision); const char *subslice_name = devinfo->ver >= 12 ? "dualsubslice" : "subslice"; uint32_t n_s = 0, n_ss = 0, n_eus = 0; for (unsigned s = 0; s < devinfo->max_slices; s++) { n_s += (devinfo->slice_masks & (1u << s)) ? 1 : 0; for (unsigned ss = 0; ss < devinfo->max_subslices_per_slice; ss++) { fprintf(stdout, " slice%u.%s%u: ", s, subslice_name, ss); if (intel_device_info_subslice_available(devinfo, s, ss)) { n_ss++; for (unsigned eu = 0; eu < devinfo->max_eus_per_subslice; eu++) { n_eus += intel_device_info_eu_available(devinfo, s, ss, eu) ? 1 : 0; fprintf(stdout, "%s", intel_device_info_eu_available(devinfo, s, ss, eu) ? "1" : "0"); } } else { fprintf(stdout, "fused"); } fprintf(stdout, "\n"); } } for (uint32_t pp = 0; pp < ARRAY_SIZE(devinfo->ppipe_subslices); pp++) { fprintf(stdout, " pixel pipe %02u: %u\n", pp, devinfo->ppipe_subslices[pp]); } fprintf(stdout, " slices: %u\n", n_s); fprintf(stdout, " %s: %u\n", subslice_name, n_ss); fprintf(stdout, " EUs: %u\n", n_eus); fprintf(stdout, " EU threads: %u\n", n_eus * devinfo->num_thread_per_eu); fprintf(stdout, " LLC: %u\n", devinfo->has_llc); fprintf(stdout, " threads per EU: %u\n", devinfo->num_thread_per_eu); fprintf(stdout, " L3 banks: %u\n", devinfo->l3_banks); fprintf(stdout, " max VS threads: %u\n", devinfo->max_vs_threads); fprintf(stdout, " max TCS threads: %u\n", devinfo->max_tcs_threads); fprintf(stdout, " max TES threads: %u\n", devinfo->max_tes_threads); fprintf(stdout, " max GS threads: %u\n", devinfo->max_gs_threads); fprintf(stdout, " max WM threads: %u\n", devinfo->max_wm_threads); fprintf(stdout, " max CS threads: %u\n", devinfo->max_cs_threads); fprintf(stdout, " timestamp frequency: %" PRIu64 " / %.4f ns\n", devinfo->timestamp_frequency, 1000000000.0 / devinfo->timestamp_frequency); fprintf(stdout, " URB size: %u\n", devinfo->urb.size); static const char *stage_names[4] = { "VS", "HS", "DS", "GS", }; for (unsigned s = 0; s < ARRAY_SIZE(devinfo->urb.min_entries); s++) { fprintf(stdout, " URB.entries[%s] = [%4u, %4u]\n", stage_names[s], devinfo->urb.min_entries[s], devinfo->urb.max_entries[s]); } } static void print_regions_info(const struct intel_device_info *devinfo) { if (devinfo->mem.sram.mappable.size > 0 || devinfo->mem.sram.unmappable.size > 0) { fprintf(stdout, " sram:\n"); if (devinfo->mem.use_class_instance) { fprintf(stdout, " class: %d; instance: %d\n", devinfo->mem.sram.mem.klass, devinfo->mem.sram.mem.instance); } fprintf(stdout, " mappable: %" PRId64 "; ", devinfo->mem.sram.mappable.size); fprintf(stdout, "free: %" PRId64 "\n", devinfo->mem.sram.mappable.free); if (devinfo->mem.sram.unmappable.size > 0) { fprintf(stdout, " unmappable: %" PRId64 "; ", devinfo->mem.sram.unmappable.size); fprintf(stdout, "free: %" PRId64 "\n", devinfo->mem.sram.unmappable.free); } } if (devinfo->mem.vram.mappable.size > 0 || devinfo->mem.vram.unmappable.size > 0) { fprintf(stdout, " vram:\n"); if (devinfo->mem.use_class_instance) { fprintf(stdout, " class: %d; instance: %d\n", devinfo->mem.vram.mem.klass, devinfo->mem.vram.mem.instance); } fprintf(stdout, " mappable: %" PRId64 "; ", devinfo->mem.vram.mappable.size); fprintf(stdout, "free: %" PRId64 "\n", devinfo->mem.vram.mappable.free); if (devinfo->mem.vram.unmappable.size > 0) { fprintf(stdout, " unmappable: %" PRId64 "; ", devinfo->mem.vram.unmappable.size); fprintf(stdout, "free: %" PRId64 "\n", devinfo->mem.vram.unmappable.free); } } } #define INTEL_WA( X ) "WA_"#X static void print_wa_info(const struct intel_device_info *devinfo) { static const char* all_wa[] = { INTEL_ALL_WA }; fprintf(stdout, " required workarounds:\n"); for (enum intel_workaround_id id = 0; id < INTEL_WA_NUM; ++id) { if (BITSET_TEST(devinfo->workarounds, id)) { fprintf(stdout, " %s\n", all_wa[id]); } } fprintf(stdout, "\n"); } #undef INTEL_WA int main(int argc, char *argv[]) { drmDevicePtr devices[8]; int max_devices, i; char c; bool help = false, print_hwconfig = false, all = false, print_workarounds = false, print_json = false; const char *platform = NULL; const struct option opts[] = { { "help", no_argument, (int *) &help, true }, { "platform", required_argument, NULL, false }, { "hwconfig", no_argument, (int *) &print_hwconfig, true }, { "json", no_argument, (int *) &print_json, true }, { "workarounds", no_argument, (int *) &print_workarounds, true }, { "all", no_argument, (int *) &all, true }, }; while ((c = getopt_long(argc, argv, "hap:", opts, &i)) != -1) { switch (c) { case 'h': help = true; break; case 'a': all = true; break; case 'p': platform = optarg; break; default: break; } } if (help) { fprintf(stdout, "Usage: intel_dev_info [OPTION]\n" "Print device info for the current system.\n" " --help / h display this help and exit\n" " --platform print a given platform's info (skl, icl, tgl, etc...)\n" " --hwconfig print the hwconfig table\n" " --json print json representation of device info\n" " --workarounds print the list of hardware workarounds for the system\n" " --all / -a print all optional details\n"); exit(0); } if (all) { print_workarounds = true; print_hwconfig = true; } if (platform) { int pci_id; if (strstr(platform, "0x") == platform) pci_id = strtol(platform, NULL, 16); else pci_id = intel_device_name_to_pci_device_id(platform); struct intel_device_info devinfo; if (!intel_get_device_info_from_pci_id(pci_id, &devinfo)) return error("No platform found with name: %s", platform); print_base_devinfo(&devinfo); if (print_workarounds) print_wa_info(&devinfo); } else { max_devices = drmGetDevices2(0, devices, ARRAY_SIZE(devices)); if (max_devices < 1) return error("Not device found"); for (int i = 0; i < max_devices; i++) { struct intel_device_info devinfo; const char *path = devices[i]->nodes[DRM_NODE_RENDER]; int fd = open(path, O_RDWR | O_CLOEXEC); if (fd < 0) continue; bool success = intel_get_device_info_from_fd(fd, &devinfo, -1, -1); if (!success) { close(fd); continue; } if (print_json) { JSON_Value *json = intel_device_info_dump_json(&devinfo); /* When available, add the compiler device sha, to allow * deduplication of similar device info files. */ if (devinfo.ver >= 9) { JSON_Object *obj = json_object(json); char device_info_sha[41]; brw_device_sha1(device_info_sha, &devinfo); json_object_set_string(obj, "shader_cache_sha1", device_info_sha); } char *pretty_string = json_serialize_to_string_pretty(json); printf("%s", pretty_string); json_free_serialized_string(pretty_string); json_value_free(json); close(fd); continue; } fprintf(stdout, "%s:\n", path); print_base_devinfo(&devinfo); print_regions_info(&devinfo); if (print_hwconfig) intel_get_and_print_hwconfig_table(fd, &devinfo); if (print_workarounds) print_wa_info(&devinfo); close(fd); } } return EXIT_SUCCESS; }