| Author | Tokens | Token Proportion | Commits | Commit Proportion |
|---|---|---|---|---|
| Srinivas Pandruvada | 7222 | 100.00% | 1 | 100.00% |
| Total | 7222 | 1 |
// SPDX-License-Identifier: GPL-2.0 /* * Intel Speed Select -- Enumerate and control features * Copyright (c) 2019 Intel Corporation. */ #include <linux/isst_if.h> #include "isst.h" struct process_cmd_struct { char *feature; char *command; void (*process_fn)(void); }; static const char *version_str = "v1.0"; static const int supported_api_ver = 1; static struct isst_if_platform_info isst_platform_info; static char *progname; static int debug_flag; static FILE *outf; static int cpu_model; #define MAX_CPUS_IN_ONE_REQ 64 static short max_target_cpus; static unsigned short target_cpus[MAX_CPUS_IN_ONE_REQ]; static int topo_max_cpus; static size_t present_cpumask_size; static cpu_set_t *present_cpumask; static size_t target_cpumask_size; static cpu_set_t *target_cpumask; static int tdp_level = 0xFF; static int fact_bucket = 0xFF; static int fact_avx = 0xFF; static unsigned long long fact_trl; static int out_format_json; static int cmd_help; /* clos related */ static int current_clos = -1; static int clos_epp = -1; static int clos_prop_prio = -1; static int clos_min = -1; static int clos_max = -1; static int clos_desired = -1; static int clos_priority_type; struct _cpu_map { unsigned short core_id; unsigned short pkg_id; unsigned short die_id; unsigned short punit_cpu; unsigned short punit_cpu_core; }; struct _cpu_map *cpu_map; void debug_printf(const char *format, ...) { va_list args; va_start(args, format); if (debug_flag) vprintf(format, args); va_end(args); } static void update_cpu_model(void) { unsigned int ebx, ecx, edx; unsigned int fms, family; __cpuid(1, fms, ebx, ecx, edx); family = (fms >> 8) & 0xf; cpu_model = (fms >> 4) & 0xf; if (family == 6 || family == 0xf) cpu_model += ((fms >> 16) & 0xf) << 4; } /* Open a file, and exit on failure */ static FILE *fopen_or_exit(const char *path, const char *mode) { FILE *filep = fopen(path, mode); if (!filep) err(1, "%s: open failed", path); return filep; } /* Parse a file containing a single int */ static int parse_int_file(int fatal, const char *fmt, ...) { va_list args; char path[PATH_MAX]; FILE *filep; int value; va_start(args, fmt); vsnprintf(path, sizeof(path), fmt, args); va_end(args); if (fatal) { filep = fopen_or_exit(path, "r"); } else { filep = fopen(path, "r"); if (!filep) return -1; } if (fscanf(filep, "%d", &value) != 1) err(1, "%s: failed to parse number from file", path); fclose(filep); return value; } int cpufreq_sysfs_present(void) { DIR *dir; dir = opendir("/sys/devices/system/cpu/cpu0/cpufreq"); if (dir) { closedir(dir); return 1; } return 0; } int out_format_is_json(void) { return out_format_json; } int get_physical_package_id(int cpu) { return parse_int_file( 1, "/sys/devices/system/cpu/cpu%d/topology/physical_package_id", cpu); } int get_physical_core_id(int cpu) { return parse_int_file( 1, "/sys/devices/system/cpu/cpu%d/topology/core_id", cpu); } int get_physical_die_id(int cpu) { int ret; ret = parse_int_file(0, "/sys/devices/system/cpu/cpu%d/topology/die_id", cpu); if (ret < 0) ret = 0; return ret; } int get_topo_max_cpus(void) { return topo_max_cpus; } #define MAX_PACKAGE_COUNT 8 #define MAX_DIE_PER_PACKAGE 2 static void for_each_online_package_in_set(void (*callback)(int, void *, void *, void *, void *), void *arg1, void *arg2, void *arg3, void *arg4) { int max_packages[MAX_PACKAGE_COUNT * MAX_PACKAGE_COUNT]; int pkg_index = 0, i; memset(max_packages, 0xff, sizeof(max_packages)); for (i = 0; i < topo_max_cpus; ++i) { int j, online, pkg_id, die_id = 0, skip = 0; if (!CPU_ISSET_S(i, present_cpumask_size, present_cpumask)) continue; if (i) online = parse_int_file( 1, "/sys/devices/system/cpu/cpu%d/online", i); else online = 1; /* online entry for CPU 0 needs some special configs */ die_id = get_physical_die_id(i); if (die_id < 0) die_id = 0; pkg_id = get_physical_package_id(i); /* Create an unique id for package, die combination to store */ pkg_id = (MAX_PACKAGE_COUNT * pkg_id + die_id); for (j = 0; j < pkg_index; ++j) { if (max_packages[j] == pkg_id) { skip = 1; break; } } if (!skip && online && callback) { callback(i, arg1, arg2, arg3, arg4); max_packages[pkg_index++] = pkg_id; } } } static void for_each_online_target_cpu_in_set( void (*callback)(int, void *, void *, void *, void *), void *arg1, void *arg2, void *arg3, void *arg4) { int i; for (i = 0; i < topo_max_cpus; ++i) { int online; if (!CPU_ISSET_S(i, target_cpumask_size, target_cpumask)) continue; if (i) online = parse_int_file( 1, "/sys/devices/system/cpu/cpu%d/online", i); else online = 1; /* online entry for CPU 0 needs some special configs */ if (online && callback) callback(i, arg1, arg2, arg3, arg4); } } #define BITMASK_SIZE 32 static void set_max_cpu_num(void) { FILE *filep; unsigned long dummy; topo_max_cpus = 0; filep = fopen_or_exit( "/sys/devices/system/cpu/cpu0/topology/thread_siblings", "r"); while (fscanf(filep, "%lx,", &dummy) == 1) topo_max_cpus += BITMASK_SIZE; fclose(filep); topo_max_cpus--; /* 0 based */ debug_printf("max cpus %d\n", topo_max_cpus); } size_t alloc_cpu_set(cpu_set_t **cpu_set) { cpu_set_t *_cpu_set; size_t size; _cpu_set = CPU_ALLOC((topo_max_cpus + 1)); if (_cpu_set == NULL) err(3, "CPU_ALLOC"); size = CPU_ALLOC_SIZE((topo_max_cpus + 1)); CPU_ZERO_S(size, _cpu_set); *cpu_set = _cpu_set; return size; } void free_cpu_set(cpu_set_t *cpu_set) { CPU_FREE(cpu_set); } static int cpu_cnt[MAX_PACKAGE_COUNT][MAX_DIE_PER_PACKAGE]; static void set_cpu_present_cpu_mask(void) { size_t size; DIR *dir; int i; size = alloc_cpu_set(&present_cpumask); present_cpumask_size = size; for (i = 0; i < topo_max_cpus; ++i) { char buffer[256]; snprintf(buffer, sizeof(buffer), "/sys/devices/system/cpu/cpu%d", i); dir = opendir(buffer); if (dir) { int pkg_id, die_id; CPU_SET_S(i, size, present_cpumask); die_id = get_physical_die_id(i); if (die_id < 0) die_id = 0; pkg_id = get_physical_package_id(i); if (pkg_id < MAX_PACKAGE_COUNT && die_id < MAX_DIE_PER_PACKAGE) cpu_cnt[pkg_id][die_id]++; } closedir(dir); } } int get_cpu_count(int pkg_id, int die_id) { if (pkg_id < MAX_PACKAGE_COUNT && die_id < MAX_DIE_PER_PACKAGE) return cpu_cnt[pkg_id][die_id] + 1; return 0; } static void set_cpu_target_cpu_mask(void) { size_t size; int i; size = alloc_cpu_set(&target_cpumask); target_cpumask_size = size; for (i = 0; i < max_target_cpus; ++i) { if (!CPU_ISSET_S(target_cpus[i], present_cpumask_size, present_cpumask)) continue; CPU_SET_S(target_cpus[i], size, target_cpumask); } } static void create_cpu_map(void) { const char *pathname = "/dev/isst_interface"; int i, fd = 0; struct isst_if_cpu_maps map; cpu_map = malloc(sizeof(*cpu_map) * topo_max_cpus); if (!cpu_map) err(3, "cpumap"); fd = open(pathname, O_RDWR); if (fd < 0) err(-1, "%s open failed", pathname); for (i = 0; i < topo_max_cpus; ++i) { if (!CPU_ISSET_S(i, present_cpumask_size, present_cpumask)) continue; map.cmd_count = 1; map.cpu_map[0].logical_cpu = i; debug_printf(" map logical_cpu:%d\n", map.cpu_map[0].logical_cpu); if (ioctl(fd, ISST_IF_GET_PHY_ID, &map) == -1) { perror("ISST_IF_GET_PHY_ID"); fprintf(outf, "Error: map logical_cpu:%d\n", map.cpu_map[0].logical_cpu); continue; } cpu_map[i].core_id = get_physical_core_id(i); cpu_map[i].pkg_id = get_physical_package_id(i); cpu_map[i].die_id = get_physical_die_id(i); cpu_map[i].punit_cpu = map.cpu_map[0].physical_cpu; cpu_map[i].punit_cpu_core = (map.cpu_map[0].physical_cpu >> 1); // shift to get core id debug_printf( "map logical_cpu:%d core: %d die:%d pkg:%d punit_cpu:%d punit_core:%d\n", i, cpu_map[i].core_id, cpu_map[i].die_id, cpu_map[i].pkg_id, cpu_map[i].punit_cpu, cpu_map[i].punit_cpu_core); } if (fd) close(fd); } int find_logical_cpu(int pkg_id, int die_id, int punit_core_id) { int i; for (i = 0; i < topo_max_cpus; ++i) { if (cpu_map[i].pkg_id == pkg_id && cpu_map[i].die_id == die_id && cpu_map[i].punit_cpu_core == punit_core_id) return i; } return -EINVAL; } void set_cpu_mask_from_punit_coremask(int cpu, unsigned long long core_mask, size_t core_cpumask_size, cpu_set_t *core_cpumask, int *cpu_cnt) { int i, cnt = 0; int die_id, pkg_id; *cpu_cnt = 0; die_id = get_physical_die_id(cpu); pkg_id = get_physical_package_id(cpu); for (i = 0; i < 64; ++i) { if (core_mask & BIT(i)) { int j; for (j = 0; j < topo_max_cpus; ++j) { if (cpu_map[j].pkg_id == pkg_id && cpu_map[j].die_id == die_id && cpu_map[j].punit_cpu_core == i) { CPU_SET_S(j, core_cpumask_size, core_cpumask); ++cnt; } } } } *cpu_cnt = cnt; } int find_phy_core_num(int logical_cpu) { if (logical_cpu < topo_max_cpus) return cpu_map[logical_cpu].punit_cpu_core; return -EINVAL; } static int isst_send_mmio_command(unsigned int cpu, unsigned int reg, int write, unsigned int *value) { struct isst_if_io_regs io_regs; const char *pathname = "/dev/isst_interface"; int cmd; int fd; debug_printf("mmio_cmd cpu:%d reg:%d write:%d\n", cpu, reg, write); fd = open(pathname, O_RDWR); if (fd < 0) err(-1, "%s open failed", pathname); io_regs.req_count = 1; io_regs.io_reg[0].logical_cpu = cpu; io_regs.io_reg[0].reg = reg; cmd = ISST_IF_IO_CMD; if (write) { io_regs.io_reg[0].read_write = 1; io_regs.io_reg[0].value = *value; } else { io_regs.io_reg[0].read_write = 0; } if (ioctl(fd, cmd, &io_regs) == -1) { perror("ISST_IF_IO_CMD"); fprintf(outf, "Error: mmio_cmd cpu:%d reg:%x read_write:%x\n", cpu, reg, write); } else { if (!write) *value = io_regs.io_reg[0].value; debug_printf( "mmio_cmd response: cpu:%d reg:%x rd_write:%x resp:%x\n", cpu, reg, write, *value); } close(fd); return 0; } int isst_send_mbox_command(unsigned int cpu, unsigned char command, unsigned char sub_command, unsigned int parameter, unsigned int req_data, unsigned int *resp) { const char *pathname = "/dev/isst_interface"; int fd; struct isst_if_mbox_cmds mbox_cmds = { 0 }; debug_printf( "mbox_send: cpu:%d command:%x sub_command:%x parameter:%x req_data:%x\n", cpu, command, sub_command, parameter, req_data); if (isst_platform_info.mmio_supported && command == CONFIG_CLOS) { unsigned int value; int write = 0; int clos_id, core_id, ret = 0; debug_printf("CLOS %d\n", cpu); if (parameter & BIT(MBOX_CMD_WRITE_BIT)) { value = req_data; write = 1; } switch (sub_command) { case CLOS_PQR_ASSOC: core_id = parameter & 0xff; ret = isst_send_mmio_command( cpu, PQR_ASSOC_OFFSET + core_id * 4, write, &value); if (!ret && !write) *resp = value; break; case CLOS_PM_CLOS: clos_id = parameter & 0x03; ret = isst_send_mmio_command( cpu, PM_CLOS_OFFSET + clos_id * 4, write, &value); if (!ret && !write) *resp = value; break; case CLOS_PM_QOS_CONFIG: ret = isst_send_mmio_command(cpu, PM_QOS_CONFIG_OFFSET, write, &value); if (!ret && !write) *resp = value; break; case CLOS_STATUS: break; default: break; } return ret; } mbox_cmds.cmd_count = 1; mbox_cmds.mbox_cmd[0].logical_cpu = cpu; mbox_cmds.mbox_cmd[0].command = command; mbox_cmds.mbox_cmd[0].sub_command = sub_command; mbox_cmds.mbox_cmd[0].parameter = parameter; mbox_cmds.mbox_cmd[0].req_data = req_data; fd = open(pathname, O_RDWR); if (fd < 0) err(-1, "%s open failed", pathname); if (ioctl(fd, ISST_IF_MBOX_COMMAND, &mbox_cmds) == -1) { perror("ISST_IF_MBOX_COMMAND"); fprintf(outf, "Error: mbox_cmd cpu:%d command:%x sub_command:%x parameter:%x req_data:%x\n", cpu, command, sub_command, parameter, req_data); } else { *resp = mbox_cmds.mbox_cmd[0].resp_data; debug_printf( "mbox_cmd response: cpu:%d command:%x sub_command:%x parameter:%x req_data:%x resp:%x\n", cpu, command, sub_command, parameter, req_data, *resp); } close(fd); return 0; } int isst_send_msr_command(unsigned int cpu, unsigned int msr, int write, unsigned long long *req_resp) { struct isst_if_msr_cmds msr_cmds; const char *pathname = "/dev/isst_interface"; int fd; fd = open(pathname, O_RDWR); if (fd < 0) err(-1, "%s open failed", pathname); msr_cmds.cmd_count = 1; msr_cmds.msr_cmd[0].logical_cpu = cpu; msr_cmds.msr_cmd[0].msr = msr; msr_cmds.msr_cmd[0].read_write = write; if (write) msr_cmds.msr_cmd[0].data = *req_resp; if (ioctl(fd, ISST_IF_MSR_COMMAND, &msr_cmds) == -1) { perror("ISST_IF_MSR_COMMAD"); fprintf(outf, "Error: msr_cmd cpu:%d msr:%x read_write:%d\n", cpu, msr, write); } else { if (!write) *req_resp = msr_cmds.msr_cmd[0].data; debug_printf( "msr_cmd response: cpu:%d msr:%x rd_write:%x resp:%llx %llx\n", cpu, msr, write, *req_resp, msr_cmds.msr_cmd[0].data); } close(fd); return 0; } static int isst_fill_platform_info(void) { const char *pathname = "/dev/isst_interface"; int fd; fd = open(pathname, O_RDWR); if (fd < 0) err(-1, "%s open failed", pathname); if (ioctl(fd, ISST_IF_GET_PLATFORM_INFO, &isst_platform_info) == -1) { perror("ISST_IF_GET_PLATFORM_INFO"); close(fd); return -1; } close(fd); return 0; } static void isst_print_platform_information(void) { struct isst_if_platform_info platform_info; const char *pathname = "/dev/isst_interface"; int fd; fd = open(pathname, O_RDWR); if (fd < 0) err(-1, "%s open failed", pathname); if (ioctl(fd, ISST_IF_GET_PLATFORM_INFO, &platform_info) == -1) { perror("ISST_IF_GET_PLATFORM_INFO"); } else { fprintf(outf, "Platform: API version : %d\n", platform_info.api_version); fprintf(outf, "Platform: Driver version : %d\n", platform_info.driver_version); fprintf(outf, "Platform: mbox supported : %d\n", platform_info.mbox_supported); fprintf(outf, "Platform: mmio supported : %d\n", platform_info.mmio_supported); } close(fd); exit(0); } static void exec_on_get_ctdp_cpu(int cpu, void *arg1, void *arg2, void *arg3, void *arg4) { int (*fn_ptr)(int cpu, void *arg); int ret; fn_ptr = arg1; ret = fn_ptr(cpu, arg2); if (ret) perror("get_tdp_*"); else isst_display_result(cpu, outf, "perf-profile", (char *)arg3, *(unsigned int *)arg4); } #define _get_tdp_level(desc, suffix, object, help) \ static void get_tdp_##object(void) \ { \ struct isst_pkg_ctdp ctdp; \ \ if (cmd_help) { \ fprintf(stderr, \ "Print %s [No command arguments are required]\n", \ help); \ exit(0); \ } \ isst_ctdp_display_information_start(outf); \ if (max_target_cpus) \ for_each_online_target_cpu_in_set( \ exec_on_get_ctdp_cpu, isst_get_ctdp_##suffix, \ &ctdp, desc, &ctdp.object); \ else \ for_each_online_package_in_set(exec_on_get_ctdp_cpu, \ isst_get_ctdp_##suffix, \ &ctdp, desc, \ &ctdp.object); \ isst_ctdp_display_information_end(outf); \ } _get_tdp_level("get-config-levels", levels, levels, "TDP levels"); _get_tdp_level("get-config-version", levels, version, "TDP version"); _get_tdp_level("get-config-enabled", levels, enabled, "TDP enable status"); _get_tdp_level("get-config-current_level", levels, current_level, "Current TDP Level"); _get_tdp_level("get-lock-status", levels, locked, "TDP lock status"); static void dump_isst_config_for_cpu(int cpu, void *arg1, void *arg2, void *arg3, void *arg4) { struct isst_pkg_ctdp pkg_dev; int ret; memset(&pkg_dev, 0, sizeof(pkg_dev)); ret = isst_get_process_ctdp(cpu, tdp_level, &pkg_dev); if (ret) { perror("isst_get_process_ctdp"); } else { isst_ctdp_display_information(cpu, outf, tdp_level, &pkg_dev); isst_get_process_ctdp_complete(cpu, &pkg_dev); } } static void dump_isst_config(void) { if (cmd_help) { fprintf(stderr, "Print Intel(R) Speed Select Technology Performance profile configuration\n"); fprintf(stderr, "including base frequency and turbo frequency configurations\n"); fprintf(stderr, "Optional: -l|--level : Specify tdp level\n"); fprintf(stderr, "\tIf no arguments, dump information for all TDP levels\n"); exit(0); } isst_ctdp_display_information_start(outf); if (max_target_cpus) for_each_online_target_cpu_in_set(dump_isst_config_for_cpu, NULL, NULL, NULL, NULL); else for_each_online_package_in_set(dump_isst_config_for_cpu, NULL, NULL, NULL, NULL); isst_ctdp_display_information_end(outf); } static void set_tdp_level_for_cpu(int cpu, void *arg1, void *arg2, void *arg3, void *arg4) { int ret; ret = isst_set_tdp_level(cpu, tdp_level); if (ret) perror("set_tdp_level_for_cpu"); else isst_display_result(cpu, outf, "perf-profile", "set_tdp_level", ret); } static void set_tdp_level(void) { if (cmd_help) { fprintf(stderr, "Set Config TDP level\n"); fprintf(stderr, "\t Arguments: -l|--level : Specify tdp level\n"); exit(0); } if (tdp_level == 0xff) { fprintf(outf, "Invalid command: specify tdp_level\n"); exit(1); } isst_ctdp_display_information_start(outf); if (max_target_cpus) for_each_online_target_cpu_in_set(set_tdp_level_for_cpu, NULL, NULL, NULL, NULL); else for_each_online_package_in_set(set_tdp_level_for_cpu, NULL, NULL, NULL, NULL); isst_ctdp_display_information_end(outf); } static void dump_pbf_config_for_cpu(int cpu, void *arg1, void *arg2, void *arg3, void *arg4) { struct isst_pbf_info pbf_info; int ret; ret = isst_get_pbf_info(cpu, tdp_level, &pbf_info); if (ret) { perror("isst_get_pbf_info"); } else { isst_pbf_display_information(cpu, outf, tdp_level, &pbf_info); isst_get_pbf_info_complete(&pbf_info); } } static void dump_pbf_config(void) { if (cmd_help) { fprintf(stderr, "Print Intel(R) Speed Select Technology base frequency configuration for a TDP level\n"); fprintf(stderr, "\tArguments: -l|--level : Specify tdp level\n"); exit(0); } if (tdp_level == 0xff) { fprintf(outf, "Invalid command: specify tdp_level\n"); exit(1); } isst_ctdp_display_information_start(outf); if (max_target_cpus) for_each_online_target_cpu_in_set(dump_pbf_config_for_cpu, NULL, NULL, NULL, NULL); else for_each_online_package_in_set(dump_pbf_config_for_cpu, NULL, NULL, NULL, NULL); isst_ctdp_display_information_end(outf); } static void set_pbf_for_cpu(int cpu, void *arg1, void *arg2, void *arg3, void *arg4) { int ret; int status = *(int *)arg4; ret = isst_set_pbf_fact_status(cpu, 1, status); if (ret) { perror("isst_set_pbf"); } else { if (status) isst_display_result(cpu, outf, "base-freq", "enable", ret); else isst_display_result(cpu, outf, "base-freq", "disable", ret); } } static void set_pbf_enable(void) { int status = 1; if (cmd_help) { fprintf(stderr, "Enable Intel Speed Select Technology base frequency feature [No command arguments are required]\n"); exit(0); } isst_ctdp_display_information_start(outf); if (max_target_cpus) for_each_online_target_cpu_in_set(set_pbf_for_cpu, NULL, NULL, NULL, &status); else for_each_online_package_in_set(set_pbf_for_cpu, NULL, NULL, NULL, &status); isst_ctdp_display_information_end(outf); } static void set_pbf_disable(void) { int status = 0; if (cmd_help) { fprintf(stderr, "Disable Intel Speed Select Technology base frequency feature [No command arguments are required]\n"); exit(0); } isst_ctdp_display_information_start(outf); if (max_target_cpus) for_each_online_target_cpu_in_set(set_pbf_for_cpu, NULL, NULL, NULL, &status); else for_each_online_package_in_set(set_pbf_for_cpu, NULL, NULL, NULL, &status); isst_ctdp_display_information_end(outf); } static void dump_fact_config_for_cpu(int cpu, void *arg1, void *arg2, void *arg3, void *arg4) { struct isst_fact_info fact_info; int ret; ret = isst_get_fact_info(cpu, tdp_level, &fact_info); if (ret) perror("isst_get_fact_bucket_info"); else isst_fact_display_information(cpu, outf, tdp_level, fact_bucket, fact_avx, &fact_info); } static void dump_fact_config(void) { if (cmd_help) { fprintf(stderr, "Print complete Intel Speed Select Technology turbo frequency configuration for a TDP level. Other arguments are optional.\n"); fprintf(stderr, "\tArguments: -l|--level : Specify tdp level\n"); fprintf(stderr, "\tArguments: -b|--bucket : Bucket index to dump\n"); fprintf(stderr, "\tArguments: -r|--trl-type : Specify trl type: sse|avx2|avx512\n"); exit(0); } if (tdp_level == 0xff) { fprintf(outf, "Invalid command: specify tdp_level\n"); exit(1); } isst_ctdp_display_information_start(outf); if (max_target_cpus) for_each_online_target_cpu_in_set(dump_fact_config_for_cpu, NULL, NULL, NULL, NULL); else for_each_online_package_in_set(dump_fact_config_for_cpu, NULL, NULL, NULL, NULL); isst_ctdp_display_information_end(outf); } static void set_fact_for_cpu(int cpu, void *arg1, void *arg2, void *arg3, void *arg4) { int ret; int status = *(int *)arg4; ret = isst_set_pbf_fact_status(cpu, 0, status); if (ret) perror("isst_set_fact"); else { if (status) { struct isst_pkg_ctdp pkg_dev; ret = isst_get_ctdp_levels(cpu, &pkg_dev); if (ret) { isst_display_result(cpu, outf, "turbo-freq", "enable", ret); return; } ret = isst_set_trl(cpu, fact_trl); isst_display_result(cpu, outf, "turbo-freq", "enable", ret); } else { /* Since we modified TRL during Fact enable, restore it */ isst_set_trl_from_current_tdp(cpu, fact_trl); isst_display_result(cpu, outf, "turbo-freq", "disable", ret); } } } static void set_fact_enable(void) { int status = 1; if (cmd_help) { fprintf(stderr, "Enable Intel Speed Select Technology Turbo frequency feature\n"); fprintf(stderr, "Optional: -t|--trl : Specify turbo ratio limit\n"); exit(0); } isst_ctdp_display_information_start(outf); if (max_target_cpus) for_each_online_target_cpu_in_set(set_fact_for_cpu, NULL, NULL, NULL, &status); else for_each_online_package_in_set(set_fact_for_cpu, NULL, NULL, NULL, &status); isst_ctdp_display_information_end(outf); } static void set_fact_disable(void) { int status = 0; if (cmd_help) { fprintf(stderr, "Disable Intel Speed Select Technology turbo frequency feature\n"); fprintf(stderr, "Optional: -t|--trl : Specify turbo ratio limit\n"); exit(0); } isst_ctdp_display_information_start(outf); if (max_target_cpus) for_each_online_target_cpu_in_set(set_fact_for_cpu, NULL, NULL, NULL, &status); else for_each_online_package_in_set(set_fact_for_cpu, NULL, NULL, NULL, &status); isst_ctdp_display_information_end(outf); } static void enable_clos_qos_config(int cpu, void *arg1, void *arg2, void *arg3, void *arg4) { int ret; int status = *(int *)arg4; ret = isst_pm_qos_config(cpu, status, clos_priority_type); if (ret) { perror("isst_pm_qos_config"); } else { if (status) isst_display_result(cpu, outf, "core-power", "enable", ret); else isst_display_result(cpu, outf, "core-power", "disable", ret); } } static void set_clos_enable(void) { int status = 1; if (cmd_help) { fprintf(stderr, "Enable core-power for a package/die\n"); fprintf(stderr, "\tClos Enable: Specify priority type with [--priority|-p]\n"); fprintf(stderr, "\t\t 0: Proportional, 1: Ordered\n"); exit(0); } if (cpufreq_sysfs_present()) { fprintf(stderr, "cpufreq subsystem and core-power enable will interfere with each other!\n"); } isst_ctdp_display_information_start(outf); if (max_target_cpus) for_each_online_target_cpu_in_set(enable_clos_qos_config, NULL, NULL, NULL, &status); else for_each_online_package_in_set(enable_clos_qos_config, NULL, NULL, NULL, &status); isst_ctdp_display_information_end(outf); } static void set_clos_disable(void) { int status = 0; if (cmd_help) { fprintf(stderr, "Disable core-power: [No command arguments are required]\n"); exit(0); } isst_ctdp_display_information_start(outf); if (max_target_cpus) for_each_online_target_cpu_in_set(enable_clos_qos_config, NULL, NULL, NULL, &status); else for_each_online_package_in_set(enable_clos_qos_config, NULL, NULL, NULL, &status); isst_ctdp_display_information_end(outf); } static void dump_clos_config_for_cpu(int cpu, void *arg1, void *arg2, void *arg3, void *arg4) { struct isst_clos_config clos_config; int ret; ret = isst_pm_get_clos(cpu, current_clos, &clos_config); if (ret) perror("isst_pm_get_clos"); else isst_clos_display_information(cpu, outf, current_clos, &clos_config); } static void dump_clos_config(void) { if (cmd_help) { fprintf(stderr, "Print Intel Speed Select Technology core power configuration\n"); fprintf(stderr, "\tArguments: [-c | --clos]: Specify clos id\n"); exit(0); } if (current_clos < 0 || current_clos > 3) { fprintf(stderr, "Invalid clos id\n"); exit(0); } isst_ctdp_display_information_start(outf); if (max_target_cpus) for_each_online_target_cpu_in_set(dump_clos_config_for_cpu, NULL, NULL, NULL, NULL); else for_each_online_package_in_set(dump_clos_config_for_cpu, NULL, NULL, NULL, NULL); isst_ctdp_display_information_end(outf); } static void set_clos_config_for_cpu(int cpu, void *arg1, void *arg2, void *arg3, void *arg4) { struct isst_clos_config clos_config; int ret; clos_config.pkg_id = get_physical_package_id(cpu); clos_config.die_id = get_physical_die_id(cpu); clos_config.epp = clos_epp; clos_config.clos_prop_prio = clos_prop_prio; clos_config.clos_min = clos_min; clos_config.clos_max = clos_max; clos_config.clos_desired = clos_desired; ret = isst_set_clos(cpu, current_clos, &clos_config); if (ret) perror("isst_set_clos"); else isst_display_result(cpu, outf, "core-power", "config", ret); } static void set_clos_config(void) { if (cmd_help) { fprintf(stderr, "Set core-power configuration for one of the four clos ids\n"); fprintf(stderr, "\tSpecify targeted clos id with [--clos|-c]\n"); fprintf(stderr, "\tSpecify clos EPP with [--epp|-e]\n"); fprintf(stderr, "\tSpecify clos Proportional Priority [--weight|-w]\n"); fprintf(stderr, "\tSpecify clos min with [--min|-n]\n"); fprintf(stderr, "\tSpecify clos max with [--max|-m]\n"); fprintf(stderr, "\tSpecify clos desired with [--desired|-d]\n"); exit(0); } if (current_clos < 0 || current_clos > 3) { fprintf(stderr, "Invalid clos id\n"); exit(0); } if (clos_epp < 0 || clos_epp > 0x0F) { fprintf(stderr, "clos epp is not specified, default: 0\n"); clos_epp = 0; } if (clos_prop_prio < 0 || clos_prop_prio > 0x0F) { fprintf(stderr, "clos frequency weight is not specified, default: 0\n"); clos_prop_prio = 0; } if (clos_min < 0) { fprintf(stderr, "clos min is not specified, default: 0\n"); clos_min = 0; } if (clos_max < 0) { fprintf(stderr, "clos max is not specified, default: 0xff\n"); clos_max = 0xff; } if (clos_desired < 0) { fprintf(stderr, "clos desired is not specified, default: 0\n"); clos_desired = 0x00; } isst_ctdp_display_information_start(outf); if (max_target_cpus) for_each_online_target_cpu_in_set(set_clos_config_for_cpu, NULL, NULL, NULL, NULL); else for_each_online_package_in_set(set_clos_config_for_cpu, NULL, NULL, NULL, NULL); isst_ctdp_display_information_end(outf); } static void set_clos_assoc_for_cpu(int cpu, void *arg1, void *arg2, void *arg3, void *arg4) { int ret; ret = isst_clos_associate(cpu, current_clos); if (ret) perror("isst_clos_associate"); else isst_display_result(cpu, outf, "core-power", "assoc", ret); } static void set_clos_assoc(void) { if (cmd_help) { fprintf(stderr, "Associate a clos id to a CPU\n"); fprintf(stderr, "\tSpecify targeted clos id with [--clos|-c]\n"); exit(0); } if (current_clos < 0 || current_clos > 3) { fprintf(stderr, "Invalid clos id\n"); exit(0); } if (max_target_cpus) for_each_online_target_cpu_in_set(set_clos_assoc_for_cpu, NULL, NULL, NULL, NULL); else { fprintf(stderr, "Invalid target cpu. Specify with [-c|--cpu]\n"); } } static void get_clos_assoc_for_cpu(int cpu, void *arg1, void *arg2, void *arg3, void *arg4) { int clos, ret; ret = isst_clos_get_assoc_status(cpu, &clos); if (ret) perror("isst_clos_get_assoc_status"); else isst_display_result(cpu, outf, "core-power", "get-assoc", clos); } static void get_clos_assoc(void) { if (cmd_help) { fprintf(stderr, "Get associate clos id to a CPU\n"); fprintf(stderr, "\tSpecify targeted cpu id with [--cpu|-c]\n"); exit(0); } if (max_target_cpus) for_each_online_target_cpu_in_set(get_clos_assoc_for_cpu, NULL, NULL, NULL, NULL); else { fprintf(stderr, "Invalid target cpu. Specify with [-c|--cpu]\n"); } } static struct process_cmd_struct isst_cmds[] = { { "perf-profile", "get-lock-status", get_tdp_locked }, { "perf-profile", "get-config-levels", get_tdp_levels }, { "perf-profile", "get-config-version", get_tdp_version }, { "perf-profile", "get-config-enabled", get_tdp_enabled }, { "perf-profile", "get-config-current-level", get_tdp_current_level }, { "perf-profile", "set-config-level", set_tdp_level }, { "perf-profile", "info", dump_isst_config }, { "base-freq", "info", dump_pbf_config }, { "base-freq", "enable", set_pbf_enable }, { "base-freq", "disable", set_pbf_disable }, { "turbo-freq", "info", dump_fact_config }, { "turbo-freq", "enable", set_fact_enable }, { "turbo-freq", "disable", set_fact_disable }, { "core-power", "info", dump_clos_config }, { "core-power", "enable", set_clos_enable }, { "core-power", "disable", set_clos_disable }, { "core-power", "config", set_clos_config }, { "core-power", "assoc", set_clos_assoc }, { "core-power", "get-assoc", get_clos_assoc }, { NULL, NULL, NULL } }; /* * parse cpuset with following syntax * 1,2,4..6,8-10 and set bits in cpu_subset */ void parse_cpu_command(char *optarg) { unsigned int start, end; char *next; next = optarg; while (next && *next) { if (*next == '-') /* no negative cpu numbers */ goto error; start = strtoul(next, &next, 10); if (max_target_cpus < MAX_CPUS_IN_ONE_REQ) target_cpus[max_target_cpus++] = start; if (*next == '\0') break; if (*next == ',') { next += 1; continue; } if (*next == '-') { next += 1; /* start range */ } else if (*next == '.') { next += 1; if (*next == '.') next += 1; /* start range */ else goto error; } end = strtoul(next, &next, 10); if (end <= start) goto error; while (++start <= end) { if (max_target_cpus < MAX_CPUS_IN_ONE_REQ) target_cpus[max_target_cpus++] = start; } if (*next == ',') next += 1; else if (*next != '\0') goto error; } #ifdef DEBUG { int i; for (i = 0; i < max_target_cpus; ++i) printf("cpu [%d] in arg\n", target_cpus[i]); } #endif return; error: fprintf(stderr, "\"--cpu %s\" malformed\n", optarg); exit(-1); } static void parse_cmd_args(int argc, int start, char **argv) { int opt; int option_index; static struct option long_options[] = { { "bucket", required_argument, 0, 'b' }, { "level", required_argument, 0, 'l' }, { "trl-type", required_argument, 0, 'r' }, { "trl", required_argument, 0, 't' }, { "help", no_argument, 0, 'h' }, { "clos", required_argument, 0, 'c' }, { "desired", required_argument, 0, 'd' }, { "epp", required_argument, 0, 'e' }, { "min", required_argument, 0, 'n' }, { "max", required_argument, 0, 'm' }, { "priority", required_argument, 0, 'p' }, { "weight", required_argument, 0, 'w' }, { 0, 0, 0, 0 } }; option_index = start; optind = start + 1; while ((opt = getopt_long(argc, argv, "b:l:t:c:d:e:n:m:p:w:h", long_options, &option_index)) != -1) { switch (opt) { case 'b': fact_bucket = atoi(optarg); break; case 'h': cmd_help = 1; break; case 'l': tdp_level = atoi(optarg); break; case 't': sscanf(optarg, "0x%llx", &fact_trl); break; case 'r': if (!strncmp(optarg, "sse", 3)) { fact_avx = 0x01; } else if (!strncmp(optarg, "avx2", 4)) { fact_avx = 0x02; } else if (!strncmp(optarg, "avx512", 4)) { fact_avx = 0x04; } else { fprintf(outf, "Invalid sse,avx options\n"); exit(1); } break; /* CLOS related */ case 'c': current_clos = atoi(optarg); printf("clos %d\n", current_clos); break; case 'd': clos_desired = atoi(optarg); break; case 'e': clos_epp = atoi(optarg); break; case 'n': clos_min = atoi(optarg); break; case 'm': clos_max = atoi(optarg); break; case 'p': clos_priority_type = atoi(optarg); break; case 'w': clos_prop_prio = atoi(optarg); break; default: printf("no match\n"); } } } static void isst_help(void) { printf("perf-profile:\tAn architectural mechanism that allows multiple optimized \n\ performance profiles per system via static and/or dynamic\n\ adjustment of core count, workload, Tjmax, and\n\ TDP, etc.\n"); printf("\nCommands : For feature=perf-profile\n"); printf("\tinfo\n"); printf("\tget-lock-status\n"); printf("\tget-config-levels\n"); printf("\tget-config-version\n"); printf("\tget-config-enabled\n"); printf("\tget-config-current-level\n"); printf("\tset-config-level\n"); } static void pbf_help(void) { printf("base-freq:\tEnables users to increase guaranteed base frequency\n\ on certain cores (high priority cores) in exchange for lower\n\ base frequency on remaining cores (low priority cores).\n"); printf("\tcommand : info\n"); printf("\tcommand : enable\n"); printf("\tcommand : disable\n"); } static void fact_help(void) { printf("turbo-freq:\tEnables the ability to set different turbo ratio\n\ limits to cores based on priority.\n"); printf("\nCommand: For feature=turbo-freq\n"); printf("\tcommand : info\n"); printf("\tcommand : enable\n"); printf("\tcommand : disable\n"); } static void core_power_help(void) { printf("core-power:\tInterface that allows user to define per core/tile\n\ priority.\n"); printf("\nCommands : For feature=core-power\n"); printf("\tinfo\n"); printf("\tenable\n"); printf("\tdisable\n"); printf("\tconfig\n"); printf("\tassoc\n"); printf("\tget-assoc\n"); } struct process_cmd_help_struct { char *feature; void (*process_fn)(void); }; static struct process_cmd_help_struct isst_help_cmds[] = { { "perf-profile", isst_help }, { "base-freq", pbf_help }, { "turbo-freq", fact_help }, { "core-power", core_power_help }, { NULL, NULL } }; void process_command(int argc, char **argv) { int i = 0, matched = 0; char *feature = argv[optind]; char *cmd = argv[optind + 1]; if (!feature || !cmd) return; debug_printf("feature name [%s] command [%s]\n", feature, cmd); if (!strcmp(cmd, "-h") || !strcmp(cmd, "--help")) { while (isst_help_cmds[i].feature) { if (!strcmp(isst_help_cmds[i].feature, feature)) { isst_help_cmds[i].process_fn(); exit(0); } ++i; } } create_cpu_map(); i = 0; while (isst_cmds[i].feature) { if (!strcmp(isst_cmds[i].feature, feature) && !strcmp(isst_cmds[i].command, cmd)) { parse_cmd_args(argc, optind + 1, argv); isst_cmds[i].process_fn(); matched = 1; break; } ++i; } if (!matched) fprintf(stderr, "Invalid command\n"); } static void usage(void) { printf("Intel(R) Speed Select Technology\n"); printf("\nUsage:\n"); printf("intel-speed-select [OPTIONS] FEATURE COMMAND COMMAND_ARGUMENTS\n"); printf("\nUse this tool to enumerate and control the Intel Speed Select Technology features,\n"); printf("\nFEATURE : [perf-profile|base-freq|turbo-freq|core-power]\n"); printf("\nFor help on each feature, use --h|--help\n"); printf("\tFor example: intel-speed-select perf-profile -h\n"); printf("\nFor additional help on each command for a feature, use --h|--help\n"); printf("\tFor example: intel-speed-select perf-profile get-lock-status -h\n"); printf("\t\t This will print help for the command \"get-lock-status\" for the feature \"perf-profile\"\n"); printf("\nOPTIONS\n"); printf("\t[-c|--cpu] : logical cpu number\n"); printf("\t\tDefault: Die scoped for all dies in the system with multiple dies/package\n"); printf("\t\t\t Or Package scoped for all Packages when each package contains one die\n"); printf("\t[-d|--debug] : Debug mode\n"); printf("\t[-h|--help] : Print help\n"); printf("\t[-i|--info] : Print platform information\n"); printf("\t[-o|--out] : Output file\n"); printf("\t\t\tDefault : stderr\n"); printf("\t[-f|--format] : output format [json|text]. Default: text\n"); printf("\t[-v|--version] : Print version\n"); printf("\nResult format\n"); printf("\tResult display uses a common format for each command:\n"); printf("\tResults are formatted in text/JSON with\n"); printf("\t\tPackage, Die, CPU, and command specific results.\n"); printf("\t\t\tFor Set commands, status is 0 for success and rest for failures\n"); exit(1); } static void print_version(void) { fprintf(outf, "Version %s\n", version_str); fprintf(outf, "Build date %s time %s\n", __DATE__, __TIME__); exit(0); } static void cmdline(int argc, char **argv) { int opt; int option_index = 0; static struct option long_options[] = { { "cpu", required_argument, 0, 'c' }, { "debug", no_argument, 0, 'd' }, { "format", required_argument, 0, 'f' }, { "help", no_argument, 0, 'h' }, { "info", no_argument, 0, 'i' }, { "out", required_argument, 0, 'o' }, { "version", no_argument, 0, 'v' }, { 0, 0, 0, 0 } }; progname = argv[0]; while ((opt = getopt_long_only(argc, argv, "+c:df:hio:v", long_options, &option_index)) != -1) { switch (opt) { case 'c': parse_cpu_command(optarg); break; case 'd': debug_flag = 1; printf("Debug Mode ON\n"); break; case 'f': if (!strncmp(optarg, "json", 4)) out_format_json = 1; break; case 'h': usage(); break; case 'i': isst_print_platform_information(); break; case 'o': if (outf) fclose(outf); outf = fopen_or_exit(optarg, "w"); break; case 'v': print_version(); break; default: usage(); } } if (geteuid() != 0) { fprintf(stderr, "Must run as root\n"); exit(0); } if (optind > (argc - 2)) { fprintf(stderr, "Feature name and|or command not specified\n"); exit(0); } update_cpu_model(); printf("Intel(R) Speed Select Technology\n"); printf("Executing on CPU model:%d[0x%x]\n", cpu_model, cpu_model); set_max_cpu_num(); set_cpu_present_cpu_mask(); set_cpu_target_cpu_mask(); isst_fill_platform_info(); if (isst_platform_info.api_version > supported_api_ver) { printf("Incompatible API versions; Upgrade of tool is required\n"); exit(0); } process_command(argc, argv); } int main(int argc, char **argv) { outf = stderr; cmdline(argc, argv); return 0; }
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