Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Rui Zhang | 3777 | 71.24% | 32 | 61.54% |
Srinivas Pandruvada | 1525 | 28.76% | 20 | 38.46% |
Total | 5302 | 52 |
// SPDX-License-Identifier: GPL-2.0 /* * Intel Speed Select -- Enumerate and control features for Mailbox Interface * Copyright (c) 2023 Intel Corporation. */ #include "isst.h" static int mbox_delay; static int mbox_retries = 3; #define MAX_TRL_LEVELS_EMR 5 static int mbox_get_disp_freq_multiplier(void) { return DISP_FREQ_MULTIPLIER; } static int mbox_get_trl_max_levels(void) { if (is_emr_platform()) return MAX_TRL_LEVELS_EMR; return 3; } static char *mbox_get_trl_level_name(int level) { if (is_emr_platform()) { static char level_str[18]; if (level >= MAX_TRL_LEVELS_EMR) return NULL; snprintf(level_str, sizeof(level_str), "level-%d", level); return level_str; } switch (level) { case 0: return "sse"; case 1: return "avx2"; case 2: return "avx512"; default: return NULL; } } static void mbox_update_platform_param(enum isst_platform_param param, int value) { switch (param) { case ISST_PARAM_MBOX_DELAY: mbox_delay = value; break; case ISST_PARAM_MBOX_RETRIES: mbox_retries = value; break; default: break; } } static int mbox_is_punit_valid(struct isst_id *id) { if (id->cpu < 0) return 0; if (id->pkg < 0 || id->die < 0 || id->punit) return 0; return 1; } static int _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; FILE *outf = get_output_file(); 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) { if (errno == ENOTTY) { perror("ISST_IF_IO_COMMAND\n"); fprintf(stderr, "Check presence of kernel modules: isst_if_mmio\n"); exit(0); } 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 _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, retry; 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 (!is_skx_based_platform() && command == CONFIG_CLOS && sub_command != CLOS_PM_QOS_CONFIG) { unsigned int value; int write = 0; int clos_id, core_id, ret = 0; debug_printf("CPU %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 = _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 = _send_mmio_command( cpu, PM_CLOS_OFFSET + clos_id * 4, 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; if (mbox_delay) usleep(mbox_delay * 1000); fd = open(pathname, O_RDWR); if (fd < 0) err(-1, "%s open failed", pathname); retry = mbox_retries; do { if (ioctl(fd, ISST_IF_MBOX_COMMAND, &mbox_cmds) == -1) { if (errno == ENOTTY) { perror("ISST_IF_MBOX_COMMAND\n"); fprintf(stderr, "Check presence of kernel modules: isst_if_mbox_pci or isst_if_mbox_msr\n"); exit(0); } debug_printf( "Error: mbox_cmd cpu:%d command:%x sub_command:%x parameter:%x req_data:%x errorno:%d\n", cpu, command, sub_command, parameter, req_data, errno); --retry; } 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); break; } } while (retry); close(fd); if (!retry) { debug_printf("Failed mbox command even after retries\n"); return -1; } return 0; } static int mbox_read_pm_config(struct isst_id *id, int *cp_state, int *cp_cap) { unsigned int resp; int ret; ret = _send_mbox_command(id->cpu, READ_PM_CONFIG, PM_FEATURE, 0, 0, &resp); if (ret) return ret; debug_printf("cpu:%d READ_PM_CONFIG resp:%x\n", id->cpu, resp); *cp_state = resp & BIT(16); *cp_cap = resp & BIT(0) ? 1 : 0; return 0; } static int mbox_get_config_levels(struct isst_id *id, struct isst_pkg_ctdp *pkg_dev) { unsigned int resp; int ret; ret = _send_mbox_command(id->cpu, CONFIG_TDP, CONFIG_TDP_GET_LEVELS_INFO, 0, 0, &resp); if (ret) { pkg_dev->levels = 0; pkg_dev->locked = 1; pkg_dev->current_level = 0; pkg_dev->version = 0; pkg_dev->enabled = 0; return 0; } debug_printf("cpu:%d CONFIG_TDP_GET_LEVELS_INFO resp:%x\n", id->cpu, resp); pkg_dev->version = resp & 0xff; pkg_dev->levels = (resp >> 8) & 0xff; pkg_dev->current_level = (resp >> 16) & 0xff; pkg_dev->locked = !!(resp & BIT(24)); pkg_dev->enabled = !!(resp & BIT(31)); return 0; } static int mbox_get_ctdp_control(struct isst_id *id, int config_index, struct isst_pkg_ctdp_level_info *ctdp_level) { int cp_state, cp_cap; unsigned int resp; int ret; ret = _send_mbox_command(id->cpu, CONFIG_TDP, CONFIG_TDP_GET_TDP_CONTROL, 0, config_index, &resp); if (ret) return ret; ctdp_level->fact_support = resp & BIT(0); ctdp_level->pbf_support = !!(resp & BIT(1)); ctdp_level->fact_enabled = !!(resp & BIT(16)); ctdp_level->pbf_enabled = !!(resp & BIT(17)); ret = isst_read_pm_config(id, &cp_state, &cp_cap); if (ret) { debug_printf("cpu:%d pm_config is not supported\n", id->cpu); } else { debug_printf("cpu:%d pm_config SST-CP state:%d cap:%d\n", id->cpu, cp_state, cp_cap); ctdp_level->sst_cp_support = cp_cap; ctdp_level->sst_cp_enabled = cp_state; } debug_printf( "cpu:%d CONFIG_TDP_GET_TDP_CONTROL resp:%x fact_support:%d pbf_support: %d fact_enabled:%d pbf_enabled:%d\n", id->cpu, resp, ctdp_level->fact_support, ctdp_level->pbf_support, ctdp_level->fact_enabled, ctdp_level->pbf_enabled); return 0; } static void _get_uncore_p0_p1_info(struct isst_id *id, int config_index, struct isst_pkg_ctdp_level_info *ctdp_level) { unsigned int resp; int ret; ctdp_level->uncore_pm = 0; ctdp_level->uncore_p0 = 0; ctdp_level->uncore_p1 = 0; ret = _send_mbox_command(id->cpu, CONFIG_TDP, CONFIG_TDP_GET_RATIO_INFO, 0, (BIT(16) | config_index) , &resp); if (ret) { goto try_uncore_mbox; } ctdp_level->uncore_p0 = resp & GENMASK(7, 0); ctdp_level->uncore_p1 = (resp & GENMASK(15, 8)) >> 8; ctdp_level->uncore_pm = (resp & GENMASK(31, 24)) >> 24; debug_printf( "cpu:%d ctdp:%d CONFIG_TDP_GET_RATIO_INFO resp:%x uncore p0:%d uncore p1:%d uncore pm:%d\n", id->cpu, config_index, resp, ctdp_level->uncore_p0, ctdp_level->uncore_p1, ctdp_level->uncore_pm); return; try_uncore_mbox: ret = _send_mbox_command(id->cpu, CONFIG_TDP, CONFIG_TDP_GET_UNCORE_P0_P1_INFO, 0, config_index, &resp); if (ret) { ctdp_level->uncore_p0 = 0; ctdp_level->uncore_p1 = 0; return; } ctdp_level->uncore_p0 = resp & GENMASK(7, 0); ctdp_level->uncore_p1 = (resp & GENMASK(15, 8)) >> 8; debug_printf( "cpu:%d ctdp:%d CONFIG_TDP_GET_UNCORE_P0_P1_INFO resp:%x uncore p0:%d uncore p1:%d\n", id->cpu, config_index, resp, ctdp_level->uncore_p0, ctdp_level->uncore_p1); } static int _set_uncore_min_max(struct isst_id *id, int max, int freq) { char buffer[128], freq_str[16]; int fd, ret, len; if (max) snprintf(buffer, sizeof(buffer), "/sys/devices/system/cpu/intel_uncore_frequency/package_%02d_die_%02d/max_freq_khz", id->pkg, id->die); else snprintf(buffer, sizeof(buffer), "/sys/devices/system/cpu/intel_uncore_frequency/package_%02d_die_%02d/min_freq_khz", id->pkg, id->die); fd = open(buffer, O_WRONLY); if (fd < 0) return fd; snprintf(freq_str, sizeof(freq_str), "%d", freq); len = strlen(freq_str); ret = write(fd, freq_str, len); if (ret == -1) { close(fd); return ret; } close(fd); return 0; } static void mbox_adjust_uncore_freq(struct isst_id *id, int config_index, struct isst_pkg_ctdp_level_info *ctdp_level) { _get_uncore_p0_p1_info(id, config_index, ctdp_level); if (ctdp_level->uncore_pm) _set_uncore_min_max(id, 0, ctdp_level->uncore_pm * 100000); if (ctdp_level->uncore_p0) _set_uncore_min_max(id, 1, ctdp_level->uncore_p0 * 100000); } static void _get_p1_info(struct isst_id *id, int config_index, struct isst_pkg_ctdp_level_info *ctdp_level) { unsigned int resp; int ret; ret = _send_mbox_command(id->cpu, CONFIG_TDP, CONFIG_TDP_GET_P1_INFO, 0, config_index, &resp); if (ret) { ctdp_level->sse_p1 = 0; ctdp_level->avx2_p1 = 0; ctdp_level->avx512_p1 = 0; return; } ctdp_level->sse_p1 = resp & GENMASK(7, 0); ctdp_level->avx2_p1 = (resp & GENMASK(15, 8)) >> 8; ctdp_level->avx512_p1 = (resp & GENMASK(23, 16)) >> 16; ctdp_level->amx_p1 = (resp & GENMASK(31, 24)) >> 24; debug_printf( "cpu:%d ctdp:%d CONFIG_TDP_GET_P1_INFO resp:%x sse_p1:%d avx2_p1:%d avx512_p1:%d amx_p1:%d\n", id->cpu, config_index, resp, ctdp_level->sse_p1, ctdp_level->avx2_p1, ctdp_level->avx512_p1, ctdp_level->amx_p1); } static void _get_uncore_mem_freq(struct isst_id *id, int config_index, struct isst_pkg_ctdp_level_info *ctdp_level) { unsigned int resp; int ret; ret = _send_mbox_command(id->cpu, CONFIG_TDP, CONFIG_TDP_GET_MEM_FREQ, 0, config_index, &resp); if (ret) { ctdp_level->mem_freq = 0; return; } ctdp_level->mem_freq = resp & GENMASK(7, 0); if (is_spr_platform() || is_emr_platform()) { ctdp_level->mem_freq *= 200; } else if (is_icx_platform()) { if (ctdp_level->mem_freq < 7) { ctdp_level->mem_freq = (12 - ctdp_level->mem_freq) * 133.33 * 2 * 10; ctdp_level->mem_freq /= 10; if (ctdp_level->mem_freq % 10 > 5) ctdp_level->mem_freq++; } else { ctdp_level->mem_freq = 0; } } else { ctdp_level->mem_freq = 0; } debug_printf( "cpu:%d ctdp:%d CONFIG_TDP_GET_MEM_FREQ resp:%x uncore mem_freq:%d\n", id->cpu, config_index, resp, ctdp_level->mem_freq); } static int mbox_get_tdp_info(struct isst_id *id, int config_index, struct isst_pkg_ctdp_level_info *ctdp_level) { unsigned int resp; int ret; ret = _send_mbox_command(id->cpu, CONFIG_TDP, CONFIG_TDP_GET_TDP_INFO, 0, config_index, &resp); if (ret) { isst_display_error_info_message(1, "Invalid level, Can't get TDP information at level", 1, config_index); return ret; } ctdp_level->pkg_tdp = resp & GENMASK(14, 0); ctdp_level->tdp_ratio = (resp & GENMASK(23, 16)) >> 16; debug_printf( "cpu:%d ctdp:%d CONFIG_TDP_GET_TDP_INFO resp:%x tdp_ratio:%d pkg_tdp:%d\n", id->cpu, config_index, resp, ctdp_level->tdp_ratio, ctdp_level->pkg_tdp); ret = _send_mbox_command(id->cpu, CONFIG_TDP, CONFIG_TDP_GET_TJMAX_INFO, 0, config_index, &resp); if (ret) return ret; ctdp_level->t_proc_hot = resp & GENMASK(7, 0); _get_uncore_p0_p1_info(id, config_index, ctdp_level); _get_p1_info(id, config_index, ctdp_level); _get_uncore_mem_freq(id, config_index, ctdp_level); debug_printf( "cpu:%d ctdp:%d CONFIG_TDP_GET_TJMAX_INFO resp:%x t_proc_hot:%d\n", id->cpu, config_index, resp, ctdp_level->t_proc_hot); return 0; } static int mbox_get_pwr_info(struct isst_id *id, int config_index, struct isst_pkg_ctdp_level_info *ctdp_level) { unsigned int resp; int ret; ret = _send_mbox_command(id->cpu, CONFIG_TDP, CONFIG_TDP_GET_PWR_INFO, 0, config_index, &resp); if (ret) return ret; ctdp_level->pkg_max_power = resp & GENMASK(14, 0); ctdp_level->pkg_min_power = (resp & GENMASK(30, 16)) >> 16; debug_printf( "cpu:%d ctdp:%d CONFIG_TDP_GET_PWR_INFO resp:%x pkg_max_power:%d pkg_min_power:%d\n", id->cpu, config_index, resp, ctdp_level->pkg_max_power, ctdp_level->pkg_min_power); return 0; } static int mbox_get_coremask_info(struct isst_id *id, int config_index, struct isst_pkg_ctdp_level_info *ctdp_level) { unsigned int resp; int i, ret; ctdp_level->cpu_count = 0; for (i = 0; i < 2; ++i) { unsigned long long mask; int cpu_count = 0; ret = _send_mbox_command(id->cpu, CONFIG_TDP, CONFIG_TDP_GET_CORE_MASK, 0, (i << 8) | config_index, &resp); if (ret) return ret; debug_printf( "cpu:%d ctdp:%d mask:%d CONFIG_TDP_GET_CORE_MASK resp:%x\n", id->cpu, config_index, i, resp); mask = (unsigned long long)resp << (32 * i); set_cpu_mask_from_punit_coremask(id, mask, ctdp_level->core_cpumask_size, ctdp_level->core_cpumask, &cpu_count); ctdp_level->cpu_count += cpu_count; debug_printf("cpu:%d ctdp:%d mask:%d cpu count:%d\n", id->cpu, config_index, i, ctdp_level->cpu_count); } return 0; } static int mbox_get_get_trl(struct isst_id *id, int level, int avx_level, int *trl) { unsigned int req, resp; int ret; req = level | (avx_level << 16); ret = _send_mbox_command(id->cpu, CONFIG_TDP, CONFIG_TDP_GET_TURBO_LIMIT_RATIOS, 0, req, &resp); if (ret) return ret; debug_printf( "cpu:%d CONFIG_TDP_GET_TURBO_LIMIT_RATIOS req:%x resp:%x\n", id->cpu, req, resp); trl[0] = resp & GENMASK(7, 0); trl[1] = (resp & GENMASK(15, 8)) >> 8; trl[2] = (resp & GENMASK(23, 16)) >> 16; trl[3] = (resp & GENMASK(31, 24)) >> 24; req = level | BIT(8) | (avx_level << 16); ret = _send_mbox_command(id->cpu, CONFIG_TDP, CONFIG_TDP_GET_TURBO_LIMIT_RATIOS, 0, req, &resp); if (ret) return ret; debug_printf("cpu:%d CONFIG_TDP_GET_TURBO_LIMIT req:%x resp:%x\n", id->cpu, req, resp); trl[4] = resp & GENMASK(7, 0); trl[5] = (resp & GENMASK(15, 8)) >> 8; trl[6] = (resp & GENMASK(23, 16)) >> 16; trl[7] = (resp & GENMASK(31, 24)) >> 24; return 0; } static int mbox_get_get_trls(struct isst_id *id, int level, struct isst_pkg_ctdp_level_info *ctdp_level) { int trl_max_levels = isst_get_trl_max_levels(); int i, ret; for (i = 0; i < trl_max_levels; i++) { ret = mbox_get_get_trl(id, level, i, ctdp_level->trl_ratios[i]); if (ret) return ret; } return 0; } static int mbox_get_trl_bucket_info(struct isst_id *id, int level, unsigned long long *buckets_info) { int ret; debug_printf("cpu:%d bucket info via MSR\n", id->cpu); *buckets_info = 0; ret = isst_send_msr_command(id->cpu, 0x1ae, 0, buckets_info); if (ret) return ret; debug_printf("cpu:%d bucket info via MSR successful 0x%llx\n", id->cpu, *buckets_info); return 0; } static int mbox_set_tdp_level(struct isst_id *id, int tdp_level) { unsigned int resp; int ret; if (isst_get_config_tdp_lock_status(id)) { isst_display_error_info_message(1, "TDP is locked", 0, 0); return -1; } ret = _send_mbox_command(id->cpu, CONFIG_TDP, CONFIG_TDP_SET_LEVEL, 0, tdp_level, &resp); if (ret) { isst_display_error_info_message(1, "Set TDP level failed for level", 1, tdp_level); return ret; } return 0; } static int mbox_get_pbf_info(struct isst_id *id, int level, struct isst_pbf_info *pbf_info) { int max_punit_core, max_mask_index; unsigned int req, resp; int i, ret; max_punit_core = get_max_punit_core_id(id); max_mask_index = max_punit_core > 32 ? 2 : 1; for (i = 0; i < max_mask_index; ++i) { unsigned long long mask; int count; ret = _send_mbox_command(id->cpu, CONFIG_TDP, CONFIG_TDP_PBF_GET_CORE_MASK_INFO, 0, (i << 8) | level, &resp); if (ret) break; debug_printf( "cpu:%d CONFIG_TDP_PBF_GET_CORE_MASK_INFO resp:%x\n", id->cpu, resp); mask = (unsigned long long)resp << (32 * i); set_cpu_mask_from_punit_coremask(id, mask, pbf_info->core_cpumask_size, pbf_info->core_cpumask, &count); } req = level; ret = _send_mbox_command(id->cpu, CONFIG_TDP, CONFIG_TDP_PBF_GET_P1HI_P1LO_INFO, 0, req, &resp); if (ret) return ret; debug_printf("cpu:%d CONFIG_TDP_PBF_GET_P1HI_P1LO_INFO resp:%x\n", id->cpu, resp); pbf_info->p1_low = resp & 0xff; pbf_info->p1_high = (resp & GENMASK(15, 8)) >> 8; req = level; ret = _send_mbox_command( id->cpu, CONFIG_TDP, CONFIG_TDP_PBF_GET_TDP_INFO, 0, req, &resp); if (ret) return ret; debug_printf("cpu:%d CONFIG_TDP_PBF_GET_TDP_INFO resp:%x\n", id->cpu, resp); pbf_info->tdp = resp & 0xffff; req = level; ret = _send_mbox_command( id->cpu, CONFIG_TDP, CONFIG_TDP_PBF_GET_TJ_MAX_INFO, 0, req, &resp); if (ret) return ret; debug_printf("cpu:%d CONFIG_TDP_PBF_GET_TJ_MAX_INFO resp:%x\n", id->cpu, resp); pbf_info->t_control = (resp >> 8) & 0xff; pbf_info->t_prochot = resp & 0xff; return 0; } static int mbox_set_pbf_fact_status(struct isst_id *id, int pbf, int enable) { struct isst_pkg_ctdp pkg_dev; struct isst_pkg_ctdp_level_info ctdp_level; int current_level; unsigned int req = 0, resp; int ret; ret = isst_get_ctdp_levels(id, &pkg_dev); if (ret) debug_printf("cpu:%d No support for dynamic ISST\n", id->cpu); current_level = pkg_dev.current_level; ret = isst_get_ctdp_control(id, current_level, &ctdp_level); if (ret) return ret; if (pbf) { if (ctdp_level.fact_enabled) req = BIT(16); if (enable) req |= BIT(17); else req &= ~BIT(17); } else { if (enable && !ctdp_level.sst_cp_enabled) isst_display_error_info_message(0, "Make sure to execute before: core-power enable", 0, 0); if (ctdp_level.pbf_enabled) req = BIT(17); if (enable) req |= BIT(16); else req &= ~BIT(16); } ret = _send_mbox_command(id->cpu, CONFIG_TDP, CONFIG_TDP_SET_TDP_CONTROL, 0, req, &resp); if (ret) return ret; debug_printf("cpu:%d CONFIG_TDP_SET_TDP_CONTROL pbf/fact:%d req:%x\n", id->cpu, pbf, req); return 0; } static int _get_fact_bucket_info(struct isst_id *id, int level, struct isst_fact_bucket_info *bucket_info) { int trl_max_levels = isst_get_trl_max_levels(); unsigned int resp; int i, k, ret; for (i = 0; i < 2; ++i) { int j; ret = _send_mbox_command( id->cpu, CONFIG_TDP, CONFIG_TDP_GET_FACT_HP_TURBO_LIMIT_NUMCORES, 0, (i << 8) | level, &resp); if (ret) return ret; debug_printf( "cpu:%d CONFIG_TDP_GET_FACT_HP_TURBO_LIMIT_NUMCORES index:%d level:%d resp:%x\n", id->cpu, i, level, resp); for (j = 0; j < 4; ++j) { bucket_info[j + (i * 4)].hp_cores = (resp >> (j * 8)) & 0xff; } } for (k = 0; k < trl_max_levels; ++k) { for (i = 0; i < 2; ++i) { int j; ret = _send_mbox_command( id->cpu, CONFIG_TDP, CONFIG_TDP_GET_FACT_HP_TURBO_LIMIT_RATIOS, 0, (k << 16) | (i << 8) | level, &resp); if (ret) return ret; debug_printf( "cpu:%d CONFIG_TDP_GET_FACT_HP_TURBO_LIMIT_RATIOS index:%d level:%d avx:%d resp:%x\n", id->cpu, i, level, k, resp); for (j = 0; j < 4; ++j) { bucket_info[j + (i * 4)].hp_ratios[k] = (resp >> (j * 8)) & 0xff; } } } return 0; } static int mbox_get_fact_info(struct isst_id *id, int level, int fact_bucket, struct isst_fact_info *fact_info) { unsigned int resp; int j, ret, print; ret = _send_mbox_command(id->cpu, CONFIG_TDP, CONFIG_TDP_GET_FACT_LP_CLIPPING_RATIO, 0, level, &resp); if (ret) return ret; debug_printf("cpu:%d CONFIG_TDP_GET_FACT_LP_CLIPPING_RATIO resp:%x\n", id->cpu, resp); fact_info->lp_ratios[0] = resp & 0xff; fact_info->lp_ratios[1] = (resp >> 8) & 0xff; fact_info->lp_ratios[2] = (resp >> 16) & 0xff; ret = _get_fact_bucket_info(id, level, fact_info->bucket_info); if (ret) return ret; print = 0; for (j = 0; j < ISST_FACT_MAX_BUCKETS; ++j) { if (fact_bucket != 0xff && fact_bucket != j) continue; if (!fact_info->bucket_info[j].hp_cores) break; print = 1; } if (!print) { isst_display_error_info_message(1, "Invalid bucket", 0, 0); return -1; } return 0; } static int mbox_get_clos_information(struct isst_id *id, int *enable, int *type) { unsigned int resp; int ret; ret = _send_mbox_command(id->cpu, CONFIG_CLOS, CLOS_PM_QOS_CONFIG, 0, 0, &resp); if (ret) return ret; debug_printf("cpu:%d CLOS_PM_QOS_CONFIG resp:%x\n", id->cpu, resp); if (resp & BIT(1)) *enable = 1; else *enable = 0; if (resp & BIT(2)) *type = 1; else *type = 0; return 0; } static int _write_pm_config(struct isst_id *id, int cp_state) { unsigned int req, resp; int ret; if (cp_state) req = BIT(16); else req = 0; ret = _send_mbox_command(id->cpu, WRITE_PM_CONFIG, PM_FEATURE, 0, req, &resp); if (ret) return ret; debug_printf("cpu:%d WRITE_PM_CONFIG resp:%x\n", id->cpu, resp); return 0; } static int mbox_pm_qos_config(struct isst_id *id, int enable_clos, int priority_type) { unsigned int req, resp; int ret; if (!enable_clos) { struct isst_pkg_ctdp pkg_dev; struct isst_pkg_ctdp_level_info ctdp_level; ret = isst_get_ctdp_levels(id, &pkg_dev); if (ret) { debug_printf("isst_get_ctdp_levels\n"); return ret; } ret = isst_get_ctdp_control(id, pkg_dev.current_level, &ctdp_level); if (ret) return ret; if (ctdp_level.fact_enabled) { isst_display_error_info_message(1, "Ignoring request, turbo-freq feature is still enabled", 0, 0); return -EINVAL; } ret = _write_pm_config(id, 0); if (ret) isst_display_error_info_message(0, "WRITE_PM_CONFIG command failed, ignoring error", 0, 0); } else { ret = _write_pm_config(id, 1); if (ret) isst_display_error_info_message(0, "WRITE_PM_CONFIG command failed, ignoring error", 0, 0); } ret = _send_mbox_command(id->cpu, CONFIG_CLOS, CLOS_PM_QOS_CONFIG, 0, 0, &resp); if (ret) { isst_display_error_info_message(1, "CLOS_PM_QOS_CONFIG command failed", 0, 0); return ret; } debug_printf("cpu:%d CLOS_PM_QOS_CONFIG resp:%x\n", id->cpu, resp); req = resp; if (enable_clos) req = req | BIT(1); else req = req & ~BIT(1); if (priority_type > 1) isst_display_error_info_message(1, "Invalid priority type: Changing type to ordered", 0, 0); if (priority_type) req = req | BIT(2); else req = req & ~BIT(2); ret = _send_mbox_command(id->cpu, CONFIG_CLOS, CLOS_PM_QOS_CONFIG, BIT(MBOX_CMD_WRITE_BIT), req, &resp); if (ret) return ret; debug_printf("cpu:%d CLOS_PM_QOS_CONFIG priority type:%d req:%x\n", id->cpu, priority_type, req); return 0; } static int mbox_pm_get_clos(struct isst_id *id, int clos, struct isst_clos_config *clos_config) { unsigned int resp; int ret; ret = _send_mbox_command(id->cpu, CONFIG_CLOS, CLOS_PM_CLOS, clos, 0, &resp); if (ret) return ret; clos_config->epp = resp & 0x0f; clos_config->clos_prop_prio = (resp >> 4) & 0x0f; clos_config->clos_min = (resp >> 8) & 0xff; clos_config->clos_max = (resp >> 16) & 0xff; clos_config->clos_desired = (resp >> 24) & 0xff; return 0; } static int mbox_set_clos(struct isst_id *id, int clos, struct isst_clos_config *clos_config) { unsigned int req, resp; unsigned int param; int ret; req = clos_config->epp & 0x0f; req |= (clos_config->clos_prop_prio & 0x0f) << 4; req |= (clos_config->clos_min & 0xff) << 8; req |= (clos_config->clos_max & 0xff) << 16; req |= (clos_config->clos_desired & 0xff) << 24; param = BIT(MBOX_CMD_WRITE_BIT) | clos; ret = _send_mbox_command(id->cpu, CONFIG_CLOS, CLOS_PM_CLOS, param, req, &resp); if (ret) return ret; debug_printf("cpu:%d CLOS_PM_CLOS param:%x req:%x\n", id->cpu, param, req); return 0; } static int mbox_clos_get_assoc_status(struct isst_id *id, int *clos_id) { unsigned int resp; unsigned int param; int core_id, ret; core_id = find_phy_core_num(id->cpu); param = core_id; ret = _send_mbox_command(id->cpu, CONFIG_CLOS, CLOS_PQR_ASSOC, param, 0, &resp); if (ret) return ret; debug_printf("cpu:%d CLOS_PQR_ASSOC param:%x resp:%x\n", id->cpu, param, resp); *clos_id = (resp >> 16) & 0x03; return 0; } static int mbox_clos_associate(struct isst_id *id, int clos_id) { unsigned int req, resp; unsigned int param; int core_id, ret; req = (clos_id & 0x03) << 16; core_id = find_phy_core_num(id->cpu); param = BIT(MBOX_CMD_WRITE_BIT) | core_id; ret = _send_mbox_command(id->cpu, CONFIG_CLOS, CLOS_PQR_ASSOC, param, req, &resp); if (ret) return ret; debug_printf("cpu:%d CLOS_PQR_ASSOC param:%x req:%x\n", id->cpu, param, req); return 0; } static struct isst_platform_ops mbox_ops = { .get_disp_freq_multiplier = mbox_get_disp_freq_multiplier, .get_trl_max_levels = mbox_get_trl_max_levels, .get_trl_level_name = mbox_get_trl_level_name, .update_platform_param = mbox_update_platform_param, .is_punit_valid = mbox_is_punit_valid, .read_pm_config = mbox_read_pm_config, .get_config_levels = mbox_get_config_levels, .get_ctdp_control = mbox_get_ctdp_control, .get_tdp_info = mbox_get_tdp_info, .get_pwr_info = mbox_get_pwr_info, .get_coremask_info = mbox_get_coremask_info, .get_get_trl = mbox_get_get_trl, .get_get_trls = mbox_get_get_trls, .get_trl_bucket_info = mbox_get_trl_bucket_info, .set_tdp_level = mbox_set_tdp_level, .get_pbf_info = mbox_get_pbf_info, .set_pbf_fact_status = mbox_set_pbf_fact_status, .get_fact_info = mbox_get_fact_info, .adjust_uncore_freq = mbox_adjust_uncore_freq, .get_clos_information = mbox_get_clos_information, .pm_qos_config = mbox_pm_qos_config, .pm_get_clos = mbox_pm_get_clos, .set_clos = mbox_set_clos, .clos_get_assoc_status = mbox_clos_get_assoc_status, .clos_associate = mbox_clos_associate, }; struct isst_platform_ops *mbox_get_platform_ops(void) { return &mbox_ops; }
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