/* * sysfs.c sysfs ABI access functions for TMON program * * Copyright (C) 2013 Intel Corporation. All rights reserved. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License version * 2 or later as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * Author: Jacob Pan * */ #include #include #include #include #include #include #include #include #include #include #include #include #include "tmon.h" struct tmon_platform_data ptdata; const char *trip_type_name[] = { "critical", "hot", "passive", "active", }; int sysfs_set_ulong(char *path, char *filename, unsigned long val) { FILE *fd; int ret = -1; char filepath[256]; snprintf(filepath, 256, "%s/%s", path, filename); fd = fopen(filepath, "w"); if (!fd) { syslog(LOG_ERR, "Err: open %s: %s\n", __func__, filepath); return ret; } ret = fprintf(fd, "%lu", val); fclose(fd); return 0; } /* history of thermal data, used for control algo */ #define NR_THERMAL_RECORDS 3 struct thermal_data_record trec[NR_THERMAL_RECORDS]; int cur_thermal_record; /* index to the trec array */ static int sysfs_get_ulong(char *path, char *filename, unsigned long *p_ulong) { FILE *fd; int ret = -1; char filepath[256]; snprintf(filepath, 256, "%s/%s", path, filename); fd = fopen(filepath, "r"); if (!fd) { syslog(LOG_ERR, "Err: open %s: %s\n", __func__, filepath); return ret; } ret = fscanf(fd, "%lu", p_ulong); fclose(fd); return 0; } static int sysfs_get_string(char *path, char *filename, char *str) { FILE *fd; int ret = -1; char filepath[256]; snprintf(filepath, 256, "%s/%s", path, filename); fd = fopen(filepath, "r"); if (!fd) { syslog(LOG_ERR, "Err: open %s: %s\n", __func__, filepath); return ret; } ret = fscanf(fd, "%256s", str); fclose(fd); return ret; } /* get states of the cooling device instance */ static int probe_cdev(struct cdev_info *cdi, char *path) { sysfs_get_string(path, "type", cdi->type); sysfs_get_ulong(path, "max_state", &cdi->max_state); sysfs_get_ulong(path, "cur_state", &cdi->cur_state); syslog(LOG_INFO, "%s: %s: type %s, max %lu, curr %lu inst %d\n", __func__, path, cdi->type, cdi->max_state, cdi->cur_state, cdi->instance); return 0; } static int str_to_trip_type(char *name) { int i; for (i = 0; i < NR_THERMAL_TRIP_TYPE; i++) { if (!strcmp(name, trip_type_name[i])) return i; } return -ENOENT; } /* scan and fill in trip point info for a thermal zone and trip point id */ static int get_trip_point_data(char *tz_path, int tzid, int tpid) { char filename[256]; char temp_str[256]; int trip_type; if (tpid >= MAX_NR_TRIP) return -EINVAL; /* check trip point type */ snprintf(filename, sizeof(filename), "trip_point_%d_type", tpid); sysfs_get_string(tz_path, filename, temp_str); trip_type = str_to_trip_type(temp_str); if (trip_type < 0) { syslog(LOG_ERR, "%s:%s no matching type\n", __func__, temp_str); return -ENOENT; } ptdata.tzi[tzid].tp[tpid].type = trip_type; syslog(LOG_INFO, "%s:tz:%d tp:%d:type:%s type id %d\n", __func__, tzid, tpid, temp_str, trip_type); /* TODO: check attribute */ return 0; } /* return instance id for file format such as trip_point_4_temp */ static int get_instance_id(char *name, int pos, int skip) { char *ch; int i = 0; ch = strtok(name, "_"); while (ch != NULL) { ++i; syslog(LOG_INFO, "%s:%s:%s:%d", __func__, name, ch, i); ch = strtok(NULL, "_"); if (pos == i) return atol(ch + skip); } return -1; } /* Find trip point info of a thermal zone */ static int find_tzone_tp(char *tz_name, char *d_name, struct tz_info *tzi, int tz_id) { int tp_id; unsigned long temp_ulong; if (strstr(d_name, "trip_point") && strstr(d_name, "temp")) { /* check if trip point temp is non-zero * ignore 0/invalid trip points */ sysfs_get_ulong(tz_name, d_name, &temp_ulong); if (temp_ulong < MAX_TEMP_KC) { tzi->nr_trip_pts++; /* found a valid trip point */ tp_id = get_instance_id(d_name, 2, 0); syslog(LOG_DEBUG, "tzone %s trip %d temp %lu tpnode %s", tz_name, tp_id, temp_ulong, d_name); if (tp_id < 0 || tp_id >= MAX_NR_TRIP) { syslog(LOG_ERR, "Failed to find TP inst %s\n", d_name); return -1; } get_trip_point_data(tz_name, tz_id, tp_id); tzi->tp[tp_id].temp = temp_ulong; } } return 0; } /* check cooling devices for binding info. */ static int find_tzone_cdev(struct dirent *nl, char *tz_name, struct tz_info *tzi, int tz_id, int cid) { unsigned long trip_instance = 0; char cdev_name_linked[256]; char cdev_name[256]; char cdev_trip_name[256]; int cdev_id; if (nl->d_type == DT_LNK) { syslog(LOG_DEBUG, "TZ%d: cdev: %s cid %d\n", tz_id, nl->d_name, cid); tzi->nr_cdev++; if (tzi->nr_cdev > ptdata.nr_cooling_dev) { syslog(LOG_ERR, "Err: Too many cdev? %d\n", tzi->nr_cdev); return -EINVAL; } /* find the link to real cooling device record binding */ snprintf(cdev_name, 256, "%s/%s", tz_name, nl->d_name); memset(cdev_name_linked, 0, sizeof(cdev_name_linked)); if (readlink(cdev_name, cdev_name_linked, sizeof(cdev_name_linked) - 1) != -1) { cdev_id = get_instance_id(cdev_name_linked, 1, sizeof("device") - 1); syslog(LOG_DEBUG, "cdev %s linked to %s : %d\n", cdev_name, cdev_name_linked, cdev_id); tzi->cdev_binding |= (1 << cdev_id); /* find the trip point in which the cdev is binded to * in this tzone */ snprintf(cdev_trip_name, 256, "%s%s", nl->d_name, "_trip_point"); sysfs_get_ulong(tz_name, cdev_trip_name, &trip_instance); /* validate trip point range, e.g. trip could return -1 * when passive is enabled */ if (trip_instance > MAX_NR_TRIP) trip_instance = 0; tzi->trip_binding[cdev_id] |= 1 << trip_instance; syslog(LOG_DEBUG, "cdev %s -> trip:%lu: 0x%lx %d\n", cdev_name, trip_instance, tzi->trip_binding[cdev_id], cdev_id); } return 0; } return -ENODEV; } /***************************************************************************** * Before calling scan_tzones, thermal sysfs must be probed to determine * the number of thermal zones and cooling devices. * We loop through each thermal zone and fill in tz_info struct, i.e. * ptdata.tzi[] root@jacob-chiefriver:~# tree -d /sys/class/thermal/thermal_zone0 /sys/class/thermal/thermal_zone0 |-- cdev0 -> ../cooling_device4 |-- cdev1 -> ../cooling_device3 |-- cdev10 -> ../cooling_device7 |-- cdev11 -> ../cooling_device6 |-- cdev12 -> ../cooling_device5 |-- cdev2 -> ../cooling_device2 |-- cdev3 -> ../cooling_device1 |-- cdev4 -> ../cooling_device0 |-- cdev5 -> ../cooling_device12 |-- cdev6 -> ../cooling_device11 |-- cdev7 -> ../cooling_device10 |-- cdev8 -> ../cooling_device9 |-- cdev9 -> ../cooling_device8 |-- device -> ../../../LNXSYSTM:00/device:62/LNXTHERM:00 |-- power `-- subsystem -> ../../../../class/thermal *****************************************************************************/ static int scan_tzones(void) { DIR *dir; struct dirent **namelist; char tz_name[256]; int i, j, n, k = 0; if (!ptdata.nr_tz_sensor) return -1; for (i = 0; i <= ptdata.max_tz_instance; i++) { memset(tz_name, 0, sizeof(tz_name)); snprintf(tz_name, 256, "%s/%s%d", THERMAL_SYSFS, TZONE, i); dir = opendir(tz_name); if (!dir) { syslog(LOG_INFO, "Thermal zone %s skipped\n", tz_name); continue; } /* keep track of valid tzones */ n = scandir(tz_name, &namelist, 0, alphasort); if (n < 0) syslog(LOG_ERR, "scandir failed in %s", tz_name); else { sysfs_get_string(tz_name, "type", ptdata.tzi[k].type); ptdata.tzi[k].instance = i; /* detect trip points and cdev attached to this tzone */ j = 0; /* index for cdev */ ptdata.tzi[k].nr_cdev = 0; ptdata.tzi[k].nr_trip_pts = 0; while (n--) { char *temp_str; if (find_tzone_tp(tz_name, namelist[n]->d_name, &ptdata.tzi[k], k)) break; temp_str = strstr(namelist[n]->d_name, "cdev"); if (!temp_str) { free(namelist[n]); continue; } if (!find_tzone_cdev(namelist[n], tz_name, &ptdata.tzi[k], i, j)) j++; /* increment cdev index */ free(namelist[n]); } free(namelist); } /*TODO: reverse trip points */ closedir(dir); syslog(LOG_INFO, "TZ %d has %d cdev\n", i, ptdata.tzi[k].nr_cdev); k++; } return 0; } static int scan_cdevs(void) { DIR *dir; struct dirent **namelist; char cdev_name[256]; int i, n, k = 0; if (!ptdata.nr_cooling_dev) { fprintf(stderr, "No cooling devices found\n"); return 0; } for (i = 0; i <= ptdata.max_cdev_instance; i++) { memset(cdev_name, 0, sizeof(cdev_name)); snprintf(cdev_name, 256, "%s/%s%d", THERMAL_SYSFS, CDEV, i); dir = opendir(cdev_name); if (!dir) { syslog(LOG_INFO, "Cooling dev %s skipped\n", cdev_name); /* there is a gap in cooling device id, check again * for the same index. */ continue; } n = scandir(cdev_name, &namelist, 0, alphasort); if (n < 0) syslog(LOG_ERR, "scandir failed in %s", cdev_name); else { sysfs_get_string(cdev_name, "type", ptdata.cdi[k].type); ptdata.cdi[k].instance = i; if (strstr(ptdata.cdi[k].type, ctrl_cdev)) { ptdata.cdi[k].flag |= CDEV_FLAG_IN_CONTROL; syslog(LOG_DEBUG, "control cdev id %d\n", i); } while (n--) free(namelist[n]); free(namelist); } closedir(dir); k++; } return 0; } int probe_thermal_sysfs(void) { DIR *dir; struct dirent **namelist; int n; dir = opendir(THERMAL_SYSFS); if (!dir) { fprintf(stderr, "\nNo thermal sysfs, exit\n"); return -1; } n = scandir(THERMAL_SYSFS, &namelist, 0, alphasort); if (n < 0) syslog(LOG_ERR, "scandir failed in thermal sysfs"); else { /* detect number of thermal zones and cooling devices */ while (n--) { int inst; if (strstr(namelist[n]->d_name, CDEV)) { inst = get_instance_id(namelist[n]->d_name, 1, sizeof("device") - 1); /* keep track of the max cooling device since * there may be gaps. */ if (inst > ptdata.max_cdev_instance) ptdata.max_cdev_instance = inst; syslog(LOG_DEBUG, "found cdev: %s %d %d\n", namelist[n]->d_name, ptdata.nr_cooling_dev, ptdata.max_cdev_instance); ptdata.nr_cooling_dev++; } else if (strstr(namelist[n]->d_name, TZONE)) { inst = get_instance_id(namelist[n]->d_name, 1, sizeof("zone") - 1); if (inst > ptdata.max_tz_instance) ptdata.max_tz_instance = inst; syslog(LOG_DEBUG, "found tzone: %s %d %d\n", namelist[n]->d_name, ptdata.nr_tz_sensor, ptdata.max_tz_instance); ptdata.nr_tz_sensor++; } free(namelist[n]); } free(namelist); } syslog(LOG_INFO, "found %d tzone(s), %d cdev(s), target zone %d\n", ptdata.nr_tz_sensor, ptdata.nr_cooling_dev, target_thermal_zone); closedir(dir); if (!ptdata.nr_tz_sensor) { fprintf(stderr, "\nNo thermal zones found, exit\n\n"); return -1; } ptdata.tzi = calloc(ptdata.max_tz_instance+1, sizeof(struct tz_info)); if (!ptdata.tzi) { fprintf(stderr, "Err: allocate tz_info\n"); return -1; } /* we still show thermal zone information if there is no cdev */ if (ptdata.nr_cooling_dev) { ptdata.cdi = calloc(ptdata.max_cdev_instance + 1, sizeof(struct cdev_info)); if (!ptdata.cdi) { free(ptdata.tzi); fprintf(stderr, "Err: allocate cdev_info\n"); return -1; } } /* now probe tzones */ if (scan_tzones()) return -1; if (scan_cdevs()) return -1; return 0; } /* convert sysfs zone instance to zone array index */ int zone_instance_to_index(int zone_inst) { int i; for (i = 0; i < ptdata.nr_tz_sensor; i++) if (ptdata.tzi[i].instance == zone_inst) return i; return -ENOENT; } /* read temperature of all thermal zones */ int update_thermal_data() { int i; char tz_name[256]; static unsigned long samples; if (!ptdata.nr_tz_sensor) { syslog(LOG_ERR, "No thermal zones found!\n"); return -1; } /* circular buffer for keeping historic data */ if (cur_thermal_record >= NR_THERMAL_RECORDS) cur_thermal_record = 0; gettimeofday(&trec[cur_thermal_record].tv, NULL); if (tmon_log) { fprintf(tmon_log, "%lu ", ++samples); fprintf(tmon_log, "%3.1f ", p_param.t_target); } for (i = 0; i < ptdata.nr_tz_sensor; i++) { memset(tz_name, 0, sizeof(tz_name)); snprintf(tz_name, 256, "%s/%s%d", THERMAL_SYSFS, TZONE, ptdata.tzi[i].instance); sysfs_get_ulong(tz_name, "temp", &trec[cur_thermal_record].temp[i]); if (tmon_log) fprintf(tmon_log, "%lu ", trec[cur_thermal_record].temp[i]/1000); } for (i = 0; i < ptdata.nr_cooling_dev; i++) { char cdev_name[256]; unsigned long val; snprintf(cdev_name, 256, "%s/%s%d", THERMAL_SYSFS, CDEV, ptdata.cdi[i].instance); probe_cdev(&ptdata.cdi[i], cdev_name); val = ptdata.cdi[i].cur_state; if (val > 1000000) val = 0; if (tmon_log) fprintf(tmon_log, "%lu ", val); } if (tmon_log) { fprintf(tmon_log, "\n"); fflush(tmon_log); } return 0; } void set_ctrl_state(unsigned long state) { char ctrl_cdev_path[256]; int i; unsigned long cdev_state; if (no_control) return; /* set all ctrl cdev to the same state */ for (i = 0; i < ptdata.nr_cooling_dev; i++) { if (ptdata.cdi[i].flag & CDEV_FLAG_IN_CONTROL) { if (ptdata.cdi[i].max_state < 10) { strcpy(ctrl_cdev, "None."); return; } /* scale to percentage of max_state */ cdev_state = state * ptdata.cdi[i].max_state/100; syslog(LOG_DEBUG, "ctrl cdev %d set state %lu scaled to %lu\n", ptdata.cdi[i].instance, state, cdev_state); snprintf(ctrl_cdev_path, 256, "%s/%s%d", THERMAL_SYSFS, CDEV, ptdata.cdi[i].instance); syslog(LOG_DEBUG, "ctrl cdev path %s", ctrl_cdev_path); sysfs_set_ulong(ctrl_cdev_path, "cur_state", cdev_state); } } } void get_ctrl_state(unsigned long *state) { char ctrl_cdev_path[256]; int ctrl_cdev_id = -1; int i; /* TODO: take average of all ctrl types. also consider change based on * uevent. Take the first reading for now. */ for (i = 0; i < ptdata.nr_cooling_dev; i++) { if (ptdata.cdi[i].flag & CDEV_FLAG_IN_CONTROL) { ctrl_cdev_id = ptdata.cdi[i].instance; syslog(LOG_INFO, "ctrl cdev %d get state\n", ptdata.cdi[i].instance); break; } } if (ctrl_cdev_id == -1) { *state = 0; return; } snprintf(ctrl_cdev_path, 256, "%s/%s%d", THERMAL_SYSFS, CDEV, ctrl_cdev_id); sysfs_get_ulong(ctrl_cdev_path, "cur_state", state); } void free_thermal_data(void) { free(ptdata.tzi); free(ptdata.cdi); }