diff options
Diffstat (limited to 'modules/devices/sensors.c')
| -rw-r--r-- | modules/devices/sensors.c | 770 |
1 files changed, 770 insertions, 0 deletions
diff --git a/modules/devices/sensors.c b/modules/devices/sensors.c new file mode 100644 index 00000000..095f0bc4 --- /dev/null +++ b/modules/devices/sensors.c @@ -0,0 +1,770 @@ +/* + * HardInfo - Displays System Information + * Copyright (C) 2003-2006 L. A. F. Pereira <l@tia.mat.br> + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation, version 2 or later. + * + * 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. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA + */ + +#include <string.h> + +#include "devices.h" +#include "expr.h" +#include "hardinfo.h" +#include "socket.h" +#include "udisks2_util.h" + +#if defined(HAS_LIBSENSORS) && HAS_LIBSENSORS +#include <sensors/sensors.h> +#endif + +gchar *sensors = NULL; +gchar *sensor_icons = NULL; +GHashTable *sensor_compute = NULL; +GHashTable *sensor_labels = NULL; +gboolean hwmon_first_run = TRUE; + +static gchar *last_group = NULL; + +static void read_sensor_labels(gchar *devname) { + FILE *conf; + gchar buf[256], *line, *p; + gboolean lock = FALSE; + gint i; + + /* Try to open lm-sensors config file sensors3.conf */ + conf = fopen("/etc/sensors3.conf", "r"); + + /* If it fails, try to open sensors.conf */ + if (!conf) + conf = fopen("/etc/sensors.conf", "r"); + + if (!conf) { + /* Cannot open config file. */ + return; + } + + while (fgets(buf, 256, conf)) { + line = buf; + + remove_linefeed(line); + strend(line, '#'); + + if (*line == '\0') { + continue; + } else if (lock && strstr(line, "label")) { /* label lines */ + gchar **names = g_strsplit(strstr(line, "label") + 5, " ", 0); + gchar *key = NULL, *value = NULL; + + for (i = 0; names[i]; i++) { + if (names[i][0] == '\0') + continue; + + if (!key) + key = g_strdup_printf("%s/%s", devname, names[i]); + else if (!value) + value = g_strdup(names[i]); + else + value = g_strconcat(value, " ", names[i], NULL); + } + + remove_quotes(value); + g_hash_table_insert(sensor_labels, key, g_strstrip(value)); + + g_strfreev(names); + } else if (lock && strstr(line, "ignore")) { /* ignore lines */ + p = strstr(line, "ignore") + 6; + if (!strchr(p, ' ')) + continue; + + while (*p == ' ') + p++; + g_hash_table_insert(sensor_labels, g_strdup_printf("%s/%s", devname, p), "ignore"); + } else if (lock && strstr(line, "compute")) { /* compute lines */ + strend(line, ','); + gchar **formulas = g_strsplit(strstr(line, "compute") + 7, " ", 0); + gchar *key = NULL, *formula = NULL; + + for (i = 0; formulas[i]; i++) { + if (formulas[i][0] == '\0') + continue; + + if (!key) + key = g_strdup_printf("%s/%s", devname, formulas[i]); + else if (!formula) + formula = g_strdup(formulas[i]); + else + formula = g_strconcat(formula, formulas[i], NULL); + } + + g_strfreev(formulas); + g_hash_table_insert(sensor_compute, key, + math_string_to_postfix(formula)); + } else if (g_str_has_prefix(line, + "chip")) { /* chip lines (delimiter) */ + if (lock == FALSE) { + gchar **chips = g_strsplit(line, " ", 0); + + for (i = 1; chips[i]; i++) { + strend(chips[i], '*'); + + if (g_str_has_prefix(chips[i] + 1, devname)) { + lock = TRUE; + break; + } + } + + g_strfreev(chips); + } else { + break; + } + } + } + + fclose(conf); +} + +static void add_sensor(const char *type, + const char *sensor, + const char *parent, + double value, + const char *unit, + const char *icon) { + char key[64]; + + snprintf(key, sizeof(key), "%s/%s", parent, sensor); + + if (SENSORS_GROUP_BY_TYPE) { + // group by type + if (g_strcmp0(last_group, type) != 0) { + sensors = h_strdup_cprintf("[%s]\n", sensors, type); + g_free(last_group); + last_group = g_strdup(type); + } + sensors = h_strdup_cprintf("$%s$%s=%.2f%s|%s\n", sensors, + key, sensor, value, unit, parent); + } + else { + // group by device source / driver + if (g_strcmp0(last_group, parent) != 0) { + sensors = h_strdup_cprintf("[%s]\n", sensors, parent); + g_free(last_group); + last_group = g_strdup(parent); + } + sensors = h_strdup_cprintf("$%s$%s=%.2f%s|%s\n", sensors, + key, sensor, value, unit, type); + } + + if (icon != NULL) { + sensor_icons = h_strdup_cprintf("Icon$%s$%s=%s.png\n", sensor_icons, + key, sensor, icon); + } + + moreinfo_add_with_prefix("DEV", key, g_strdup_printf("%.2f%s", value, unit)); + + lginterval = h_strdup_cprintf("UpdateInterval$%s=1000\n", lginterval, key); +} + +static gchar *get_sensor_label_from_conf(gchar *key) { + gchar *ret; + ret = g_hash_table_lookup(sensor_labels, key); + + if (ret) + return g_strdup(ret); + + return NULL; +} + +static float adjust_sensor(gchar *key, float value) { + GSList *postfix; + + postfix = g_hash_table_lookup(sensor_compute, key); + if (!postfix) + return value; + + return math_postfix_eval(postfix, value); +} + +static char *get_sensor_path(int number, const char *prefix) { + return g_strdup_printf("/sys/class/hwmon/hwmon%d/%s", number, prefix); +} + +static char *determine_devname_for_hwmon_path(char *path) { + char *tmp, *devname = NULL; + + // device name + tmp = g_strdup_printf("%s/name", path); + g_file_get_contents(tmp, &devname, NULL, NULL); + g_free(tmp); + if (devname) + return g_strstrip(devname); + + // fallback: driver name (from driver link) + tmp = g_strdup_printf("%s/device/driver", path); + devname = g_file_read_link(tmp, NULL); + g_free(tmp); + + if (!devname) { + // fallback: device folder name (from device link) + tmp = g_strdup_printf("%s/device", path); + devname = g_file_read_link(tmp, NULL); + g_free(tmp); + } + + if (devname) { + tmp = g_path_get_basename(devname); + g_free(devname); + return tmp; + } + + return g_strdup("unknown"); +} + +struct HwmonSensor { + const char *friendly_name; + const char *value_file_regex; + const char *value_path_format; + const char *label_path_format; + const char *key_format; + const char *unit; + const float adjust_ratio; + const char *icon; +}; + +static const struct HwmonSensor hwmon_sensors[] = { + { + "Fan Speed", + "^fan([0-9]+)_input$", + "%s/fan%d_input", + "%s/fan%d_label", + "fan%d", + " RPM", + 1.0, + "fan" + }, + { + "Temperature", + "^temp([0-9]+)_input$", + "%s/temp%d_input", + "%s/temp%d_label", + "temp%d", + "\302\260C", + 1000.0, + "therm" + }, + { + "Voltage", + "^in([0-9]+)_input$", + "%s/in%d_input", + "%s/in%d_label", + "in%d", + "V", + 1000.0, + "bolt" + }, + { + "Current", + "^curr([0-9]+)_input$", + "%s/curr%d_input", + "%s/curr%d_label", + "curr%d", + " A", + 1000.0, + "bolt" + }, + { + "Power", + "^power([0-9]+)_input$", + "%s/power%d_input", + "%s/power%d_label", + "power%d", + " W", + 1000000.0, + "bolt" + }, + { + "CPU Voltage", + "^cpu([0-9]+)_vid$", + "%s/cpu%d_vid", + NULL, + "cpu%d_vid", + " V", + 1000.0, + "bolt" + }, + { } +}; + +static const char *hwmon_prefix[] = {"device", "", NULL}; + +static gboolean read_raw_hwmon_value(gchar *path_hwmon, const gchar *item_path_format, int item_id, gchar **result){ + gchar *full_path; + gboolean file_result; + + if (item_path_format == NULL) + return FALSE; + + full_path = g_strdup_printf(item_path_format, path_hwmon, item_id); + file_result = g_file_get_contents(full_path, result, NULL, NULL); + + g_free(full_path); + + return file_result; +} + +static void read_sensors_hwmon(void) { + int hwmon, count, min, max; + gchar *path_hwmon, *tmp, *devname, *name, *mon, *key; + const char **prefix, *entry; + GDir *dir; + GRegex *regex; + GMatchInfo *match_info; + GError *err = NULL; + + for (prefix = hwmon_prefix; *prefix; prefix++) { + hwmon = 0; + path_hwmon = get_sensor_path(hwmon, *prefix); + while (path_hwmon && g_file_test(path_hwmon, G_FILE_TEST_EXISTS)) { + const struct HwmonSensor *sensor; + + devname = determine_devname_for_hwmon_path(path_hwmon); + DEBUG("hwmon%d has device=%s", hwmon, devname); + if (hwmon_first_run) { + read_sensor_labels(devname); + } + + dir = g_dir_open(path_hwmon, 0, NULL); + if (!dir) + continue; + + for (sensor = hwmon_sensors; sensor->friendly_name; sensor++) { + DEBUG("current sensor type=%s", sensor->friendly_name); + regex = g_regex_new (sensor->value_file_regex, 0, 0, &err); + if (err != NULL){ + g_free(err); + err = NULL; + continue; + } + + g_dir_rewind(dir); + min = 999; + max = -1; + + while ((entry = g_dir_read_name(dir))) { + g_regex_match(regex, entry, 0, &match_info); + if (g_match_info_matches(match_info)) { + tmp = g_match_info_fetch(match_info, 1); + count = atoi(tmp); + g_free (tmp); + + if (count < min){ + min = count; + } + if (count > max){ + max = count; + } + } + g_match_info_free(match_info); + } + g_regex_unref(regex); + + for (count = min; count <= max; count++) { + if (!read_raw_hwmon_value(path_hwmon, sensor->value_path_format, count, &tmp)) { + continue; + } + + mon = g_strdup_printf(sensor->key_format, count); + key = g_strdup_printf("%s/%s", devname, mon); + name = get_sensor_label_from_conf(key); + if (name == NULL){ + if (read_raw_hwmon_value(path_hwmon, sensor->label_path_format, count, &name)){ + name = g_strchomp(name); + } + else{ + name = g_strdup(mon); + } + } + + if (!g_str_equal(name, "ignore")) { + float adjusted = adjust_sensor(key, + atof(tmp) / sensor->adjust_ratio); + + add_sensor(sensor->friendly_name, + name, + devname, + adjusted, + sensor->unit, + sensor->icon); + } + + g_free(tmp); + g_free(mon); + g_free(key); + g_free(name); + } + } + + g_dir_close(dir); + g_free(path_hwmon); + g_free(devname); + + path_hwmon = get_sensor_path(++hwmon, *prefix); + } + g_free(path_hwmon); + } + hwmon_first_run = FALSE; +} + +static void read_sensors_acpi(void) { + const gchar *path_tz = "/proc/acpi/thermal_zone"; + + if (g_file_test(path_tz, G_FILE_TEST_EXISTS)) { + GDir *tz; + + if ((tz = g_dir_open(path_tz, 0, NULL))) { + const gchar *entry; + + while ((entry = g_dir_read_name(tz))) { + gchar *path = + g_strdup_printf("%s/%s/temperature", path_tz, entry); + gchar *contents; + + if (g_file_get_contents(path, &contents, NULL, NULL)) { + int temperature; + + sscanf(contents, "temperature: %d C", &temperature); + + add_sensor("Temperature", + entry, + "ACPI Thermal Zone", + temperature, + "\302\260C", + "therm"); + } + } + + g_dir_close(tz); + } + } +} + +// Sensors for Apple PowerPC devices using Windfarm driver. +struct WindfarmSensorType { + const char *type; + const char *icon; + const char *file_regex; + const char *unit; + gboolean with_decimal_p; +}; +static const struct WindfarmSensorType windfarm_sensor_types[] = { + {"Fan", "fan", "^[a-z-]+-fan(-[0-9]+)?$", " RPM", FALSE}, + {"Temperature", "therm", "^[a-z-]+-temp(-[0-9]+)?$", "\302\260C", TRUE}, + {"Power", "bolt", "^[a-z-]+-power(-[0-9]+)?$", " W", TRUE}, + {"Current", "bolt", "^[a-z-]+-current(-[0-9]+)?$", " A", TRUE}, + {"Voltage", "bolt", "^[a-z-]+-voltage(-[0-9]+)?$", " V", TRUE}, + { } +}; +static void read_sensors_windfarm(void) +{ + const gchar *path_wf = "/sys/devices/platform/windfarm.0"; + GDir *wf; + gchar *tmp = NULL; + gint v1, v2; + double value; + + wf = g_dir_open(path_wf, 0, NULL); + if (wf) { + GRegex *regex; + GError *err = NULL; + const gchar *entry; + const struct WindfarmSensorType *sensor; + + for (sensor = windfarm_sensor_types; sensor->type; sensor++) { + DEBUG("current windfarm sensor type=%s", sensor->type); + regex = g_regex_new(sensor->file_regex, 0, 0, &err); + if (err != NULL) { + g_free(err); + err = NULL; + continue; + } + + g_dir_rewind(wf); + + while ((entry = g_dir_read_name(wf))) { + if (g_regex_match(regex, entry, 0, NULL)) { + gchar *path = g_strdup_printf("%s/%s", path_wf, entry); + if (g_file_get_contents(path, &tmp, NULL, NULL)) { + + if (sensor->with_decimal_p) { + // format source + // https://elixir.free-electrons.com/linux/v5.14/source/drivers/macintosh/windfarm_core.c#L301 + sscanf(tmp, "%d.%03d", &v1, &v2); + value = v1 + (v2 / 1000.0); + } else { + value = (double)atoi(tmp); + } + g_free(tmp); + + tmp = g_strdup(entry); + add_sensor(sensor->type, g_strdelimit(tmp, "-", ' '), + "windfarm", value, sensor->unit, + sensor->icon); + g_free(tmp); + } + g_free(path); + } + } + g_regex_unref(regex); + } + g_dir_close(wf); + } +} + +static void read_sensors_sys_thermal(void) { + const gchar *path_tz = "/sys/class/thermal"; + + if (g_file_test(path_tz, G_FILE_TEST_EXISTS)) { + GDir *tz; + + if ((tz = g_dir_open(path_tz, 0, NULL))) { + const gchar *entry; + gchar *temp = g_strdup(""); + + while ((entry = g_dir_read_name(tz))) { + gchar *path = g_strdup_printf("%s/%s/temp", path_tz, entry); + gchar *contents; + + if (g_file_get_contents(path, &contents, NULL, NULL)) { + int temperature; + + sscanf(contents, "%d", &temperature); + + add_sensor("Temperature", + entry, + "thermal", + temperature / 1000.0, + "\302\260C", + "therm"); + + g_free(contents); + } + } + + g_dir_close(tz); + } + } +} + +static void read_sensors_omnibook(void) { + const gchar *path_ob = "/proc/omnibook/temperature"; + gchar *contents; + + if (g_file_get_contents(path_ob, &contents, NULL, NULL)) { + int temperature; + + sscanf(contents, "CPU temperature: %d C", &temperature); + + add_sensor("Temperature", + "CPU", + "omnibook", + temperature, + "\302\260C", + "therm"); + + g_free(contents); + } +} + +static void read_sensors_hddtemp(void) { + Socket *s; + gchar buffer[1024]; + gint len = 0; + + if (!(s = sock_connect("127.0.0.1", 7634))) + return; + + while (!len) + len = sock_read(s, buffer, sizeof(buffer)); + sock_close(s); + + if (len > 2 && buffer[0] == '|' && buffer[1] == '/') { + gchar **disks; + int i; + + disks = g_strsplit(buffer, "||", 0); + for (i = 0; disks[i]; i++) { + gchar **fields = g_strsplit(disks[i] + 1, "|", 5); + + /* + * 0 -> /dev/hda + * 1 -> FUJITSU MHV2080AH + * 2 -> 41 + * 3 -> C + */ + const gchar *unit = strcmp(fields[3], "C") + ? "\302\260F" : "\302\260C"; + add_sensor("Drive Temperature", + fields[1], + "hddtemp", + atoi(fields[2]), + unit, + "therm"); + + g_strfreev(fields); + } + + g_strfreev(disks); + } +} + +static void read_sensors_udisks2(void) { + GSList *node; + GSList *temps; + udiskt *disk; + + temps = get_udisks2_temps(); + if (temps == NULL) + return; + + for (node = temps; node != NULL; node = node->next) { + disk = (udiskt *)node->data; + add_sensor("Drive Temperature", + disk->drive, + "udisks2", + disk->temperature, + "\302\260C", + "therm"); + udiskt_free(disk); + } + g_slist_free(temps); +} + +#if HAS_LIBSENSORS +static const struct libsensors_feature_type { + const char *type_name; + const char *icon; + const char *unit; + sensors_subfeature_type input; +} libsensors_feature_types[SENSORS_FEATURE_MAX] = { + [SENSORS_FEATURE_FAN] = {"Fan", "fan", "RPM", + SENSORS_SUBFEATURE_FAN_INPUT}, + [SENSORS_FEATURE_TEMP] = {"Temperature", "therm", "\302\260C", + SENSORS_SUBFEATURE_TEMP_INPUT}, + [SENSORS_FEATURE_POWER] = {"Power", "bolt", "W", + SENSORS_SUBFEATURE_POWER_INPUT}, + [SENSORS_FEATURE_CURR] = {"Current", "bolt", "A", + SENSORS_SUBFEATURE_CURR_INPUT}, + [SENSORS_FEATURE_IN] = {"Voltage", "bolt", "V", + SENSORS_SUBFEATURE_IN_INPUT}, + [SENSORS_FEATURE_VID] = {"CPU Voltage", "bolt", "V", + SENSORS_SUBFEATURE_VID}, +}; +static gboolean libsensors_initialized; + +static int read_sensors_libsensors(void) { + char chip_name_buf[512]; + const sensors_chip_name *name; + int chip_nr = 0; + int added_sensors = 0; + + if (!libsensors_initialized) + return 0; + + while ((name = sensors_get_detected_chips(NULL, &chip_nr))) { + const struct sensors_feature *feat; + int feat_nr = 0; + + sensors_snprintf_chip_name(chip_name_buf, 512, name); + + while ((feat = sensors_get_features(name, &feat_nr))) { + const struct libsensors_feature_type *feat_descr; + const struct sensors_subfeature *subfeat; + double value; + + feat_descr = &libsensors_feature_types[feat->type]; + if (!feat_descr->type_name) + continue; + + subfeat = sensors_get_subfeature(name, feat, feat_descr->input); + if (!subfeat) + continue; + + if (!sensors_get_value(name, subfeat->number, &value)) { + char *label = sensors_get_label(name, feat); + gchar *label_with_chip = g_strdup_printf("%s (%s)", label, chip_name_buf); + + add_sensor(feat_descr->type_name, + label_with_chip, + "libsensors", + value, + feat_descr->unit, + feat_descr->icon); + + free(label_with_chip); + free(label); + + added_sensors++; + } + } + } + + return added_sensors; +} +#else +static int read_sensors_libsensors(void) +{ + return 0; +} +#endif + +void scan_sensors_do(void) { + g_free(sensors); + g_free(sensor_icons); + g_free(last_group); + last_group = NULL; + sensors = g_strdup(""); + sensor_icons = g_strdup(""); + + g_free(lginterval); + lginterval = g_strdup(""); + + if (read_sensors_libsensors() == 0) { + read_sensors_hwmon(); + read_sensors_acpi(); + read_sensors_sys_thermal(); + read_sensors_omnibook(); + } + + read_sensors_windfarm(); + read_sensors_hddtemp(); + read_sensors_udisks2(); +} + +void sensor_init(void) { +#if HAS_LIBSENSORS + libsensors_initialized = sensors_init(NULL) == 0; +#endif + + sensor_labels = + g_hash_table_new_full(g_str_hash, g_str_equal, g_free, g_free); + sensor_compute = g_hash_table_new(g_str_hash, g_str_equal); +} + +void sensor_shutdown(void) { +#if HAS_LIBSENSORS + sensors_cleanup(); +#endif + + g_hash_table_destroy(sensor_labels); + g_hash_table_destroy(sensor_compute); +} |