/* * A not-yet-general-purpose ACPI library, by Joey Hess */ #include #include #include #include #include #include #include #ifdef ACPI_APM #include "apm.h" #endif #include #include #include #include "acpi.h" #define SYSFS_PATH "/sys/class/power_supply" #define ACPI_MAXITEM 8 int acpi_batt_count = 0; /* Filenames of the battery info files for each system battery. */ char acpi_batt_info[ACPI_MAXITEM][128]; /* Filenames of the battery status files for each system battery. */ char acpi_batt_status[ACPI_MAXITEM][128]; /* Stores battery capacity, or 0 if the battery is absent. */ int acpi_batt_capacity[ACPI_MAXITEM]; int acpi_ac_count = 0; char acpi_ac_adapter_info[ACPI_MAXITEM][128]; char acpi_ac_adapter_status[ACPI_MAXITEM][128]; char *acpi_labels[] = { "uevent", "status", "Battery", "Mains", "POWER_SUPPLY_CAPACITY=", "POWER_SUPPLY_??????_FULL_DESIGN=", /* CHARGE or ENERGY */ "POWER_SUPPLY_PRESENT=", "POWER_SUPPLY_??????_NOW=", "POWER_SUPPLY_CURRENT_NOW=", "POWER_SUPPLY_STATUS=", #if ACPI_THERMAL "thermal_zone", #endif "POWER_SUPPLY_ONLINE=", "POWER_SUPPLY_??????_FULL=", NULL }; #if ACPI_THERMAL int acpi_thermal_count = 0; char acpi_thermal_info[ACPI_MAXITEM][128]; char acpi_thermal_status[ACPI_MAXITEM][128]; #endif /* Read in an entire ACPI proc file (well, the first 1024 bytes anyway), and * return a statically allocated array containing it. */ inline char *get_acpi_file (const char *file) { int fd; int end; static char buf[1024]; fd = open(file, O_RDONLY); if (fd == -1) return NULL; end = read(fd, buf, sizeof(buf)); buf[end-1] = '\0'; close(fd); return buf; } int strmcmp(const char *s1, const char *s2) { for (; (*s1 == *s2) || (*s2 == '?'); s1++, s2++) { if (*s1 == '\0') return 0; } if (*s2 == '\0') return 0; else return 1; } /* Given a buffer holding an acpi file, searches for the given key in it, * and returns the numeric value. 0 is returned on failure. */ inline int scan_acpi_num (const char *buf, const char *key) { char *ptr; int ret = 0; do { ptr = strchr(buf, '\n'); if (!strmcmp(buf, key)) { if ((ptr = strchr(buf, '='))) { sscanf(ptr + 1, "%d", &ret); return ret; } else { return 0; } } if (ptr) ptr++; buf = ptr; } while (buf != NULL); return 0; } /* Given a buffer holding an acpi file, searches for the given key in it, * and returns its value in a statically allocated string. */ inline char *scan_acpi_value (const char *buf, const char *key) { char *ptr; static char ret[256]; do { ptr = strchr(buf, '\n'); if (!strmcmp(buf, key)) { if ((ptr = strchr(buf, '='))) { if (sscanf(ptr + 1, "%255s", ret) == 1) { return ret; } else { return NULL; } } else { return NULL; } } if (ptr) ptr++; buf = ptr; } while (buf != NULL); return NULL; } /* Read an ACPI proc file, pull out the requested piece of information, and * return it (statically allocated string). Returns NULL on error, This is * the slow, dumb way, fine for initialization or if only one value is needed * from a file, slow if called many times. */ char *get_acpi_value (const char *file, const char *key) { char *buf = get_acpi_file(file); if (! buf) return NULL; return scan_acpi_value(buf, key); } /* Returns the last full charge capacity of a battery. */ int get_acpi_batt_capacity(int battery) { char *s; s = get_acpi_value(acpi_batt_info[battery], acpi_labels[label_last_full_capacity]); if (s == NULL) { return 0; } else { return atoi(s); } } /* Comparison function for qsort. */ int _acpi_compare_strings (const void *a, const void *b) { const char **pa = (const char **)a; const char **pb = (const char **)b; return strcasecmp((const char *)*pa, (const char *)*pb); } /* Find something (batteries, ac adpaters, etc), and set up a string array * to hold the paths to info and status files of the things found. * Returns the number of items found. */ int find_items (char *itemname, char infoarray[ACPI_MAXITEM][128], char statusarray[ACPI_MAXITEM][128]) { DIR *dir; struct dirent *ent; int num_devices=0; int i; char **devices = malloc(ACPI_MAXITEM * sizeof(char *)); char pathname[128]; sprintf(pathname, SYSFS_PATH); dir = opendir(pathname); if (dir == NULL) return 0; while ((ent = readdir(dir))) { char filename[128]; char buf[1024]; if (!strcmp(".", ent->d_name) || !strcmp("..", ent->d_name)) continue; snprintf(filename, sizeof(filename), SYSFS_PATH "/%s/type", ent->d_name); int fd = open(filename, O_RDONLY); if (fd != -1) { int end = read(fd, buf, sizeof(buf)); buf[end-1] = '\0'; close(fd); if (strstr(buf, itemname) != buf) continue; } devices[num_devices]=strdup(ent->d_name); num_devices++; if (num_devices >= ACPI_MAXITEM) break; } closedir(dir); /* Sort, since readdir can return in any order. /sys/ does * sometimes list BAT1 before BAT0. */ qsort(devices, num_devices, sizeof(char *), _acpi_compare_strings); for (i = 0; i < num_devices; i++) { snprintf(infoarray[i], sizeof(infoarray[i]), SYSFS_PATH "/%s/%s", devices[i], acpi_labels[label_info]); snprintf(statusarray[i], sizeof(statusarray[i]), SYSFS_PATH "/%s/%s", devices[i], acpi_labels[label_status]); free(devices[i]); } return num_devices; } /* Find batteries, return the number, and set acpi_batt_count to it as well. */ int find_batteries(void) { int i; acpi_batt_count = find_items(acpi_labels[label_battery], acpi_batt_info, acpi_batt_status); for (i = 0; i < acpi_batt_count; i++) acpi_batt_capacity[i] = get_acpi_batt_capacity(i); return acpi_batt_count; } /* Find AC power adapters, return the number found, and set acpi_ac_count to it * as well. */ int find_ac_adapters(void) { acpi_ac_count = find_items(acpi_labels[label_ac_adapter], acpi_ac_adapter_info, acpi_ac_adapter_status); return acpi_ac_count; } #if ACPI_THERMAL /* Find thermal information sources, return the number found, and set * thermal_count to it as well. */ int find_thermal(void) { acpi_thermal_count = find_items(acpi_labels[label_thermal], acpi_thermal_info, acpi_thermal_status); return acpi_thermal_count; } #endif /* Returns true if the system is on ac power. Call find_ac_adapters first. */ int on_ac_power (void) { int i; for (i = 0; i < acpi_ac_count; i++) { char *online=get_acpi_value(acpi_ac_adapter_info[i], acpi_labels[label_ac_state]); if (online && atoi(online)) return 1; else return 0; } return 0; } /* See if we have ACPI support and check version. Also find batteries and * ac power adapters. */ int acpi_supported (void) { char *version; DIR *dir; int num; if (!(dir = opendir(SYSFS_PATH))) { return 0; } closedir(dir); /* If kernel is 2.6.21 or newer, version is in /sys/module/acpi/parameters/acpica_version */ version = get_acpi_file("/sys/module/acpi/parameters/acpica_version"); if (version == NULL) { return 0; } num = atoi(version); if (num < ACPI_VERSION) { fprintf(stderr, "ACPI subsystem %s too is old, consider upgrading to %i.\n", version, ACPI_VERSION); return 0; } find_batteries(); find_ac_adapters(); #if ACPI_THERMAL find_thermal(); #endif return 1; } #ifdef ACPI_APM /* Read ACPI info on a given power adapter and battery, and fill the passed * apm_info struct. */ int acpi_read (int battery, apm_info *info) { char *buf, *state; if (acpi_batt_count == 0) { info->battery_percentage = 0; info->battery_time = 0; info->battery_status = BATTERY_STATUS_ABSENT; acpi_batt_capacity[battery] = 0; /* Where else would the power come from, eh? ;-) */ info->ac_line_status = 1; return 0; } /* Internally it's zero indexed. */ battery--; buf = get_acpi_file(acpi_batt_info[battery]); if (buf == NULL) { fprintf(stderr, "unable to read %s\n", acpi_batt_info[battery]); perror("read"); exit(1); } info->ac_line_status = 0; info->battery_flags = 0; info->using_minutes = 1; /* Work out if the battery is present, and what percentage of full * it is and how much time is left. */ if (strcmp(scan_acpi_value(buf, acpi_labels[label_present]), "1") == 0) { int pcap = scan_acpi_num(buf, acpi_labels[label_remaining_capacity]); int rate = scan_acpi_num(buf, acpi_labels[label_present_rate]); if (rate) { /* time remaining = (current_capacity / discharge rate) */ info->battery_time = (float) pcap / (float) rate * 60; } else { char *rate_s = scan_acpi_value(buf, acpi_labels[label_present_rate]); if (! rate_s) { /* Time remaining unknown. */ info->battery_time = 0; } else { /* a zero or unknown in the file; time * unknown so use a negative one to * indicate this */ info->battery_time = -1; } } state = scan_acpi_value(buf, acpi_labels[label_charging_state]); if (state) { if (state[0] == 'D') { /* discharging */ info->battery_status = BATTERY_STATUS_CHARGING; /* Expensive ac power check used here * because AC power might be on even if a * battery is discharging in some cases. */ info->ac_line_status = on_ac_power(); } else if (state[0] == 'C' && state[1] == 'h') { /* charging */ info->battery_status = BATTERY_STATUS_CHARGING; info->ac_line_status = 1; info->battery_flags = info->battery_flags | BATTERY_FLAGS_CHARGING; if (rate) info->battery_time = -1 * (float) (acpi_batt_capacity[battery] - pcap) / (float) rate * 60; else info->battery_time = 0; if (abs(info->battery_time) < 0.5) info->battery_time = 0; } else if (state[0] == 'F') { /* full */ /* charged, on ac power */ info->battery_status = BATTERY_STATUS_HIGH; info->ac_line_status = 1; } else if (state[0] == 'C') { /* not charging, so must be critical */ info->battery_status = BATTERY_STATUS_CRITICAL; /* Expensive ac power check used here * because AC power might be on even if a * battery is critical in some cases. */ info->ac_line_status = on_ac_power(); } else if (state[0] == 'U') { /* unknown */ info->ac_line_status = on_ac_power(); int current = scan_acpi_num(buf, acpi_labels[label_present_rate]); if (info->ac_line_status) { if (current == 0) info->battery_status = BATTERY_STATUS_HIGH; else info->battery_status = BATTERY_STATUS_CHARGING; } else { info->battery_status = BATTERY_STATUS_CHARGING; } } else { fprintf(stderr, "unknown battery state: %s\n", state); } } else { /* Battery state unknown. */ info->battery_status = BATTERY_STATUS_ABSENT; } if (acpi_batt_capacity[battery] == 0) { /* The battery was absent, and now is present. * Well, it might be a different battery. So * re-probe the battery. */ /* NOTE that this invalidates buf. No accesses of * buf below this point! */ acpi_batt_capacity[battery] = get_acpi_batt_capacity(battery); } else if (pcap > acpi_batt_capacity[battery]) { /* Battery is somehow charged to greater than max * capacity. Rescan for a new max capacity. */ find_batteries(); } if (pcap && acpi_batt_capacity[battery]) { info->battery_percentage = 100 * pcap / acpi_batt_capacity[battery]; if (info->battery_percentage > 100) info->battery_percentage = 100; } else { info->battery_percentage = -1; } } else { info->battery_percentage = 0; info->battery_time = 0; info->battery_status = BATTERY_STATUS_ABSENT; acpi_batt_capacity[battery] = 0; if (acpi_batt_count == 0) { /* Where else would the power come from, eh? ;-) */ info->ac_line_status = 1; } else { /* Expensive ac power check. */ info->ac_line_status = on_ac_power(); } } return 0; } #endif