/* htop - BatteryMeter.c (C) 2004-2011 Hisham H. Muhammad Released under the GNU GPL, see the COPYING file in the source distribution for its full text. This meter written by Ian P. Hands (iphands@gmail.com, ihands@redhat.com). */ #include "BatteryMeter.h" #include "ProcessList.h" #include "CRT.h" #include "String.h" #include #include #include #include /*{ #include "Meter.h" typedef enum ACPresence_ { AC_ABSENT, AC_PRESENT, AC_ERROR } ACPresence; }*/ int BatteryMeter_attributes[] = { BATTERY }; static unsigned long int parseUevent(FILE * file, const char *key) { char line[100]; unsigned long int dValue = 0; char* saveptr; while (fgets(line, sizeof line, file)) { if (strncmp(line, key, strlen(key)) == 0) { char *value; strtok_r(line, "=", &saveptr); value = strtok_r(NULL, "=", &saveptr); dValue = atoi(value); break; } } return dValue; } static unsigned long int parseBatInfo(const char *fileName, const unsigned short int lineNum, const unsigned short int wordNum) { const char batteryPath[] = PROCDIR "/acpi/battery/"; DIR* batteryDir = opendir(batteryPath); if (!batteryDir) return 0; #define MAX_BATTERIES 64 char* batteries[MAX_BATTERIES]; unsigned int nBatteries = 0; memset(batteries, 0, MAX_BATTERIES * sizeof(char*)); struct dirent result; struct dirent* dirEntry; while (nBatteries < MAX_BATTERIES) { int err = readdir_r(batteryDir, &result, &dirEntry); if (err || !dirEntry) break; char* entryName = dirEntry->d_name; if (strncmp(entryName, "BAT", 3)) continue; batteries[nBatteries] = strdup(entryName); nBatteries++; } closedir(batteryDir); unsigned long int total = 0; for (unsigned int i = 0; i < nBatteries; i++) { char infoPath[30]; snprintf(infoPath, sizeof infoPath, "%s%s/%s", batteryPath, batteries[i], fileName); FILE* file = fopen(infoPath, "r"); if (!file) { break; } char line[50] = ""; for (unsigned short int i = 0; i < lineNum; i++) { char* ok = fgets(line, sizeof line, file); if (!ok) break; } fclose(file); char *foundNumStr = String_getToken(line, wordNum); const unsigned long int foundNum = atoi(foundNumStr); free(foundNumStr); total += foundNum; } for (unsigned int i = 0; i < nBatteries; i++) { free(batteries[i]); } return total; } static ACPresence procAcpiCheck() { ACPresence isOn = AC_ERROR; const char *power_supplyPath = PROCDIR "/acpi/ac_adapter"; DIR *power_supplyDir = opendir(power_supplyPath); if (!power_supplyDir) { return AC_ERROR; } struct dirent result; struct dirent* dirEntry; for (;;) { int err = readdir_r((DIR *) power_supplyDir, &result, &dirEntry); if (err || !dirEntry) break; char* entryName = (char *) dirEntry->d_name; if (entryName[0] != 'A') continue; char statePath[50]; snprintf((char *) statePath, sizeof statePath, "%s/%s/state", power_supplyPath, entryName); FILE* file = fopen(statePath, "r"); if (!file) { isOn = AC_ERROR; continue; } char line[100]; fgets(line, sizeof line, file); line[sizeof(line) - 1] = '\0'; fclose(file); const char *isOnline = String_getToken(line, 2); if (strcmp(isOnline, "on-line") == 0) { isOn = AC_PRESENT; } else { isOn = AC_ABSENT; } free((char *) isOnline); if (isOn == AC_PRESENT) { break; } } if (power_supplyDir) closedir(power_supplyDir); return isOn; } static ACPresence sysCheck() { ACPresence isOn = AC_ERROR; const char *power_supplyPath = "/sys/class/power_supply"; DIR *power_supplyDir = opendir(power_supplyPath); if (!power_supplyDir) { return AC_ERROR; } struct dirent result; struct dirent* dirEntry; for (;;) { int err = readdir_r((DIR *) power_supplyDir, &result, &dirEntry); if (err || !dirEntry) break; char* entryName = (char *) dirEntry->d_name; if (strncmp(entryName, "A", 1)) { continue; } char onlinePath[50]; snprintf((char *) onlinePath, sizeof onlinePath, "%s/%s/online", power_supplyPath, entryName); FILE* file = fopen(onlinePath, "r"); if (!file) { isOn = AC_ERROR; } else { isOn = (fgetc(file) - '0'); fclose(file); if (isOn == AC_PRESENT) { // If any AC adapter is being used then stop break; } } } if (power_supplyDir) closedir(power_supplyDir); return isOn; } static ACPresence chkIsOnline() { if (access(PROCDIR "/acpi/ac_adapter", F_OK) == 0) { return procAcpiCheck(); } else if (access("/sys/class/power_supply", F_OK) == 0) { return sysCheck(); } else { return AC_ERROR; } } static double getProcBatData() { const unsigned long int totalFull = parseBatInfo("info", 3, 4); if (totalFull == 0) return 0; const unsigned long int totalRemain = parseBatInfo("state", 5, 3); if (totalRemain == 0) return 0; return totalRemain * 100.0 / (double) totalFull; } static double getSysBatData() { const char *power_supplyPath = "/sys/class/power_supply/"; DIR *power_supplyDir = opendir(power_supplyPath); if (!power_supplyDir) return 0; unsigned long int totalFull = 0; unsigned long int totalRemain = 0; struct dirent result; struct dirent* dirEntry; for (;;) { int err = readdir_r((DIR *) power_supplyDir, &result, &dirEntry); if (err || !dirEntry) break; char* entryName = (char *) dirEntry->d_name; if (strncmp(entryName, "BAT", 3)) { continue; } const char ueventPath[50]; snprintf((char *) ueventPath, sizeof ueventPath, "%s%s/uevent", power_supplyPath, entryName); FILE *file; if ((file = fopen(ueventPath, "r")) == NULL) { closedir(power_supplyDir); return 0; } if ((totalFull += parseUevent(file, "POWER_SUPPLY_ENERGY_FULL="))) { totalRemain += parseUevent(file, "POWER_SUPPLY_ENERGY_NOW="); } else { //reset file pointer if (fseek(file, 0, SEEK_SET) < 0) { closedir(power_supplyDir); fclose(file); return 0; } } //Some systems have it as CHARGE instead of ENERGY. if ((totalFull += parseUevent(file, "POWER_SUPPLY_CHARGE_FULL="))) { totalRemain += parseUevent(file, "POWER_SUPPLY_CHARGE_NOW="); } else { //reset file pointer if (fseek(file, 0, SEEK_SET) < 0) { closedir(power_supplyDir); fclose(file); return 0; } } fclose(file); } const double percent = totalFull > 0 ? ((double) totalRemain * 100) / (double) totalFull : 0; closedir(power_supplyDir); return percent; } static void BatteryMeter_setValues(Meter * this, char *buffer, int len) { double percent = getProcBatData(); if (percent == 0) { percent = getSysBatData(); if (percent == 0) { snprintf(buffer, len, "n/a"); return; } } this->values[0] = percent; const char *onAcText, *onBatteryText, *unknownText; unknownText = "%.1f%%"; if (this->mode == TEXT_METERMODE) { onAcText = "%.1f%% (Running on A/C)"; onBatteryText = "%.1f%% (Running on battery)"; } else { onAcText = "%.1f%%(A/C)"; onBatteryText = "%.1f%%(bat)"; } ACPresence isOnLine = chkIsOnline(); if (isOnLine == AC_PRESENT) { snprintf(buffer, len, onAcText, percent); } else if (isOnLine == AC_ABSENT) { snprintf(buffer, len, onBatteryText, percent); } else { snprintf(buffer, len, unknownText, percent); } return; } MeterClass BatteryMeter_class = { .super = { .extends = Class(Meter), .delete = Meter_delete }, .setValues = BatteryMeter_setValues, .defaultMode = TEXT_METERMODE, .total = 100.0, .attributes = BatteryMeter_attributes, .name = "Battery", .uiName = "Battery", .caption = "Battery: " };