#include "light.h" #include #include #include #include #include #include #include void light_defaultConfig() { light_Configuration.controllerMode = LIGHT_AUTO; memset(&light_Configuration.specifiedController, '\0', 256); light_Configuration.operationMode = LIGHT_GET; light_Configuration.valueMode = LIGHT_PERCENT; light_Configuration.specifiedValueRaw = 0; light_Configuration.specifiedValuePercent = 0.0; light_Configuration.target = LIGHT_BRIGHTNESS; light_verbosity = 0; } LIGHT_BOOL light_parseArguments(int argc, char** argv) { int currFlag; LIGHT_BOOL opSet = FALSE; LIGHT_BOOL targetSet = FALSE; LIGHT_BOOL ctrlSet = FALSE; LIGHT_BOOL valSet = FALSE; unsigned long specLen = 0; while((currFlag = getopt(argc, argv, "HhVGSAULIObmcas:prv:")) != -1) { switch(currFlag) { /* -- Operations -- */ case 'H': case 'h': ASSERT_OPSET(); light_Configuration.operationMode = LIGHT_PRINT_HELP; break; case 'V': ASSERT_OPSET(); light_Configuration.operationMode = LIGHT_PRINT_VERSION; break; case 'G': ASSERT_OPSET(); light_Configuration.operationMode = LIGHT_GET; break; case 'S': ASSERT_OPSET(); light_Configuration.operationMode = LIGHT_SET; break; case 'A': ASSERT_OPSET(); light_Configuration.operationMode = LIGHT_ADD; break; case 'U': ASSERT_OPSET(); light_Configuration.operationMode = LIGHT_SUB; break; case 'L': ASSERT_OPSET(); light_Configuration.operationMode = LIGHT_LIST_CTRL; break; case 'I': ASSERT_OPSET(); light_Configuration.operationMode = LIGHT_RESTORE; break; case 'O': ASSERT_OPSET(); light_Configuration.operationMode = LIGHT_SAVE; break; /* -- Targets -- */ case 'b': ASSERT_TARGETSET(); light_Configuration.target = LIGHT_BRIGHTNESS; break; case 'm': ASSERT_TARGETSET(); light_Configuration.target = LIGHT_MAX_BRIGHTNESS; break; case 'c': ASSERT_TARGETSET(); light_Configuration.target = LIGHT_MIN_CAP; break; /* -- Controller selection -- */ case 'a': ASSERT_CTRLSET(); light_Configuration.controllerMode = LIGHT_AUTO; break;; case 's': ASSERT_CTRLSET(); light_Configuration.controllerMode = LIGHT_SPECIFY; if(optarg == NULL) { printf("-s NEEDS an argument.\n\n"); light_printHelp(); } specLen = strlen(optarg); if(specLen > 255) { specLen = 255; } strncpy(light_Configuration.specifiedController, optarg, specLen); light_Configuration.specifiedController[255] = '\0'; break; /* -- Value modes -- */ case 'p': ASSERT_VALSET(); light_Configuration.valueMode = LIGHT_PERCENT; break; case 'r': ASSERT_VALSET(); light_Configuration.valueMode = LIGHT_RAW; break; /* -- Other -- */ case 'v': if(optarg == NULL) { printf("-v NEEDS an argument.\n\n"); light_printHelp(); return FALSE; } if(sscanf(optarg, "%i", &light_verbosity) != 1) { printf("-v Verbosity is not specified in a recognizable format.\n\n"); light_printHelp(); return FALSE; } if(light_verbosity < 0 || light_verbosity > 3) { printf("-v Verbosity has to be between 0 and 3.\n\n"); light_printHelp(); return FALSE; } break; } } /* If we need a (for writing), make sure we have it! */ if(light_Configuration.operationMode == LIGHT_SET || light_Configuration.operationMode == LIGHT_ADD || light_Configuration.operationMode == LIGHT_SUB) { if(argc - optind != 1) { printf("Light needs an argument for .\n\n"); light_printHelp(); return FALSE; } if(light_Configuration.valueMode == LIGHT_PERCENT) { if(sscanf(argv[optind], "%lf", &light_Configuration.specifiedValuePercent) != 1){ printf(" is not specified in a recognizable format.\n\n"); light_printHelp(); return FALSE; } light_Configuration.specifiedValuePercent = LIGHT_CLAMP(light_Configuration.specifiedValuePercent, 0.00, 100.00); }else{ if(sscanf(argv[optind], "%lu", &light_Configuration.specifiedValueRaw) != 1){ printf(" is not specified in a recognizable format.\n\n"); light_printHelp(); return FALSE; } } } return TRUE; } void light_printVersion(){ printf("Light %u.%u (%s)\n", LIGHT_VER_MAJOR, LIGHT_VER_MINOR, LIGHT_VER_TYPE); printf("Copyright (C) %u %s\n", LIGHT_YEAR, LIGHT_AUTHOR); printf("This is free software, see the source for copying conditions. There is NO\n"); printf("warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE\n\n"); } void light_printHelp(){ printf("Usage: light \n"); printf(" has to be either integral(raw mode) or decimal(percent mode) depending on the specified value mode.\n"); printf(" can be any of the following:\n\n"); printf("Operations (can not be used in conjunction):\n"); printf(" -H -h:\tPrints this help and exits\n"); printf(" -V:\t\tPrints version info and exits\n"); printf(" -G:\t\tGet value (default)\n"); printf(" -S:\t\tSet value\n"); printf(" -A:\t\tAdd value\n"); printf(" -U:\t\tSubtract value\n"); printf(" -L:\t\tList controllers\n"); printf(" -I:\t\tRestore brightness\n"); printf(" -O:\t\tSave brightness\n\n"); printf("Targets (can not be used in conjunction):\n"); printf(" -b:\t\tBrightness (default)\n \t\tUsed with [GSAU]\n\n"); printf(" -m:\t\tMaximum brightness\n \t\tUsed with [G]\n\n"); printf(" -c:\t\tMinimum cap\n \t\tUsed with [GS]\n"); printf(" \t\tG returns null if no minimum cap is set.\n\n"); printf("Controller selection (can not be used in conjunction):\n"); printf(" -a:\t\tSelects controller automatically (default).\n"); printf(" -s:\t\tSpecify controller to use. (needs argument)\n\n"); printf("Value modes (can not be used in conjunction):\n"); printf(" -p:\t\tInterpret as, and output values in, percent. (default)\n"); printf(" -r:\t\tInterpret as, and output values in, raw mode.\n\n"); printf("Other:\n"); printf(" -v:\t\tSets the verbosity level, (needs argument).\n \t\t0: Only outputs read values.\n \t\t1: Read values, Errors.\n \t\t2: Read values, Errors, Warnings.\n \t\t3: Read values, Errors, Warnings, Notices.\n\n"); } LIGHT_BOOL light_initialize(int argc, char** argv) { int mkdirVal; light_defaultConfig(); if(!light_parseArguments(argc, argv)) { LIGHT_ERR("could not parse arguments"); return FALSE; } /* Just return true for operation modes that do not need initialization */ if(light_Configuration.operationMode == LIGHT_PRINT_HELP || light_Configuration.operationMode == LIGHT_PRINT_VERSION || light_Configuration.operationMode == LIGHT_LIST_CTRL) { return TRUE; } /* Make sure we have a valid /etc/light directory, as well as mincap and save */ mkdirVal = mkdir("/etc/light", S_IRWXU | S_IRWXG | S_IROTH | S_IXOTH); if(mkdirVal != 0 && errno != EEXIST) { LIGHT_ERR("/etc/light does not exist and could not be created"); return FALSE; } mkdirVal = mkdir("/etc/light/mincap", S_IRWXU | S_IRWXG | S_IROTH | S_IXOTH); if(mkdirVal != 0 && errno != EEXIST) { LIGHT_ERR("/etc/light/mincap does not exist and could not be created"); return FALSE; } mkdirVal = mkdir("/etc/light/save", S_IRWXU | S_IRWXG | S_IROTH | S_IXOTH); if(mkdirVal != 0 && errno != EEXIST) { LIGHT_ERR("/etc/light/save does not exist and could not be created"); return FALSE; } /* Make sure we have a valid controller before we proceed */ if(light_Configuration.controllerMode == LIGHT_AUTO) { LIGHT_NOTE("Automatic mode -- finding best controller"); if(!light_getBestController(light_Configuration.specifiedController)) { LIGHT_ERR("could not find suitable controller"); return FALSE; } } if(!light_controllerAccessible(light_Configuration.specifiedController)) { LIGHT_ERR("selected controller is not valid, make sure this application is run as root."); return FALSE; } return TRUE; } LIGHT_BOOL light_execute() { unsigned long rawCurr; /* The current brightness, in raw mode */ double percentCurr; /* The current brightness, in percent */ unsigned long rawMax; /* The max brightness, in percent */ unsigned long rawSetP; /* The final value to be set, in raw mode, when setting with percent */ unsigned long rawAddP; /* The final value to be set, in raw mode, when adding with percent */ unsigned long rawSubP; /* The final value to be set, in raw mode, when subtracting with percent */ unsigned long rawSetR; /* The final value to be set, in raw mode, when setting with raw values */ unsigned long rawAddR; /* The final value to be set, in raw mode, when adding with raw values */ unsigned long rawSubR; /* The final value to be set, in raw mode, when subtracting with raw values */ unsigned long minCap; /* The minimum cap, in raw mode */ double percentMinCap; /* The minimum cap, in percent */ LIGHT_BOOL hasMinCap; /* If we have a minimum cap */ unsigned long minCapP; /* The final value to be set, in raw mode, when setting with percent (This is uncapped and used for minimum cap setting) */ unsigned long minCapR; /* The final value to be set, in raw mode, when setting with raw values (This is uncapped and used for minimum cap setting) */ unsigned long *writeVal; /* The actual value used for writing */ /* Print help and version info */ if(light_Configuration.operationMode == LIGHT_PRINT_HELP) { light_printHelp(); return TRUE; } if(light_Configuration.operationMode == LIGHT_PRINT_VERSION) { light_printVersion(); return TRUE; } if(light_Configuration.operationMode == LIGHT_LIST_CTRL) { /* listControllers() can return FALSE, but only if it does not find any controllers. That is not enough for an unsuccessfull run. */ light_listControllers(); return TRUE; } /* Prepare variables */ /* -- First, get the current, min and max values directly from controller/configuration (raw values) */ if(!light_getBrightness(light_Configuration.specifiedController, &rawCurr)) { LIGHT_ERR("could not get brightness"); return FALSE; } if(!light_getMaxBrightness(light_Configuration.specifiedController, &rawMax)) { LIGHT_ERR("could not get max brightness"); return FALSE; } if(!light_getMinCap(light_Configuration.specifiedController, &hasMinCap, &minCap)) { LIGHT_ERR("could not get min brightness"); return FALSE; } if( hasMinCap && ( minCap < 0 || minCap > rawMax ) ) { LIGHT_WARN("invalid minimum cap for controller, ignoring and using 0"); minCap = 0; } /* -- Secondly, calculate the rest of the values (Clamp them here as well!) */ percentCurr = LIGHT_CLAMP( ((double)rawCurr) / ((double)rawMax) * 100 , 0.00, 100.00 ); percentMinCap = LIGHT_CLAMP( ((double)minCap) / ((double)rawMax) * 100 , 0.00, 100.00 ); rawSetP = LIGHT_CLAMP( ((unsigned long) (light_Configuration.specifiedValuePercent * ((double)rawMax) ) / 100) , minCap, rawMax ); rawAddP = LIGHT_CLAMP( ((unsigned long) ( (percentCurr + light_Configuration.specifiedValuePercent) * ((double)rawMax)) / 100) , minCap, rawMax ); if( light_Configuration.specifiedValuePercent > percentCurr) { rawSubP = LIGHT_CLAMP(0, minCap, rawMax); }else{ rawSubP = LIGHT_CLAMP( ((unsigned long) ( (percentCurr - light_Configuration.specifiedValuePercent) * ((double)rawMax)) / 100) , minCap, rawMax ); } rawSetR = LIGHT_CLAMP( light_Configuration.specifiedValueRaw , minCap, rawMax ); rawAddR = LIGHT_CLAMP( rawCurr + light_Configuration.specifiedValueRaw , minCap, rawMax ); if(light_Configuration.specifiedValueRaw > rawCurr){ rawSubR = LIGHT_CLAMP(0, minCap, rawMax) }else{ rawSubR = LIGHT_CLAMP( rawCurr - light_Configuration.specifiedValueRaw , minCap, rawMax ); } minCapP = LIGHT_CLAMP(((unsigned long) (light_Configuration.specifiedValuePercent * ((double)rawMax) ) / 100), 0, rawMax); minCapR = LIGHT_CLAMP( light_Configuration.specifiedValueRaw, 0, rawMax ); /* Handle get operations */ if(light_Configuration.operationMode == LIGHT_GET) { switch(light_Configuration.target){ case LIGHT_BRIGHTNESS: (light_Configuration.valueMode == LIGHT_RAW) ? printf("%lu\n", rawCurr) : printf("%.2f\n", percentCurr); break; case LIGHT_MAX_BRIGHTNESS: (light_Configuration.valueMode == LIGHT_RAW) ? printf("%lu\n", rawMax) : printf("100.00\n"); /* <- I know how stupid it is but it might just make someones life easier */ break; case LIGHT_MIN_CAP: (light_Configuration.valueMode == LIGHT_RAW) ? printf("%lu\n", minCap) : printf("%.2f\n", percentMinCap); break; case LIGHT_SAVERESTORE: break; } return TRUE; } /* Handle set/add/sub operations */ if(light_Configuration.operationMode == LIGHT_SET || light_Configuration.operationMode == LIGHT_ADD || light_Configuration.operationMode == LIGHT_SUB) { /* Set the pointer we will use for write to a fallback (that shouldn't change anything) */ writeVal = &rawCurr; if(light_Configuration.target == LIGHT_MIN_CAP) { /* Handle minimum cap files */ /* If we are not attempting to set, fail! */ if(light_Configuration.operationMode != LIGHT_SET) { printf("Minimum cap can only be used with get/set operations.\n"); return FALSE; } /* Point our writevalue and attempt to write*/ writeVal = (light_Configuration.valueMode == LIGHT_RAW) ? &minCapR : &minCapP; if(!light_setMinCap(light_Configuration.specifiedController, *writeVal)) { LIGHT_ERR("could not set minimum cap"); return FALSE; } /* All good? Return true. */ return TRUE; }else if(light_Configuration.target == LIGHT_BRIGHTNESS){ /* Handle brightness writing */ /* Point our writevalue according to configuration */ switch(light_Configuration.operationMode) { case LIGHT_SET: writeVal = (light_Configuration.valueMode == LIGHT_RAW) ? &rawSetR : &rawSetP; break; case LIGHT_ADD: if(rawCurr == rawAddP && rawAddP != rawMax) { rawAddP+=1; } writeVal = (light_Configuration.valueMode == LIGHT_RAW) ? &rawAddR : &rawAddP; break; case LIGHT_SUB: writeVal = (light_Configuration.valueMode == LIGHT_RAW) ? &rawSubR : &rawSubP; break; case LIGHT_GET: case LIGHT_PRINT_HELP: case LIGHT_PRINT_VERSION: case LIGHT_LIST_CTRL: case LIGHT_SAVE: case LIGHT_RESTORE: break; } /* Attempt to write */ if(!light_setBrightness(light_Configuration.specifiedController, *writeVal)) { LIGHT_ERR("could not set brightness"); return FALSE; } /* All good? return true. */ return TRUE; }else{ /* If we didn't provide a valid target for write operations, fail. */ printf("set/add/subtract operations are only available for brightness and minimum cap files.\n"); return FALSE; } } /* Handle saves and restores*/ if(light_Configuration.operationMode == LIGHT_SAVE){ if(!light_saveBrightness(light_Configuration.specifiedController, rawCurr)) { LIGHT_ERR("could not save brightness"); return FALSE; } return TRUE; } if(light_Configuration.operationMode == LIGHT_RESTORE){ if(!light_restoreBrightness(light_Configuration.specifiedController)){ LIGHT_ERR("could not restore brightness"); return FALSE; } return TRUE; } printf("Controller: %s\nValueRaw: %lu\nValuePercent: %.2f\nOpMode: %u\nValMode: %u\nTarget: %u\n\n", light_Configuration.specifiedController, light_Configuration.specifiedValueRaw, light_Configuration.specifiedValuePercent, light_Configuration.operationMode, light_Configuration.valueMode, light_Configuration.target); printf("You did not specify a valid combination of commandline arguments. Have some help: \n"); light_printHelp(); return FALSE; } void light_free() { } LIGHT_BOOL light_genPath(char const *controller, LIGHT_TARGET type, char **buffer) { char* returner = malloc(256); int spfVal = -1; if(returner == NULL) { LIGHT_MEMERR(); buffer = NULL; return FALSE; } memset(returner, '\0', 256); switch(type) { case LIGHT_BRIGHTNESS: spfVal = sprintf(returner, "/sys/class/backlight/%s/brightness", controller); break; case LIGHT_MAX_BRIGHTNESS: spfVal = sprintf(returner, "/sys/class/backlight/%s/max_brightness", controller); break; case LIGHT_MIN_CAP: spfVal = sprintf(returner, "/etc/light/mincap/%s", controller); break; case LIGHT_SAVERESTORE: spfVal = sprintf(returner, "/etc/light/save/%s", controller); break; } if(spfVal < 0) { LIGHT_ERR("sprintf failed"); free(returner); buffer = NULL; return FALSE; } *buffer = returner; return TRUE; } LIGHT_BOOL light_getBrightness(char const *controller, unsigned long *v) { char *brightnessPath = NULL; LIGHT_BOOL readVal = FALSE; if(!light_genPath(controller, LIGHT_BRIGHTNESS, &brightnessPath)) { LIGHT_ERR("could not generate path to brightness file"); return FALSE; } readVal = light_readULong( brightnessPath , v); free(brightnessPath); if(!readVal) { LIGHT_ERR("could not read value from brightness file"); return FALSE; } return TRUE; } LIGHT_BOOL light_getMaxBrightness(char const *controller, unsigned long *v) { char *maxPath; LIGHT_BOOL readVal = FALSE; if(!light_genPath(controller, LIGHT_MAX_BRIGHTNESS, &maxPath)) { LIGHT_ERR("could not generate path to maximum brightness file"); return FALSE; } readVal = light_readULong(maxPath , v); free(maxPath); if(!readVal) { LIGHT_ERR("could not read value from max brightness file"); return FALSE; } if(*v == 0) { LIGHT_ERR("max brightness is 0, so controller is not valid"); return FALSE; } return TRUE; } LIGHT_BOOL light_setBrightness(char const *controller, unsigned long v) { char *brightnessPath = NULL; LIGHT_BOOL writeVal = FALSE; if(!light_genPath(controller, LIGHT_BRIGHTNESS, &brightnessPath)) { LIGHT_ERR("could not generate path to brightness file"); return FALSE; } writeVal = light_writeULong(brightnessPath, v); if(!writeVal) { LIGHT_ERR("could not write value to brightness file"); } free(brightnessPath); return writeVal; } LIGHT_BOOL light_controllerAccessible(char const *controller) { char *brightnessPath = NULL; unsigned long dummy; if(!light_getBrightness(controller, &dummy)) { LIGHT_WARN("could not read controllers brightness file, so controller is not accessible") return FALSE; } if(!light_getMaxBrightness(controller, &dummy)) { LIGHT_WARN("could not read controller max brightness file, so controller is not accessible") return FALSE; } if(!light_genPath(controller, LIGHT_BRIGHTNESS, &brightnessPath)) { LIGHT_ERR("could not generate path to brightness file"); return FALSE; } if(!light_isWritable(brightnessPath)) { LIGHT_WARN("could not open controller brightness file for writing, so controller is not accessible"); free(brightnessPath); return FALSE; } free(brightnessPath); return TRUE; } LIGHT_BOOL light_iterateControllers() { LIGHT_BOOL dotsKilled = FALSE; if(light_iteratorDir == NULL) { light_iteratorDir = opendir("/sys/class/backlight"); if(light_iteratorDir == NULL) { LIGHT_ERR("could not open /sys/class/backlight directory"); return FALSE; } } while(!dotsKilled) { light_iterator = readdir(light_iteratorDir); if(light_iterator == NULL) { if(light_iteratorDir != NULL) { closedir(light_iteratorDir); light_iteratorDir = NULL; } return FALSE; } if(light_iterator->d_name[0] != '.') { dotsKilled = TRUE; } } strcpy(light_currentController, light_iterator->d_name); return TRUE; } LIGHT_BOOL light_getBestController(char *controller) { char bestYet[256]; unsigned long bestValYet = 0; LIGHT_BOOL foundOkController = FALSE; memset(bestYet, '\0', 256); while(light_iterateControllers()) { unsigned long currVal = 0; if(light_getMaxBrightness(light_currentController, &currVal)) { if(light_controllerAccessible(light_currentController)) { if(currVal > bestValYet) { foundOkController = TRUE; bestValYet = currVal; memset(bestYet, '\0', 256); strcpy(bestYet, light_currentController); }else{ LIGHT_NOTE("ignoring controller as better one already found"); } }else{ LIGHT_WARN("controller not accessible"); } }else{ LIGHT_WARN("could not read max brightness from file"); } } if(!foundOkController) { LIGHT_ERR("could not find an accessible controller"); return FALSE; } if(bestValYet == 0) { LIGHT_ERR("found accessible controller but it's useless/corrupt"); return FALSE; } memset(controller, '\0', 256); strcpy(controller, bestYet); return TRUE; } LIGHT_BOOL light_getMinCap(char const * controller, LIGHT_BOOL * hasMinCap, unsigned long * minCap) { char * mincapPath = NULL; if(!light_genPath(controller, LIGHT_MIN_CAP, &mincapPath)) { LIGHT_ERR("could not generate path to minimum cap file"); return FALSE; } if(!light_isReadable(mincapPath)){ *hasMinCap = FALSE; *minCap = 0; free(mincapPath); return TRUE; } if(!light_readULong(mincapPath, minCap)) { LIGHT_ERR("could not read minimum cap from file"); free(mincapPath); return FALSE; } *hasMinCap = TRUE; free(mincapPath); return TRUE; } LIGHT_BOOL light_setMinCap(char const * controller, unsigned long v) { char * mincapPath = NULL; if(!light_genPath(controller, LIGHT_MIN_CAP, &mincapPath)) { LIGHT_ERR("could not generate path to minimum cap file"); return FALSE; } if(!light_writeULong(mincapPath, v)) { LIGHT_ERR("could not write to minimum cap file"); free(mincapPath); return FALSE; } free(mincapPath); return TRUE; } LIGHT_BOOL light_listControllers() { LIGHT_BOOL foundController = FALSE; while(light_iterateControllers()) { if(!foundController) { foundController = TRUE; } printf("%s\n", light_currentController); } if(!foundController) { LIGHT_WARN("no controllers found, either check your system or your permissions"); return FALSE; } return TRUE; } LIGHT_BOOL light_saveBrightness(char const *controller, unsigned long v){ char *savePath = NULL; if(!light_genPath(controller, LIGHT_SAVERESTORE, &savePath)) { LIGHT_ERR("could not generate path to save/restore file"); return FALSE; } if(!light_writeULong(savePath, v)) { LIGHT_ERR("could not write to save/restore file"); free(savePath); return FALSE; } free(savePath); return TRUE; } LIGHT_BOOL light_restoreBrightness(char const *controller){ char *restorePath = NULL; unsigned long v = 0; if(!light_genPath(controller, LIGHT_SAVERESTORE, &restorePath)) { LIGHT_ERR("could not generate path to save/restore file"); return FALSE; } if(!light_readULong(restorePath, &v)) { LIGHT_ERR("could not read saved value"); free(restorePath); return FALSE; } if(!light_setBrightness(controller, v)) { LIGHT_ERR("could not set restored brightness"); free(restorePath); return FALSE; } free(restorePath); return TRUE; }