/* * ALSA command line mixer utility * Copyright (c) 1999 by Jaroslav Kysela * * 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; either version 2 of the License, or * (at your option) any later version. * * 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., 675 Mass Ave, Cambridge, MA 02139, USA. * */ #include #include #include #include #include #include #include #include #include "amixer.h" #define HELPID_HELP 1000 #define HELPID_CARD 1001 #define HELPID_DEVICE 1002 #define HELPID_QUIET 1003 #define HELPID_DEBUG 1004 #define HELPID_VERSION 1005 int quiet = 0; int debugflag = 0; int card; int device; int group_contents_is_on = 0; struct mixer_types { int type; char *name; }; struct mixer_types mixer_types[] = { { SND_MIXER_ETYPE_INPUT, "Input" }, { SND_MIXER_ETYPE_OUTPUT, "Output" }, { SND_MIXER_ETYPE_CAPTURE, "Capture" }, { SND_MIXER_ETYPE_PLAYBACK, "Playback" }, { SND_MIXER_ETYPE_ADC, "ADC" }, { SND_MIXER_ETYPE_DAC, "DAC" }, { SND_MIXER_ETYPE_SWITCH1, "Switch1" }, { SND_MIXER_ETYPE_SWITCH2, "Switch2" }, { SND_MIXER_ETYPE_SWITCH3, "Switch3" }, { SND_MIXER_ETYPE_VOLUME1, "Volume1" }, { SND_MIXER_ETYPE_VOLUME2, "Volume2" }, { SND_MIXER_ETYPE_ACCU1, "Accumulator1" }, { SND_MIXER_ETYPE_ACCU2, "Accumulator2" }, { SND_MIXER_ETYPE_ACCU3, "Accumulator3" }, { SND_MIXER_ETYPE_MUX1, "Mux1" }, { SND_MIXER_ETYPE_MUX2, "Mux2" }, { SND_MIXER_ETYPE_TONE_CONTROL1, "ToneControl1" }, { SND_MIXER_ETYPE_EQUALIZER1, "Equalizer1" }, { SND_MIXER_ETYPE_3D_EFFECT1, "3D-Effect1" }, { SND_MIXER_ETYPE_PRE_EFFECT1, "PredefinedEffect1" }, { -1, NULL } }; void error(const char *fmt,...) { va_list va; va_start(va, fmt); fprintf(stderr, "amixer: "); vfprintf(stderr, fmt, va); fprintf(stderr, "\n"); va_end(va); } static void help(void) { printf("Usage: amixer command\n"); printf("\nAvailable options:\n"); printf(" -h,--help this help\n"); printf(" -c,--card # use a card number (0-%i) or the card name, default %i\n", snd_cards() - 1, card); printf(" -d,--device # use a device number, default %i\n", device); printf(" -D,--debug debug mode\n"); printf(" -v,--version print version of this program\n"); printf("\nAvailable commands:\n"); printf(" info show useful information for the selected mixer\n"); printf(" groups show all mixer groups\n"); printf(" gcontents show contents of all mixer groups (default command)\n"); printf(" set G P set group contents for one mixer group\n"); printf(" get G P get group contents for one mixer group\n"); printf(" elements show all mixer elements\n"); printf(" contents show contents of all mixer elements\n"); printf(" eset E P set extended contents for one mixer element\n"); printf(" eget E P get extended contents for one mixer element\n"); } int info(void) { int err; snd_mixer_t *handle; snd_mixer_info_t info; if ((err = snd_mixer_open(&handle, card, device)) < 0) { error("Mixer %i/%i open error: %s", card, device, snd_strerror(err)); return -1; } if ((err = snd_mixer_info(handle, &info)) < 0) { error("Mixer %i/%i info error: %s", card, device, snd_strerror(err)); return -1; } printf("Mixer '%s/%s':\n", info.id, info.name); printf(" Elements : %i\n", info.elements); printf(" Groups : %i\n", info.groups); printf(" Switches : %i\n", info.switches); printf(" Attribute : 0x%x\n", info.attrib); snd_mixer_close(handle); return 0; } static const char *element_name(const char *name) { static char res[25]; strncpy(res, name, 24); res[24] = '\0'; return res; } static const char *element_type(int type) { int idx; static char str[32]; for (idx = 0; mixer_types[idx].type >= 0; idx++) if (type == mixer_types[idx].type) return mixer_types[idx].name; sprintf(str, "Type%i", type); return str; } static int check_range(int val, int min, int max) { if (val < min) return min; if (val > max) return max; return val; } static int convert_range(int val, int omin, int omax, int nmin, int nmax) { int orange = omax - omin, nrange = nmax - nmin; if (orange == 0) return 0; return rint((((double)nrange * ((double)val - (double)omin)) + ((double)orange / 2.0)) / ((double)orange + (double)nmin)); } static int convert_db_range(int val, int omin, int omax, int nmin, int nmax) { int orange = omax - omin, nrange = nmax - nmin; int tmp; if (orange == 0) return 0; tmp = rint((((double)nrange * ((double)val - (double)omin)) + ((double)orange / 2.0)) / (double)orange + (double)nmin); return tmp; } /* Fuction to convert from volume to percentage. val = volume */ static int convert_prange(int val, int min, int max) { int range = max - min; int tmp; if (range == 0) return 0; tmp = rint((double)val/(double)range * 100); return tmp; } /* Function to convert from percentage to volume. val = percentage */ static int convert_prange1(int val, int min, int max) { int range = max - min; int tmp; if (range == 0) return 0; tmp = rint((double)range * ((double)val*.01)); #if 0 printf("%i %i %i %i", val, max, min, tmp); #endif return tmp; } static const char *get_percent(int val, int min, int max) { static char str[32]; int p; p = convert_prange(val, min, max); sprintf(str, "%i [%i%%]", val, p); return str; } static const char *get_percent1(int val, int min, int max, int min_dB, int max_dB) { static char str[32]; int p, db; p = convert_prange(val, min, max); db = convert_db_range(val, min, max, min_dB, max_dB); sprintf(str, "%i [%i%%] [%i.%02idB]", val, p, db / 100, abs(db % 100)); return str; } static int get_volume(char **ptr, int min, int max, int min_dB, int max_dB) { int tmp, tmp1, tmp2; if (**ptr == ':') (*ptr)++; if (**ptr == '\0' || (!isdigit(**ptr) && **ptr != '-')) return min; tmp = atoi(*ptr); if (**ptr == '-') (*ptr)++; while (isdigit(**ptr)) (*ptr)++; tmp1 = tmp; tmp2 = 0; if (**ptr == '.') { (*ptr)++; tmp2 = atoi(*ptr); while (isdigit(**ptr)) (*ptr)++; } if (**ptr == '%') { tmp1 = convert_prange1(tmp, min, max); (*ptr)++; } else if (**ptr == 'd') { tmp1 *= 100; tmp1 += tmp2 % 100; tmp1 = convert_range(tmp1, min_dB, max_dB, min, max); (*ptr)++; } tmp1 = check_range(tmp1, min, max); if (**ptr == ',') (*ptr)++; return tmp1; } static int get_volume_simple(char **ptr, int min, int max) { int tmp, tmp1, tmp2; if (**ptr == ':') (*ptr)++; if (**ptr == '\0' || (!isdigit(**ptr) && **ptr != '-')) return min; tmp = atoi(*ptr); if (**ptr == '-') (*ptr)++; while (isdigit(**ptr)) (*ptr)++; tmp1 = tmp; tmp2 = 0; if (**ptr == '.') { (*ptr)++; tmp2 = atoi(*ptr); while (isdigit(**ptr)) (*ptr)++; } if (**ptr == '%') { tmp1 = convert_prange1(tmp, min, max); (*ptr)++; } tmp1 = check_range(tmp1, min, max); if (**ptr == ',') (*ptr)++; return tmp1; } int show_element(void *handle, snd_mixer_eid_t *eid, const char *space) { int err, idx; snd_mixer_routes_t routes; snd_mixer_eid_t *element; bzero(&routes, sizeof(routes)); routes.eid = *eid; if ((err = snd_mixer_routes(handle, &routes)) < 0) { error("Mixer %i/%i route error: %s", card, device, snd_strerror(err)); return -1; } if (!routes.routes_over) return 0; routes.proutes = (snd_mixer_eid_t *)malloc(routes.routes_over * sizeof(snd_mixer_eid_t)); if (!routes.proutes) { error("Not enough memory..."); return -1; } routes.routes_size = routes.routes_over; routes.routes = routes.routes_over = 0; if ((err = snd_mixer_routes(handle, &routes)) < 0) { error("Mixer %i/%i group (2) error: %s", card, device, snd_strerror(err)); return -1; } for (idx = 0; idx < routes.routes; idx++) { element = &routes.proutes[idx]; printf("%sRoute to element '%s',%i,%s\n", space, element_name(element->name), element->index, element_type(element->type)); } free(routes.proutes); return 0; } static const char *speaker_position(int position) { static char str[32]; switch (position) { case SND_MIXER_VOICE_UNUSED: return "Unused"; case SND_MIXER_VOICE_MONO: return "Mono"; case SND_MIXER_VOICE_LEFT: return "Left"; case SND_MIXER_VOICE_RIGHT: return "Right"; case SND_MIXER_VOICE_CENTER: return "Center"; case SND_MIXER_VOICE_REAR_LEFT: return "Rear-Left"; case SND_MIXER_VOICE_REAR_RIGHT: return "Rear-Right"; default: sprintf(str, "Speaker%i", position); return str; } } int show_mux1_info(void *handle, snd_mixer_element_info_t *info, const char *space) { int idx, idx1, err; snd_mixer_elements_t elements; snd_mixer_routes_t routes; snd_mixer_eid_t *element; printf("%sMux supports none input: %s\n", space, (info->data.mux1.attrib & SND_MIXER_MUX1_NONE) ? "YES" : "NO"); bzero(&elements, sizeof(elements)); if ((err = snd_mixer_elements(handle, &elements)) < 0) { error("Mixer %i/%i elements error: %s", card, device, snd_strerror(err)); return -1; } elements.pelements = (snd_mixer_eid_t *)malloc(elements.elements_over * sizeof(snd_mixer_eid_t)); if (!elements.pelements) { error("Not enough memory"); return -1; } elements.elements_size = elements.elements_over; elements.elements_over = elements.elements = 0; if ((err = snd_mixer_elements(handle, &elements)) < 0) { error("Mixer %i/%i elements (2) error: %s", card, device, snd_strerror(err)); return -1; } for (idx = 0; idx < elements.elements; idx++) { bzero(&routes, sizeof(routes)); routes.eid = elements.pelements[idx]; if ((err = snd_mixer_routes(handle, &routes)) < 0) { error("Mixer %i/%i route error: %s", card, device, snd_strerror(err)); free(elements.pelements); return -1; } if (!routes.routes_over) continue; routes.proutes = (snd_mixer_eid_t *)malloc(routes.routes_over * sizeof(snd_mixer_eid_t)); if (!routes.proutes) { error("Not enough memory..."); free(elements.pelements); return -1; } routes.routes_size = routes.routes_over; routes.routes = routes.routes_over = 0; if ((err = snd_mixer_routes(handle, &routes)) < 0) { error("Mixer %i/%i group (2) error: %s", card, device, snd_strerror(err)); free(elements.pelements); return -1; } for (idx1 = 0; idx1 < routes.routes; idx1++) { element = &routes.proutes[idx1]; if (!strncmp(element->name, info->eid.name, sizeof(element->name)) && element->index == info->eid.index && element->type == info->eid.type) printf("%sInput element '%s',%i,%s\n", space, element_name(routes.eid.name), routes.eid.index, element_type(routes.eid.type)); } free(routes.proutes); } free(elements.pelements); return 0; } int show_mux2_info(void *handle, snd_mixer_element_info_t *info, const char *space) { int idx, idx1, err; snd_mixer_elements_t elements; snd_mixer_routes_t routes; snd_mixer_eid_t *element; printf("%sMux supports none input: %s\n", space, (info->data.mux2.attrib & SND_MIXER_MUX2_NONE) ? "YES" : "NO"); bzero(&elements, sizeof(elements)); if ((err = snd_mixer_elements(handle, &elements)) < 0) { error("Mixer %i/%i elements error: %s", card, device, snd_strerror(err)); return -1; } elements.pelements = (snd_mixer_eid_t *)malloc(elements.elements_over * sizeof(snd_mixer_eid_t)); if (!elements.pelements) { error("Not enough memory"); return -1; } elements.elements_size = elements.elements_over; elements.elements_over = elements.elements = 0; if ((err = snd_mixer_elements(handle, &elements)) < 0) { error("Mixer %i/%i elements (2) error: %s", card, device, snd_strerror(err)); return -1; } for (idx = 0; idx < elements.elements; idx++) { bzero(&routes, sizeof(routes)); routes.eid = elements.pelements[idx]; if ((err = snd_mixer_routes(handle, &routes)) < 0) { error("Mixer %i/%i route error: %s", card, device, snd_strerror(err)); free(elements.pelements); return -1; } if (!routes.routes_over) continue; routes.proutes = (snd_mixer_eid_t *)malloc(routes.routes_over * sizeof(snd_mixer_eid_t)); if (!routes.proutes) { error("Not enough memory..."); free(elements.pelements); return -1; } routes.routes_size = routes.routes_over; routes.routes = routes.routes_over = 0; if ((err = snd_mixer_routes(handle, &routes)) < 0) { error("Mixer %i/%i group (2) error: %s", card, device, snd_strerror(err)); free(elements.pelements); return -1; } for (idx1 = 0; idx1 < routes.routes; idx1++) { element = &routes.proutes[idx1]; if (!strncmp(element->name, info->eid.name, sizeof(element->name)) && element->index == info->eid.index && element->type == info->eid.type) printf("%sInput element '%s',%i,%s\n", space, element_name(routes.eid.name), routes.eid.index, element_type(routes.eid.type)); } free(routes.proutes); } free(elements.pelements); return 0; } int show_element_info(void *handle, snd_mixer_eid_t *eid, const char *space) { int err, idx; snd_mixer_element_info_t info; if (snd_mixer_element_has_info(eid) != 1) return 0; bzero(&info, sizeof(info)); info.eid = *eid; if ((err = snd_mixer_element_info_build(handle, &info)) < 0) { error("Mixer %i/%i info error: %s", card, device, snd_strerror(err)); return -1; } switch (info.eid.type) { case SND_MIXER_ETYPE_INPUT: case SND_MIXER_ETYPE_OUTPUT: if (info.data.io.attrib) { printf("%sAttributes%s\n", space, info.data.io.attrib & SND_MIXER_EIO_DIGITAL ? " digital" : ""); } for (idx = 0; idx < info.data.io.voices; idx++) { if (!info.data.io.pvoices[idx].vindex) { printf("%sVoice %i: %s\n", space, idx, speaker_position(info.data.io.pvoices[idx].voice)); } else { printf("%sVoice %i: %i\n", space, idx, info.data.io.pvoices[idx].voice); } } break; case SND_MIXER_ETYPE_CAPTURE: case SND_MIXER_ETYPE_PLAYBACK: for (idx = 0; idx < info.data.pcm.devices; idx++) { printf("%sPCM device %i %i\n", space, idx, info.data.pcm.pdevices[idx]); } break; case SND_MIXER_ETYPE_ADC: case SND_MIXER_ETYPE_DAC: printf("%sResolution %i-bits\n", space, info.data.converter.resolution); break; case SND_MIXER_ETYPE_SWITCH3: printf("%sSwitch type is ", space); switch (info.data.switch3.type) { case SND_MIXER_SWITCH3_FULL_FEATURED: printf("full featured\n"); break; case SND_MIXER_SWITCH3_ALWAYS_DESTINATION: printf("always destination\n"); break; case SND_MIXER_SWITCH3_ONE_DESTINATION: printf("one destination\n"); break; case SND_MIXER_SWITCH3_ALWAYS_ONE_DESTINATION: printf("always one destination\n"); break; default: printf("unknown %i\n", info.data.switch3.type); } for (idx = 0; idx < info.data.switch3.voices; idx++) { snd_mixer_voice_t voice = info.data.switch3.pvoices[idx]; if (voice.vindex) { printf("%sVoice %i: %i\n", space, idx, voice.voice); } else { printf("%sSpeaker %i: %s\n", space, idx, speaker_position(voice.voice)); } } break; case SND_MIXER_ETYPE_VOLUME1: for (idx = 0; idx < info.data.volume1.range; idx++) { struct snd_mixer_element_volume1_range *range = &info.data.volume1.prange[idx]; printf("%sVoice %i: Min %i (%i.%02idB), Max %i (%i.%02idB)\n", space, idx, range->min, range->min_dB / 100, abs(range->min_dB % 100), range->max, range->max_dB / 100, abs(range->max_dB % 100)); } break; case SND_MIXER_ETYPE_ACCU1: printf("%sAttenuation %i.%02idB\n", space, info.data.accu1.attenuation / 100, abs(info.data.accu1.attenuation % 100)); break; case SND_MIXER_ETYPE_ACCU2: printf("%sAttenuation %i.%02idB\n", space, info.data.accu2.attenuation / 100, abs(info.data.accu1.attenuation % 100)); break; case SND_MIXER_ETYPE_ACCU3: for (idx = 0; idx < info.data.accu3.range; idx++) { struct snd_mixer_element_accu3_range *range = &info.data.accu3.prange[idx]; printf("%sVoice %i: Min %i (%i.%02idB), Max %i (%i.%02idB)\n", space, idx, range->min, range->min_dB / 100, abs(range->min_dB % 100), range->max, range->max_dB / 100, abs(range->max_dB % 100)); } break; case SND_MIXER_ETYPE_MUX1: show_mux1_info(handle, &info, space); break; case SND_MIXER_ETYPE_MUX2: show_mux2_info(handle, &info, space); break; case SND_MIXER_ETYPE_TONE_CONTROL1: if (info.data.tc1.tc & SND_MIXER_TC1_SW) printf("%sOn/Off switch\n", space); if (info.data.tc1.tc & SND_MIXER_TC1_BASS) printf("%sBass control: Min %i (%i.%02idB), Max %i (%i.%02idB)\n", space, info.data.tc1.min_bass, info.data.tc1.min_bass_dB / 100, abs(info.data.tc1.min_bass_dB % 100), info.data.tc1.max_bass, info.data.tc1.max_bass_dB / 100, abs(info.data.tc1.max_bass_dB % 100)); if (info.data.tc1.tc & SND_MIXER_TC1_TREBLE) printf("%sTreble control: Min %i (%i.%02idB), Max %i (%i.%02idB)\n", space, info.data.tc1.min_treble, info.data.tc1.min_treble_dB / 100, abs(info.data.tc1.min_treble_dB % 100), info.data.tc1.max_treble, info.data.tc1.max_treble_dB / 100, abs(info.data.tc1.max_treble_dB % 100)); break; case SND_MIXER_ETYPE_3D_EFFECT1: if (info.data.teffect1.effect & SND_MIXER_EFF1_SW) printf("%sOn/Off switch\n", space); if (info.data.teffect1.effect & SND_MIXER_EFF1_MONO_SW) printf("%sMono processing switch\n", space); if (info.data.teffect1.effect & SND_MIXER_EFF1_WIDE) printf("%sWide: Min %i, Max %i\n", space, info.data.teffect1.min_wide, info.data.teffect1.max_wide); if (info.data.teffect1.effect & SND_MIXER_EFF1_VOLUME) printf("%sVolume: Min %i, Max %i\n", space, info.data.teffect1.min_volume, info.data.teffect1.max_volume); if (info.data.teffect1.effect & SND_MIXER_EFF1_CENTER) printf("%sCenter: Min %i, Max %i\n", space, info.data.teffect1.min_center, info.data.teffect1.max_center); if (info.data.teffect1.effect & SND_MIXER_EFF1_SPACE) printf("%sSpace: Min %i, Max %i\n", space, info.data.teffect1.min_space, info.data.teffect1.max_space); if (info.data.teffect1.effect & SND_MIXER_EFF1_DEPTH) printf("%sDepth: Min %i, Max %i\n", space, info.data.teffect1.min_depth, info.data.teffect1.max_depth); if (info.data.teffect1.effect & SND_MIXER_EFF1_DELAY) printf("%sDelay: Min %i, Max %i\n", space, info.data.teffect1.min_delay, info.data.teffect1.max_delay); if (info.data.teffect1.effect & SND_MIXER_EFF1_FEEDBACK) printf("%sFeedback: Min %i, Max %i\n", space, info.data.teffect1.min_feedback, info.data.teffect1.max_feedback); break; default: printf("%sInfo handler for type %i is not available\n", space, info.eid.type); } snd_mixer_element_info_free(&info); return 0; } int show_element_contents(void *handle, snd_mixer_eid_t *eid, const char *space) { int err, idx; snd_mixer_element_t element; snd_mixer_element_info_t info; if (snd_mixer_element_has_control(eid) != 1) return 0; bzero(&element, sizeof(element)); bzero(&info, sizeof(info)); element.eid = info.eid = *eid; if ((err = snd_mixer_element_build(handle, &element)) < 0) { error("Mixer %i/%i element error: %s", card, device, snd_strerror(err)); return -1; } if (snd_mixer_element_has_info(eid) == 1) { if ((err = snd_mixer_element_info_build(handle, &info)) < 0) { error("Mixer %i/%i element error: %s", card, device, snd_strerror(err)); return -1; } } switch (element.eid.type) { case SND_MIXER_ETYPE_SWITCH1: for (idx = 0; idx < element.data.switch1.sw; idx++) { int val = snd_mixer_get_bit(element.data.switch1.psw, idx); printf("%sVoice %i: Switch is %s\n", space, idx, val ? "ON" : "OFF"); } break; case SND_MIXER_ETYPE_SWITCH2: printf("%sSwitch is %s\n", space, element.data.switch2.sw ? "ON" : "OFF"); break; case SND_MIXER_ETYPE_SWITCH3: if (element.data.switch3.rsw != info.data.switch3.voices * info.data.switch3.voices) { error("Switch3 !!!\n"); goto __end; } for (idx = 0; idx < element.data.switch3.rsw; idx++) { snd_mixer_voice_t input, output; int val = snd_mixer_get_bit(element.data.switch3.prsw, idx); printf("%sInput <", space); input = info.data.switch3.pvoices[idx / info.data.switch3.voices]; output = info.data.switch3.pvoices[idx % info.data.switch3.voices]; if (input.vindex) { printf("voice %i", input.voice); } else { printf(speaker_position(input.voice)); } printf("> Output <"); if (output.vindex) { printf("voice %i", output.voice); } else { printf(speaker_position(output.voice)); } printf(">: Switch is %s\n", val ? "ON" : "OFF"); } break; case SND_MIXER_ETYPE_VOLUME1: for (idx = 0; idx < element.data.volume1.voices; idx++) { int val = element.data.volume1.pvoices[idx]; printf("%sVoice %i: Value %s\n", space, idx, get_percent1(val, info.data.volume1.prange[idx].min, info.data.volume1.prange[idx].max, info.data.volume1.prange[idx].min_dB, info.data.volume1.prange[idx].max_dB)); } break; case SND_MIXER_ETYPE_ACCU3: for (idx = 0; idx < element.data.accu3.voices; idx++) { int val = element.data.accu3.pvoices[idx]; printf("%sVoice %i: Value %s\n", space, idx, get_percent1(val, info.data.accu3.prange[idx].min, info.data.accu3.prange[idx].max, info.data.accu3.prange[idx].min_dB, info.data.accu3.prange[idx].max_dB)); } break; case SND_MIXER_ETYPE_MUX1: for (idx = 0; idx < element.data.mux1.output; idx++) { snd_mixer_eid_t *eid = &element.data.mux1.poutput[idx]; printf("%sVoice %i: Element ", space, idx); if (eid->name[0] == '\0') { printf("NONE\n"); } else { printf("'%s',%i,%i\n", space, idx, element_name(eid->name), eid->index, eid->type); } } break; case SND_MIXER_ETYPE_MUX2: { printf("%sAll voices: Element ", space); if (element.data.mux2.output.name[0] == '\0') { printf("NONE\n"); } else { printf("'%s',%i,%i\n", element_name(element.data.mux2.output.name), element.data.mux2.output.index, element.data.mux2.output.type); } } break; case SND_MIXER_ETYPE_TONE_CONTROL1: if (element.data.tc1.tc & SND_MIXER_TC1_SW) printf("%sOn/Off switch is %s\n", space, element.data.tc1.sw ? "ON" : "OFF"); if (element.data.tc1.tc & SND_MIXER_TC1_BASS) printf("%sBass: %s\n", space, get_percent1(element.data.tc1.bass, info.data.tc1.min_bass, info.data.tc1.max_bass, info.data.tc1.min_bass_dB, info.data.tc1.max_bass_dB)); if (element.data.tc1.tc & SND_MIXER_TC1_TREBLE) printf("%sTreble: %s\n", space, get_percent1(element.data.tc1.treble, info.data.tc1.min_treble, info.data.tc1.max_treble, info.data.tc1.min_treble_dB, info.data.tc1.max_treble_dB)); break; case SND_MIXER_ETYPE_3D_EFFECT1: if (element.data.teffect1.effect & SND_MIXER_EFF1_SW) printf("%sOn/Off switch is %s\n", space, element.data.teffect1.sw ? "ON" : "OFF"); if (element.data.teffect1.effect & SND_MIXER_EFF1_MONO_SW) printf("%sMono processing switch is %s\n", space, element.data.teffect1.mono_sw ? "ON" : "OFF"); if (element.data.teffect1.effect & SND_MIXER_EFF1_WIDE) printf("%sWide: %s\n", space, get_percent(element.data.teffect1.wide, info.data.teffect1.min_wide, info.data.teffect1.max_wide)); if (element.data.teffect1.effect & SND_MIXER_EFF1_VOLUME) printf("%sVolume: %s\n", space, get_percent(element.data.teffect1.volume, info.data.teffect1.min_volume, info.data.teffect1.max_volume)); if (element.data.teffect1.effect & SND_MIXER_EFF1_CENTER) printf("%sCenter: %s\n", space, get_percent(element.data.teffect1.center, info.data.teffect1.min_center, info.data.teffect1.max_center)); if (element.data.teffect1.effect & SND_MIXER_EFF1_SPACE) printf("%sSpace: %s\n", space, get_percent(element.data.teffect1.space, info.data.teffect1.min_space, info.data.teffect1.max_space)); if (element.data.teffect1.effect & SND_MIXER_EFF1_DEPTH) printf("%sDepth: %s\n", space, get_percent(element.data.teffect1.depth, info.data.teffect1.min_depth, info.data.teffect1.max_depth)); if (element.data.teffect1.effect & SND_MIXER_EFF1_DELAY) printf("%sDelay: %s\n", space, get_percent(element.data.teffect1.delay, info.data.teffect1.min_delay, info.data.teffect1.max_delay)); if (element.data.teffect1.effect & SND_MIXER_EFF1_FEEDBACK) printf("%sFeedback: %s\n", space, get_percent(element.data.teffect1.feedback, info.data.teffect1.min_feedback, info.data.teffect1.max_feedback)); break; default: printf("%sRead handler for type %i is not available\n", space, element.eid.type); } __end: snd_mixer_element_free(&element); if (snd_mixer_element_has_info(eid)) snd_mixer_element_info_free(&info); return 0; } int elements(void) { int err, idx; snd_mixer_t *handle; snd_mixer_elements_t elements; snd_mixer_eid_t *element; if ((err = snd_mixer_open(&handle, card, device)) < 0) { error("Mixer %i/%i open error: %s", card, device, snd_strerror(err)); return -1; } bzero(&elements, sizeof(elements)); if ((err = snd_mixer_elements(handle, &elements)) < 0) { error("Mixer %i/%i elements error: %s", card, device, snd_strerror(err)); return -1; } elements.pelements = (snd_mixer_eid_t *)malloc(elements.elements_over * sizeof(snd_mixer_eid_t)); if (!elements.pelements) { error("Not enough memory"); return -1; } elements.elements_size = elements.elements_over; elements.elements_over = elements.elements = 0; if ((err = snd_mixer_elements(handle, &elements)) < 0) { error("Mixer %i/%i elements (2) error: %s", card, device, snd_strerror(err)); return -1; } for (idx = 0; idx < elements.elements; idx++) { element = &elements.pelements[idx]; printf("Element '%s',%i,%s\n", element_name(element->name), element->index, element_type(element->type)); show_element(handle, element, " "); show_element_info(handle, element, " "); } free(elements.pelements); snd_mixer_close(handle); return 0; } int elements_contents(void) { int err, idx; snd_mixer_t *handle; snd_mixer_elements_t elements; snd_mixer_eid_t *element; if ((err = snd_mixer_open(&handle, card, device)) < 0) { error("Mixer %i/%i open error: %s", card, device, snd_strerror(err)); return -1; } bzero(&elements, sizeof(elements)); if ((err = snd_mixer_elements(handle, &elements)) < 0) { error("Mixer %i/%i elements error: %s", card, device, snd_strerror(err)); return -1; } elements.pelements = (snd_mixer_eid_t *)malloc(elements.elements_over * sizeof(snd_mixer_eid_t)); if (!elements.pelements) { error("Not enough memory"); return -1; } elements.elements_size = elements.elements_over; elements.elements_over = elements.elements = 0; if ((err = snd_mixer_elements(handle, &elements)) < 0) { error("Mixer %i/%i elements (2) error: %s", card, device, snd_strerror(err)); return -1; } for (idx = 0; idx < elements.elements; idx++) { element = &elements.pelements[idx]; printf("Element '%s',%i,%s\n", element_name(element->name), element->index, element_type(element->type)); show_element_info(handle, element, " "); show_element_contents(handle, element, " "); } free(elements.pelements); snd_mixer_close(handle); return 0; } static const char *group_name(const char *name) { static char res[25]; strncpy(res, name, 24); res[24] = '\0'; return res; } int show_group(void *handle, snd_mixer_gid_t *gid, const char *space) { int err, idx, chn; snd_mixer_group_t group; snd_mixer_eid_t *element; bzero(&group, sizeof(group)); group.gid = *gid; if ((err = snd_mixer_group_read(handle, &group)) < 0) { error("Mixer %i/%i group error: %s", card, device, snd_strerror(err)); return -1; } if (group_contents_is_on && group.channels) { printf("%sCapabilities:", space); if (group.caps & SND_MIXER_GRPCAP_VOLUME) printf(" volume"); if (group.caps & SND_MIXER_GRPCAP_MUTE) printf(" mute"); if (group.caps & SND_MIXER_GRPCAP_JOINTLY_MUTE) printf(" jointly-mute"); if (group.caps & SND_MIXER_GRPCAP_CAPTURE) { printf(" capture"); } else { group.capture = 0; } if (group.caps & SND_MIXER_GRPCAP_JOINTLY_CAPTURE) printf(" jointly-capture"); if (group.caps & SND_MIXER_GRPCAP_EXCL_CAPTURE) printf(" exclusive-capture"); printf("\n"); if ((group.caps & SND_MIXER_GRPCAP_CAPTURE) && (group.caps & SND_MIXER_GRPCAP_EXCL_CAPTURE)) printf("%sCapture exclusive group: %i\n", space, group.capture_group); printf("%sChannels: ", space); if (group.channels == SND_MIXER_CHN_MASK_MONO) { printf("Mono"); } else { for (chn = 0; chn <= SND_MIXER_CHN_LAST; chn++) { if (!(group.channels & (1<name), element->index, element_type(element->type)); } free(group.pelements); return 0; } int groups(void) { int err, idx; snd_mixer_t *handle; snd_mixer_groups_t groups; snd_mixer_gid_t *group; if ((err = snd_mixer_open(&handle, card, device)) < 0) { error("Mixer %i/%i open error: %s", card, device, snd_strerror(err)); return -1; } bzero(&groups, sizeof(groups)); if ((err = snd_mixer_groups(handle, &groups)) < 0) { error("Mixer %i/%i groups error: %s", card, device, snd_strerror(err)); return -1; } groups.pgroups = (snd_mixer_gid_t *)malloc(groups.groups_over * sizeof(snd_mixer_eid_t)); if (!groups.pgroups) { error("Not enough memory"); return -1; } groups.groups_size = groups.groups_over; groups.groups_over = groups.groups = 0; if ((err = snd_mixer_groups(handle, &groups)) < 0) { error("Mixer %i/%i groups (2) error: %s", card, device, snd_strerror(err)); return -1; } for (idx = 0; idx < groups.groups; idx++) { group = &groups.pgroups[idx]; printf("Group '%s',%i\n", group_name(group->name), group->index); show_group(handle, group, " "); } free(groups.pgroups); snd_mixer_close(handle); return 0; } int groups_contents(void) { int err; group_contents_is_on = 1; err = groups(); group_contents_is_on = 0; return err; } static int parse_eid(const char *str, snd_mixer_eid_t *eid) { int c, size, idx; char *ptr; while (*str == ' ' || *str == '\t') str++; if (!(*str)) return 1; bzero(eid, sizeof(*eid)); if (!strncmp(str, "none", 4) || !strncmp(str, "NONE", 4)) return 0; ptr = eid->name; size = 0; if (*str != '"' && *str != '\'') { while (*str && *str != ',') { if (size < sizeof(eid->name)) { *ptr++ = *str; size++; } str++; } } else { c = *str++; while (*str && *str != c) { if (size < sizeof(eid->name)) { *ptr++ = *str; size++; } str++; } if (*str == c) str++; } if (*str != ',') return 1; str++; if (!isdigit(*str)) return 1; eid->index = atoi(str); while (isdigit(*str)) str++; if (*str != ',') return 1; str++; if (isdigit(*str)) { eid->type = atoi(str); return 0; } else { for (idx = 0; mixer_types[idx].type >= 0; idx++) if (!strncmp(mixer_types[idx].name, str, strlen(mixer_types[idx].name))) { eid->type = mixer_types[idx].type; return 0; } } return 1; } static int parse_gid(const char *str, snd_mixer_gid_t *gid) { int c, size; char *ptr; while (*str == ' ' || *str == '\t') str++; if (!(*str)) return 1; bzero(gid, sizeof(*gid)); ptr = gid->name; size = 0; if (*str != '"' && *str != '\'') { while (*str && *str != ',') { if (size < sizeof(gid->name)) { *ptr++ = *str; size++; } str++; } } else { c = *str++; while (*str && *str != c) { if (size < sizeof(gid->name)) { *ptr++ = *str; size++; } str++; } if (*str == c) str++; } if (*str == '\0') return 0; if (*str != ',') return 1; str++; if (!isdigit(*str)) return 1; gid->index = atoi(str); return 0; } int eset_switch1(int argc, char *argv[], void *handle, snd_mixer_eid_t *eid) { int err, tmp, idx = 0; snd_mixer_element_t element; char *ptr; if (argc != 1) { fprintf(stderr, "The set Switch1 command requires an argument:\n"); fprintf(stderr, " on/off[,on/off] ...\n"); return 1; } bzero(&element, sizeof(element)); element.eid = *eid; if ((err = snd_mixer_element_build(handle, &element)) < 0) { error("Mixer element build error: %s", snd_strerror(err)); return 1; } if (!strcmp(argv[0], "on") || !strcmp(argv[0], "off")) { tmp = !strcmp(argv[0], "on"); for (idx = 0; idx < element.data.switch1.sw; idx++) snd_mixer_set_bit(element.data.switch1.psw, idx, tmp); } else { ptr = argv[idx]; for (idx = 0; idx < element.data.switch1.sw; idx++) { tmp = !strncmp(ptr, "on", 2); snd_mixer_set_bit(element.data.switch1.psw, idx, tmp); while (*ptr && *ptr != ',') ptr++; if (*ptr == ',') ptr++; } } if ((err = snd_mixer_element_write(handle, &element)) < 0) { error("Mixer element write error: %s\n", snd_strerror(err)); snd_mixer_element_free(&element); return 1; } snd_mixer_element_free(&element); return 0; } int eset_switch2(int argc, char *argv[], void *handle, snd_mixer_eid_t *eid) { int err; snd_mixer_element_t element; if (argc != 1) { fprintf(stderr, "The set Switch2 command requires an argument:\n"); fprintf(stderr, " on/off\n"); return 1; } bzero(&element, sizeof(element)); element.eid = *eid; if ((err = snd_mixer_element_build(handle, &element)) < 0) { error("Mixer element build error: %s", snd_strerror(err)); return 1; } element.data.switch2.sw = !strcmp(argv[0], "on") ? 1 : 0; if ((err = snd_mixer_element_write(handle, &element)) < 0) { error("Mixer element write error: %s\n", snd_strerror(err)); snd_mixer_element_free(&element); return 1; } snd_mixer_element_free(&element); return 0; } int eset_volume1(int argc, char *argv[], void *handle, snd_mixer_eid_t *eid) { int err, tmp, idx = 0; snd_mixer_element_t element; snd_mixer_element_info_t info; char *ptr; if (argc != 1 || (!isdigit(*argv[0]) && *argv[0] != ':')) { fprintf(stderr, "The set Volume1 command requires an argument:\n"); fprintf(stderr, " vol[,vol] ...\n"); return 1; } bzero(&info, sizeof(info)); info.eid = *eid; if ((err = snd_mixer_element_info_build(handle, &info)) < 0) { error("Mixer element read error: %s", snd_strerror(err)); return 1; } bzero(&element, sizeof(element)); element.eid = *eid; if ((err = snd_mixer_element_build(handle, &element)) < 0) { error("Mixer element read error: %s", snd_strerror(err)); snd_mixer_element_info_free(&info); return 1; } if (!strchr(argv[0], ',')) { for (idx = 0; idx < element.data.volume1.voices; idx++) { ptr = argv[0]; tmp = get_volume(&ptr, info.data.volume1.prange[idx].min, info.data.volume1.prange[idx].max, info.data.volume1.prange[idx].min_dB, info.data.volume1.prange[idx].max_dB); element.data.volume1.pvoices[idx] = tmp; } } else { ptr = argv[idx]; for (idx = 0; idx < element.data.volume1.voices; idx++) { tmp = get_volume(&ptr, info.data.volume1.prange[idx].min, info.data.volume1.prange[idx].max, info.data.volume1.prange[idx].min_dB, info.data.volume1.prange[idx].max_dB); element.data.volume1.pvoices[idx] = tmp; } } if ((err = snd_mixer_element_write(handle, &element)) < 0) { error("Mixer element write error: %s\n", snd_strerror(err)); snd_mixer_element_free(&element); snd_mixer_element_info_free(&info); return 1; } snd_mixer_element_free(&element); snd_mixer_element_info_free(&info); return 0; } int eset_accu3(int argc, char *argv[], void *handle, snd_mixer_eid_t *eid) { int err, tmp, idx = 0; snd_mixer_element_t element; snd_mixer_element_info_t info; char *ptr; if (argc != 1 || (!isdigit(*argv[0]) && *argv[0] != ':')) { fprintf(stderr, "The set Accu3 command requires an argument:\n"); fprintf(stderr, " vol[,vol] ...\n"); return 1; } bzero(&info, sizeof(info)); info.eid = *eid; if ((err = snd_mixer_element_info_build(handle, &info)) < 0) { error("Mixer element read error: %s", snd_strerror(err)); return 1; } bzero(&element, sizeof(element)); element.eid = *eid; if ((err = snd_mixer_element_build(handle, &element)) < 0) { error("Mixer element read error: %s", snd_strerror(err)); snd_mixer_element_info_free(&info); return 1; } if (!strchr(argv[0], ',')) { for (idx = 0; idx < element.data.accu3.voices; idx++) { ptr = argv[0]; tmp = get_volume(&ptr, info.data.accu3.prange[idx].min, info.data.accu3.prange[idx].max, info.data.accu3.prange[idx].min_dB, info.data.accu3.prange[idx].max_dB); element.data.accu3.pvoices[idx] = tmp; } } else { ptr = argv[idx]; for (idx = 0; idx < element.data.volume1.voices; idx++) { tmp = get_volume(&ptr, info.data.accu3.prange[idx].min, info.data.accu3.prange[idx].max, info.data.accu3.prange[idx].min_dB, info.data.accu3.prange[idx].max_dB); element.data.accu3.pvoices[idx] = tmp; } } if ((err = snd_mixer_element_write(handle, &element)) < 0) { error("Mixer element write error: %s\n", snd_strerror(err)); snd_mixer_element_free(&element); snd_mixer_element_info_free(&info); return 1; } snd_mixer_element_free(&element); snd_mixer_element_info_free(&info); return 0; } int eset_mux1(int argc, char *argv[], void *handle, snd_mixer_eid_t *eid) { int err, idx = 0; snd_mixer_element_t element; snd_mixer_element_info_t info; snd_mixer_eid_t xeid; if (argc < 1) { fprintf(stderr, "The set Mux1 command requires an argument:\n"); fprintf(stderr, " element[ element] ...\n"); return 1; } bzero(&info, sizeof(info)); info.eid = *eid; if ((err = snd_mixer_element_info_build(handle, &info)) < 0) { error("Mixer element read error: %s", snd_strerror(err)); return 1; } bzero(&element, sizeof(element)); element.eid = *eid; if ((err = snd_mixer_element_build(handle, &element)) < 0) { error("Mixer element read error: %s", snd_strerror(err)); snd_mixer_element_info_free(&info); return 1; } if (argc == 1) { if (parse_eid(argv[0], &xeid)) { fprintf(stderr, "Wrong element identifier: %s\n", argv[0]); snd_mixer_element_free(&element); snd_mixer_element_info_free(&info); return 1; } for (idx = 0; idx < element.data.mux1.output; idx++) element.data.mux1.poutput[idx] = xeid; } else { for (idx = 0; idx < element.data.volume1.voices; idx++) { if (parse_eid(argv[idx >= argc ? argc - 1 : idx], &xeid)) { fprintf(stderr, "Wrong element identifier: %s\n", argv[0]); snd_mixer_element_free(&element); snd_mixer_element_info_free(&info); return 1; } element.data.mux1.poutput[idx] = xeid; } } if ((err = snd_mixer_element_write(handle, &element)) < 0) { error("Mixer element write error: %s\n", snd_strerror(err)); snd_mixer_element_free(&element); snd_mixer_element_info_free(&info); return 1; } snd_mixer_element_free(&element); snd_mixer_element_info_free(&info); return 0; } int eset_mux2(int argc, char *argv[], void *handle, snd_mixer_eid_t *eid) { int err, idx = 0; snd_mixer_element_t element; snd_mixer_element_info_t info; snd_mixer_eid_t xeid; if (argc != 1) { fprintf(stderr, "The set Mux2 command requires an argument:\n"); fprintf(stderr, " element\n"); return 1; } bzero(&info, sizeof(info)); info.eid = *eid; if ((err = snd_mixer_element_info_build(handle, &info)) < 0) { error("Mixer element read error: %s", snd_strerror(err)); return 1; } bzero(&element, sizeof(element)); element.eid = *eid; if ((err = snd_mixer_element_build(handle, &element)) < 0) { error("Mixer element read error: %s", snd_strerror(err)); snd_mixer_element_info_free(&info); return 1; } if (parse_eid(argv[0], &xeid)) { fprintf(stderr, "Wrong element identifier: %s\n", argv[0]); snd_mixer_element_free(&element); snd_mixer_element_info_free(&info); return 1; } element.data.mux2.output = xeid; if ((err = snd_mixer_element_write(handle, &element)) < 0) { error("Mixer element write error: %s\n", snd_strerror(err)); snd_mixer_element_free(&element); snd_mixer_element_info_free(&info); return 1; } snd_mixer_element_free(&element); snd_mixer_element_info_free(&info); return 0; } int eset(int argc, char *argv[]) { int err; snd_mixer_t *handle; snd_mixer_eid_t eid; if (argc < 1) { fprintf(stderr, "Specify a full element identifier: 'name',index,type\n"); return 1; } if (parse_eid(argv[0], &eid)) { fprintf(stderr, "Wrong element identifier: %s\n", argv[0]); return 1; } if ((err = snd_mixer_open(&handle, card, device)) < 0) { error("Mixer %i/%i open error: %s\n", card, device, snd_strerror(err)); return -1; } if (!quiet) { printf("Element '%s',%i,%s\n", element_name(eid.name), eid.index, element_type(eid.type)); } switch (eid.type) { case SND_MIXER_ETYPE_SWITCH1: if (eset_switch1(argc - 1, argv + 1, handle, &eid)) goto __end; break; case SND_MIXER_ETYPE_SWITCH2: if (eset_switch2(argc - 1, argv + 1, handle, &eid)) goto __end; break; case SND_MIXER_ETYPE_VOLUME1: if (eset_volume1(argc - 1, argv + 1, handle, &eid)) goto __end; break; case SND_MIXER_ETYPE_ACCU3: if (eset_accu3(argc - 1, argv + 1, handle, &eid)) goto __end; break; case SND_MIXER_ETYPE_MUX1: if (eset_mux1(argc - 1, argv + 1, handle, &eid)) goto __end; break; case SND_MIXER_ETYPE_MUX2: if (eset_mux2(argc - 1, argv + 1, handle, &eid)) goto __end; break; } if (!quiet) { if (snd_mixer_element_has_info(&eid)) { show_element_info(handle, &eid, " "); } if (snd_mixer_element_has_control(&eid)) { show_element_contents(handle, &eid, " "); } } __end: snd_mixer_close(handle); return 0; } int eget(int argc, char *argv[]) { int err; snd_mixer_t *handle; snd_mixer_eid_t eid; if (argc < 1) { fprintf(stderr, "Specify a full element identifier: 'name',index,type\n"); return 1; } if (parse_eid(argv[0], &eid)) { fprintf(stderr, "Wrong element identifier: %s\n", argv[0]); return 1; } if ((err = snd_mixer_open(&handle, card, device)) < 0) { error("Mixer %i/%i open error: %s\n", card, device, snd_strerror(err)); return -1; } printf("Element '%s',%i,%s\n", element_name(eid.name), eid.index, element_type(eid.type)); if (show_element(handle, &eid, " ") >= 0) { if (snd_mixer_element_has_info(&eid)) { show_element_info(handle, &eid, " "); } if (snd_mixer_element_has_control(&eid)) { show_element_contents(handle, &eid, " "); } } snd_mixer_close(handle); return 0; } int gset(int argc, char *argv[]) { int err, idx, chn; snd_mixer_t *handle; snd_mixer_gid_t gid; snd_mixer_group_t group; if (argc < 1) { fprintf(stderr, "Specify a group identifier: 'name',index\n"); return 1; } if (parse_gid(argv[0], &gid)) { fprintf(stderr, "Wrong group identifier: %s\n", argv[0]); return 1; } if (argc < 2) { fprintf(stderr, "Specify what you want to set...\n"); return 1; } if ((err = snd_mixer_open(&handle, card, device)) < 0) { error("Mixer %i/%i open error: %s\n", card, device, snd_strerror(err)); return -1; } bzero(&group, sizeof(group)); group.gid = gid; if (snd_mixer_group_read(handle, &group)<0) { error("Unable to read group '%s',%i: %s\n", group_name(gid.name), gid.index, snd_strerror(err)); snd_mixer_close(handle); return -1; } for (idx = 1; idx < argc; idx++) { if (!strncmp(argv[idx], "mute", 4) || !strncmp(argv[idx], "off", 3)) { group.mute = group.channels; } else if (!strncmp(argv[idx], "unmute", 6) || !strncmp(argv[idx], "on", 2)) { group.mute = 0; } else if (!strncmp(argv[idx], "capture", 7) || !strncmp(argv[idx], "rec", 3)) { group.capture = group.channels; } else if (!strncmp(argv[idx], "nocapture", 9) || !strncmp(argv[idx], "norec", 5)) { group.capture = 0; } else if (isdigit(argv[idx][0])) { char *ptr; int vol; ptr = argv[idx]; vol = get_volume_simple(&ptr, group.min, group.max); for (chn = 0; chn <= SND_MIXER_CHN_LAST; chn++) { if (!(group.channels & (1< 32) { fprintf(stderr, "Error: device %i is invalid\n", device); return 1; } break; case 'q': case HELPID_QUIET: quiet = 1; break; case 'D': case HELPID_DEBUG: debugflag = 1; break; case 'v': case HELPID_VERSION: printf("amixer version " SND_UTIL_VERSION_STR "\n"); return 1; default: fprintf(stderr, "\07Invalid switch or option needs an argument.\n"); morehelp++; } } if (morehelp) { help(); return 1; } if (argc - optind <= 0) { return groups_contents() ? 1 : 0; } if (!strcmp(argv[optind], "info")) { return info() ? 1 : 0; } else if (!strcmp(argv[optind], "elements")) { return elements() ? 1 : 0; } else if (!strcmp(argv[optind], "contents")) { return elements_contents() ? 1 : 0; } else if (!strcmp(argv[optind], "groups")) { return groups() ? 1 : 0; } else if (!strcmp(argv[optind], "gcontents")) { return groups_contents() ? 1 : 0; } else if (!strcmp(argv[optind], "set")) { return gset(argc - optind - 1, argc - optind > 1 ? argv + optind + 1 : NULL) ? 1 : 0; } else if (!strcmp(argv[optind], "get")) { return gget(argc - optind - 1, argc - optind > 1 ? argv + optind + 1 : NULL) ? 1 : 0; } else if (!strcmp(argv[optind], "eset")) { return eset(argc - optind - 1, argc - optind > 1 ? argv + optind + 1 : NULL) ? 1 : 0; } else if (!strcmp(argv[optind], "eget")) { return eget(argc - optind - 1, argc - optind > 1 ? argv + optind + 1 : NULL) ? 1 : 0; } else { fprintf(stderr, "amixer: Unknown command '%s'...\n", argv[optind]); } return 0; }