/* * Squeezelite - lightweight headless squeezebox emulator * * (c) Adrian Smith 2012-2015, triode1@btinternet.com * Ralph Irving 2015-2017, ralph_irving@hotmail.com * * 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 3 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, see . * * Additions (c) Paul Hermann, 2015-2017 under the same license terms * -Control of Raspberry pi GPIO for amplifier power * -Launch script on power status change from LMS */ #include "squeezelite.h" #include #define TITLE "Squeezelite " VERSION ", Copyright 2012-2015 Adrian Smith, 2015-2019 Ralph Irving." #define CODECS_BASE "flac,pcm,mp3,ogg" #if NO_FAAD #define CODECS_AAC "" #else #define CODECS_AAC ",aac" #endif #if FFMPEG #define CODECS_FF ",wma,alac" #else #define CODECS_FF "" #endif #if DSD #define CODECS_DSD ",dsd" #else #define CODECS_DSD "" #endif #define CODECS_MP3 " (mad,mpg for specific mp3 codec)" #define CODECS CODECS_BASE CODECS_AAC CODECS_FF CODECS_DSD CODECS_MP3 static void usage(const char *argv0) { printf(TITLE " See -t for license terms\n" "Usage: %s [options]\n" " -s [:]\tConnect to specified server, otherwise uses autodiscovery to find server\n" #if !EMBEDDED " -o \tSpecify output device, default \"default\", - = output to stdout\n" " -l \t\t\tList output devices\n" #endif #if ALSA " -a :::\tSpecify ALSA params to open output device, b = buffer time in ms or size in bytes, p = period count or size in bytes, f sample format (16|24|24_3|32), m = use mmap (0|1)\n" #endif #if PORTAUDIO #if PA18API " -a :\tSpecify output target 4 byte frames per buffer, number of buffers\n" #elif OSX && !defined(OSXPPC) " -a :\t\tSpecify Portaudio params to open output device, l = target latency in ms, r = allow OSX to resample (0|1)\n" #elif WIN " -a :\t\tSpecify Portaudio params to open output device, l = target latency in ms, e = use exclusive mode for WASAPI (0|1)\n" #else " -a \t\tSpecify Portaudio params to open output device, l = target latency in ms\n" #endif #endif " -a \t\tSpecify sample format (16|24|32) of output file when using -o - to output samples to stdout (interleaved little endian only)\n" " -b :\tSpecify internal Stream and Output buffer sizes in Kbytes\n" " -c ,\tRestrict codecs to those specified, otherwise load all available codecs; known codecs: " CODECS "\n" " \t\t\tCodecs reported to LMS in order listed, allowing codec priority refinement.\n" " -C \t\tClose output device when idle after timeout seconds, default is to keep it open while player is 'on'\n" #if !IR " -d =\tSet logging level, logs: all|slimproto|stream|decode|output, level: info|debug|sdebug\n" #else " -d =\tSet logging level, logs: all|slimproto|stream|decode|output|ir, level: info|debug|sdebug\n" #endif #if defined(GPIO) && defined(RPI) " -G :\tSpecify the BCM GPIO# to use for Amp Power Relay and if the output should be Active High or Low\n" #endif " -e ,\tExplicitly exclude native support of one or more codecs; known codecs: " CODECS "\n" " -f \t\tWrite debug to logfile\n" #if IR " -i []\tEnable lirc remote control support (lirc config file ~/.lircrc used if filename not specified)\n" #endif " -m \t\tSet mac address, format: ab:cd:ef:12:34:56\n" " -M \tSet the squeezelite player model name sent to the server (default: " MODEL_NAME_STRING ")\n" " -n \t\tSet the player name\n" " -N \t\tStore player name in filename to allow server defined name changes to be shared between servers (not supported with -n)\n" " -W\t\t\tRead wave and aiff format from header, ignore server parameters\n" #if ALSA " -p \t\tSet real time priority of output thread (1-99)\n" #endif #if LINUX || FREEBSD || SUN " -P \t\tStore the process id (PID) in filename\n" #endif " -r [:]\tSample rates supported, allows output to be off when squeezelite is started; rates = |-|,,; delay = optional delay switching rates in ms\n" #if GPIO " -S \tAbsolute path to script to launch on power commands from LMS\n" #endif #if RESAMPLE " -R -u [params]\tResample, params = ::::::,\n" " \t\t\t recipe = (v|h|m|l|q)(L|I|M)(s) [E|X], E = exception - resample only if native rate not supported, X = async - resample to max rate for device, otherwise to max sync rate\n" " \t\t\t flags = num in hex,\n" " \t\t\t attenuation = attenuation in dB to apply (default is -1db if not explicitly set),\n" " \t\t\t precision = number of bits precision (NB. HQ = 20. VHQ = 28),\n" " \t\t\t passband_end = number in percent (0dB pt. bandwidth to preserve. nyquist = 100%%),\n" " \t\t\t stopband_start = number in percent (Aliasing/imaging control. > passband_end),\n" " \t\t\t phase_response = 0-100 (0 = minimum / 50 = linear / 100 = maximum)\n" #endif #if RESAMPLE16 " -R -u [params]\tResample, params = (b|l|m)[:i],\n" " \t\t\t b = basic linear interpolation, l = 13 taps, m = 21 taps, i = interpolate filter coefficients\n" #endif #if DSD #if ALSA " -D [delay][:format]\tOutput device supports DSD, delay = optional delay switching between PCM and DSD in ms\n" " \t\t\t format = dop (default if not specified), u8, u16le, u16be, u32le or u32be.\n" #else " -D [delay]\t\tOutput device supports DSD over PCM (DoP), delay = optional delay switching between PCM and DoP in ms\n" #endif #endif #if VISEXPORT " -v \t\t\tVisualiser support\n" #endif # if ALSA " -O \tSpecify mixer device, defaults to 'output device'\n" " -L \t\t\tList volume controls for output device\n" " -U \t\tUnmute ALSA control and set to full volume (not supported with -V)\n" " -V \t\tUse ALSA control for volume adjustment, otherwise use software volume adjustment\n" " -X \t\t\tUse linear volume adjustments instead of in terms of dB (only for hardware volume control)\n" #endif #if LINUX || FREEBSD || SUN " -z \t\t\tDaemonize\n" #endif #if RESAMPLE || RESAMPLE16 " -Z \t\tReport rate to server in helo as the maximum sample rate we can support\n" #endif " -t \t\t\tLicense terms\n" " -? \t\t\tDisplay this help text\n" "\n" "Build options:" #if SUN " SOLARIS" #elif LINUX " LINUX" #endif #if WIN " WIN" #endif #if OSX " OSX" #endif #if OSXPPC "PPC" #endif #if FREEBSD " FREEBSD" #endif #if ALSA " ALSA" #endif #if PORTAUDIO " PORTAUDIO" #if PA18API "18" #endif #endif #if EMBEDDED " EMBEDDED" #endif #if EVENTFD " EVENTFD" #endif #if SELFPIPE " SELFPIPE" #endif #if LOOPBACK " LOOPBACK" #endif #if WINEVENT " WINEVENT" #endif #if RESAMPLE_MP " RESAMPLE_MP" #else #if RESAMPLE " RESAMPLE" #endif #if RESAMPLE16 " RESAMPLE16" #endif #endif #if FFMPEG " FFMPEG" #endif #if NO_FAAD " NO_FAAD" #endif #if VISEXPORT " VISEXPORT" #endif #if IR " IR" #endif #if GPIO " GPIO" #endif #if RPI " RPI" #endif #if DSD " DSD" #endif #if USE_SSL " SSL" #endif #if NO_SSLSYM " NO_SSLSYM" #endif #if LINKALL " LINKALL" #endif "\n\n", argv0); } static void license(void) { printf(TITLE "\n\n" "This program is free software: you can redistribute it and/or modify\n" "it under the terms of the GNU General Public License as published by\n" "the Free Software Foundation, either version 3 of the License, or\n" "(at your option) any later version.\n\n" "This program is distributed in the hope that it will be useful,\n" "but WITHOUT ANY WARRANTY; without even the implied warranty of\n" "MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the\n" "GNU General Public License for more details.\n\n" "You should have received a copy of the GNU General Public License\n" "along with this program. If not, see .\n" #if DSD "\nContains dsd2pcm library Copyright 2009, 2011 Sebastian Gesemann which\n" "is subject to its own license.\n" "\nContains the Daphile Project full dsd patch Copyright 2013-2017 Daphile,\n" "which is subject to its own license.\n" #endif "\nOption to allow server side upsampling for PCM streams (-W) from\n" "squeezelite-R2 (c) Marco Curti 2015, marcoc1712@gmail.com.\n" #if GPIO "\nAdditions (c) Paul Hermann, 2015, 2017 under the same license terms\n" "- Launch a script on power status change\n" "- Control of Raspberry pi GPIO for amplifier power\n" #endif #if RPI "\nContains wiringpi GPIO Interface library Copyright (c) 2012-2017\n" "Gordon Henderson, which is subject to its own license.\n" #endif #if FFMPEG "\nThis software uses libraries from the FFmpeg project under\n" "the LGPLv2.1 and its source can be downloaded from\n" "\n" #endif "\n" ); } static void sighandler(int signum) { slimproto_stop(); // remove ourselves in case above does not work, second SIGINT will cause non gracefull shutdown signal(signum, SIG_DFL); } int main(int argc, char **argv) { char *server = NULL; char *output_device = "default"; char *include_codecs = NULL; char *exclude_codecs = ""; char *name = NULL; char *namefile = NULL; char *modelname = NULL; extern bool pcm_check_header; extern bool user_rates; char *logfile = NULL; u8_t mac[6]; unsigned stream_buf_size = STREAMBUF_SIZE; unsigned output_buf_size = 0; // set later unsigned rates[MAX_SUPPORTED_SAMPLERATES] = { 0 }; unsigned rate_delay = 0; char *resample = NULL; char *output_params = NULL; unsigned idle = 0; #if LINUX || FREEBSD || SUN bool daemonize = false; char *pidfile = NULL; FILE *pidfp = NULL; #endif #if ALSA unsigned rt_priority = OUTPUT_RT_PRIORITY; char *mixer_device = output_device; char *output_mixer = NULL; bool output_mixer_unmute = false; bool linear_volume = false; #endif #if DSD unsigned dsd_delay = 0; dsd_format dsd_outfmt = PCM; #endif #if VISEXPORT bool visexport = false; #endif #if IR char *lircrc = NULL; #endif log_level log_output = lWARN; log_level log_stream = lWARN; log_level log_decode = lWARN; log_level log_slimproto = lWARN; #if IR log_level log_ir = lWARN; #endif int maxSampleRate = 0; char *optarg = NULL; int optind = 1; int i; #define MAXCMDLINE 512 char cmdline[MAXCMDLINE] = ""; get_mac(mac); for (i = 0; i < argc && (strlen(argv[i]) + strlen(cmdline) + 2 < MAXCMDLINE); i++) { strcat(cmdline, argv[i]); strcat(cmdline, " "); } while (optind < argc && strlen(argv[optind]) >= 2 && argv[optind][0] == '-') { char *opt = argv[optind] + 1; if (strstr("oabcCdefmMnNpPrsZ" #if ALSA "UVO" #endif , opt) && optind < argc - 1) { optarg = argv[optind + 1]; optind += 2; } else if (strstr("ltz?W" #if ALSA "LX" #endif #if RESAMPLE || RESAMPLE16 "uR" #endif #if DSD "D" #endif #if VISEXPORT "v" #endif #if IR "i" #endif #if defined(GPIO) && defined(RPI) "G" #endif #if GPIO "S" #endif , opt)) { optarg = NULL; optind += 1; } else { fprintf(stderr, "\nOption error: -%s\n\n", opt); usage(argv[0]); exit(1); } switch (opt[0]) { case 'o': output_device = optarg; #if ALSA mixer_device = optarg; #endif break; case 'a': output_params = optarg; break; case 'b': { char *s = next_param(optarg, ':'); char *o = next_param(NULL, ':'); if (s) stream_buf_size = atoi(s) * 1024; if (o) output_buf_size = atoi(o) * 1024; } break; case 'c': include_codecs = optarg; break; case 'C': if (atoi(optarg) > 0) { idle = atoi(optarg) * 1000; } break; case 'e': exclude_codecs = optarg; break; case 'd': { char *l = strtok(optarg, "="); char *v = strtok(NULL, "="); log_level new = lWARN; if (l && v) { if (!strcmp(v, "info")) new = lINFO; if (!strcmp(v, "debug")) new = lDEBUG; if (!strcmp(v, "sdebug")) new = lSDEBUG; if (!strcmp(l, "all") || !strcmp(l, "slimproto")) log_slimproto = new; if (!strcmp(l, "all") || !strcmp(l, "stream")) log_stream = new; if (!strcmp(l, "all") || !strcmp(l, "decode")) log_decode = new; if (!strcmp(l, "all") || !strcmp(l, "output")) log_output = new; #if IR if (!strcmp(l, "all") || !strcmp(l, "ir")) log_ir = new; #endif } else { fprintf(stderr, "\nDebug settings error: -d %s\n\n", optarg); usage(argv[0]); exit(1); } } break; case 'f': logfile = optarg; break; case 'm': { int byte = 0; char *tmp; if (!strncmp(optarg, "00:04:20", 8)) { LOG_ERROR("ignoring mac address from hardware player range 00:04:20:**:**:**"); } else { char *t = strtok(optarg, ":"); while (t && byte < 6) { mac[byte++] = (u8_t)strtoul(t, &tmp, 16); t = strtok(NULL, ":"); } } } break; case 'M': modelname = optarg; break; case 'r': { char *rstr = next_param(optarg, ':'); char *dstr = next_param(NULL, ':'); if (rstr && strstr(rstr, ",")) { // parse sample rates and sort them char *r = next_param(rstr, ','); unsigned tmp[MAX_SUPPORTED_SAMPLERATES] = { 0 }; int i, j; int last = 999999; for (i = 0; r && i < MAX_SUPPORTED_SAMPLERATES; ++i) { tmp[i] = atoi(r); r = next_param(NULL, ','); } for (i = 0; i < MAX_SUPPORTED_SAMPLERATES; ++i) { int largest = 0; for (j = 0; j < MAX_SUPPORTED_SAMPLERATES; ++j) { if (tmp[j] > largest && tmp[j] < last) { largest = tmp[j]; } } rates[i] = last = largest; } } else if (rstr) { // optstr is - or , extract rates from test rates within this range unsigned ref[] TEST_RATES; char *str1 = next_param(rstr, '-'); char *str2 = next_param(NULL, '-'); unsigned max = str2 ? atoi(str2) : (str1 ? atoi(str1) : ref[0]); unsigned min = str1 && str2 ? atoi(str1) : 0; unsigned tmp; int i, j; if (max < min) { tmp = max; max = min; min = tmp; } rates[0] = max; for (i = 0, j = 1; i < MAX_SUPPORTED_SAMPLERATES; ++i) { if (ref[i] < rates[j-1] && ref[i] >= min) { rates[j++] = ref[i]; } } } if (dstr) { rate_delay = atoi(dstr); } if (rates[0]) { user_rates = true; } } break; case 's': server = optarg; break; case 'n': name = optarg; break; case 'N': namefile = optarg; break; case 'Z': maxSampleRate = atoi(optarg); break; case 'W': pcm_check_header = true; break; #if ALSA case 'p': rt_priority = atoi(optarg); if (rt_priority > 99 || rt_priority < 1) { fprintf(stderr, "\nError: invalid priority: %s\n\n", optarg); usage(argv[0]); exit(1); } break; #endif #if LINUX || FREEBSD || SUN case 'P': pidfile = optarg; break; #endif #if !EMBEDDED case 'l': list_devices(); exit(0); break; #endif #if RESAMPLE || RESAMPLE16 case 'u': case 'R': if (optind < argc && argv[optind] && argv[optind][0] != '-') { resample = argv[optind++]; } else { resample = ""; } break; #endif #if DSD case 'D': dsd_outfmt = DOP; if (optind < argc && argv[optind] && argv[optind][0] != '-') { char *dstr = next_param(argv[optind++], ':'); char *fstr = next_param(NULL, ':'); dsd_delay = dstr ? atoi(dstr) : 0; if (fstr) { if (!strcmp(fstr, "dop")) dsd_outfmt = DOP; if (!strcmp(fstr, "u8")) dsd_outfmt = DSD_U8; if (!strcmp(fstr, "u16le")) dsd_outfmt = DSD_U16_LE; if (!strcmp(fstr, "u32le")) dsd_outfmt = DSD_U32_LE; if (!strcmp(fstr, "u16be")) dsd_outfmt = DSD_U16_BE; if (!strcmp(fstr, "u32be")) dsd_outfmt = DSD_U32_BE; if (!strcmp(fstr, "dop24")) dsd_outfmt = DOP_S24_LE; if (!strcmp(fstr, "dop24_3")) dsd_outfmt = DOP_S24_3LE; } } break; #endif #if VISEXPORT case 'v': visexport = true; break; #endif #if ALSA case 'O': mixer_device = optarg; break; case 'L': list_mixers(mixer_device); exit(0); break; case 'X': linear_volume = true; break; case 'U': output_mixer_unmute = true; case 'V': if (output_mixer) { fprintf(stderr, "-U and -V option should not be used at same time\n"); exit(1); } output_mixer = optarg; break; #endif #if IR case 'i': if (optind < argc && argv[optind] && argv[optind][0] != '-') { lircrc = argv[optind++]; } else { lircrc = "~/.lircrc"; // liblirc_client will expand ~/ } break; #endif #if defined(GPIO) && defined(RPI) case 'G': if (power_script != NULL){ fprintf(stderr, "-G and -S options cannot be used together \n\n" ); usage(argv[0]); exit(1); } if (optind < argc && argv[optind] && argv[optind][0] != '-') { char *gp = next_param(argv[optind++], ':'); char *go = next_param (NULL, ':'); gpio_pin = atoi(gp); if (go != NULL){ if ((strcmp(go, "H")==0)|(strcmp(go, "h")==0)){ gpio_active_low=false; }else if((strcmp(go, "L")==0)|(strcmp(go, "l")==0)){ gpio_active_low=true; }else{ fprintf(stderr,"Must set output to be active High or Low i.e. -G18:H or -G18:L\n"); usage(argv[0]); exit(1); } }else{ fprintf(stderr,"-G Option Error\n"); usage(argv[0]); exit(1); } gpio_active = true; relay(0); } else { fprintf(stderr, "Error in GPIO Pin assignment.\n"); usage(argv[0]); exit(1); } break; #endif #if GPIO case 'S': if (gpio_active){ fprintf(stderr, "-G and -S options cannot be used together \n\n" ); usage(argv[0]); exit(1); } if (optind < argc && argv[optind] && argv[optind][0] != '-') { power_script = argv[optind++]; if( access( power_script, R_OK|X_OK ) == -1 ) { // file doesn't exist fprintf(stderr, "Script %s, not found\n\n", argv[optind-1]); usage(argv[0]); exit(1); } } else { fprintf(stderr, "No Script Name Given.\n\n"); usage(argv[0]); exit(1); } relay_script(0); break; #endif #if LINUX || FREEBSD || SUN case 'z': daemonize = true; #if SUN init_daemonize(); #endif /* SUN */ break; #endif case 't': license(); exit(0); case '?': usage(argv[0]); exit(0); break; default: fprintf(stderr, "Arg error: %s\n", argv[optind]); break; } } // warn if command line includes something which isn't parsed if (optind < argc) { fprintf(stderr, "\nError: command line argument error\n\n"); usage(argv[0]); exit(1); } signal(SIGINT, sighandler); signal(SIGTERM, sighandler); #if defined(SIGQUIT) signal(SIGQUIT, sighandler); #endif #if defined(SIGHUP) signal(SIGHUP, sighandler); #endif #if USE_SSL && !LINKALL && !NO_SSLSYM ssl_loaded = load_ssl_symbols(); #endif // set the output buffer size if not specified on the command line, take account of resampling if (!output_buf_size) { output_buf_size = OUTPUTBUF_SIZE; if (resample) { unsigned scale = 8; if (rates[0]) { scale = rates[0] / 44100; if (scale > 8) scale = 8; if (scale < 1) scale = 1; } output_buf_size *= scale; } } if (logfile) { if (!freopen(logfile, "a", stderr)) { fprintf(stderr, "error opening logfile %s: %s\n", logfile, strerror(errno)); } else { if (log_output >= lINFO || log_stream >= lINFO || log_decode >= lINFO || log_slimproto >= lINFO) { fprintf(stderr, "\n%s\n", cmdline); } } } #if LINUX || FREEBSD || SUN if (pidfile) { if (!(pidfp = fopen(pidfile, "w")) ) { fprintf(stderr, "Error opening pidfile %s: %s\n", pidfile, strerror(errno)); exit(1); } pidfile = realpath(pidfile, NULL); // daemonize will change cwd } if (daemonize) { if (daemon(0, logfile ? 1 : 0)) { fprintf(stderr, "error daemonizing: %s\n", strerror(errno)); } } if (pidfp) { fprintf(pidfp, "%d\n", (int) getpid()); fclose(pidfp); } #endif #if WIN winsock_init(); #endif stream_init(log_stream, stream_buf_size); #if EMBEDDED embedded_init(); output_init_embedded(log_output, output_device, output_buf_size, output_params, rates, rate_delay, idle); #else if (!strcmp(output_device, "-")) { output_init_stdout(log_output, output_buf_size, output_params, rates, rate_delay); } else { #if ALSA output_init_alsa(log_output, output_device, output_buf_size, output_params, rates, rate_delay, rt_priority, idle, mixer_device, output_mixer, output_mixer_unmute, linear_volume); #endif #if PORTAUDIO output_init_pa(log_output, output_device, output_buf_size, output_params, rates, rate_delay, idle); #endif } #endif #if DSD dsd_init(dsd_outfmt, dsd_delay); #endif #if VISEXPORT if (visexport) { output_vis_init(log_output, mac); } #endif decode_init(log_decode, include_codecs, exclude_codecs); #if RESAMPLE || RESAMPLE16 if (resample) { process_init(resample); } #endif #if IR if (lircrc) { ir_init(log_ir, lircrc); } #endif if (name && namefile) { fprintf(stderr, "-n and -N option should not be used at same time\n"); exit(1); } slimproto(log_slimproto, server, mac, name, namefile, modelname, maxSampleRate); decode_close(); stream_close(); #if EMBEDDED output_close_embedded(); #else if (!strcmp(output_device, "-")) { output_close_stdout(); } else { #if ALSA output_close_alsa(); #endif #if PORTAUDIO output_close_pa(); #endif } #endif #if IR ir_close(); #endif #if WIN winsock_close(); #endif #if LINUX || FREEBSD || SUN if (pidfile) { unlink(pidfile); free(pidfile); } #endif #if USE_SSL && !LINKALL && !NO_SSLSYM free_ssl_symbols(); #endif exit(0); }
::\tSpecify ALSA params to open output device, b = buffer time in ms or size in bytes, p = period count or size in bytes, f sample format (16|24|24_3|32), m = use mmap (0|1)\n" #endif #if PORTAUDIO #if PA18API " -a :\tSpecify output target 4 byte frames per buffer, number of buffers\n" #elif OSX && !defined(OSXPPC) " -a :\t\tSpecify Portaudio params to open output device, l = target latency in ms, r = allow OSX to resample (0|1)\n" #elif WIN " -a :\t\tSpecify Portaudio params to open output device, l = target latency in ms, e = use exclusive mode for WASAPI (0|1)\n" #else " -a \t\tSpecify Portaudio params to open output device, l = target latency in ms\n" #endif #endif " -a \t\tSpecify sample format (16|24|32) of output file when using -o - to output samples to stdout (interleaved little endian only)\n" " -b :\tSpecify internal Stream and Output buffer sizes in Kbytes\n" " -c ,\tRestrict codecs to those specified, otherwise load all available codecs; known codecs: " CODECS "\n" " \t\t\tCodecs reported to LMS in order listed, allowing codec priority refinement.\n" " -C \t\tClose output device when idle after timeout seconds, default is to keep it open while player is 'on'\n" #if !IR " -d =\tSet logging level, logs: all|slimproto|stream|decode|output, level: info|debug|sdebug\n" #else " -d =\tSet logging level, logs: all|slimproto|stream|decode|output|ir, level: info|debug|sdebug\n" #endif #if defined(GPIO) && defined(RPI) " -G :\tSpecify the BCM GPIO# to use for Amp Power Relay and if the output should be Active High or Low\n" #endif " -e ,\tExplicitly exclude native support of one or more codecs; known codecs: " CODECS "\n" " -f \t\tWrite debug to logfile\n" #if IR " -i []\tEnable lirc remote control support (lirc config file ~/.lircrc used if filename not specified)\n" #endif " -m \t\tSet mac address, format: ab:cd:ef:12:34:56\n" " -M \tSet the squeezelite player model name sent to the server (default: " MODEL_NAME_STRING ")\n" " -n \t\tSet the player name\n" " -N \t\tStore player name in filename to allow server defined name changes to be shared between servers (not supported with -n)\n" " -W\t\t\tRead wave and aiff format from header, ignore server parameters\n" #if ALSA " -p \t\tSet real time priority of output thread (1-99)\n" #endif #if LINUX || FREEBSD || SUN " -P \t\tStore the process id (PID) in filename\n" #endif " -r [:]\tSample rates supported, allows output to be off when squeezelite is started; rates = |-|,,; delay = optional delay switching rates in ms\n" #if GPIO " -S \tAbsolute path to script to launch on power commands from LMS\n" #endif #if RESAMPLE " -R -u [params]\tResample, params = ::::::,\n" " \t\t\t recipe = (v|h|m|l|q)(L|I|M)(s) [E|X], E = exception - resample only if native rate not supported, X = async - resample to max rate for device, otherwise to max sync rate\n" " \t\t\t flags = num in hex,\n" " \t\t\t attenuation = attenuation in dB to apply (default is -1db if not explicitly set),\n" " \t\t\t precision = number of bits precision (NB. HQ = 20. VHQ = 28),\n" " \t\t\t passband_end = number in percent (0dB pt. bandwidth to preserve. nyquist = 100%%),\n" " \t\t\t stopband_start = number in percent (Aliasing/imaging control. > passband_end),\n" " \t\t\t phase_response = 0-100 (0 = minimum / 50 = linear / 100 = maximum)\n" #endif #if RESAMPLE16 " -R -u [params]\tResample, params = (b|l|m)[:i],\n" " \t\t\t b = basic linear interpolation, l = 13 taps, m = 21 taps, i = interpolate filter coefficients\n" #endif #if DSD #if ALSA " -D [delay][:format]\tOutput device supports DSD, delay = optional delay switching between PCM and DSD in ms\n" " \t\t\t format = dop (default if not specified), u8, u16le, u16be, u32le or u32be.\n" #else " -D [delay]\t\tOutput device supports DSD over PCM (DoP), delay = optional delay switching between PCM and DoP in ms\n" #endif #endif #if VISEXPORT " -v \t\t\tVisualiser support\n" #endif # if ALSA " -O \tSpecify mixer device, defaults to 'output device'\n" " -L \t\t\tList volume controls for output device\n" " -U \t\tUnmute ALSA control and set to full volume (not supported with -V)\n" " -V \t\tUse ALSA control for volume adjustment, otherwise use software volume adjustment\n" " -X \t\t\tUse linear volume adjustments instead of in terms of dB (only for hardware volume control)\n" #endif #if LINUX || FREEBSD || SUN " -z \t\t\tDaemonize\n" #endif #if RESAMPLE || RESAMPLE16 " -Z \t\tReport rate to server in helo as the maximum sample rate we can support\n" #endif " -t \t\t\tLicense terms\n" " -? \t\t\tDisplay this help text\n" "\n" "Build options:" #if SUN " SOLARIS" #elif LINUX " LINUX" #endif #if WIN " WIN" #endif #if OSX " OSX" #endif #if OSXPPC "PPC" #endif #if FREEBSD " FREEBSD" #endif #if ALSA " ALSA" #endif #if PORTAUDIO " PORTAUDIO" #if PA18API "18" #endif #endif #if EMBEDDED " EMBEDDED" #endif #if EVENTFD " EVENTFD" #endif #if SELFPIPE " SELFPIPE" #endif #if LOOPBACK " LOOPBACK" #endif #if WINEVENT " WINEVENT" #endif #if RESAMPLE_MP " RESAMPLE_MP" #else #if RESAMPLE " RESAMPLE" #endif #if RESAMPLE16 " RESAMPLE16" #endif #endif #if FFMPEG " FFMPEG" #endif #if NO_FAAD " NO_FAAD" #endif #if VISEXPORT " VISEXPORT" #endif #if IR " IR" #endif #if GPIO " GPIO" #endif #if RPI " RPI" #endif #if DSD " DSD" #endif #if USE_SSL " SSL" #endif #if NO_SSLSYM " NO_SSLSYM" #endif #if LINKALL " LINKALL" #endif "\n\n", argv0); } static void license(void) { printf(TITLE "\n\n" "This program is free software: you can redistribute it and/or modify\n" "it under the terms of the GNU General Public License as published by\n" "the Free Software Foundation, either version 3 of the License, or\n" "(at your option) any later version.\n\n" "This program is distributed in the hope that it will be useful,\n" "but WITHOUT ANY WARRANTY; without even the implied warranty of\n" "MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the\n" "GNU General Public License for more details.\n\n" "You should have received a copy of the GNU General Public License\n" "along with this program. If not, see .\n" #if DSD "\nContains dsd2pcm library Copyright 2009, 2011 Sebastian Gesemann which\n" "is subject to its own license.\n" "\nContains the Daphile Project full dsd patch Copyright 2013-2017 Daphile,\n" "which is subject to its own license.\n" #endif "\nOption to allow server side upsampling for PCM streams (-W) from\n" "squeezelite-R2 (c) Marco Curti 2015, marcoc1712@gmail.com.\n" #if GPIO "\nAdditions (c) Paul Hermann, 2015, 2017 under the same license terms\n" "- Launch a script on power status change\n" "- Control of Raspberry pi GPIO for amplifier power\n" #endif #if RPI "\nContains wiringpi GPIO Interface library Copyright (c) 2012-2017\n" "Gordon Henderson, which is subject to its own license.\n" #endif #if FFMPEG "\nThis software uses libraries from the FFmpeg project under\n" "the LGPLv2.1 and its source can be downloaded from\n" "\n" #endif "\n" ); } static void sighandler(int signum) { slimproto_stop(); // remove ourselves in case above does not work, second SIGINT will cause non gracefull shutdown signal(signum, SIG_DFL); } int main(int argc, char **argv) { char *server = NULL; char *output_device = "default"; char *include_codecs = NULL; char *exclude_codecs = ""; char *name = NULL; char *namefile = NULL; char *modelname = NULL; extern bool pcm_check_header; extern bool user_rates; char *logfile = NULL; u8_t mac[6]; unsigned stream_buf_size = STREAMBUF_SIZE; unsigned output_buf_size = 0; // set later unsigned rates[MAX_SUPPORTED_SAMPLERATES] = { 0 }; unsigned rate_delay = 0; char *resample = NULL; char *output_params = NULL; unsigned idle = 0; #if LINUX || FREEBSD || SUN bool daemonize = false; char *pidfile = NULL; FILE *pidfp = NULL; #endif #if ALSA unsigned rt_priority = OUTPUT_RT_PRIORITY; char *mixer_device = output_device; char *output_mixer = NULL; bool output_mixer_unmute = false; bool linear_volume = false; #endif #if DSD unsigned dsd_delay = 0; dsd_format dsd_outfmt = PCM; #endif #if VISEXPORT bool visexport = false; #endif #if IR char *lircrc = NULL; #endif log_level log_output = lWARN; log_level log_stream = lWARN; log_level log_decode = lWARN; log_level log_slimproto = lWARN; #if IR log_level log_ir = lWARN; #endif int maxSampleRate = 0; char *optarg = NULL; int optind = 1; int i; #define MAXCMDLINE 512 char cmdline[MAXCMDLINE] = ""; get_mac(mac); for (i = 0; i < argc && (strlen(argv[i]) + strlen(cmdline) + 2 < MAXCMDLINE); i++) { strcat(cmdline, argv[i]); strcat(cmdline, " "); } while (optind < argc && strlen(argv[optind]) >= 2 && argv[optind][0] == '-') { char *opt = argv[optind] + 1; if (strstr("oabcCdefmMnNpPrsZ" #if ALSA "UVO" #endif , opt) && optind < argc - 1) { optarg = argv[optind + 1]; optind += 2; } else if (strstr("ltz?W" #if ALSA "LX" #endif #if RESAMPLE || RESAMPLE16 "uR" #endif #if DSD "D" #endif #if VISEXPORT "v" #endif #if IR "i" #endif #if defined(GPIO) && defined(RPI) "G" #endif #if GPIO "S" #endif , opt)) { optarg = NULL; optind += 1; } else { fprintf(stderr, "\nOption error: -%s\n\n", opt); usage(argv[0]); exit(1); } switch (opt[0]) { case 'o': output_device = optarg; #if ALSA mixer_device = optarg; #endif break; case 'a': output_params = optarg; break; case 'b': { char *s = next_param(optarg, ':'); char *o = next_param(NULL, ':'); if (s) stream_buf_size = atoi(s) * 1024; if (o) output_buf_size = atoi(o) * 1024; } break; case 'c': include_codecs = optarg; break; case 'C': if (atoi(optarg) > 0) { idle = atoi(optarg) * 1000; } break; case 'e': exclude_codecs = optarg; break; case 'd': { char *l = strtok(optarg, "="); char *v = strtok(NULL, "="); log_level new = lWARN; if (l && v) { if (!strcmp(v, "info")) new = lINFO; if (!strcmp(v, "debug")) new = lDEBUG; if (!strcmp(v, "sdebug")) new = lSDEBUG; if (!strcmp(l, "all") || !strcmp(l, "slimproto")) log_slimproto = new; if (!strcmp(l, "all") || !strcmp(l, "stream")) log_stream = new; if (!strcmp(l, "all") || !strcmp(l, "decode")) log_decode = new; if (!strcmp(l, "all") || !strcmp(l, "output")) log_output = new; #if IR if (!strcmp(l, "all") || !strcmp(l, "ir")) log_ir = new; #endif } else { fprintf(stderr, "\nDebug settings error: -d %s\n\n", optarg); usage(argv[0]); exit(1); } } break; case 'f': logfile = optarg; break; case 'm': { int byte = 0; char *tmp; if (!strncmp(optarg, "00:04:20", 8)) { LOG_ERROR("ignoring mac address from hardware player range 00:04:20:**:**:**"); } else { char *t = strtok(optarg, ":"); while (t && byte < 6) { mac[byte++] = (u8_t)strtoul(t, &tmp, 16); t = strtok(NULL, ":"); } } } break; case 'M': modelname = optarg; break; case 'r': { char *rstr = next_param(optarg, ':'); char *dstr = next_param(NULL, ':'); if (rstr && strstr(rstr, ",")) { // parse sample rates and sort them char *r = next_param(rstr, ','); unsigned tmp[MAX_SUPPORTED_SAMPLERATES] = { 0 }; int i, j; int last = 999999; for (i = 0; r && i < MAX_SUPPORTED_SAMPLERATES; ++i) { tmp[i] = atoi(r); r = next_param(NULL, ','); } for (i = 0; i < MAX_SUPPORTED_SAMPLERATES; ++i) { int largest = 0; for (j = 0; j < MAX_SUPPORTED_SAMPLERATES; ++j) { if (tmp[j] > largest && tmp[j] < last) { largest = tmp[j]; } } rates[i] = last = largest; } } else if (rstr) { // optstr is - or , extract rates from test rates within this range unsigned ref[] TEST_RATES; char *str1 = next_param(rstr, '-'); char *str2 = next_param(NULL, '-'); unsigned max = str2 ? atoi(str2) : (str1 ? atoi(str1) : ref[0]); unsigned min = str1 && str2 ? atoi(str1) : 0; unsigned tmp; int i, j; if (max < min) { tmp = max; max = min; min = tmp; } rates[0] = max; for (i = 0, j = 1; i < MAX_SUPPORTED_SAMPLERATES; ++i) { if (ref[i] < rates[j-1] && ref[i] >= min) { rates[j++] = ref[i]; } } } if (dstr) { rate_delay = atoi(dstr); } if (rates[0]) { user_rates = true; } } break; case 's': server = optarg; break; case 'n': name = optarg; break; case 'N': namefile = optarg; break; case 'Z': maxSampleRate = atoi(optarg); break; case 'W': pcm_check_header = true; break; #if ALSA case 'p': rt_priority = atoi(optarg); if (rt_priority > 99 || rt_priority < 1) { fprintf(stderr, "\nError: invalid priority: %s\n\n", optarg); usage(argv[0]); exit(1); } break; #endif #if LINUX || FREEBSD || SUN case 'P': pidfile = optarg; break; #endif #if !EMBEDDED case 'l': list_devices(); exit(0); break; #endif #if RESAMPLE || RESAMPLE16 case 'u': case 'R': if (optind < argc && argv[optind] && argv[optind][0] != '-') { resample = argv[optind++]; } else { resample = ""; } break; #endif #if DSD case 'D': dsd_outfmt = DOP; if (optind < argc && argv[optind] && argv[optind][0] != '-') { char *dstr = next_param(argv[optind++], ':'); char *fstr = next_param(NULL, ':'); dsd_delay = dstr ? atoi(dstr) : 0; if (fstr) { if (!strcmp(fstr, "dop")) dsd_outfmt = DOP; if (!strcmp(fstr, "u8")) dsd_outfmt = DSD_U8; if (!strcmp(fstr, "u16le")) dsd_outfmt = DSD_U16_LE; if (!strcmp(fstr, "u32le")) dsd_outfmt = DSD_U32_LE; if (!strcmp(fstr, "u16be")) dsd_outfmt = DSD_U16_BE; if (!strcmp(fstr, "u32be")) dsd_outfmt = DSD_U32_BE; if (!strcmp(fstr, "dop24")) dsd_outfmt = DOP_S24_LE; if (!strcmp(fstr, "dop24_3")) dsd_outfmt = DOP_S24_3LE; } } break; #endif #if VISEXPORT case 'v': visexport = true; break; #endif #if ALSA case 'O': mixer_device = optarg; break; case 'L': list_mixers(mixer_device); exit(0); break; case 'X': linear_volume = true; break; case 'U': output_mixer_unmute = true; case 'V': if (output_mixer) { fprintf(stderr, "-U and -V option should not be used at same time\n"); exit(1); } output_mixer = optarg; break; #endif #if IR case 'i': if (optind < argc && argv[optind] && argv[optind][0] != '-') { lircrc = argv[optind++]; } else { lircrc = "~/.lircrc"; // liblirc_client will expand ~/ } break; #endif #if defined(GPIO) && defined(RPI) case 'G': if (power_script != NULL){ fprintf(stderr, "-G and -S options cannot be used together \n\n" ); usage(argv[0]); exit(1); } if (optind < argc && argv[optind] && argv[optind][0] != '-') { char *gp = next_param(argv[optind++], ':'); char *go = next_param (NULL, ':'); gpio_pin = atoi(gp); if (go != NULL){ if ((strcmp(go, "H")==0)|(strcmp(go, "h")==0)){ gpio_active_low=false; }else if((strcmp(go, "L")==0)|(strcmp(go, "l")==0)){ gpio_active_low=true; }else{ fprintf(stderr,"Must set output to be active High or Low i.e. -G18:H or -G18:L\n"); usage(argv[0]); exit(1); } }else{ fprintf(stderr,"-G Option Error\n"); usage(argv[0]); exit(1); } gpio_active = true; relay(0); } else { fprintf(stderr, "Error in GPIO Pin assignment.\n"); usage(argv[0]); exit(1); } break; #endif #if GPIO case 'S': if (gpio_active){ fprintf(stderr, "-G and -S options cannot be used together \n\n" ); usage(argv[0]); exit(1); } if (optind < argc && argv[optind] && argv[optind][0] != '-') { power_script = argv[optind++]; if( access( power_script, R_OK|X_OK ) == -1 ) { // file doesn't exist fprintf(stderr, "Script %s, not found\n\n", argv[optind-1]); usage(argv[0]); exit(1); } } else { fprintf(stderr, "No Script Name Given.\n\n"); usage(argv[0]); exit(1); } relay_script(0); break; #endif #if LINUX || FREEBSD || SUN case 'z': daemonize = true; #if SUN init_daemonize(); #endif /* SUN */ break; #endif case 't': license(); exit(0); case '?': usage(argv[0]); exit(0); break; default: fprintf(stderr, "Arg error: %s\n", argv[optind]); break; } } // warn if command line includes something which isn't parsed if (optind < argc) { fprintf(stderr, "\nError: command line argument error\n\n"); usage(argv[0]); exit(1); } signal(SIGINT, sighandler); signal(SIGTERM, sighandler); #if defined(SIGQUIT) signal(SIGQUIT, sighandler); #endif #if defined(SIGHUP) signal(SIGHUP, sighandler); #endif #if USE_SSL && !LINKALL && !NO_SSLSYM ssl_loaded = load_ssl_symbols(); #endif // set the output buffer size if not specified on the command line, take account of resampling if (!output_buf_size) { output_buf_size = OUTPUTBUF_SIZE; if (resample) { unsigned scale = 8; if (rates[0]) { scale = rates[0] / 44100; if (scale > 8) scale = 8; if (scale < 1) scale = 1; } output_buf_size *= scale; } } if (logfile) { if (!freopen(logfile, "a", stderr)) { fprintf(stderr, "error opening logfile %s: %s\n", logfile, strerror(errno)); } else { if (log_output >= lINFO || log_stream >= lINFO || log_decode >= lINFO || log_slimproto >= lINFO) { fprintf(stderr, "\n%s\n", cmdline); } } } #if LINUX || FREEBSD || SUN if (pidfile) { if (!(pidfp = fopen(pidfile, "w")) ) { fprintf(stderr, "Error opening pidfile %s: %s\n", pidfile, strerror(errno)); exit(1); } pidfile = realpath(pidfile, NULL); // daemonize will change cwd } if (daemonize) { if (daemon(0, logfile ? 1 : 0)) { fprintf(stderr, "error daemonizing: %s\n", strerror(errno)); } } if (pidfp) { fprintf(pidfp, "%d\n", (int) getpid()); fclose(pidfp); } #endif #if WIN winsock_init(); #endif stream_init(log_stream, stream_buf_size); #if EMBEDDED embedded_init(); output_init_embedded(log_output, output_device, output_buf_size, output_params, rates, rate_delay, idle); #else if (!strcmp(output_device, "-")) { output_init_stdout(log_output, output_buf_size, output_params, rates, rate_delay); } else { #if ALSA output_init_alsa(log_output, output_device, output_buf_size, output_params, rates, rate_delay, rt_priority, idle, mixer_device, output_mixer, output_mixer_unmute, linear_volume); #endif #if PORTAUDIO output_init_pa(log_output, output_device, output_buf_size, output_params, rates, rate_delay, idle); #endif } #endif #if DSD dsd_init(dsd_outfmt, dsd_delay); #endif #if VISEXPORT if (visexport) { output_vis_init(log_output, mac); } #endif decode_init(log_decode, include_codecs, exclude_codecs); #if RESAMPLE || RESAMPLE16 if (resample) { process_init(resample); } #endif #if IR if (lircrc) { ir_init(log_ir, lircrc); } #endif if (name && namefile) { fprintf(stderr, "-n and -N option should not be used at same time\n"); exit(1); } slimproto(log_slimproto, server, mac, name, namefile, modelname, maxSampleRate); decode_close(); stream_close(); #if EMBEDDED output_close_embedded(); #else if (!strcmp(output_device, "-")) { output_close_stdout(); } else { #if ALSA output_close_alsa(); #endif #if PORTAUDIO output_close_pa(); #endif } #endif #if IR ir_close(); #endif #if WIN winsock_close(); #endif #if LINUX || FREEBSD || SUN if (pidfile) { unlink(pidfile); free(pidfile); } #endif #if USE_SSL && !LINKALL && !NO_SSLSYM free_ssl_symbols(); #endif exit(0); }