/* the Music Player Daemon (MPD) * Copyright (C) 2003-2007 by Warren Dukes (warren.dukes@gmail.com) * This project's homepage is: http://www.musicpd.org * * 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "audio.h" #include "audio_format.h" #include "output_api.h" #include "output_control.h" #include "log.h" #include "path.h" #include "client.h" #include "utils.h" #include "os_compat.h" #define AUDIO_DEVICE_STATE "audio_device_state:" #define AUDIO_DEVICE_STATE_LEN (sizeof(AUDIO_DEVICE_STATE)-1) #define AUDIO_BUFFER_SIZE 2*MPD_PATH_MAX static struct audio_format audio_configFormat; static struct audio_output *audioOutputArray; static unsigned int audioOutputArraySize; enum ad_state { DEVICE_OFF = 0x00, DEVICE_ENABLE = 0x01, /* currently off, but to be turned on */ DEVICE_ON = 0x03, DEVICE_DISABLE = 0x04 /* currently on, but to be turned off */ }; /* the audioEnabledArray should be stuck into shared memory, and then disable and enable in playAudio() routine */ static enum ad_state *audioDeviceStates; static mpd_uint8 audioOpened; static struct { struct audio_format format; size_t size, position; char *buffer; } audio_buffer; static unsigned int audio_output_count(void) { unsigned int nr = 0; ConfigParam *param = NULL; while ((param = getNextConfigParam(CONF_AUDIO_OUTPUT, param))) nr++; if (!nr) nr = 1; /* we'll always have at least one device */ return nr; } /* make sure initPlayerData is called before this function!! */ void initAudioDriver(void) { ConfigParam *param = NULL; unsigned int i; audioOutputArraySize = audio_output_count(); audioDeviceStates = xmalloc(sizeof(enum ad_state) * audioOutputArraySize); audioOutputArray = xmalloc(sizeof(struct audio_output) * audioOutputArraySize); for (i = 0; i < audioOutputArraySize; i++) { struct audio_output *output = &audioOutputArray[i]; unsigned int j; param = getNextConfigParam(CONF_AUDIO_OUTPUT, param); /* only allow param to be NULL if there just one audioOutput */ assert(param || (audioOutputArraySize == 1)); if (!audio_output_init(output, param)) { if (param) { FATAL("problems configuring output device " "defined at line %i\n", param->line); } else { FATAL("No audio_output specified and unable to " "detect a default audio output device\n"); } } /* require output names to be unique: */ for (j = 0; j < i; j++) { if (!strcmp(output->name, audioOutputArray[j].name)) { FATAL("output devices with identical " "names: %s\n", output->name); } } audioDeviceStates[i] = DEVICE_ENABLE; } } void getOutputAudioFormat(const struct audio_format *inAudioFormat, struct audio_format *outAudioFormat) { *outAudioFormat = audio_format_defined(&audio_configFormat) ? audio_configFormat : *inAudioFormat; } void initAudioConfig(void) { ConfigParam *param = getConfigParam(CONF_AUDIO_OUTPUT_FORMAT); if (NULL == param || NULL == param->value) return; if (0 != parseAudioConfig(&audio_configFormat, param->value)) { FATAL("error parsing \"%s\" at line %i\n", CONF_AUDIO_OUTPUT_FORMAT, param->line); } } int parseAudioConfig(struct audio_format *audioFormat, char *conf) { char *test; memset(audioFormat, 0, sizeof(*audioFormat)); audioFormat->sampleRate = strtol(conf, &test, 10); if (*test != ':') { ERROR("error parsing audio output format: %s\n", conf); return -1; } /*switch(audioFormat->sampleRate) { case 48000: case 44100: case 32000: case 16000: break; default: ERROR("sample rate %i can not be used for audio output\n", (int)audioFormat->sampleRate); return -1 } */ if (audioFormat->sampleRate <= 0) { ERROR("sample rate %i is not >= 0\n", (int)audioFormat->sampleRate); return -1; } audioFormat->bits = (mpd_sint8)strtol(test + 1, &test, 10); if (*test != ':') { ERROR("error parsing audio output format: %s\n", conf); return -1; } switch (audioFormat->bits) { case 16: break; default: ERROR("bits %i can not be used for audio output\n", (int)audioFormat->bits); return -1; } audioFormat->channels = (mpd_sint8)strtol(test + 1, &test, 10); if (*test != '\0') { ERROR("error parsing audio output format: %s\n", conf); return -1; } switch (audioFormat->channels) { case 1: case 2: break; default: ERROR("channels %i can not be used for audio output\n", (int)audioFormat->channels); return -1; } return 0; } void finishAudioConfig(void) { audio_format_clear(&audio_configFormat); } void finishAudioDriver(void) { unsigned int i; for (i = 0; i < audioOutputArraySize; i++) { audio_output_finish(&audioOutputArray[i]); } free(audioOutputArray); audioOutputArray = NULL; audioOutputArraySize = 0; } int isCurrentAudioFormat(const struct audio_format *audioFormat) { assert(audioFormat != NULL); return audio_format_equals(audioFormat, &audio_buffer.format); } static void syncAudioDeviceStates(void) { struct audio_output *audioOutput; unsigned int i; if (!audio_format_defined(&audio_buffer.format)) return; for (i = 0; i < audioOutputArraySize; ++i) { audioOutput = &audioOutputArray[i]; switch (audioDeviceStates[i]) { case DEVICE_OFF: break; case DEVICE_ON: /* This will reopen only if the audio format changed */ if (audio_output_open(audioOutput, &audio_buffer.format) < 0) audioDeviceStates[i] = DEVICE_ENABLE; break; case DEVICE_ENABLE: if (audio_output_open(audioOutput, &audio_buffer.format) == 0) audioDeviceStates[i] = DEVICE_ON; break; case DEVICE_DISABLE: audio_output_cancel(audioOutput); audio_output_close(audioOutput); audioDeviceStates[i] = DEVICE_OFF; } } } static int flushAudioBuffer(void) { int ret = -1, err; unsigned int i; if (audio_buffer.position == 0) return 0; syncAudioDeviceStates(); for (i = 0; i < audioOutputArraySize; ++i) { if (audioDeviceStates[i] != DEVICE_ON) continue; err = audio_output_play(&audioOutputArray[i], audio_buffer.buffer, audio_buffer.position); if (!err) ret = 0; else if (err < 0) /* device should already be closed if the play * func returned an error */ audioDeviceStates[i] = DEVICE_ENABLE; } audio_buffer.position = 0; return ret; } static size_t audio_buffer_size(const struct audio_format *af) { return (af->bits >> 3) * af->channels * (af->sampleRate >> 5); } static void audio_buffer_resize(size_t size) { if (audio_buffer.size == size) return; if (audio_buffer.buffer != NULL) free(audio_buffer.buffer); if (size > 0) audio_buffer.buffer = xmalloc(size); else audio_buffer.buffer = NULL; audio_buffer.size = size; } int openAudioDevice(const struct audio_format *audioFormat) { int ret = -1; unsigned int i; if (!audioOutputArray) return -1; if (!audioOpened || (audioFormat != NULL && !isCurrentAudioFormat(audioFormat))) { flushAudioBuffer(); if (audioFormat != NULL) audio_buffer.format = *audioFormat; audio_buffer_resize(audio_buffer_size(&audio_buffer.format)); } syncAudioDeviceStates(); for (i = 0; i < audioOutputArraySize; ++i) { if (audioOutputArray[i].open) ret = 0; } if (ret == 0) audioOpened = 1; else { /* close all devices if there was an error */ for (i = 0; i < audioOutputArraySize; ++i) { audio_output_close(&audioOutputArray[i]); } audioOpened = 0; } return ret; } int playAudio(const char *playChunk, size_t size) { size_t send_size; while (size > 0) { send_size = audio_buffer.size - audio_buffer.position; send_size = send_size < size ? send_size : size; memcpy(audio_buffer.buffer + audio_buffer.position, playChunk, send_size); audio_buffer.position += send_size; size -= send_size; playChunk += send_size; if (audio_buffer.position == audio_buffer.size) { if (flushAudioBuffer() < 0) return -1; } } return 0; } void dropBufferedAudio(void) { unsigned int i; syncAudioDeviceStates(); audio_buffer.position = 0; for (i = 0; i < audioOutputArraySize; ++i) { if (audioDeviceStates[i] == DEVICE_ON) audio_output_cancel(&audioOutputArray[i]); } } void closeAudioDevice(void) { unsigned int i; if (audio_buffer.buffer != NULL) { flushAudioBuffer(); free(audio_buffer.buffer); audio_buffer.buffer = NULL; audio_buffer.size = 0; } for (i = 0; i < audioOutputArraySize; ++i) { if (audioDeviceStates[i] == DEVICE_ON) audioDeviceStates[i] = DEVICE_ENABLE; audio_output_close(&audioOutputArray[i]); } audioOpened = 0; } void sendMetadataToAudioDevice(const struct tag *tag) { unsigned int i; for (i = 0; i < audioOutputArraySize; ++i) { audio_output_send_tag(&audioOutputArray[i], tag); } } int enableAudioDevice(unsigned int device) { if (device >= audioOutputArraySize) return -1; if (!(audioDeviceStates[device] & 0x01)) audioDeviceStates[device] = DEVICE_ENABLE; return 0; } int disableAudioDevice(unsigned int device) { if (device >= audioOutputArraySize) return -1; if (audioDeviceStates[device] & 0x01) audioDeviceStates[device] = DEVICE_DISABLE; return 0; } void printAudioDevices(struct client *client) { unsigned int i; for (i = 0; i < audioOutputArraySize; i++) { client_printf(client, "outputid: %i\n" "outputname: %s\n" "outputenabled: %i\n", i, audioOutputArray[i].name, audioDeviceStates[i] & 0x01); } } void saveAudioDevicesState(FILE *fp) { unsigned int i; assert(audioOutputArraySize != 0); for (i = 0; i < audioOutputArraySize; i++) { fprintf(fp, AUDIO_DEVICE_STATE "%d:%s\n", audioDeviceStates[i] & 0x01, audioOutputArray[i].name); } } void readAudioDevicesState(FILE *fp) { char buffer[AUDIO_BUFFER_SIZE]; unsigned int i; assert(audioOutputArraySize != 0); while (myFgets(buffer, AUDIO_BUFFER_SIZE, fp)) { char *c, *name; if (strncmp(buffer, AUDIO_DEVICE_STATE, AUDIO_DEVICE_STATE_LEN)) continue; c = strchr(buffer, ':'); if (!c || !(++c)) goto errline; name = strchr(c, ':'); if (!name || !(++name)) goto errline; for (i = 0; i < audioOutputArraySize; ++i) { if (!strcmp(name, audioOutputArray[i].name)) { /* devices default to on */ if (!atoi(c)) audioDeviceStates[i] = DEVICE_DISABLE; break; } } continue; errline: /* nonfatal */ ERROR("invalid line in state_file: %s\n", buffer); } }