/* * Copyright (C) 2010-2011 Julien BLACHE * * 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 */ #ifdef HAVE_CONFIG_H # include #endif #include #include #include #include #include #include #include #include #include #include #if defined(__linux__) # include #elif defined(__FreeBSD__) || defined(__FreeBSD_kernel__) # include #endif #ifdef HAVE_LIBEVENT2 # include # include #else # include # define evbuffer_get_length(x) (x)->off #endif #include #include "db.h" #include "logger.h" #include "mdns.h" #include "conffile.h" #include "misc.h" #include "player.h" #include "raop.h" #include "laudio.h" #include "worker.h" #include "listener.h" #ifdef LASTFM # include "lastfm.h" #endif /* These handle getting the media data */ #include "transcode.h" #include "pipe.h" #include "http.h" #ifdef HAVE_SPOTIFY_H # include "spotify.h" #endif #ifndef MIN # define MIN(a, b) ((a < b) ? a : b) #endif #ifndef MAX #define MAX(a, b) ((a > b) ? a : b) #endif // Default volume (must be from 0 - 100) #define PLAYER_DEFAULT_VOLUME 50 struct player_source { /* Id of the file/item in the files database */ uint32_t id; /* Item-Id of the file/item in the queue */ uint32_t queueitem_id; /* Length of the file/item in milliseconds */ uint32_t len_ms; enum data_kind data_kind; enum media_kind media_kind; /* Start time of the media item as rtp-time The stream-start is the rtp-time the media item did or would have started playing (after seek or pause), therefor the elapsed time of the media item is always: elapsed time = current rtptime - stream-start */ uint64_t stream_start; /* Output start time of the media item as rtp-time The output start time is the rtp-time of the first audio packet send to the audio outputs. It differs from stream-start especially after a seek, where the first audio packet has the next rtp-time as output start and stream start becomes the rtp-time the media item would have been started playing if the seek did not happen. */ uint64_t output_start; /* End time of media item as rtp-time The end time is set if the reading (source_read) of the media item reached end of file, until then it is 0. */ uint64_t end; struct transcode_ctx *ctx; int setup_done; struct player_source *play_next; }; enum player_sync_source { PLAYER_SYNC_CLOCK, PLAYER_SYNC_LAUDIO, }; struct volume_param { int volume; uint64_t spk_id; }; struct player_command; typedef int (*cmd_func)(struct player_command *cmd); struct spk_enum { spk_enum_cb cb; void *arg; }; struct playback_start_param { uint32_t id; int pos; uint32_t *id_ptr; }; struct playerqueue_get_param { int pos; int count; struct queue *queue; }; struct playerqueue_add_param { struct queue_item *items; int pos; }; struct icy_artwork { uint32_t id; char *artwork_url; }; struct player_metadata { int id; uint64_t rtptime; uint64_t offset; int startup; struct raop_metadata *rmd; }; struct player_command { pthread_mutex_t lck; pthread_cond_t cond; cmd_func func; cmd_func func_bh; int nonblock; union { struct volume_param vol_param; void *noarg; struct spk_enum *spk_enum; struct raop_device *rd; struct player_status *status; struct player_source *ps; struct player_metadata *pmd; uint32_t *id_ptr; uint64_t *raop_ids; enum repeat_mode mode; uint32_t id; int intval; int ps_pos[2]; struct icy_artwork icy; struct playback_start_param playback_start_param; struct playerqueue_get_param queue_get_param; struct playerqueue_add_param queue_add_param; } arg; int ret; int raop_pending; }; /* Keep in sync with enum raop_devtype */ static const char *raop_devtype[] = { "AirPort Express 1 - 802.11g", "AirPort Express 2 - 802.11n", "AirPort Express 3 - 802.11n", "AppleTV", "Other", }; struct event_base *evbase_player; static int exit_pipe[2]; static int cmd_pipe[2]; static int player_exit; static struct event *exitev; static struct event *cmdev; static pthread_t tid_player; /* Player status */ static enum play_status player_state; static enum repeat_mode repeat; static char shuffle; /* Playback timer */ #if defined(__linux__) static int pb_timer_fd; #else timer_t pb_timer; #endif static struct event *pb_timer_ev; static struct timespec pb_timer_last; static struct timespec packet_timer_last; static uint64_t MINIMUM_STREAM_PERIOD; static struct timespec packet_time = { 0, AIRTUNES_V2_STREAM_PERIOD }; static struct timespec timer_res; /* Sync source */ static enum player_sync_source pb_sync_source; /* Sync values */ static struct timespec pb_pos_stamp; static uint64_t pb_pos; /* Stream position (packets) */ static uint64_t last_rtptime; /* AirPlay devices */ static int dev_autoselect; //TODO [player] Is this still necessary? static struct raop_device *dev_list; /* Device status */ static enum laudio_state laudio_status; static int laudio_selected; static int laudio_volume; static int laudio_relvol; static int raop_sessions; /* Commands */ static struct player_command *cur_cmd; /* Last commanded volume */ static int master_volume; /* Audio source */ static struct player_source *cur_playing; static struct player_source *cur_streaming; static uint32_t cur_plid; static uint32_t cur_plversion; static struct evbuffer *audio_buf; /* Play queue */ static struct queue *queue; /* Play history */ static struct player_history *history; /* Command helpers */ static void command_async_end(struct player_command *cmd) { cur_cmd = NULL; pthread_cond_signal(&cmd->cond); pthread_mutex_unlock(&cmd->lck); /* Process commands again */ event_add(cmdev, NULL); } static void command_init(struct player_command *cmd) { memset(cmd, 0, sizeof(struct player_command)); pthread_mutex_init(&cmd->lck, NULL); pthread_cond_init(&cmd->cond, NULL); } static void command_deinit(struct player_command *cmd) { pthread_cond_destroy(&cmd->cond); pthread_mutex_destroy(&cmd->lck); } static void status_update(enum play_status status) { player_state = status; listener_notify(LISTENER_PLAYER); if (status == PLAY_PLAYING) dev_autoselect = 0; } /* Volume helpers */ static int rel_to_vol(int relvol) { float vol; if (relvol == 100) return master_volume; vol = ((float)relvol * (float)master_volume) / 100.0; return (int)vol; } static int vol_to_rel(int volume) { float rel; if (volume == master_volume) return 100; rel = ((float)volume / (float)master_volume) * 100.0; return (int)rel; } /* Master volume helpers */ static void volume_master_update(int newvol) { struct raop_device *rd; master_volume = newvol; if (laudio_selected) laudio_relvol = vol_to_rel(laudio_volume); for (rd = dev_list; rd; rd = rd->next) { if (rd->selected) rd->relvol = vol_to_rel(rd->volume); } } static void volume_master_find(void) { struct raop_device *rd; int newmaster; newmaster = -1; if (laudio_selected) newmaster = laudio_volume; for (rd = dev_list; rd; rd = rd->next) { if (rd->selected && (rd->volume > newmaster)) newmaster = rd->volume; } volume_master_update(newmaster); } /* Device select/deselect hooks */ static void speaker_select_laudio(void) { laudio_selected = 1; if (laudio_volume > master_volume) { if (player_state == PLAY_STOPPED || master_volume == -1) volume_master_update(laudio_volume); else laudio_volume = master_volume; } laudio_relvol = vol_to_rel(laudio_volume); } static void speaker_select_raop(struct raop_device *rd) { rd->selected = 1; if (rd->volume > master_volume) { if (player_state == PLAY_STOPPED || master_volume == -1) volume_master_update(rd->volume); else rd->volume = master_volume; } rd->relvol = vol_to_rel(rd->volume); } static void speaker_deselect_laudio(void) { laudio_selected = 0; if (laudio_volume == master_volume) volume_master_find(); } static void speaker_deselect_raop(struct raop_device *rd) { rd->selected = 0; if (rd->volume == master_volume) volume_master_find(); } static int player_get_current_pos_clock(uint64_t *pos, struct timespec *ts, int commit) { uint64_t delta; int ret; ret = clock_gettime_with_res(CLOCK_MONOTONIC, ts, &timer_res); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Couldn't get clock: %s\n", strerror(errno)); return -1; } delta = (ts->tv_sec - pb_pos_stamp.tv_sec) * 1000000 + (ts->tv_nsec - pb_pos_stamp.tv_nsec) / 1000; #ifdef DEBUG_SYNC DPRINTF(E_DBG, L_PLAYER, "Delta is %" PRIu64 " usec\n", delta); #endif delta = (delta * 44100) / 1000000; #ifdef DEBUG_SYNC DPRINTF(E_DBG, L_PLAYER, "Delta is %" PRIu64 " samples\n", delta); #endif *pos = pb_pos + delta; if (commit) { pb_pos = *pos; pb_pos_stamp.tv_sec = ts->tv_sec; pb_pos_stamp.tv_nsec = ts->tv_nsec; #ifdef DEBUG_SYNC DPRINTF(E_DBG, L_PLAYER, "Pos: %" PRIu64 " (clock)\n", *pos); #endif } return 0; } static int player_get_current_pos_laudio(uint64_t *pos, struct timespec *ts, int commit) { int ret; *pos = laudio_get_pos(); ret = clock_gettime_with_res(CLOCK_MONOTONIC, ts, &timer_res); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Couldn't get clock: %s\n", strerror(errno)); return -1; } if (commit) { pb_pos = *pos; pb_pos_stamp.tv_sec = ts->tv_sec; pb_pos_stamp.tv_nsec = ts->tv_nsec; #ifdef DEBUG_SYNC DPRINTF(E_DBG, L_PLAYER, "Pos: %" PRIu64 " (laudio)\n", *pos); #endif } return 0; } int player_get_current_pos(uint64_t *pos, struct timespec *ts, int commit) { switch (pb_sync_source) { case PLAYER_SYNC_CLOCK: return player_get_current_pos_clock(pos, ts, commit); case PLAYER_SYNC_LAUDIO: return player_get_current_pos_laudio(pos, ts, commit); } return -1; } static int pb_timer_start(struct timespec *ts) { struct itimerspec next; int ret; next.it_interval.tv_sec = 0; next.it_interval.tv_nsec = 0; next.it_value.tv_sec = ts->tv_sec; next.it_value.tv_nsec = ts->tv_nsec; #if defined(__linux__) ret = timerfd_settime(pb_timer_fd, TFD_TIMER_ABSTIME, &next, NULL); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Could not arm playback timer: %s\n", strerror(errno)); return -1; } ret = event_add(pb_timer_ev, NULL); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Could not add playback timer event\n"); return -1; } #else ret = timer_settime(pb_timer, TIMER_ABSTIME, &next, NULL); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Could not arm playback timer: %s\n", strerror(errno)); return -1; } #endif return 0; } static int pb_timer_stop(void) { struct itimerspec next; int ret; memset(&next, 0, sizeof(struct itimerspec)); #if defined(__linux__) ret = timerfd_settime(pb_timer_fd, TFD_TIMER_ABSTIME, &next, NULL); event_del(pb_timer_ev); #else ret = timer_settime(pb_timer, TIMER_ABSTIME, &next, NULL); #endif if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Could not disarm playback timer: %s\n", strerror(errno)); return -1; } return 0; } /* Forward */ static void playback_abort(void); static int playerqueue_clear(struct player_command *cmd); static void player_metadata_send(struct player_metadata *pmd); static void player_laudio_status_cb(enum laudio_state status) { struct timespec ts; uint64_t pos; switch (status) { /* Switch sync to clock sync */ case LAUDIO_STOPPING: DPRINTF(E_DBG, L_PLAYER, "Local audio stopping\n"); laudio_status = status; /* Synchronize pb_pos and pb_pos_stamp before laudio stops entirely */ player_get_current_pos_laudio(&pos, &ts, 1); pb_sync_source = PLAYER_SYNC_CLOCK; break; /* Switch sync to laudio sync */ case LAUDIO_RUNNING: DPRINTF(E_DBG, L_PLAYER, "Local audio running\n"); laudio_status = status; pb_sync_source = PLAYER_SYNC_LAUDIO; break; case LAUDIO_FAILED: DPRINTF(E_DBG, L_PLAYER, "Local audio failed\n"); pb_sync_source = PLAYER_SYNC_CLOCK; laudio_close(); if (raop_sessions == 0) playback_abort(); speaker_deselect_laudio(); break; default: laudio_status = status; break; } } /* Callback from the worker thread (async operation as it may block) */ static void playcount_inc_cb(void *arg) { int *id = arg; db_file_inc_playcount(*id); } #ifdef LASTFM /* Callback from the worker thread (async operation as it may block) */ static void scrobble_cb(void *arg) { int *id = arg; lastfm_scrobble(*id); } #endif /* Callback from the worker thread * This prepares metadata in the worker thread, since especially the artwork * retrieval may take some time. raop_metadata_prepare() is thread safe. The * sending, however, must be done in the player thread. */ static void metadata_prepare_cb(void *arg) { struct player_metadata *pmd = arg; pmd->rmd = raop_metadata_prepare(pmd->id); if (pmd->rmd) player_metadata_send(pmd); } /* Callback from the worker thread (async operation as it may block) */ static void update_icy_cb(void *arg) { struct http_icy_metadata *metadata = arg; db_file_update_icy(metadata->id, metadata->artist, metadata->title); http_icy_metadata_free(metadata, 1); } /* Metadata */ static void metadata_prune(uint64_t pos) { raop_metadata_prune(pos); } static void metadata_purge(void) { raop_metadata_purge(); } static void metadata_trigger(int startup) { struct player_metadata pmd; memset(&pmd, 0, sizeof(struct player_metadata)); pmd.id = cur_streaming->id; pmd.startup = startup; if (cur_streaming->stream_start && cur_streaming->output_start) { pmd.offset = cur_streaming->output_start - cur_streaming->stream_start; pmd.rtptime = cur_streaming->stream_start; } else { DPRINTF(E_LOG, L_PLAYER, "PTOH! Unhandled song boundary case in metadata_trigger()\n"); } /* Defer the actual work of preparing the metadata to the worker thread */ worker_execute(metadata_prepare_cb, &pmd, sizeof(struct player_metadata), 0); } /* Checks if there is new HTTP ICY metadata, and if so sends updates to clients */ void metadata_check_icy(void) { struct http_icy_metadata *metadata; int changed; transcode_metadata(cur_streaming->ctx, &metadata, &changed); if (!metadata) return; if (!changed || !metadata->title) goto no_update; if (metadata->title[0] == '\0') goto no_update; metadata->id = cur_streaming->id; /* Defer the database update to the worker thread */ worker_execute(update_icy_cb, metadata, sizeof(struct http_icy_metadata), 0); /* Triggers preparing and sending RAOP metadata */ metadata_trigger(0); /* Only free the struct, the content must be preserved for update_icy_cb */ free(metadata); status_update(player_state); return; no_update: http_icy_metadata_free(metadata, 0); } struct player_history * player_history_get(void) { return history; } /* * Add the song with the given id to the list of previously played songs */ static void history_add(uint32_t id) { unsigned int cur_index; unsigned int next_index; /* Check if the current song is already the last in the history to avoid duplicates */ cur_index = (history->start_index + history->count - 1) % MAX_HISTORY_COUNT; if (id == history->id[cur_index]) { DPRINTF(E_DBG, L_PLAYER, "Current playing/streaming song already in history\n"); return; } /* Calculate the next index and update the start-index and count for the id-buffer */ next_index = (history->start_index + history->count) % MAX_HISTORY_COUNT; if (next_index == history->start_index && history->count > 0) history->start_index = (history->start_index + 1) % MAX_HISTORY_COUNT; history->id[next_index] = id; if (history->count < MAX_HISTORY_COUNT) history->count++; } /* Audio sources */ /* * Initializes the given player source for playback */ static int stream_setup(struct player_source *ps, struct media_file_info *mfi) { char *url; int ret; if (!ps || !mfi) { DPRINTF(E_LOG, L_PLAYER, "No player source and/or media info given to stream_setup\n"); return -1; } if (ps->setup_done) { DPRINTF(E_LOG, L_PLAYER, "Given player source already setup (id = %d)\n", ps->id); return -1; } // Setup depending on data kind switch (ps->data_kind) { case DATA_KIND_FILE: ret = transcode_setup(&ps->ctx, mfi, NULL, 0); break; case DATA_KIND_HTTP: ret = http_stream_setup(&url, mfi->path); if (ret < 0) break; free(mfi->path); mfi->path = url; ret = transcode_setup(&ps->ctx, mfi, NULL, 0); break; case DATA_KIND_SPOTIFY: #ifdef HAVE_SPOTIFY_H ret = spotify_playback_setup(mfi); #else DPRINTF(E_LOG, L_PLAYER, "Player source has data kind 'spotify' (%d), but forked-daapd is compiled without spotify support - cannot setup source '%s' (%s)\n", ps->data_kind, mfi->title, mfi->path); ret = -1; #endif break; case DATA_KIND_PIPE: ret = pipe_setup(mfi); break; default: DPRINTF(E_LOG, L_PLAYER, "Unknown data kind (%d) for player source - cannot setup source '%s' (%s)\n", ps->data_kind, mfi->title, mfi->path); ret = -1; } if (ret == 0) ps->setup_done = 1; else DPRINTF(E_LOG, L_PLAYER, "Failed to setup player source (id = %d)\n", ps->id); return ret; } /* * Starts or resumes plaback for the given player source */ static int stream_play(struct player_source *ps) { int ret; if (!ps) { DPRINTF(E_LOG, L_PLAYER, "Stream play called with no active streaming player source\n"); return -1; } if (!ps->setup_done) { DPRINTF(E_LOG, L_PLAYER, "Given player source not setup, play not possible\n"); return -1; } // Start/resume playback depending on data kind switch (ps->data_kind) { case DATA_KIND_HTTP: case DATA_KIND_FILE: ret = 0; break; #ifdef HAVE_SPOTIFY_H case DATA_KIND_SPOTIFY: ret = spotify_playback_play(); break; #endif case DATA_KIND_PIPE: ret = 0; break; default: ret = -1; } return ret; } /* * Read up to "len" data from the given player source and returns * the actual amount of data read. */ static int stream_read(struct player_source *ps, int len) { int icy_timer; int ret; if (!ps) { DPRINTF(E_LOG, L_PLAYER, "Stream read called with no active streaming player source\n"); return -1; } if (!ps->setup_done) { DPRINTF(E_LOG, L_PLAYER, "Given player source not setup for reading data\n"); return -1; } // Read up to len data depending on data kind switch (ps->data_kind) { case DATA_KIND_HTTP: ret = transcode(ps->ctx, audio_buf, len, &icy_timer); if (icy_timer) metadata_check_icy(); break; case DATA_KIND_FILE: ret = transcode(ps->ctx, audio_buf, len, &icy_timer); break; #ifdef HAVE_SPOTIFY_H case DATA_KIND_SPOTIFY: ret = spotify_audio_get(audio_buf, len); break; #endif case DATA_KIND_PIPE: ret = pipe_audio_get(audio_buf, len); break; default: ret = -1; } return ret; } /* * Pauses playback of the given player source */ static int stream_pause(struct player_source *ps) { int ret; if (!ps) { DPRINTF(E_LOG, L_PLAYER, "Stream pause called with no active streaming player source\n"); return -1; } if (!ps->setup_done) { DPRINTF(E_LOG, L_PLAYER, "Given player source not setup, pause not possible\n"); return -1; } // Pause playback depending on data kind switch (ps->data_kind) { case DATA_KIND_HTTP: case DATA_KIND_FILE: ret = 0; break; #ifdef HAVE_SPOTIFY_H case DATA_KIND_SPOTIFY: ret = spotify_playback_pause(); break; #endif case DATA_KIND_PIPE: ret = 0; break; default: ret = -1; } return ret; } /* * Seeks to the given position in milliseconds of the given player source */ static int stream_seek(struct player_source *ps, int seek_ms) { int ret; if (!ps) { DPRINTF(E_LOG, L_PLAYER, "Stream seek called with no active streaming player source\n"); return -1; } if (!ps->setup_done) { DPRINTF(E_LOG, L_PLAYER, "Given player source not setup, seek not possible\n"); return -1; } // Seek depending on data kind switch (ps->data_kind) { case DATA_KIND_HTTP: ret = 0; break; case DATA_KIND_FILE: ret = transcode_seek(ps->ctx, seek_ms); break; #ifdef HAVE_SPOTIFY_H case DATA_KIND_SPOTIFY: ret = spotify_playback_seek(seek_ms); break; #endif case DATA_KIND_PIPE: ret = 0; break; default: ret = -1; } return ret; } /* * Stops playback and cleanup for the given player source */ static int stream_stop(struct player_source *ps) { if (!ps) { DPRINTF(E_LOG, L_PLAYER, "Stream cleanup called with no active streaming player source\n"); return -1; } if (!ps->setup_done) { DPRINTF(E_LOG, L_PLAYER, "Given player source not setup, cleanup not possible\n"); return -1; } switch (ps->data_kind) { case DATA_KIND_FILE: case DATA_KIND_HTTP: if (ps->ctx) { transcode_cleanup(ps->ctx); ps->ctx = NULL; } break; case DATA_KIND_SPOTIFY: #ifdef HAVE_SPOTIFY_H spotify_playback_stop(); #endif break; case DATA_KIND_PIPE: pipe_cleanup(); break; } ps->setup_done = 0; return 0; } static struct player_source * source_now_playing() { if (cur_playing) return cur_playing; return cur_streaming; } /* * Creates a new player source for the given queue item */ static struct player_source * source_new(struct queue_item *item) { struct player_source *ps; ps = (struct player_source *)calloc(1, sizeof(struct player_source)); ps->id = queueitem_id(item); ps->queueitem_id = queueitem_item_id(item); ps->data_kind = queueitem_data_kind(item); ps->media_kind = queueitem_media_kind(item); ps->len_ms = queueitem_len(item); ps->play_next = NULL; return ps; } /* * Stops playback for the current streaming source and frees all * player sources (starting from the playing source). Sets current streaming * and playing sources to NULL. */ static void source_stop() { struct player_source *ps_playing; struct player_source *ps_temp; if (cur_streaming) stream_stop(cur_streaming); ps_playing = source_now_playing(); while (ps_playing) { ps_temp = ps_playing; ps_playing = ps_playing->play_next; ps_temp->play_next = NULL; free(ps_temp); } cur_playing = NULL; cur_streaming = NULL; } /* * Pauses playback * * Resets the streaming source to the playing source and adjusts stream-start * and output-start values to the playing time. Sets the current streaming * source to NULL. */ static int source_pause(uint64_t pos) { struct player_source *ps_playing; struct player_source *ps_playnext; struct player_source *ps_temp; struct media_file_info *mfi; uint64_t seek_frames; int seek_ms; int ret; ps_playing = source_now_playing(); if (cur_streaming) { if (ps_playing != cur_streaming) { DPRINTF(E_DBG, L_PLAYER, "Pause called on playing source (id=%d) and streaming source already " "switched to the next item (id=%d)\n", ps_playing->id, cur_streaming->id); ret = stream_stop(cur_streaming); if (ret < 0) return -1; } else { ret = stream_pause(cur_streaming); if (ret < 0) return -1; } } ps_playnext = ps_playing->play_next; while (ps_playnext) { ps_temp = ps_playnext; ps_playnext = ps_playnext->play_next; ps_temp->play_next = NULL; free(ps_temp); } ps_playing->play_next = NULL; cur_playing = NULL; cur_streaming = ps_playing; if (!cur_streaming->setup_done) { mfi = db_file_fetch_byid(cur_streaming->id); if (!mfi) { DPRINTF(E_LOG, L_PLAYER, "Couldn't fetch file id %d\n", cur_streaming->id); return -1; } if (mfi->disabled) { DPRINTF(E_DBG, L_PLAYER, "File id %d is disabled, skipping\n", cur_streaming->id); free_mfi(mfi, 0); return -1; } DPRINTF(E_INFO, L_PLAYER, "Opening '%s' (%s)\n", mfi->title, mfi->path); ret = stream_setup(cur_streaming, mfi); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Failed to open '%s' (%s)\n", mfi->title, mfi->path); free_mfi(mfi, 0); return -1; } free_mfi(mfi, 0); } /* Seek back to the pause position */ seek_frames = (pos - cur_streaming->stream_start); seek_ms = (int)((seek_frames * 1000) / 44100); ret = stream_seek(cur_streaming, seek_ms); /* Adjust start_pos to take into account the pause and seek back */ cur_streaming->stream_start = last_rtptime + AIRTUNES_V2_PACKET_SAMPLES - ((uint64_t)ret * 44100) / 1000; cur_streaming->output_start = last_rtptime + AIRTUNES_V2_PACKET_SAMPLES; cur_streaming->end = 0; return 0; } /* * Seeks the current streaming source to the given postion in milliseconds * and adjusts stream-start and output-start values. * * @param seek_ms Position in milliseconds to seek * @return The new position in milliseconds or -1 on error */ static int source_seek(int seek_ms) { int ret; ret = stream_seek(cur_streaming, seek_ms); if (ret < 0) return -1; /* Adjust start_pos to take into account the pause and seek back */ cur_streaming->stream_start = last_rtptime + AIRTUNES_V2_PACKET_SAMPLES - ((uint64_t)ret * 44100) / 1000; cur_streaming->output_start = last_rtptime + AIRTUNES_V2_PACKET_SAMPLES; return ret; } /* * Starts or resumes playback */ static int source_play() { int ret; ret = stream_play(cur_streaming); return ret; } /* * Initializes playback of the given queue item (but does not start playback) * * A new source is created for the given queue item and is set as the current * streaming source. If a streaming source already existed (and reached eof) * the new source is appended as the play-next item to it. * * Stream-start and output-start values are set to the given start position. */ static int source_open(struct queue_item *qii, uint64_t start_pos, int seek) { struct player_source *ps; struct media_file_info *mfi; uint32_t id; int ret; if (cur_streaming && cur_streaming->end == 0) { DPRINTF(E_LOG, L_PLAYER, "Current streaming source not at eof %d\n", cur_streaming->id); return -1; } id = queueitem_id(qii); mfi = db_file_fetch_byid(id); if (!mfi) { DPRINTF(E_LOG, L_PLAYER, "Couldn't fetch file id %d\n", id); return -1; } if (mfi->disabled) { DPRINTF(E_DBG, L_PLAYER, "File id %d is disabled, skipping\n", id); free_mfi(mfi, 0); return -1; } DPRINTF(E_INFO, L_PLAYER, "Opening '%s' (%s)\n", mfi->title, mfi->path); ps = source_new(qii); ret = stream_setup(ps, mfi); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Failed to open '%s' (%s)\n", mfi->title, mfi->path); free_mfi(mfi, 0); return -1; } /* If a streaming source exists, append the new source as play-next and set it as the new streaming source */ if (cur_streaming) { cur_streaming->play_next = ps; } cur_streaming = ps; cur_streaming->stream_start = start_pos; cur_streaming->output_start = cur_streaming->stream_start; cur_streaming->end = 0; /* Seek to the saved seek position */ if (seek && mfi->seek) source_seek(mfi->seek); free_mfi(mfi, 0); return ret; } /* * Closes the current streaming source and sets its end-time to the given * position */ static int source_close(uint64_t end_pos) { stream_stop(cur_streaming); cur_streaming->end = end_pos; return 0; } /* * Updates the now playing item (cur_playing) and notifies remotes and raop devices * about changes. Also takes care of stopping playback after the last item. * * @return Returns the current playback position as rtp-time */ static uint64_t source_check(void) { struct timespec ts; struct player_source *ps; uint64_t pos; int i; int id; int ret; ret = player_get_current_pos(&pos, &ts, 0); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Couldn't get current playback position\n"); return 0; } /* If cur_playing is NULL, we are still in the first two seconds after starting the stream */ if (!cur_playing) { if (pos >= cur_streaming->output_start) { cur_playing = cur_streaming; status_update(PLAY_PLAYING); /* Start of streaming, no metadata to prune yet */ } return pos; } /* Check if we are still in the middle of the current playing song */ if ((cur_playing->end == 0) || (pos < cur_playing->end)) return pos; /* We have reached the end of the current playing song, update cur_playing to the next song in the queue and initialize stream_start and output_start values. */ i = 0; while (cur_playing && (cur_playing->end != 0) && (pos > cur_playing->end)) { i++; id = (int)cur_playing->id; worker_execute(playcount_inc_cb, &id, sizeof(int), 5); #ifdef LASTFM worker_execute(scrobble_cb, &id, sizeof(int), 8); #endif history_add(cur_playing->id); /* Stop playback */ if (!cur_playing->play_next) { playback_abort(); return pos; } ps = cur_playing; cur_playing = cur_playing->play_next; free(ps); } if (i > 0) { DPRINTF(E_DBG, L_PLAYER, "Playback switched to next song\n"); status_update(PLAY_PLAYING); metadata_prune(pos); } return pos; } static int source_read(uint8_t *buf, int len, uint64_t rtptime) { int ret; int nbytes; char *silence_buf; struct queue_item *item; if (!cur_streaming) return 0; nbytes = 0; while (nbytes < len) { if (evbuffer_get_length(audio_buf) == 0) { if (cur_streaming) { ret = stream_read(cur_streaming, len - nbytes); } else { // Reached end of playlist (cur_playing is NULL) send silence and source_check will abort playback if the last item was played DPRINTF(E_SPAM, L_PLAYER, "End of playlist reached, stream silence until playback of last item ends\n"); silence_buf = (char *)calloc((len - nbytes), sizeof(char)); evbuffer_add(audio_buf, silence_buf, (len - nbytes)); free(silence_buf); ret = len - nbytes; } if (ret <= 0) { /* EOF or error */ source_close(rtptime + BTOS(nbytes) - 1); DPRINTF(E_DBG, L_PLAYER, "New file\n"); item = queue_next(queue, cur_streaming->queueitem_id, shuffle, repeat, 1); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Error reading source %d\n", cur_streaming->id); queue_remove_byitemid(queue, cur_streaming->queueitem_id); } if (item) { ret = source_open(item, cur_streaming->end + 1, 0); if (ret < 0) return -1; ret = source_play(); if (ret < 0) return -1; metadata_trigger(0); } else { cur_streaming = NULL; } continue; } } nbytes += evbuffer_remove(audio_buf, buf + nbytes, len - nbytes); } return nbytes; } static void playback_write(void) { uint8_t rawbuf[STOB(AIRTUNES_V2_PACKET_SAMPLES)]; int ret; source_check(); /* Make sure playback is still running after source_check() */ if (player_state == PLAY_STOPPED) return; last_rtptime += AIRTUNES_V2_PACKET_SAMPLES; memset(rawbuf, 0, sizeof(rawbuf)); ret = source_read(rawbuf, sizeof(rawbuf), last_rtptime); if (ret < 0) { DPRINTF(E_DBG, L_PLAYER, "Error reading from source, aborting playback\n"); playback_abort(); return; } if (laudio_status & LAUDIO_F_STARTED) laudio_write(rawbuf, last_rtptime); if (raop_sessions > 0) raop_v2_write(rawbuf, last_rtptime); } static void player_playback_cb(int fd, short what, void *arg) { uint32_t packet_send_count = 0; struct timespec next_tick; struct timespec stream_period = { 0, MINIMUM_STREAM_PERIOD }; int ret; #if defined(__linux__) uint64_t ticks; /* Acknowledge timer */ ret = read(fd, &ticks, sizeof(ticks)); if (ret <= 0) DPRINTF(E_WARN, L_PLAYER, "Error reading timer.\n"); #endif /* __linux__ */ /* Decide how many packets to send */ next_tick = timespec_add(pb_timer_last, stream_period); do { playback_write(); packet_timer_last = timespec_add(packet_timer_last, packet_time); packet_send_count++; /* not possible to have more than 126 audio packets per second */ if (packet_send_count > 126) { DPRINTF(E_LOG, L_PLAYER, "Timing error detected during playback! Aborting.\n"); playback_abort(); return; } } while (timespec_cmp(packet_timer_last, next_tick) < 0); /* Make sure playback is still running */ if (player_state == PLAY_STOPPED) return; pb_timer_last = timespec_add(pb_timer_last, stream_period); ret = pb_timer_start(&pb_timer_last); if (ret < 0) playback_abort(); } static void device_free(struct raop_device *dev) { free(dev->name); if (dev->v4_address) free(dev->v4_address); if (dev->v6_address) free(dev->v6_address); free(dev); } /* Helpers */ static void device_remove(struct raop_device *dev) { struct raop_device *rd; struct raop_device *prev; int ret; prev = NULL; for (rd = dev_list; rd; rd = rd->next) { if (rd == dev) break; prev = rd; } if (!rd) return; DPRINTF(E_DBG, L_PLAYER, "Removing AirPlay device %s; stopped advertising\n", dev->name); /* Make sure device isn't selected anymore */ if (dev->selected) speaker_deselect_raop(dev); /* Save device volume */ ret = db_speaker_save(dev->id, 0, dev->volume); if (ret < 0) DPRINTF(E_LOG, L_PLAYER, "Could not save state for speaker %s\n", dev->name); if (!prev) dev_list = dev->next; else prev->next = dev->next; device_free(dev); } static int device_check(struct raop_device *dev) { struct raop_device *rd; for (rd = dev_list; rd; rd = rd->next) { if (rd == dev) break; } return (rd) ? 0 : -1; } static int device_add(struct player_command *cmd) { struct raop_device *dev; struct raop_device *rd; int selected; int ret; dev = cmd->arg.rd; for (rd = dev_list; rd; rd = rd->next) { if (rd->id == dev->id) break; } /* New device */ if (!rd) { rd = dev; ret = db_speaker_get(rd->id, &selected, &rd->volume); if (ret < 0) { selected = 0; rd->volume = (master_volume >= 0) ? master_volume : PLAYER_DEFAULT_VOLUME; } if (dev_autoselect && selected) speaker_select_raop(rd); rd->next = dev_list; dev_list = rd; } else { rd->advertised = 1; if (dev->v4_address) { if (rd->v4_address) free(rd->v4_address); rd->v4_address = dev->v4_address; rd->v4_port = dev->v4_port; /* Address is ours now */ dev->v4_address = NULL; } if (dev->v6_address) { if (rd->v6_address) free(rd->v6_address); rd->v6_address = dev->v6_address; rd->v6_port = dev->v6_port; /* Address is ours now */ dev->v6_address = NULL; } if (rd->name) free(rd->name); rd->name = dev->name; dev->name = NULL; rd->devtype = dev->devtype; rd->has_password = dev->has_password; rd->password = dev->password; device_free(dev); } return 0; } static int device_remove_family(struct player_command *cmd) { struct raop_device *dev; struct raop_device *rd; dev = cmd->arg.rd; for (rd = dev_list; rd; rd = rd->next) { if (rd->id == dev->id) break; } if (!rd) { DPRINTF(E_WARN, L_PLAYER, "AirPlay device %s stopped advertising, but not in our list\n", dev->name); device_free(dev); return 0; } /* v{4,6}_port non-zero indicates the address family stopped advertising */ if (dev->v4_port && rd->v4_address) { free(rd->v4_address); rd->v4_address = NULL; rd->v4_port = 0; } if (dev->v6_port && rd->v6_address) { free(rd->v6_address); rd->v6_address = NULL; rd->v6_port = 0; } if (!rd->v4_address && !rd->v6_address) { rd->advertised = 0; if (!rd->session) device_remove(rd); } device_free(dev); return 0; } static int metadata_send(struct player_command *cmd) { struct player_metadata *pmd; pmd = cmd->arg.pmd; /* Do the setting of rtptime which was deferred in metadata_trigger because we * wanted to wait until we had the actual last_rtptime */ if ((pmd->rtptime == 0) && (pmd->startup)) pmd->rtptime = last_rtptime + AIRTUNES_V2_PACKET_SAMPLES; raop_metadata_send(pmd->rmd, pmd->rtptime, pmd->offset, pmd->startup); return 0; } /* RAOP callbacks executed in the player thread */ static void device_streaming_cb(struct raop_device *dev, struct raop_session *rs, enum raop_session_state status) { int ret; if (status == RAOP_FAILED) { raop_sessions--; ret = device_check(dev); if (ret < 0) { DPRINTF(E_WARN, L_PLAYER, "AirPlay device disappeared during streaming!\n"); return; } DPRINTF(E_LOG, L_PLAYER, "AirPlay device %s FAILED\n", dev->name); if (player_state == PLAY_PLAYING) speaker_deselect_raop(dev); dev->session = NULL; if (!dev->advertised) device_remove(dev); } else if (status == RAOP_STOPPED) { raop_sessions--; ret = device_check(dev); if (ret < 0) { DPRINTF(E_WARN, L_PLAYER, "AirPlay device disappeared during streaming!\n"); return; } DPRINTF(E_INFO, L_PLAYER, "AirPlay device %s stopped\n", dev->name); dev->session = NULL; if (!dev->advertised) device_remove(dev); } } static void device_command_cb(struct raop_device *dev, struct raop_session *rs, enum raop_session_state status) { cur_cmd->raop_pending--; raop_set_status_cb(rs, device_streaming_cb); if (status == RAOP_FAILED) device_streaming_cb(dev, rs, status); if (cur_cmd->raop_pending == 0) { if (cur_cmd->func_bh) cur_cmd->ret = cur_cmd->func_bh(cur_cmd); else cur_cmd->ret = 0; command_async_end(cur_cmd); } } static void device_shutdown_cb(struct raop_device *dev, struct raop_session *rs, enum raop_session_state status) { int ret; cur_cmd->raop_pending--; if (raop_sessions) raop_sessions--; ret = device_check(dev); if (ret < 0) { DPRINTF(E_WARN, L_PLAYER, "AirPlay device disappeared before shutdown completion!\n"); if (cur_cmd->ret != -2) cur_cmd->ret = -1; goto out; } dev->session = NULL; if (!dev->advertised) device_remove(dev); out: if (cur_cmd->raop_pending == 0) { /* cur_cmd->ret already set * - to 0 (or -2 if password issue) in speaker_set() * - to -1 above on error */ command_async_end(cur_cmd); } } static void device_lost_cb(struct raop_device *dev, struct raop_session *rs, enum raop_session_state status) { /* We lost that device during startup for some reason, not much we can do here */ if (status == RAOP_FAILED) DPRINTF(E_WARN, L_PLAYER, "Failed to stop lost device\n"); else DPRINTF(E_INFO, L_PLAYER, "Lost device stopped properly\n"); } static void device_activate_cb(struct raop_device *dev, struct raop_session *rs, enum raop_session_state status) { struct timespec ts; int ret; cur_cmd->raop_pending--; ret = device_check(dev); if (ret < 0) { DPRINTF(E_WARN, L_PLAYER, "AirPlay device disappeared during startup!\n"); raop_set_status_cb(rs, device_lost_cb); raop_device_stop(rs); if (cur_cmd->ret != -2) cur_cmd->ret = -1; goto out; } if (status == RAOP_PASSWORD) { status = RAOP_FAILED; cur_cmd->ret = -2; } if (status == RAOP_FAILED) { speaker_deselect_raop(dev); if (!dev->advertised) device_remove(dev); if (cur_cmd->ret != -2) cur_cmd->ret = -1; goto out; } dev->session = rs; raop_sessions++; if ((player_state == PLAY_PLAYING) && (raop_sessions == 1)) { ret = clock_gettime_with_res(CLOCK_MONOTONIC, &ts, &timer_res); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Could not get current time: %s\n", strerror(errno)); /* Fallback to nearest timer expiration time */ ts.tv_sec = pb_timer_last.tv_sec; ts.tv_nsec = pb_timer_last.tv_nsec; } raop_playback_start(last_rtptime + AIRTUNES_V2_PACKET_SAMPLES, &ts); } raop_set_status_cb(rs, device_streaming_cb); out: if (cur_cmd->raop_pending == 0) { /* cur_cmd->ret already set * - to 0 in speaker_set() (default) * - to -2 above if password issue * - to -1 above on error */ command_async_end(cur_cmd); } } static void device_probe_cb(struct raop_device *dev, struct raop_session *rs, enum raop_session_state status) { int ret; cur_cmd->raop_pending--; ret = device_check(dev); if (ret < 0) { DPRINTF(E_WARN, L_PLAYER, "AirPlay device disappeared during probe!\n"); if (cur_cmd->ret != -2) cur_cmd->ret = -1; goto out; } if (status == RAOP_PASSWORD) { status = RAOP_FAILED; cur_cmd->ret = -2; } if (status == RAOP_FAILED) { speaker_deselect_raop(dev); if (!dev->advertised) device_remove(dev); if (cur_cmd->ret != -2) cur_cmd->ret = -1; goto out; } out: if (cur_cmd->raop_pending == 0) { /* cur_cmd->ret already set * - to 0 in speaker_set() (default) * - to -2 above if password issue * - to -1 above on error */ command_async_end(cur_cmd); } } static void device_restart_cb(struct raop_device *dev, struct raop_session *rs, enum raop_session_state status) { int ret; cur_cmd->raop_pending--; ret = device_check(dev); if (ret < 0) { DPRINTF(E_WARN, L_PLAYER, "AirPlay device disappeared during restart!\n"); raop_set_status_cb(rs, device_lost_cb); raop_device_stop(rs); goto out; } if (status == RAOP_FAILED) { speaker_deselect_raop(dev); if (!dev->advertised) device_remove(dev); goto out; } dev->session = rs; raop_sessions++; raop_set_status_cb(rs, device_streaming_cb); out: if (cur_cmd->raop_pending == 0) { cur_cmd->ret = cur_cmd->func_bh(cur_cmd); command_async_end(cur_cmd); } } /* Internal abort routine */ static void playback_abort(void) { if (laudio_status != LAUDIO_CLOSED) laudio_close(); if (raop_sessions > 0) raop_playback_stop(); pb_timer_stop(); source_stop(); playerqueue_clear(NULL); evbuffer_drain(audio_buf, evbuffer_get_length(audio_buf)); status_update(PLAY_STOPPED); metadata_purge(); } /* Actual commands, executed in the player thread */ static int get_status(struct player_command *cmd) { struct timespec ts; struct player_source *ps; struct player_status *status; struct queue_item *item_next; uint64_t pos; int ret; status = cmd->arg.status; memset(status, 0, sizeof(struct player_status)); status->shuffle = shuffle; status->repeat = repeat; status->volume = master_volume; status->plid = cur_plid; status->plversion = cur_plversion; switch (player_state) { case PLAY_STOPPED: DPRINTF(E_DBG, L_PLAYER, "Player status: stopped\n"); status->status = PLAY_STOPPED; break; case PLAY_PAUSED: DPRINTF(E_DBG, L_PLAYER, "Player status: paused\n"); status->status = PLAY_PAUSED; status->id = cur_streaming->id; status->queueitem_id = cur_streaming->queueitem_id; pos = last_rtptime + AIRTUNES_V2_PACKET_SAMPLES - cur_streaming->stream_start; status->pos_ms = (pos * 1000) / 44100; status->len_ms = cur_streaming->len_ms; status->pos_pl = queue_index_byitemid(queue, cur_streaming->queueitem_id, 0); break; case PLAY_PLAYING: if (!cur_playing) { DPRINTF(E_DBG, L_PLAYER, "Player status: playing (buffering)\n"); status->status = PLAY_PAUSED; ps = cur_streaming; /* Avoid a visible 2-second jump backward for the client */ pos = ps->output_start - ps->stream_start; } else { DPRINTF(E_DBG, L_PLAYER, "Player status: playing\n"); status->status = PLAY_PLAYING; ps = cur_playing; ret = player_get_current_pos(&pos, &ts, 0); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Could not get current stream position for playstatus\n"); pos = 0; } if (pos < ps->stream_start) pos = 0; else pos -= ps->stream_start; } status->pos_ms = (pos * 1000) / 44100; status->len_ms = ps->len_ms; status->id = ps->id; status->queueitem_id = ps->queueitem_id; status->pos_pl = queue_index_byitemid(queue, ps->queueitem_id, 0); item_next = queue_next(queue, ps->queueitem_id, shuffle, repeat, 0); if (item_next) { status->next_id = queueitem_id(item_next); status->next_queueitem_id = queueitem_item_id(item_next); status->next_pos_pl = queue_index_byitemid(queue, status->next_queueitem_id, 0); } else { //TODO [queue/mpd] Check how mpd sets the next-id/-pos if the last song is playing status->next_id = 0; status->next_pos_pl = 0; } status->playlistlength = queue_count(queue); break; } return 0; } static int now_playing(struct player_command *cmd) { uint32_t *id; struct player_source *ps_playing; id = cmd->arg.id_ptr; ps_playing = source_now_playing(); if (ps_playing) *id = ps_playing->id; else return -1; return 0; } static int artwork_url_get(struct player_command *cmd) { struct player_source *ps; cmd->arg.icy.artwork_url = NULL; if (cur_playing) ps = cur_playing; else if (cur_streaming) ps = cur_streaming; else return -1; /* Check that we are playing a viable stream, and that it has the requested id */ if (!ps->ctx || ps->data_kind != DATA_KIND_HTTP || ps->id != cmd->arg.icy.id) return -1; transcode_metadata_artwork_url(ps->ctx, &cmd->arg.icy.artwork_url); return 0; } static int playback_stop(struct player_command *cmd) { struct player_source *ps_playing; if (laudio_status != LAUDIO_CLOSED) laudio_close(); /* We may be restarting very soon, so we don't bring the devices to a * full stop just yet; this saves time when restarting, which is nicer * for the user. */ cmd->raop_pending = raop_flush(device_command_cb, last_rtptime + AIRTUNES_V2_PACKET_SAMPLES); pb_timer_stop(); ps_playing = source_now_playing(); if (ps_playing) { history_add(ps_playing->id); } source_stop(); evbuffer_drain(audio_buf, evbuffer_get_length(audio_buf)); status_update(PLAY_STOPPED); metadata_purge(); /* We're async if we need to flush RAOP devices */ if (cmd->raop_pending > 0) return 1; /* async */ return 0; } /* Playback startup bottom half */ static int playback_start_bh(struct player_command *cmd) { int ret; if ((laudio_status == LAUDIO_CLOSED) && (raop_sessions == 0)) { DPRINTF(E_LOG, L_PLAYER, "Cannot start playback: no output started\n"); goto out_fail; } /* Start laudio first as it can fail, but can be stopped easily if needed */ if (laudio_status == LAUDIO_OPEN) { laudio_set_volume(laudio_volume); ret = laudio_start(pb_pos, last_rtptime + AIRTUNES_V2_PACKET_SAMPLES); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Local audio failed to start\n"); goto out_fail; } } ret = clock_gettime_with_res(CLOCK_MONOTONIC, &pb_pos_stamp, &timer_res); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Couldn't get current clock: %s\n", strerror(errno)); goto out_fail; } pb_timer_stop(); /* * initialize the packet timer to the same relative time that we have * for the playback timer. */ packet_timer_last.tv_sec = pb_pos_stamp.tv_sec; packet_timer_last.tv_nsec = pb_pos_stamp.tv_nsec; pb_timer_last.tv_sec = pb_pos_stamp.tv_sec; pb_timer_last.tv_nsec = pb_pos_stamp.tv_nsec; ret = pb_timer_start(&pb_timer_last); if (ret < 0) goto out_fail; /* Everything OK, start RAOP */ if (raop_sessions > 0) raop_playback_start(last_rtptime + AIRTUNES_V2_PACKET_SAMPLES, &pb_pos_stamp); status_update(PLAY_PLAYING); return 0; out_fail: playback_abort(); return -1; } static int playback_start_item(struct player_command *cmd, struct queue_item *qii) { uint32_t *dbmfi_id; struct raop_device *rd; struct player_source *ps_playing; struct queue_item *item; int ret; dbmfi_id = cmd->arg.playback_start_param.id_ptr; ps_playing = source_now_playing(); if (player_state == PLAY_PLAYING) { /* * If player is already playing a song, only return current playing song id * and do not change player state (ignores given arguments for playing a * specified song by pos or id). */ if (dbmfi_id && ps_playing) { *dbmfi_id = ps_playing->id; } status_update(player_state); return 0; } // Update global playback position pb_pos = last_rtptime + AIRTUNES_V2_PACKET_SAMPLES - 88200; item = NULL; if (qii) { item = qii; } else if (!cur_streaming) { if (shuffle) queue_shuffle(queue, 0); item = queue_next(queue, 0, shuffle, repeat, 0); } if (item) { source_stop(); ret = source_open(item, last_rtptime + AIRTUNES_V2_PACKET_SAMPLES, 1); if (ret < 0) { playback_abort(); return -1; } } ret = source_play(); if (ret < 0) { playback_abort(); return -1; } if (dbmfi_id) *dbmfi_id = cur_streaming->id; metadata_trigger(1); /* Start local audio if needed */ if (laudio_selected && (laudio_status == LAUDIO_CLOSED)) { ret = laudio_open(); if (ret < 0) DPRINTF(E_LOG, L_PLAYER, "Could not open local audio, will try AirPlay\n"); } /* Start RAOP sessions on selected devices if needed */ cmd->raop_pending = 0; for (rd = dev_list; rd; rd = rd->next) { if (rd->selected && !rd->session) { ret = raop_device_start(rd, device_restart_cb, last_rtptime + AIRTUNES_V2_PACKET_SAMPLES); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Could not start selected AirPlay device %s\n", rd->name); continue; } cmd->raop_pending++; } } /* Try to autoselect a non-selected RAOP device if the above failed */ if ((laudio_status == LAUDIO_CLOSED) && (cmd->raop_pending == 0) && (raop_sessions == 0)) for (rd = dev_list; rd; rd = rd->next) { if (!rd->session) { speaker_select_raop(rd); ret = raop_device_start(rd, device_restart_cb, last_rtptime + AIRTUNES_V2_PACKET_SAMPLES); if (ret < 0) { DPRINTF(E_DBG, L_PLAYER, "Could not autoselect AirPlay device %s\n", rd->name); speaker_deselect_raop(rd); continue; } DPRINTF(E_INFO, L_PLAYER, "Autoselecting AirPlay device %s\n", rd->name); cmd->raop_pending++; break; } } /* No luck finding valid output */ if ((laudio_status == LAUDIO_CLOSED) && (cmd->raop_pending == 0) && (raop_sessions == 0)) { DPRINTF(E_LOG, L_PLAYER, "Could not start playback: no output selected or couldn't start any output\n"); playback_abort(); return -1; } /* We're async if we need to start RAOP devices */ if (cmd->raop_pending > 0) return 1; /* async */ /* Otherwise, just run the bottom half */ return playback_start_bh(cmd); } static int playback_start(struct player_command *cmd) { return playback_start_item(cmd, NULL); } static int playback_start_byitemid(struct player_command *cmd) { int item_id; struct queue_item *qii; item_id = cmd->arg.playback_start_param.id; qii = queue_get_byitemid(queue, item_id); return playback_start_item(cmd, qii); } static int playback_start_byindex(struct player_command *cmd) { int pos; struct queue_item *qii; pos = cmd->arg.playback_start_param.pos; qii = queue_get_byindex(queue, pos, 0); return playback_start_item(cmd, qii); } static int playback_start_bypos(struct player_command *cmd) { int offset; struct player_source *ps_playing; struct queue_item *qii; offset = cmd->arg.playback_start_param.pos; ps_playing = source_now_playing(); if (ps_playing) { qii = queue_get_bypos(queue, ps_playing->queueitem_id, offset, shuffle); } else { qii = queue_get_byindex(queue, offset, shuffle); } return playback_start_item(cmd, qii); } static int playback_prev_bh(struct player_command *cmd) { int ret; int pos_sec; struct queue_item *item; /* * The upper half is playback_pause, therefor the current playing item is * already set as the cur_streaming (cur_playing is NULL). */ if (!cur_streaming) { DPRINTF(E_LOG, L_PLAYER, "Could not get current stream source\n"); return -1; } /* Only add to history if playback started. */ if (cur_streaming->output_start > cur_streaming->stream_start) history_add(cur_streaming->id); /* Compute the playing time in seconds for the current song. */ if (cur_streaming->output_start > cur_streaming->stream_start) pos_sec = (cur_streaming->output_start - cur_streaming->stream_start) / 44100; else pos_sec = 0; /* Only skip to the previous song if the playing time is less than 3 seconds, otherwise restart the current song. */ DPRINTF(E_DBG, L_PLAYER, "Skipping song played %d sec\n", pos_sec); if (pos_sec < 3) { item = queue_prev(queue, cur_streaming->queueitem_id, shuffle, repeat); if (!item) { playback_abort(); return -1; } source_stop(); ret = source_open(item, last_rtptime + AIRTUNES_V2_PACKET_SAMPLES, 0); if (ret < 0) { playback_abort(); return -1; } } else { ret = source_seek(0); if (ret < 0) { playback_abort(); return -1; } } if (player_state == PLAY_STOPPED) return -1; /* Silent status change - playback_start() sends the real status update */ player_state = PLAY_PAUSED; return 0; } /* * The bottom half of the next command */ static int playback_next_bh(struct player_command *cmd) { int ret; struct queue_item *item; /* * The upper half is playback_pause, therefor the current playing item is * already set as the cur_streaming (cur_playing is NULL). */ if (!cur_streaming) { DPRINTF(E_LOG, L_PLAYER, "Could not get current stream source\n"); return -1; } /* Only add to history if playback started. */ if (cur_streaming->output_start > cur_streaming->stream_start) history_add(cur_streaming->id); item = queue_next(queue, cur_streaming->queueitem_id, shuffle, repeat, 0); if (!item) { playback_abort(); return -1; } source_stop(); ret = source_open(item, last_rtptime + AIRTUNES_V2_PACKET_SAMPLES, 0); if (ret < 0) { playback_abort(); return -1; } if (player_state == PLAY_STOPPED) return -1; /* Silent status change - playback_start() sends the real status update */ player_state = PLAY_PAUSED; return 0; } static int playback_seek_bh(struct player_command *cmd) { int ms; int ret; ms = cmd->arg.intval; ret = source_seek(ms); if (ret < 0) { playback_abort(); return -1; } /* Silent status change - playback_start() sends the real status update */ player_state = PLAY_PAUSED; return 0; } static int playback_pause_bh(struct player_command *cmd) { int ret; status_update(PLAY_PAUSED); if (cur_streaming->media_kind & (MEDIA_KIND_MOVIE | MEDIA_KIND_PODCAST | MEDIA_KIND_AUDIOBOOK | MEDIA_KIND_TVSHOW)) { ret = (cur_streaming->output_start - cur_streaming->stream_start) / 44100 * 1000; db_file_save_seek(cur_streaming->id, ret); } return 0; } static int playback_pause(struct player_command *cmd) { uint64_t pos; pos = source_check(); if (pos == 0) { DPRINTF(E_LOG, L_PLAYER, "Could not retrieve current position for pause\n"); playback_abort(); return -1; } /* Make sure playback is still running after source_check() */ if (player_state == PLAY_STOPPED) return -1; cmd->raop_pending = raop_flush(device_command_cb, last_rtptime + AIRTUNES_V2_PACKET_SAMPLES); if (laudio_status != LAUDIO_CLOSED) laudio_stop(); pb_timer_stop(); source_pause(pos); evbuffer_drain(audio_buf, evbuffer_get_length(audio_buf)); metadata_purge(); /* We're async if we need to flush RAOP devices */ if (cmd->raop_pending > 0) return 1; /* async */ /* Otherwise, just run the bottom half */ return cmd->func_bh(cmd); } static int speaker_enumerate(struct player_command *cmd) { struct raop_device *rd; struct spk_enum *spk_enum; struct spk_flags flags; char *laudio_name; spk_enum = cmd->arg.spk_enum; laudio_name = cfg_getstr(cfg_getsec(cfg, "audio"), "nickname"); /* Auto-select local audio if there are no AirPlay devices */ if (!dev_list && !laudio_selected) speaker_select_laudio(); flags.selected = laudio_selected; flags.has_password = 0; flags.has_video = 0; spk_enum->cb(0, laudio_name, laudio_relvol, flags, spk_enum->arg); #ifdef DEBUG_RELVOL DPRINTF(E_DBG, L_PLAYER, "*** master: %d\n", master_volume); DPRINTF(E_DBG, L_PLAYER, "*** laudio: abs %d rel %d\n", laudio_volume, laudio_relvol); #endif for (rd = dev_list; rd; rd = rd->next) { if (rd->advertised || rd->selected) { flags.selected = rd->selected; flags.has_password = rd->has_password; flags.has_video = (rd->devtype == RAOP_DEV_APPLETV); spk_enum->cb(rd->id, rd->name, rd->relvol, flags, spk_enum->arg); #ifdef DEBUG_RELVOL DPRINTF(E_DBG, L_PLAYER, "*** %s: abs %d rel %d\n", rd->name, rd->volume, rd->relvol); #endif } } return 0; } static int speaker_activate(struct raop_device *rd) { struct timespec ts; uint64_t pos; int ret; if (!rd) { /* Local */ DPRINTF(E_DBG, L_PLAYER, "Activating local audio\n"); if (laudio_status == LAUDIO_CLOSED) { ret = laudio_open(); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Could not open local audio\n"); return -1; } } if (player_state == PLAY_PLAYING) { laudio_set_volume(laudio_volume); ret = player_get_current_pos(&pos, &ts, 0); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Could not get current stream position for local audio start\n"); laudio_close(); return -1; } ret = laudio_start(pos, last_rtptime + AIRTUNES_V2_PACKET_SAMPLES); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Local playback failed to start\n"); laudio_close(); return -1; } } return 0; } else { /* RAOP */ if (player_state == PLAY_PLAYING) { DPRINTF(E_DBG, L_PLAYER, "Activating RAOP device %s\n", rd->name); ret = raop_device_start(rd, device_activate_cb, last_rtptime + AIRTUNES_V2_PACKET_SAMPLES); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Could not start device %s\n", rd->name); return -1; } } else { DPRINTF(E_DBG, L_PLAYER, "Probing RAOP device %s\n", rd->name); ret = raop_device_probe(rd, device_probe_cb); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Could not probe device %s\n", rd->name); return -1; } } return 1; } return -1; } static int speaker_deactivate(struct raop_device *rd) { if (!rd) { /* Local */ DPRINTF(E_DBG, L_PLAYER, "Deactivating local audio\n"); if (laudio_status == LAUDIO_CLOSED) return 0; if (laudio_status & LAUDIO_F_STARTED) laudio_stop(); laudio_close(); return 0; } else { /* RAOP */ DPRINTF(E_DBG, L_PLAYER, "Deactivating RAOP device %s\n", rd->name); raop_set_status_cb(rd->session, device_shutdown_cb); raop_device_stop(rd->session); return 1; } return -1; } static int speaker_set(struct player_command *cmd) { struct raop_device *rd; uint64_t *ids; int nspk; int i; int ret; ids = cmd->arg.raop_ids; if (ids) nspk = ids[0]; else nspk = 0; DPRINTF(E_DBG, L_PLAYER, "Speaker set: %d speakers\n", nspk); cmd->raop_pending = 0; cmd->ret = 0; /* RAOP devices */ for (rd = dev_list; rd; rd = rd->next) { for (i = 1; i <= nspk; i++) { DPRINTF(E_DBG, L_PLAYER, "Set %" PRIu64 " device %" PRIu64 "\n", ids[i], rd->id); if (ids[i] == rd->id) break; } if (i <= nspk) { if (rd->has_password && !rd->password) { DPRINTF(E_INFO, L_PLAYER, "RAOP device %s is password-protected, but we don't have it\n", rd->name); cmd->ret = -2; continue; } DPRINTF(E_DBG, L_PLAYER, "RAOP device %s selected\n", rd->name); if (!rd->selected) speaker_select_raop(rd); if (!rd->session) { ret = speaker_activate(rd); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Could not activate RAOP device %s\n", rd->name); speaker_deselect_raop(rd); if (cmd->ret != -2) cmd->ret = -1; } /* ret = 1 if RAOP needs to take action */ cmd->raop_pending += ret; } } else { DPRINTF(E_DBG, L_PLAYER, "RAOP device %s NOT selected\n", rd->name); if (rd->selected) speaker_deselect_raop(rd); if (rd->session) { ret = speaker_deactivate(rd); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Could not deactivate RAOP device %s\n", rd->name); if (cmd->ret != -2) cmd->ret = -1; } /* ret = 1 if RAOP needs to take action */ cmd->raop_pending += ret; } } } /* Local audio */ for (i = 1; i <= nspk; i++) { if (ids[i] == 0) break; } if (i <= nspk) { DPRINTF(E_DBG, L_PLAYER, "Local audio selected\n"); if (!laudio_selected) speaker_select_laudio(); if (!(laudio_status & LAUDIO_F_STARTED)) { ret = speaker_activate(NULL); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Could not activate local audio output\n"); speaker_deselect_laudio(); if (cmd->ret != -2) cmd->ret = -1; } } } else { DPRINTF(E_DBG, L_PLAYER, "Local audio NOT selected\n"); if (laudio_selected) speaker_deselect_laudio(); if (laudio_status != LAUDIO_CLOSED) { ret = speaker_deactivate(NULL); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Could not deactivate local audio output\n"); if (cmd->ret != -2) cmd->ret = -1; } } } listener_notify(LISTENER_SPEAKER); if (cmd->raop_pending > 0) return 1; /* async */ return cmd->ret; } static int volume_set(struct player_command *cmd) { struct raop_device *rd; int volume; volume = cmd->arg.intval; if (master_volume == volume) return 0; master_volume = volume; if (laudio_selected) { laudio_volume = rel_to_vol(laudio_relvol); laudio_set_volume(laudio_volume); #ifdef DEBUG_RELVOL DPRINTF(E_DBG, L_PLAYER, "*** laudio: abs %d rel %d\n", laudio_volume, laudio_relvol); #endif } cmd->raop_pending = 0; for (rd = dev_list; rd; rd = rd->next) { if (!rd->selected) continue; rd->volume = rel_to_vol(rd->relvol); #ifdef DEBUG_RELVOL DPRINTF(E_DBG, L_PLAYER, "*** %s: abs %d rel %d\n", rd->name, rd->volume, rd->relvol); #endif if (rd->session) cmd->raop_pending += raop_set_volume_one(rd->session, rd->volume, device_command_cb); } listener_notify(LISTENER_VOLUME); if (cmd->raop_pending > 0) return 1; /* async */ return 0; } static int volume_setrel_speaker(struct player_command *cmd) { struct raop_device *rd; uint64_t id; int relvol; id = cmd->arg.vol_param.spk_id; relvol = cmd->arg.vol_param.volume; if (id == 0) { laudio_relvol = relvol; laudio_volume = rel_to_vol(relvol); laudio_set_volume(laudio_volume); #ifdef DEBUG_RELVOL DPRINTF(E_DBG, L_PLAYER, "*** laudio: abs %d rel %d\n", laudio_volume, laudio_relvol); #endif } else { for (rd = dev_list; rd; rd = rd->next) { if (rd->id != id) continue; if (!rd->selected) return 0; rd->relvol = relvol; rd->volume = rel_to_vol(relvol); #ifdef DEBUG_RELVOL DPRINTF(E_DBG, L_PLAYER, "*** %s: abs %d rel %d\n", rd->name, rd->volume, rd->relvol); #endif if (rd->session) cmd->raop_pending = raop_set_volume_one(rd->session, rd->volume, device_command_cb); break; } } listener_notify(LISTENER_VOLUME); if (cmd->raop_pending > 0) return 1; /* async */ return 0; } static int volume_setabs_speaker(struct player_command *cmd) { struct raop_device *rd; uint64_t id; int volume; id = cmd->arg.vol_param.spk_id; volume = cmd->arg.vol_param.volume; master_volume = volume; if (id == 0) { laudio_relvol = 100; laudio_volume = volume; laudio_set_volume(laudio_volume); } else laudio_relvol = vol_to_rel(laudio_volume); #ifdef DEBUG_RELVOL DPRINTF(E_DBG, L_PLAYER, "*** laudio: abs %d rel %d\n", laudio_volume, laudio_relvol); #endif for (rd = dev_list; rd; rd = rd->next) { if (!rd->selected) continue; if (rd->id != id) { rd->relvol = vol_to_rel(rd->volume); #ifdef DEBUG_RELVOL DPRINTF(E_DBG, L_PLAYER, "*** %s: abs %d rel %d\n", rd->name, rd->volume, rd->relvol); #endif continue; } else { rd->relvol = 100; rd->volume = master_volume; #ifdef DEBUG_RELVOL DPRINTF(E_DBG, L_PLAYER, "*** %s: abs %d rel %d\n", rd->name, rd->volume, rd->relvol); #endif if (rd->session) cmd->raop_pending = raop_set_volume_one(rd->session, rd->volume, device_command_cb); } } listener_notify(LISTENER_VOLUME); if (cmd->raop_pending > 0) return 1; /* async */ return 0; } static int repeat_set(struct player_command *cmd) { if (cmd->arg.mode == repeat) return 0; switch (cmd->arg.mode) { case REPEAT_OFF: case REPEAT_SONG: case REPEAT_ALL: repeat = cmd->arg.mode; break; default: DPRINTF(E_LOG, L_PLAYER, "Invalid repeat mode: %d\n", cmd->arg.mode); return -1; } listener_notify(LISTENER_OPTIONS); return 0; } static int shuffle_set(struct player_command *cmd) { uint32_t cur_id; switch (cmd->arg.intval) { case 1: if (!shuffle) { cur_id = cur_streaming ? cur_streaming->queueitem_id : 0; queue_shuffle(queue, cur_id); } /* FALLTHROUGH*/ case 0: shuffle = cmd->arg.intval; break; default: DPRINTF(E_LOG, L_PLAYER, "Invalid shuffle mode: %d\n", cmd->arg.intval); return -1; } listener_notify(LISTENER_OPTIONS); return 0; } static int playerqueue_get_bypos(struct player_command *cmd) { int count; struct queue *qi; struct player_source *ps; int item_id; count = cmd->arg.queue_get_param.count; ps = source_now_playing(); item_id = 0; if (ps) { item_id = ps->queueitem_id; } qi = queue_new_bypos(queue, item_id, count, shuffle); cmd->arg.queue_get_param.queue = qi; return 0; } static int playerqueue_get_byindex(struct player_command *cmd) { int pos; int count; struct queue *qi; pos = cmd->arg.queue_get_param.pos; count = cmd->arg.queue_get_param.count; qi = queue_new_byindex(queue, pos, count, 0); cmd->arg.queue_get_param.queue = qi; return 0; } static int playerqueue_add(struct player_command *cmd) { struct queue_item *items; uint32_t cur_id; items = cmd->arg.queue_add_param.items; queue_add(queue, items); if (shuffle) { cur_id = cur_streaming ? cur_streaming->queueitem_id : 0; queue_shuffle(queue, cur_id); } //TODO [refactor] Unnecessary if, always set plid to 0 after adding items if (cur_plid != 0) cur_plid = 0; cur_plversion++; listener_notify(LISTENER_PLAYLIST); return 0; } static int playerqueue_add_next(struct player_command *cmd) { struct queue_item *items; uint32_t cur_id; items = cmd->arg.queue_add_param.items; cur_id = cur_streaming ? cur_streaming->queueitem_id : 0; queue_add_after(queue, items, cur_id); if (shuffle) queue_shuffle(queue, cur_id); //TODO [refactor] Unnecessary if, always set plid to 0 after adding items if (cur_plid != 0) cur_plid = 0; cur_plversion++; listener_notify(LISTENER_PLAYLIST); return 0; } static int playerqueue_move_bypos(struct player_command *cmd) { struct player_source *ps_playing; DPRINTF(E_DBG, L_PLAYER, "Moving song from position %d to be the next song after %d\n", cmd->arg.ps_pos[0], cmd->arg.ps_pos[1]); ps_playing = source_now_playing(); if (!ps_playing) { DPRINTF(E_LOG, L_PLAYER, "Can't move item, no playing item found\n"); return -1; } queue_move_bypos(queue, ps_playing->queueitem_id, cmd->arg.ps_pos[0], cmd->arg.ps_pos[1], shuffle); cur_plversion++; listener_notify(LISTENER_PLAYLIST); return 0; } static int playerqueue_remove_bypos(struct player_command *cmd) { int pos; struct player_source *ps_playing; pos = cmd->arg.intval; if (pos < 1) { DPRINTF(E_LOG, L_PLAYER, "Can't remove item, invalid position %d\n", pos); return -1; } ps_playing = source_now_playing(); if (!ps_playing) { DPRINTF(E_LOG, L_PLAYER, "Can't remove item at pos %d, no playing item found\n", pos); return -1; } DPRINTF(E_DBG, L_PLAYER, "Removing item from position %d\n", pos); queue_remove_bypos(queue, ps_playing->queueitem_id, pos, shuffle); return 0; } static int playerqueue_remove_byitemid(struct player_command *cmd) { uint32_t id; id = cmd->arg.id; if (id < 1) { DPRINTF(E_LOG, L_PLAYER, "Can't remove item, invalid id %d\n", id); return -1; } DPRINTF(E_DBG, L_PLAYER, "Removing item with id %d\n", id); queue_remove_byitemid(queue, id); return 0; } /* * Removes all media items from the queue */ static int playerqueue_clear(struct player_command *cmd) { queue_clear(queue); cur_plid = 0; cur_plversion++; listener_notify(LISTENER_PLAYLIST); return 0; } /* * Removes all items from the history */ static int playerqueue_clear_history(struct player_command *cmd) { memset(history, 0, sizeof(struct player_history)); cur_plversion++; listener_notify(LISTENER_PLAYLIST); return 0; } static int playerqueue_plid(struct player_command *cmd) { cur_plid = cmd->arg.id; return 0; } /* Command processing */ /* Thread: player */ static void command_cb(int fd, short what, void *arg) { struct player_command *cmd; int ret; ret = read(cmd_pipe[0], &cmd, sizeof(cmd)); if (ret != sizeof(cmd)) { DPRINTF(E_LOG, L_PLAYER, "Could not read command! (read %d): %s\n", ret, (ret < 0) ? strerror(errno) : "-no error-"); goto readd; } if (cmd->nonblock) { cmd->func(cmd); free(cmd); goto readd; } pthread_mutex_lock(&cmd->lck); cur_cmd = cmd; ret = cmd->func(cmd); if (ret <= 0) { cmd->ret = ret; cur_cmd = NULL; pthread_cond_signal(&cmd->cond); pthread_mutex_unlock(&cmd->lck); } else { /* Command is asynchronous, we don't want to process another command * before we're done with this one. See command_async_end(). */ return; } readd: event_add(cmdev, NULL); } /* Thread: httpd (DACP) - mDNS */ static int send_command(struct player_command *cmd) { int ret; if (!cmd->func) { DPRINTF(E_LOG, L_PLAYER, "BUG: cmd->func is NULL!\n"); return -1; } ret = write(cmd_pipe[1], &cmd, sizeof(cmd)); if (ret != sizeof(cmd)) { DPRINTF(E_LOG, L_PLAYER, "Could not send command: %s\n", strerror(errno)); return -1; } return 0; } /* Thread: mDNS */ static int nonblock_command(struct player_command *cmd) { int ret; ret = send_command(cmd); if (ret < 0) return -1; return 0; } /* Thread: httpd (DACP) */ static int sync_command(struct player_command *cmd) { int ret; pthread_mutex_lock(&cmd->lck); ret = send_command(cmd); if (ret < 0) { pthread_mutex_unlock(&cmd->lck); return -1; } pthread_cond_wait(&cmd->cond, &cmd->lck); pthread_mutex_unlock(&cmd->lck); ret = cmd->ret; return ret; } /* Player API executed in the httpd (DACP) thread */ int player_get_status(struct player_status *status) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = get_status; cmd.func_bh = NULL; cmd.arg.status = status; ret = sync_command(&cmd); command_deinit(&cmd); return ret; } /* * Stores the now playing media item dbmfi-id in the given id pointer. * * @param id Pointer will hold the playing item (dbmfi) id if the function returns 0 * @return 0 on success, -1 on failure (e. g. no playing item found) */ int player_now_playing(uint32_t *id) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = now_playing; cmd.func_bh = NULL; cmd.arg.id_ptr = id; ret = sync_command(&cmd); command_deinit(&cmd); return ret; } char * player_get_icy_artwork_url(uint32_t id) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = artwork_url_get; cmd.func_bh = NULL; cmd.arg.icy.id = id; if (pthread_self() != tid_player) ret = sync_command(&cmd); else ret = artwork_url_get(&cmd); command_deinit(&cmd); if (ret < 0) return NULL; else return cmd.arg.icy.artwork_url; } /* * Starts/resumes playback * * Depending on the player state, this will either resume playing the current item (player is paused) * or begin playing the queue from the beginning. * * If shuffle is set, the queue is reshuffled prior to starting playback. * * If a pointer is given as argument "itemid", its value will be set to the playing item dbmfi-id. * * @param *id if not NULL, will be set to the playing item dbmfi-id * @return 0 if successful, -1 if an error occurred */ int player_playback_start(uint32_t *id) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = playback_start; cmd.func_bh = playback_start_bh; cmd.arg.playback_start_param.id_ptr = id; ret = sync_command(&cmd); command_deinit(&cmd); return ret; } /* * Starts playback with the media item at the given index of the play-queue. * * If shuffle is set, the queue is reshuffled prior to starting playback. * * If a pointer is given as argument "itemid", its value will be set to the playing item id. * * @param index the index of the item in the play-queue * @param *id if not NULL, will be set to the playing item id * @return 0 if successful, -1 if an error occurred */ int player_playback_start_byindex(int index, uint32_t *id) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = playback_start_byindex; cmd.func_bh = playback_start_bh; cmd.arg.playback_start_param.pos = index; cmd.arg.playback_start_param.id_ptr = id; ret = sync_command(&cmd); command_deinit(&cmd); return ret; } /* * Starts playback with the media item at the given position in the UpNext-queue. * The UpNext-queue consists of all items of the play-queue (shuffle off) or shuffle-queue * (shuffle on) after the current playing item (starting with position 0). * * If shuffle is set, the queue is reshuffled prior to starting playback. * * If a pointer is given as argument "itemid", its value will be set to the playing item dbmfi-id. * * @param pos the position in the UpNext-queue (zero-based) * @param *id if not NULL, will be set to the playing item dbmfi-id * @return 0 if successful, -1 if an error occurred */ int player_playback_start_bypos(int pos, uint32_t *id) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = playback_start_bypos; cmd.func_bh = playback_start_bh; cmd.arg.playback_start_param.pos = pos; cmd.arg.playback_start_param.id_ptr = id; ret = sync_command(&cmd); command_deinit(&cmd); return ret; } /* * Starts playback with the media item with the given (queueitem) item-id in queue * * If shuffle is set, the queue is reshuffled prior to starting playback. * * If a pointer is given as argument "itemid", its value will be set to the playing item dbmfi-id. * * @param item_id The queue-item-id * @param *id if not NULL, will be set to the playing item dbmfi-id * @return 0 if successful, -1 if an error occurred */ int player_playback_start_byitemid(uint32_t item_id, uint32_t *id) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = playback_start_byitemid; cmd.func_bh = playback_start_bh; cmd.arg.playback_start_param.id = item_id; cmd.arg.playback_start_param.id_ptr = id; ret = sync_command(&cmd); command_deinit(&cmd); return ret; } int player_playback_stop(void) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = playback_stop; cmd.arg.noarg = NULL; ret = sync_command(&cmd); command_deinit(&cmd); return ret; } int player_playback_pause(void) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = playback_pause; cmd.func_bh = playback_pause_bh; cmd.arg.noarg = NULL; ret = sync_command(&cmd); command_deinit(&cmd); return ret; } int player_playback_seek(int ms) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = playback_pause; cmd.func_bh = playback_seek_bh; cmd.arg.intval = ms; ret = sync_command(&cmd); command_deinit(&cmd); return ret; } int player_playback_next(void) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = playback_pause; cmd.func_bh = playback_next_bh; cmd.arg.noarg = NULL; ret = sync_command(&cmd); command_deinit(&cmd); return ret; } int player_playback_prev(void) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = playback_pause; cmd.func_bh = playback_prev_bh; cmd.arg.noarg = NULL; ret = sync_command(&cmd); command_deinit(&cmd); return ret; } void player_speaker_enumerate(spk_enum_cb cb, void *arg) { struct player_command cmd; struct spk_enum spk_enum; command_init(&cmd); spk_enum.cb = cb; spk_enum.arg = arg; cmd.func = speaker_enumerate; cmd.func_bh = NULL; cmd.arg.spk_enum = &spk_enum; sync_command(&cmd); command_deinit(&cmd); } int player_speaker_set(uint64_t *ids) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = speaker_set; cmd.func_bh = NULL; cmd.arg.raop_ids = ids; ret = sync_command(&cmd); command_deinit(&cmd); return ret; } int player_volume_set(int vol) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = volume_set; cmd.func_bh = NULL; cmd.arg.intval = vol; ret = sync_command(&cmd); command_deinit(&cmd); return ret; } int player_volume_setrel_speaker(uint64_t id, int relvol) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = volume_setrel_speaker; cmd.func_bh = NULL; cmd.arg.vol_param.spk_id = id; cmd.arg.vol_param.volume = relvol; ret = sync_command(&cmd); command_deinit(&cmd); return ret; } int player_volume_setabs_speaker(uint64_t id, int vol) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = volume_setabs_speaker; cmd.func_bh = NULL; cmd.arg.vol_param.spk_id = id; cmd.arg.vol_param.volume = vol; ret = sync_command(&cmd); command_deinit(&cmd); return ret; } int player_repeat_set(enum repeat_mode mode) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = repeat_set; cmd.func_bh = NULL; cmd.arg.mode = mode; ret = sync_command(&cmd); command_deinit(&cmd); return ret; } int player_shuffle_set(int enable) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = shuffle_set; cmd.func_bh = NULL; cmd.arg.intval = enable; ret = sync_command(&cmd); command_deinit(&cmd); return ret; } /* * Returns the queue info for max "count" media items in the UpNext-queue * * The UpNext-queue consists of all items of the play-queue (shuffle off) or shuffle-queue * (shuffle on) after the current playing item (starting with position 0). * * @param count max number of media items to return * @return queue info */ struct queue * player_queue_get_bypos(int count) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = playerqueue_get_bypos; cmd.func_bh = NULL; cmd.arg.queue_get_param.pos = -1; cmd.arg.queue_get_param.count = count; cmd.arg.queue_get_param.queue = NULL; ret = sync_command(&cmd); command_deinit(&cmd); if (ret != 0) return NULL; return cmd.arg.queue_get_param.queue; } /* * Returns the queue info for max "count" media items starting with the item at the given * index in the play-queue * * @param index Index of the play-queue for the first item * @param count max number of media items to return * @return queue info */ struct queue * player_queue_get_byindex(int index, int count) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = playerqueue_get_byindex; cmd.func_bh = NULL; cmd.arg.queue_get_param.pos = index; cmd.arg.queue_get_param.count = count; cmd.arg.queue_get_param.queue = NULL; ret = sync_command(&cmd); command_deinit(&cmd); if (ret != 0) return NULL; return cmd.arg.queue_get_param.queue; } /* * Appends the given media items to the queue */ int player_queue_add(struct queue_item *items) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = playerqueue_add; cmd.func_bh = NULL; cmd.arg.queue_add_param.items = items; ret = sync_command(&cmd); command_deinit(&cmd); return ret; } /* * Adds the given media items directly after the current playing/streaming media item */ int player_queue_add_next(struct queue_item *items) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = playerqueue_add_next; cmd.func_bh = NULL; cmd.arg.queue_add_param.items = items; ret = sync_command(&cmd); command_deinit(&cmd); return ret; } /* * Moves the media item at 'pos_from' to 'pos_to' in the UpNext-queue. * * The UpNext-queue consists of all items of the play-queue (shuffle off) or shuffle-queue * (shuffle on) after the current playing item (starting with position 0). */ int player_queue_move_bypos(int pos_from, int pos_to) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = playerqueue_move_bypos; cmd.func_bh = NULL; cmd.arg.ps_pos[0] = pos_from; cmd.arg.ps_pos[1] = pos_to; ret = sync_command(&cmd); command_deinit(&cmd); return ret; } /* * Removes the media item at the given position from the UpNext-queue * * The UpNext-queue consists of all items of the play-queue (shuffle off) or shuffle-queue * (shuffle on) after the current playing item (starting with position 0). * * @param pos Position in the UpNext-queue (0-based) * @return 0 on success, -1 on failure */ int player_queue_remove_bypos(int pos) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = playerqueue_remove_bypos; cmd.func_bh = NULL; cmd.arg.intval = pos; ret = sync_command(&cmd); command_deinit(&cmd); return ret; } /* * Removes the item with the given (queueitem) item id from the queue * * @param id Id of the queue item to remove * @return 0 on success, -1 on failure */ int player_queue_remove_byitemid(uint32_t id) { struct player_command cmd; int ret; command_init(&cmd); cmd.func = playerqueue_remove_byitemid; cmd.func_bh = NULL; cmd.arg.id = id; ret = sync_command(&cmd); command_deinit(&cmd); return ret; } void player_queue_clear(void) { struct player_command cmd; command_init(&cmd); cmd.func = playerqueue_clear; cmd.func_bh = NULL; cmd.arg.noarg = NULL; sync_command(&cmd); command_deinit(&cmd); } void player_queue_clear_history() { struct player_command cmd; command_init(&cmd); cmd.func = playerqueue_clear_history; cmd.func_bh = NULL; sync_command(&cmd); command_deinit(&cmd); } void player_queue_plid(uint32_t plid) { struct player_command cmd; command_init(&cmd); cmd.func = playerqueue_plid; cmd.func_bh = NULL; cmd.arg.id = plid; sync_command(&cmd); command_deinit(&cmd); } /* Non-blocking commands used by mDNS */ static void player_device_add(struct raop_device *rd) { struct player_command *cmd; int ret; cmd = (struct player_command *)malloc(sizeof(struct player_command)); if (!cmd) { DPRINTF(E_LOG, L_PLAYER, "Could not allocate player_command\n"); device_free(rd); return; } memset(cmd, 0, sizeof(struct player_command)); cmd->nonblock = 1; cmd->func = device_add; cmd->arg.rd = rd; ret = nonblock_command(cmd); if (ret < 0) { free(cmd); device_free(rd); return; } } static void player_device_remove(struct raop_device *rd) { struct player_command *cmd; int ret; cmd = (struct player_command *)malloc(sizeof(struct player_command)); if (!cmd) { DPRINTF(E_LOG, L_PLAYER, "Could not allocate player_command\n"); device_free(rd); return; } memset(cmd, 0, sizeof(struct player_command)); cmd->nonblock = 1; cmd->func = device_remove_family; cmd->arg.rd = rd; ret = nonblock_command(cmd); if (ret < 0) { free(cmd); device_free(rd); return; } } /* Thread: worker */ static void player_metadata_send(struct player_metadata *pmd) { struct player_command cmd; command_init(&cmd); cmd.func = metadata_send; cmd.func_bh = NULL; cmd.arg.pmd = pmd; sync_command(&cmd); command_deinit(&cmd); } /* RAOP devices discovery - mDNS callback */ /* Thread: main (mdns) */ /* Examples of txt content: * Apple TV 2: ["sf=0x4" "am=AppleTV2,1" "vs=130.14" "vn=65537" "tp=UDP" "ss=16" "sr=4 4100" "sv=false" "pw=false" "md=0,1,2" "et=0,3,5" "da=true" "cn=0,1,2,3" "ch=2"] ["sf=0x4" "am=AppleTV2,1" "vs=105.5" "md=0,1,2" "tp=TCP,UDP" "vn=65537" "pw=false" "ss=16" "sr=44100" "da=true" "sv=false" "et=0,3" "cn=0,1" "ch=2" "txtvers=1"] * Apple TV 3: ["vv=2" "vs=200.54" "vn=65537" "tp=UDP" "sf=0x44" "pk=8...f" "am=AppleTV3,1" "md=0,1,2" "ft=0x5A7FFFF7,0xE" "et=0,3,5" "da=true" "cn=0,1,2,3"] * Sony STR-DN1040: ["fv=s9327.1090.0" "am=STR-DN1040" "vs=141.9" "vn=65537" "tp=UDP" "ss=16" "sr=44100" "sv=false" "pw=false" "md=0,2" "ft=0x44F0A00" "et=0,4" "da=true" "cn=0,1" "ch=2" "txtvers=1"] * AirFoil: ["rastx=iafs" "sm=false" "raver=3.5.3.0" "ek=1" "md=0,1,2" "ramach=Win32NT.6" "et=0,1" "cn=0,1" "sr=44100" "ss=16" "raAudioFormats=ALAC" "raflakyzeroconf=true" "pw=false" "rast=afs" "vn=3" "sv=false" "txtvers=1" "ch=2" "tp=UDP"] * Xbmc 13: ["am=Xbmc,1" "md=0,1,2" "vs=130.14" "da=true" "vn=3" "pw=false" "sr=44100" "ss=16" "sm=false" "tp=UDP" "sv=false" "et=0,1" "ek=1" "ch=2" "cn=0,1" "txtvers=1"] * Shairport (abrasive/1.0): ["pw=false" "txtvers=1" "vn=3" "sr=44100" "ss=16" "ch=2" "cn=0,1" "et=0,1" "ek=1" "sm=false" "tp=UDP"] * JB2: ["fv=95.8947" "am=JB2 Gen" "vs=103.2" "tp=UDP" "vn=65537" "pw=false" "s s=16" "sr=44100" "da=true" "sv=false" "et=0,4" "cn=0,1" "ch=2" "txtvers=1"] * Airport Express 802.11g (Gen 1): ["tp=TCP,UDP" "sm=false" "sv=false" "ek=1" "et=0,1" "cn=0,1" "ch=2" "ss=16" "sr=44100" "pw=false" "vn=3" "txtvers=1"] * Airport Express 802.11n: 802.11n Gen 2 model (firmware 7.6.4): "am=Airport4,107", "et=0,1" 802.11n Gen 3 model (firmware 7.6.4): "am=Airport10,115", "et=0,4" */ static void raop_device_cb(const char *name, const char *type, const char *domain, const char *hostname, int family, const char *address, int port, struct keyval *txt) { struct raop_device *rd; cfg_t *airplay; const char *p; char *at_name; char *password; uint64_t id; int ret; ret = safe_hextou64(name, &id); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Could not extract AirPlay device ID (%s)\n", name); return; } at_name = strchr(name, '@'); if (!at_name) { DPRINTF(E_LOG, L_PLAYER, "Could not extract AirPlay device name (%s)\n", name); return; } at_name++; DPRINTF(E_DBG, L_PLAYER, "Event for AirPlay device %" PRIx64 "/%s (%d)\n", id, at_name, port); rd = (struct raop_device *)malloc(sizeof(struct raop_device)); if (!rd) { DPRINTF(E_LOG, L_PLAYER, "Out of memory for new AirPlay device\n"); return; } memset(rd, 0, sizeof(struct raop_device)); rd->id = id; rd->name = strdup(at_name); if (port < 0) { /* Device stopped advertising */ switch (family) { case AF_INET: rd->v4_port = 1; break; case AF_INET6: rd->v6_port = 1; break; } player_device_remove(rd); return; } /* Protocol */ p = keyval_get(txt, "tp"); if (!p) { DPRINTF(E_LOG, L_PLAYER, "AirPlay %s: no tp field in TXT record!\n", name); goto free_rd; } if (*p == '\0') { DPRINTF(E_LOG, L_PLAYER, "AirPlay %s: tp has no value\n", name); goto free_rd; } if (!strstr(p, "UDP")) { DPRINTF(E_LOG, L_PLAYER, "AirPlay %s: device does not support AirTunes v2 (tp=%s), discarding\n", name, p); goto free_rd; } /* Password protection */ password = NULL; p = keyval_get(txt, "pw"); if (!p) { DPRINTF(E_INFO, L_PLAYER, "AirPlay %s: no pw field in TXT record, assuming no password protection\n", name); rd->has_password = 0; } else if (*p == '\0') { DPRINTF(E_LOG, L_PLAYER, "AirPlay %s: pw has no value\n", name); goto free_rd; } else { rd->has_password = (strcmp(p, "false") != 0); } if (rd->has_password) { DPRINTF(E_LOG, L_PLAYER, "AirPlay device %s is password-protected\n", name); airplay = cfg_gettsec(cfg, "airplay", at_name); if (airplay) password = cfg_getstr(airplay, "password"); if (!password) DPRINTF(E_LOG, L_PLAYER, "No password given in config for AirPlay device %s\n", name); } rd->password = password; /* Device type */ rd->devtype = RAOP_DEV_OTHER; p = keyval_get(txt, "am"); if (!p) rd->devtype = RAOP_DEV_APEX1_80211G; // First generation AirPort Express else if (strncmp(p, "AirPort4", strlen("AirPort4")) == 0) rd->devtype = RAOP_DEV_APEX2_80211N; // Second generation else if (strncmp(p, "AirPort", strlen("AirPort")) == 0) rd->devtype = RAOP_DEV_APEX3_80211N; // Third generation and newer else if (strncmp(p, "AppleTV", strlen("AppleTV")) == 0) rd->devtype = RAOP_DEV_APPLETV; else if (*p == '\0') DPRINTF(E_LOG, L_PLAYER, "AirPlay %s: am has no value\n", name); /* Encrypt stream */ p = keyval_get(txt, "ek"); if (p && (*p == '1')) rd->encrypt = 1; else rd->encrypt = 0; /* Metadata support */ p = keyval_get(txt, "md"); if (p && (*p != '\0')) rd->wants_metadata = 1; else rd->wants_metadata = 0; DPRINTF(E_INFO, L_PLAYER, "AirPlay device %s: password: %u, encrypt: %u, metadata: %u, type %s\n", name, rd->has_password, rd->encrypt, rd->wants_metadata, raop_devtype[rd->devtype]); rd->advertised = 1; switch (family) { case AF_INET: rd->v4_address = strdup(address); rd->v4_port = port; break; case AF_INET6: rd->v6_address = strdup(address); rd->v6_port = port; break; } player_device_add(rd); return; free_rd: device_free(rd); } /* Thread: player */ static void * player(void *arg) { struct raop_device *rd; int ret; ret = db_perthread_init(); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Error: DB init failed\n"); pthread_exit(NULL); } event_base_dispatch(evbase_player); if (!player_exit) DPRINTF(E_LOG, L_PLAYER, "Player event loop terminated ahead of time!\n"); /* Save selected devices */ db_speaker_clear_all(); ret = db_speaker_save(0, laudio_selected, laudio_volume); if (ret < 0) DPRINTF(E_LOG, L_PLAYER, "Could not save state for local audio\n"); for (rd = dev_list; rd; rd = rd->next) { ret = db_speaker_save(rd->id, rd->selected, rd->volume); if (ret < 0) DPRINTF(E_LOG, L_PLAYER, "Could not save state for speaker %s\n", rd->name); } db_perthread_deinit(); pthread_exit(NULL); } /* Thread: player */ static void exit_cb(int fd, short what, void *arg) { event_base_loopbreak(evbase_player); player_exit = 1; } /* Thread: main */ int player_init(void) { uint32_t rnd; int raop_v6enabled; int mdns_flags; int ret; player_exit = 0; dev_autoselect = 1; dev_list = NULL; master_volume = -1; laudio_selected = 0; laudio_status = LAUDIO_CLOSED; raop_sessions = 0; cur_cmd = NULL; cur_playing = NULL; cur_streaming = NULL; cur_plid = 0; cur_plversion = 0; player_state = PLAY_STOPPED; repeat = REPEAT_OFF; shuffle = 0; queue = queue_new(); history = (struct player_history *)calloc(1, sizeof(struct player_history)); /* * Determine if the resolution of the system timer is > or < the size * of an audio packet. NOTE: this assumes the system clock resolution * is less than one second. */ if (clock_getres(CLOCK_MONOTONIC, &timer_res) < 0) { DPRINTF(E_LOG, L_PLAYER, "Could not get the system timer resolution.\n"); return -1; } #if defined(__FreeBSD__) || defined(__FreeBSD_kernel__) /* FreeBSD will report a resolution of 1, but actually has a resolution * larger than an audio packet */ if (timer_res.tv_nsec == 1) timer_res.tv_nsec = 2 * AIRTUNES_V2_STREAM_PERIOD; #endif MINIMUM_STREAM_PERIOD = MAX(timer_res.tv_nsec, AIRTUNES_V2_STREAM_PERIOD); /* Create a timer */ #if defined(__linux__) pb_timer_fd = timerfd_create(CLOCK_MONOTONIC, TFD_CLOEXEC); ret = pb_timer_fd; #else ret = timer_create(CLOCK_MONOTONIC, NULL, &pb_timer); #endif if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Could not create playback timer: %s\n", strerror(errno)); return -1; } /* Random RTP time start */ gcry_randomize(&rnd, sizeof(rnd), GCRY_STRONG_RANDOM); last_rtptime = ((uint64_t)1 << 32) | rnd; ret = db_speaker_get(0, &laudio_selected, &laudio_volume); if (ret < 0) laudio_volume = PLAYER_DEFAULT_VOLUME; else if (laudio_selected) speaker_select_laudio(); /* Run the select helper */ audio_buf = evbuffer_new(); if (!audio_buf) { DPRINTF(E_LOG, L_PLAYER, "Could not allocate evbuffer for audio buffer\n"); goto audio_fail; } raop_v6enabled = cfg_getbool(cfg_getsec(cfg, "general"), "ipv6"); #if defined(__linux__) ret = pipe2(exit_pipe, O_CLOEXEC); #else ret = pipe(exit_pipe); #endif if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Could not create pipe: %s\n", strerror(errno)); goto exit_fail; } # if defined(__linux__) ret = pipe2(cmd_pipe, O_CLOEXEC); # else ret = pipe(cmd_pipe); # endif if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Could not create command pipe: %s\n", strerror(errno)); goto cmd_fail; } evbase_player = event_base_new(); if (!evbase_player) { DPRINTF(E_LOG, L_PLAYER, "Could not create an event base\n"); goto evbase_fail; } #ifdef HAVE_LIBEVENT2 exitev = event_new(evbase_player, exit_pipe[0], EV_READ, exit_cb, NULL); if (!exitev) { DPRINTF(E_LOG, L_PLAYER, "Could not create exit event\n"); goto evnew_fail; } cmdev = event_new(evbase_player, cmd_pipe[0], EV_READ, command_cb, NULL); if (!cmdev) { DPRINTF(E_LOG, L_PLAYER, "Could not create cmd event\n"); goto evnew_fail; } # if defined(__linux__) pb_timer_ev = event_new(evbase_player, pb_timer_fd, EV_READ, player_playback_cb, NULL); # else pb_timer_ev = evsignal_new(evbase_player, SIGALRM, player_playback_cb, NULL); # endif if (!pb_timer_ev) { DPRINTF(E_LOG, L_PLAYER, "Could not create playback timer event\n"); goto evnew_fail; } #else exitev = (struct event *)malloc(sizeof(struct event)); if (!exitev) { DPRINTF(E_LOG, L_PLAYER, "Could not create exit event\n"); goto evnew_fail; } event_set(exitev, exit_pipe[0], EV_READ, exit_cb, NULL); event_base_set(evbase_player, exitev); cmdev = (struct event *)malloc(sizeof(struct event)); if (!cmdev) { DPRINTF(E_LOG, L_PLAYER, "Could not create cmd event\n"); goto evnew_fail; } event_set(cmdev, cmd_pipe[0], EV_READ, command_cb, NULL); event_base_set(evbase_player, cmdev); pb_timer_ev = (struct event *)malloc(sizeof(struct event)); if (!pb_timer_ev) { DPRINTF(E_LOG, L_PLAYER, "Could not create playback timer event\n"); goto evnew_fail; } # if defined(__linux__) event_set(pb_timer_ev, pb_timer_fd, EV_READ, player_playback_cb, NULL); # else signal_set(pb_timer_ev, SIGALRM, player_playback_cb, NULL); # endif event_base_set(evbase_player, pb_timer_ev); #endif /* HAVE_LIBEVENT2 */ event_add(exitev, NULL); event_add(cmdev, NULL); #ifndef __linux__ event_add(pb_timer_ev, NULL); #endif ret = laudio_init(player_laudio_status_cb); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Local audio init failed\n"); goto laudio_fail; } ret = raop_init(&raop_v6enabled); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "RAOP init failed\n"); goto raop_fail; } if (raop_v6enabled) mdns_flags = MDNS_WANT_V4 | MDNS_WANT_V6 | MDNS_WANT_V6LL; else mdns_flags = MDNS_WANT_V4; ret = mdns_browse("_raop._tcp", mdns_flags, raop_device_cb); if (ret < 0) { DPRINTF(E_FATAL, L_PLAYER, "Could not add mDNS browser for AirPlay devices\n"); goto mdns_browse_fail; } ret = pthread_create(&tid_player, NULL, player, NULL); if (ret < 0) { DPRINTF(E_LOG, L_PLAYER, "Could not spawn player thread: %s\n", strerror(errno)); goto thread_fail; } return 0; thread_fail: mdns_browse_fail: raop_deinit(); raop_fail: laudio_deinit(); laudio_fail: evnew_fail: event_base_free(evbase_player); evbase_fail: close(cmd_pipe[0]); close(cmd_pipe[1]); cmd_fail: close(exit_pipe[0]); close(exit_pipe[1]); exit_fail: evbuffer_free(audio_buf); audio_fail: #if defined(__linux__) close(pb_timer_fd); #else timer_delete(pb_timer); #endif return -1; } /* Thread: main */ void player_deinit(void) { int ret; int dummy = 42; ret = write(exit_pipe[1], &dummy, sizeof(dummy)); if (ret != sizeof(dummy)) { DPRINTF(E_LOG, L_PLAYER, "Could not write to exit pipe: %s\n", strerror(errno)); return; } ret = pthread_join(tid_player, NULL); if (ret != 0) { DPRINTF(E_LOG, L_PLAYER, "Could not join HTTPd thread: %s\n", strerror(errno)); return; } queue_free(queue); free(history); pb_timer_stop(); #if defined(__linux__) close(pb_timer_fd); #else timer_delete(pb_timer); #endif evbuffer_free(audio_buf); laudio_deinit(); raop_deinit(); close(exit_pipe[0]); close(exit_pipe[1]); close(cmd_pipe[0]); close(cmd_pipe[1]); cmd_pipe[0] = -1; cmd_pipe[1] = -1; event_base_free(evbase_player); }