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streamer.c
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streamer.c
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/*
DeaDBeeF - ultimate music player for GNU/Linux systems with X11
Copyright (C) 2009-2011 Alexey Yakovenko <[email protected]>
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, see <http://www.gnu.org/licenses/>.
*/
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <assert.h>
#include <unistd.h>
#ifdef __linux__
#include <sys/prctl.h>
#endif
#include <sys/time.h>
#include <errno.h>
#include "threading.h"
#include "playlist.h"
#include "common.h"
#include "streamer.h"
#include "messagepump.h"
#include "conf.h"
#include "plugins.h"
#include "optmath.h"
#include "volume.h"
#include "vfs.h"
#include "premix.h"
#include "ringbuf.h"
#include "replaygain.h"
//#define trace(...) { fprintf(stderr, __VA_ARGS__); }
#define trace(fmt,...)
//#define WRITE_DUMP 1
//#define DETECT_PL_LOCK_RC 1
#if WRITE_DUMP
FILE *out;
#endif
#define MAX_PLAYLIST_DOWNLOAD_SIZE 25000
static int
streamer_read_async (char *bytes, int size);
static int
streamer_set_output_format (void);
static intptr_t streamer_tid;
static ddb_dsp_context_t *dsp_chain;
static float dsp_ratio = 1;
static DB_dsp_t *eqplug;
static ddb_dsp_context_t *eq;
static int dsp_on = 0;
static int autoconv_8_to_16 = 1;
static int streaming_terminate;
// buffer up to 3 seconds at 44100Hz stereo
#define STREAM_BUFFER_SIZE 0x80000 // slightly more than 3 seconds of 44100 stereo
// how much bigger should read-buffer be to allow upsampling.
// e.g. 8000Hz -> 192000Hz upsampling requires 24x buffer size,
// so if we originally request 4096 bytes blocks -
// that will require 24x buffer size, which is 98304 bytes buffer
#define MAX_DSP_RATIO 24
#define MIN_BLOCK_SIZE 4096
#define MAX_BLOCK_SIZE 16384
#define READBUFFER_SIZE (MAX_BLOCK_SIZE * MAX_DSP_RATIO)
static char readbuffer[READBUFFER_SIZE];
static ringbuf_t streamer_ringbuf;
static char streambuffer[STREAM_BUFFER_SIZE];
static int bytes_until_next_song = 0;
static uintptr_t mutex;
static uintptr_t decodemutex;
static int nextsong = -1;
static int nextsong_pstate = -1;
static int badsong = -1;
static float seekpos = -1;
static float playpos = 0; // play position of current song
static int avg_bitrate = -1; // avg bitrate of current song
static int last_bitrate = -1; // last bitrate of current song
static playlist_t *streamer_playlist;
static playItem_t *playing_track;
static float playtime; // total playtime of playing track
static time_t started_timestamp; // result of calling time(NULL)
static playItem_t *streaming_track;
static playItem_t *playlist_track;
static ddb_waveformat_t output_format; // format that was requested after DSP
static ddb_waveformat_t orig_output_format; // format that was requested before DSP
static int formatchanged;
static DB_fileinfo_t *fileinfo;
static DB_fileinfo_t *new_fileinfo;
static int streamer_buffering;
// to allow interruption of stall file requests
static DB_FILE *streamer_file;
#if DETECT_PL_LOCK_RC
volatile pthread_t streamer_lock_tid = 0;
#endif
void
streamer_lock (void) {
#if DETECT_PL_LOCK_RC
extern pthread_t pl_lock_tid;
assert (pl_lock_tid != pthread_self()); // not permitted to lock streamer from inside of pl_lock
#endif
mutex_lock (mutex);
#if DETECT_PL_LOCK_RC
streamer_lock_tid = pthread_self();
#endif
}
void
streamer_unlock (void) {
#if DETECT_PL_LOCK_RC
streamer_lock_tid = 0;
#endif
mutex_unlock (mutex);
}
static void
streamer_abort_files (void) {
trace ("\033[0;33mstreamer_abort_files\033[37;0m\n");
mutex_lock (decodemutex);
if (fileinfo && fileinfo->file) {
deadbeef->fabort (fileinfo->file);
}
if (new_fileinfo && new_fileinfo->file) {
deadbeef->fabort (new_fileinfo->file);
}
if (streamer_file) {
deadbeef->fabort (streamer_file);
}
mutex_unlock (decodemutex);
}
void
streamer_set_replaygain (playItem_t *it) {
// setup replaygain
pl_lock ();
const char *gain;
gain = pl_find_meta (it, ":REPLAYGAIN_ALBUMGAIN");
float albumgain = gain ? atof (gain) : 1000;
float albumpeak = pl_get_item_replaygain (it, DDB_REPLAYGAIN_ALBUMPEAK);
gain = pl_find_meta (it, ":REPLAYGAIN_TRACKGAIN");
float trackgain = gain ? atof (gain) : 1000;
float trackpeak = pl_get_item_replaygain (it, DDB_REPLAYGAIN_TRACKPEAK);
pl_unlock ();
replaygain_set_values (albumgain, albumpeak, trackgain, trackpeak);
}
static void
send_songstarted (playItem_t *trk) {
ddb_event_track_t *pev = (ddb_event_track_t *)messagepump_event_alloc (DB_EV_SONGSTARTED);
pev->track = DB_PLAYITEM (trk);
pl_item_ref (trk);
pev->playtime = 0;
pev->started_timestamp = time(NULL);
messagepump_push_event ((ddb_event_t*)pev, 0, 0);
}
static void
send_songfinished (playItem_t *trk) {
ddb_event_track_t *pev = (ddb_event_track_t *)messagepump_event_alloc (DB_EV_SONGFINISHED);
pev->track = DB_PLAYITEM (trk);
pl_item_ref (trk);
pev->playtime = playtime;
pev->started_timestamp = started_timestamp;
messagepump_push_event ((ddb_event_t*)pev, 0, 0);
}
static void
send_trackchanged (playItem_t *from, playItem_t *to) {
ddb_event_trackchange_t *event = (ddb_event_trackchange_t *)messagepump_event_alloc (DB_EV_SONGCHANGED);
event->playtime = playtime;
event->started_timestamp = started_timestamp;
if (from) {
pl_item_ref (from);
}
if (to) {
pl_item_ref (to);
}
event->from = (DB_playItem_t *)from;
event->to = (DB_playItem_t *)to;
messagepump_push_event ((ddb_event_t *)event, 0, 0);
}
void
streamer_start_playback (playItem_t *from, playItem_t *it) {
if (from) {
pl_item_ref (from);
}
if (it) {
pl_item_ref (it);
}
// free old copy of playing
if (playing_track) {
pl_item_unref (playing_track);
playing_track = NULL;
}
pl_lock ();
playlist_track = it;
pl_unlock ();
// assign new
playing_track = it;
if (playing_track) {
pl_item_ref (playing_track);
playing_track->played = 1;
trace ("from=%p (%s), to=%p (%s) [2]\n", from, from ? pl_find_meta (from, ":URI") : "null", it, it ? pl_find_meta (it, ":URI") : "null");
send_trackchanged (from, it);
started_timestamp = time (NULL);
}
if (from) {
pl_item_unref (from);
}
if (it) {
pl_item_unref (it);
}
trace ("streamer_start_playback %s\n", playing_track ? pl_find_meta (playing_track, ":URI") : "null");
}
playItem_t *
streamer_get_streaming_track (void) {
if (streaming_track) {
pl_item_ref (streaming_track);
}
return streaming_track;
}
playItem_t *
streamer_get_playing_track (void) {
playItem_t *it = playing_track;// ? playing_track : playlist_track;
if (it) {
pl_item_ref (it);
}
return it;
}
int
str_get_idx_of (playItem_t *it) {
pl_lock ();
if (!streamer_playlist) {
streamer_playlist = plt_get_curr ();
}
playItem_t *c = streamer_playlist->head[PL_MAIN];
int idx = 0;
while (c && c != it) {
c = c->next[PL_MAIN];
idx++;
}
if (!c) {
pl_unlock ();
return -1;
}
pl_unlock ();
return idx;
}
playItem_t *
str_get_for_idx (int idx) {
pl_lock ();
if (!streamer_playlist) {
streamer_playlist = plt_get_curr ();
}
playItem_t *it = streamer_playlist->head[PL_MAIN];
while (idx--) {
if (!it) {
pl_unlock ();
return NULL;
}
it = it->next[PL_MAIN];
}
if (it) {
pl_item_ref (it);
}
pl_unlock ();
return it;
}
static void
send_trackinfochanged (playItem_t *track) {
ddb_event_track_t *ev = (ddb_event_track_t *)messagepump_event_alloc (DB_EV_TRACKINFOCHANGED);
ev->track = DB_PLAYITEM (track);
if (track) {
pl_item_ref (track);
}
messagepump_push_event ((ddb_event_t*)ev, 0, 0);
}
int
streamer_move_to_nextsong (int reason) {
trace ("streamer_move_to_nextsong (%d)\n", reason);
pl_lock ();
if (!streamer_playlist) {
streamer_playlist = plt_get_curr ();
}
while (pl_playqueue_getcount ()) {
trace ("pl_playqueue_getnext\n");
playItem_t *it = pl_playqueue_getnext ();
if (it) {
pl_playqueue_pop ();
int r = str_get_idx_of (it);
if (r >= 0) {
pl_item_unref (it);
pl_unlock ();
streamer_set_nextsong (r, 1);
return 0;
}
else {
trace ("%s not found in current streaming playlist\n", pl_find_meta (it, ":URI"));
playlist_t *p = pl_get_playlist (it);
if (p) {
if (streamer_playlist) {
plt_unref (streamer_playlist);
}
streamer_playlist = p;
int r = str_get_idx_of (it);
if (r >= 0) {
pl_item_unref (it);
pl_unlock ();
streamer_set_nextsong (r, 3);
return 0;
}
}
trace ("%s not found in any playlists\n", pl_find_meta (it, ":URI"));
pl_item_unref (it);
}
}
}
playItem_t *curr = playlist_track;
if (reason == 1) {
if (streamer_playlist) {
plt_unref (streamer_playlist);
}
streamer_playlist = plt_get_curr ();
// check if prev song is in this playlist
if (-1 == str_get_idx_of (curr)) {
curr = NULL;
}
}
playlist_t *plt = streamer_playlist;
if (!plt->head[PL_MAIN]) {
pl_unlock ();
streamer_set_nextsong (-2, 1);
return 0;
}
int pl_order = pl_get_order ();
int pl_loop_mode = conf_get_int ("playback.loop", 0);
if (reason == 0 && pl_loop_mode == PLAYBACK_MODE_LOOP_SINGLE) { // song finished, loop mode is "loop 1 track"
int r = str_get_idx_of (playing_track);
pl_unlock ();
if (r == -1) {
streamer_set_nextsong (-2, 1);
}
else {
streamer_set_nextsong (r, 1);
}
return 0;
}
if (pl_order == PLAYBACK_ORDER_SHUFFLE_TRACKS || pl_order == PLAYBACK_ORDER_SHUFFLE_ALBUMS) { // shuffle
if (!curr || pl_order == PLAYBACK_ORDER_SHUFFLE_TRACKS) {
// find minimal notplayed
playItem_t *pmin = NULL; // notplayed minimum
for (playItem_t *i = plt->head[PL_MAIN]; i; i = i->next[PL_MAIN]) {
if (i->played) {
continue;
}
if (!pmin || i->shufflerating < pmin->shufflerating) {
pmin = i;
}
}
playItem_t *it = pmin;
if (!it) {
// all songs played, reshuffle and try again
if (pl_loop_mode == PLAYBACK_MODE_LOOP_ALL) { // loop
plt_reshuffle (streamer_playlist, &it, NULL);
}
}
if (!it) {
streamer_buffering = 0;
send_trackinfochanged (streaming_track);
playItem_t *temp;
plt_reshuffle (streamer_playlist, &temp, NULL);
pl_unlock ();
streamer_set_nextsong (-2, -2);
return -1;
}
int r = str_get_idx_of (it);
pl_unlock ();
streamer_set_nextsong (r, 1);
return 0;
}
else {
trace ("pl_next_song: reason=%d, loop=%d\n", reason, pl_loop_mode);
// find minimal notplayed above current
int rating = curr->shufflerating;
playItem_t *pmin = NULL; // notplayed minimum
for (playItem_t *i = plt->head[PL_MAIN]; i; i = i->next[PL_MAIN]) {
if (i->played || i->shufflerating < rating) {
continue;
}
if (!pmin || i->shufflerating < pmin->shufflerating) {
pmin = i;
}
}
playItem_t *it = pmin;
if (!it) {
// all songs played, reshuffle and try again
if (pl_loop_mode == PLAYBACK_MODE_LOOP_ALL || reason == 1) { // loop
trace ("all songs played! reshuffle\n");
plt_reshuffle (streamer_playlist, &it, NULL);
}
}
if (!it) {
streamer_buffering = 0;
send_trackinfochanged (streaming_track);
playItem_t *temp;
plt_reshuffle (streamer_playlist, &temp, NULL);
pl_unlock ();
streamer_set_nextsong (-2, -2);
return -1;
}
int r = str_get_idx_of (it);
pl_unlock ();
streamer_set_nextsong (r, 1);
return 0;
}
}
else if (pl_order == PLAYBACK_ORDER_LINEAR) { // linear
playItem_t *it = NULL;
if (curr) {
it = curr->next[PL_MAIN];
}
else {
it = streamer_playlist->head[PL_MAIN];
}
if (!it) {
trace ("streamer_move_nextsong: was last track\n");
if (pl_loop_mode == PLAYBACK_MODE_LOOP_ALL) {
it = plt->head[PL_MAIN];
}
else {
streamer_buffering = 0;
send_trackinfochanged (streaming_track);
badsong = -1;
pl_unlock ();
streamer_set_nextsong (-2, -2);
return 0;
}
}
if (!it) {
pl_unlock ();
return -1;
}
int r = str_get_idx_of (it);
pl_unlock ();
streamer_set_nextsong (r, 1);
return 0;
}
else if (pl_order == PLAYBACK_ORDER_RANDOM) { // random
pl_unlock ();
int res = streamer_move_to_randomsong ();
if (res == -1) {
trace ("streamer_move_to_randomsong error\n");
streamer_set_nextsong (-2, 1);
return -1;
}
return 0;
}
pl_unlock ();
return -1;
}
int
streamer_move_to_prevsong (void) {
pl_lock ();
if (streamer_playlist) {
plt_unref (streamer_playlist);
}
streamer_playlist = plt_get_curr ();
// check if prev song is in this playlist
if (-1 == str_get_idx_of (playlist_track)) {
playlist_track = NULL;
}
playlist_t *plt = streamer_playlist;
pl_playqueue_clear ();
if (!plt->head[PL_MAIN]) {
pl_unlock ();
streamer_set_nextsong (-2, 1);
return 0;
}
int pl_order = conf_get_int ("playback.order", 0);
int pl_loop_mode = conf_get_int ("playback.loop", 0);
if (pl_order == PLAYBACK_ORDER_SHUFFLE_TRACKS || pl_order == PLAYBACK_ORDER_SHUFFLE_ALBUMS) { // shuffle
if (!playlist_track) {
pl_unlock ();
return streamer_move_to_nextsong (1);
}
else {
playlist_track->played = 0;
// find already played song with maximum shuffle rating below prev song
int rating = playlist_track->shufflerating;
playItem_t *pmax = NULL; // played maximum
playItem_t *amax = NULL; // absolute maximum
for (playItem_t *i = plt->head[PL_MAIN]; i; i = i->next[PL_MAIN]) {
if (i != playlist_track && i->played && (!amax || i->shufflerating > amax->shufflerating)) {
amax = i;
}
if (i == playlist_track || i->shufflerating > rating || !i->played) {
continue;
}
if (!pmax || i->shufflerating > pmax->shufflerating) {
pmax = i;
}
}
if (pmax && pl_order == PLAYBACK_ORDER_SHUFFLE_ALBUMS) {
while (pmax && pmax->next[PL_MAIN] && pmax->next[PL_MAIN]->played && pmax->shufflerating == pmax->next[PL_MAIN]->shufflerating) {
pmax = pmax->next[PL_MAIN];
}
}
playItem_t *it = pmax;
if (!it) {
// that means 1st in playlist, take amax
if (pl_loop_mode == PLAYBACK_MODE_LOOP_ALL) {
if (!amax) {
plt_reshuffle (streamer_playlist, NULL, &amax);
}
it = amax;
}
}
if (!it) {
pl_unlock ();
streamer_set_nextsong (-2, 1);
return -1;
}
int r = str_get_idx_of (it);
pl_unlock ();
streamer_set_nextsong (r, 1);
return 0;
}
}
else if (pl_order == PLAYBACK_ORDER_LINEAR) { // linear
playItem_t *it = NULL;
if (playlist_track) {
it = playlist_track->prev[PL_MAIN];
}
if (!it) {
if (pl_loop_mode == PLAYBACK_MODE_LOOP_ALL) {
it = plt->tail[PL_MAIN];
}
}
if (!it) {
pl_unlock ();
streamer_set_nextsong (-2, 1);
return -1;
}
int r = str_get_idx_of (it);
pl_unlock ();
streamer_set_nextsong (r, 1);
return 0;
}
else if (pl_order == PLAYBACK_ORDER_RANDOM) { // random
pl_unlock ();
int res = streamer_move_to_randomsong ();
if (res == -1) {
streamer_set_nextsong (-2, 1);
trace ("streamer_move_to_randomsong error\n");
return -1;
}
return 0;
}
pl_unlock ();
return -1;
}
int
streamer_move_to_randomsong (void) {
if (!streamer_playlist) {
streamer_playlist = plt_get_curr ();
}
playlist_t *plt = streamer_playlist;
int cnt = plt->count[PL_MAIN];
if (!cnt) {
trace ("empty playlist\n");
return -1;
}
int curr = str_get_idx_of (playing_track);
int r = rand () / (float)RAND_MAX * cnt;
if (r == curr) {
r++;
if (r >= cnt) {
r = 0;
}
}
if (pl_get_order () == PLAYBACK_ORDER_SHUFFLE_ALBUMS) {
plt_init_shuffle_albums (plt, r);
}
streamer_set_nextsong (r, 1);
return 0;
}
// playlist must call that whenever item was removed
void
streamer_song_removed_notify (playItem_t *it) {
if (!mutex) {
return; // streamer is not running
}
if (it == playlist_track) {
playlist_track = playlist_track->prev[PL_MAIN];
}
}
// that must be called after last sample from str_playing_song was done reading
static int
streamer_set_current (playItem_t *it) {
trace ("streamer_set_current %s\n", playing_track ? pl_find_meta (playing_track, ":URI") : "null");
DB_output_t *output = plug_get_output ();
int err = 0;
int do_songstarted = 0;
playItem_t *from, *to;
// need to add refs here, because streamer_start_playback can destroy items
from = playing_track;
to = it;
if (from) {
pl_item_ref (from);
}
if (to) {
pl_item_ref (to);
}
trace ("\033[0;35mstreamer_set_current from %p to %p\033[37;0m\n", from, it);
if (!playing_track || output->state () == OUTPUT_STATE_STOPPED) {
streamer_buffering = 1;
trace ("\033[0;35mstreamer_start_playback[1] from %p to %p\033[37;0m\n", from, it);
do_songstarted = 1;
streamer_start_playback (from, it);
bytes_until_next_song = -1;
}
trace ("streamer_set_current %p, buns=%d\n", it, bytes_until_next_song);
mutex_lock (decodemutex);
if (streaming_track) {
pl_item_unref (streaming_track);
streaming_track = NULL;
}
mutex_unlock (decodemutex);
if (!it) {
goto success;
}
if (to) {
trace ("draw before init: %p->%p, playing_track=%p, playlist_track=%p\n", from, to, playing_track, playlist_track);
send_trackinfochanged (to);
}
if (from) {
send_trackinfochanged (from);
}
char decoder_id[100] = "";
char filetype[100] = "";
pl_lock ();
const char *dec = pl_find_meta (it, ":DECODER");
if (dec) {
strncpy (decoder_id, dec, sizeof (decoder_id));
}
const char *ft = pl_find_meta (it, ":FILETYPE");
if (ft) {
strncpy (filetype, ft, sizeof (filetype));
}
pl_unlock ();
if (!decoder_id[0] && (!strcmp (filetype, "content") || !filetype[0])) {
// try to get content-type
mutex_lock (decodemutex);
trace ("\033[0;34mopening file %s\033[37;0m\n", pl_find_meta (it, ":URI"));
DB_FILE *fp = streamer_file = vfs_fopen (pl_find_meta (it, ":URI"));
mutex_unlock (decodemutex);
const char *plug = NULL;
trace ("\033[0;34mgetting content-type\033[37;0m\n");
if (!fp) {
err = -1;
goto error;
}
const char *ct = vfs_get_content_type (fp);
if (!ct) {
vfs_fclose (fp);
fp = NULL;
streamer_file = NULL;
err = -1;
goto error;
}
trace ("got content-type: %s\n", ct);
if (!strcmp (ct, "audio/mpeg")) {
plug = "stdmpg";
}
else if (!strcmp (ct, "application/ogg")) {
plug = "stdogg";
}
else if (!strcmp (ct, "audio/aacp")) {
plug = "aac";
}
else if (!strcmp (ct, "audio/aac")) {
plug = "aac";
}
else if (!strcmp (ct, "audio/wma")) {
plug = "ffmpeg";
}
else if (!strcmp (ct, "audio/x-mpegurl") || !strncmp (ct, "text/html", 9)) {
// download playlist into temp file
char *buf = NULL;
int fd = -1;
FILE *out = NULL;
int size = vfs_fgetlength (fp);
if (size <= 0) {
size = MAX_PLAYLIST_DOWNLOAD_SIZE;
}
buf = malloc (size);
if (!buf) {
trace ("failed to alloc %d bytes for playlist buffer\n");
goto m3u_error;
}
int rd = vfs_fread (buf, 1, size, fp);
if (rd != size) {
trace ("failed to download %d bytes (got %d bytes)\n", size, rd);
goto m3u_error;
}
char tempfile[1000];
const char *tmpdir = getenv ("TMPDIR");
if (!tmpdir) {
tmpdir = "/tmp";
}
snprintf (tempfile, sizeof (tempfile), "%s/ddbm3uXXXXXX", tmpdir);
fd = mkstemp (tempfile);
if (fd == -1) {
trace ("failed to open temp file %s\n", tempfile);
goto m3u_error;
}
out = fdopen (fd, "w+b");
if (!out) {
trace ("fdopen failed for %s\n", tempfile);
goto m3u_error;
}
int rw = fwrite (buf, 1, size, out);
if (rw != size) {
trace ("failed to write %d bytes into file %s\n", size, tempfile);
goto m3u_error;
}
fclose (out);
fd = -1;
out = NULL;
// load playlist
playlist_t *plt = plt_alloc ("temp");
DB_playlist_t **plug = plug_get_playlist_list ();
int p, e;
DB_playItem_t *m3u = NULL;
for (p = 0; plug[p]; p++) {
if (plug[p]->load) {
m3u = plug[p]->load ((ddb_playlist_t *)plt, NULL, tempfile, NULL, NULL, NULL);
if (m3u) {
break;
}
}
}
if (!m3u) {
trace ("failed to load playlist from %s using any of the installed playlist plugins\n", tempfile);
plt_free (plt);
goto m3u_error;
}
// for every playlist uri: override stream uri with the one from playlist, and try to play it
playItem_t *i = (playItem_t *)m3u;
pl_item_ref (i);
int res = -1;
while (i) {
pl_replace_meta (it, "!URI", pl_find_meta_raw (i, ":URI"));
res = streamer_set_current (it);
if (!res) {
pl_item_unref (i);
break;
}
playItem_t *next = pl_get_next (i, PL_MAIN);
pl_item_unref (i);
i = next;
}
pl_item_unref ((playItem_t*)m3u);
plt_free (plt);
if (res == 0) {
// succeeded -- playing now
if (from) {
pl_item_unref (from);
}
if (to) {
pl_item_unref (to);
}
return res;
}
unlink (tempfile);
m3u_error:
if (buf) {
free (buf);
}
if (out) {
fclose (out);
}
else if (fd != -1) {
close (fd);
}
goto error;
}
mutex_lock (decodemutex);
streamer_file = NULL;
vfs_fclose (fp);
mutex_unlock (decodemutex);
if (plug) {
DB_decoder_t **decoders = plug_get_decoder_list ();
// match by decoder
for (int i = 0; decoders[i]; i++) {
if (!strcmp (decoders[i]->plugin.id, plug)) {
pl_replace_meta (it, "!DECODER", decoders[i]->plugin.id);
strncpy (decoder_id, decoders[i]->plugin.id, sizeof (decoder_id));
trace ("\033[0;34mfound plugin %s\033[37;0m\n", plug);
break;
}
}
}
else {
trace ("\033[0;34mclosed file %s (bad or interrupted)\033[37;0m\n", pl_find_meta (it, ":URI"));
}
}
playlist_track = it;
if (decoder_id[0]) {
DB_decoder_t *dec = NULL;
dec = plug_get_decoder_for_id (decoder_id);
if (!dec) {
// find new decoder by file extension
const char *fname = pl_find_meta (it, ":URI");
const char *ext = strrchr (fname, '.');
if (ext) {
ext++;
DB_decoder_t **decs = plug_get_decoder_list ();
for (int i = 0; decs[i]; i++) {
const char **exts = decs[i]->exts;
if (exts) {
for (int j = 0; exts[j]; j++) {
if (!strcasecmp (exts[j], ext)) {
fprintf (stderr, "streamer: %s : changed decoder plugin to %s\n", fname, decs[i]->plugin.id);
pl_replace_meta (it, "!DECODER", decs[i]->plugin.id);
pl_replace_meta (it, "!FILETYPE", ext);
dec = decs[i];
break;
}
}
}
}
}
}
if (dec) {
trace ("\033[0;33minit decoder for %s (%s)\033[37;0m\n", pl_find_meta (it, ":URI"), decoder_id);
mutex_lock (decodemutex);
new_fileinfo = dec->open (0);
mutex_unlock (decodemutex);
if (new_fileinfo && dec->init (new_fileinfo, DB_PLAYITEM (it)) != 0) {
trace ("\033[0;31mfailed to init decoder\033[37;0m\n");
mutex_lock (decodemutex);
dec->free (new_fileinfo);
new_fileinfo = NULL;
mutex_unlock (decodemutex);
// goto error;
}
}
if (!dec || !new_fileinfo) {
it->played = 1;
trace ("decoder->init returned %p\n", new_fileinfo);
streamer_buffering = 0;
if (playlist_track == it) {
trace ("redraw track %d; playing_track=%p; playlist_track=%p\n", to, playing_track, playlist_track);
send_trackinfochanged (to);
}
err = -1;
goto error;
}
else {
mutex_lock (decodemutex);
if (streaming_track) {
pl_item_unref (streaming_track);
}
streaming_track = it;
if (streaming_track) {
pl_item_ref (streaming_track);
streamer_set_replaygain (streaming_track);
}
mutex_unlock (decodemutex);
trace ("bps=%d, channels=%d, samplerate=%d\n", new_fileinfo->fmt.bps, new_fileinfo->fmt.channels, new_fileinfo->fmt.samplerate);
}
}
else {
trace ("no decoder in playitem!\n");
it->played = 1;
streamer_buffering = 0;
if (playlist_track == it) {
send_trackinfochanged (to);
}
if (from) {
pl_item_unref (from);
}
if (to) {
pl_item_unref (to);
}
return -1;
}
success:
mutex_lock (decodemutex);
if (fileinfo) {
fileinfo->plugin->free (fileinfo);
fileinfo = NULL;
}
if (new_fileinfo) {
fileinfo = new_fileinfo;
new_fileinfo = NULL;
}
mutex_unlock (decodemutex);
if (do_songstarted && playing_track) {
trace ("songstarted %s\n", playing_track ? pl_find_meta (playing_track, ":URI") : "null");
playtime = 0;
send_songstarted (playing_track);
}
send_trackinfochanged (to);
trace ("\033[0;32mstr: %p (%s), ply: %p (%s)\033[37;0m\n", streaming_track, streaming_track ? pl_find_meta (streaming_track, ":URI") : "null", playing_track, playing_track ? pl_find_meta (playing_track, ":URI") : "null");
error:
if (from) {
pl_item_unref (from);
}
if (to) {
pl_item_unref (to);
}
return err;
}
float
streamer_get_playpos (void) {
float seek = seekpos;
if (seek >= 0) {
return seek;
}
return playpos;
}
void
streamer_set_bitrate (int bitrate) {
if (bytes_until_next_song <= 0) { // prevent next track from resetting current playback bitrate
last_bitrate = bitrate;
}
}
int
streamer_get_apx_bitrate (void) {