void buffer_put_packet(seq_t seqno, char *data, int len) {
volatile abuf_t *abuf = 0;
short read;
short buf_fill;
pthread_mutex_lock(&ab_mutex);
if (!ab_synced) {
ab_write = seqno;
ab_read = seqno-1;
ab_synced = 1;
}
if (seqno == ab_write+1) { // expected packet
abuf = audio_buffer + BUFIDX(seqno);
ab_write = seqno;
} else if (seq_order(ab_write, seqno)) { // newer than expected
rtp_request_resend(ab_write, seqno-1);
abuf = audio_buffer + BUFIDX(seqno);
ab_write = seqno;
} else if (seq_order(ab_read, seqno)) { // late but not yet played
abuf = audio_buffer + BUFIDX(seqno);
} else { // too late.
fprintf(stderr, "\nlate packet %04X (%04X:%04X)\n", seqno, ab_read, ab_write);
}
buf_fill = ab_write - ab_read;
pthread_mutex_unlock(&ab_mutex);
if (abuf) {
alac_decode(abuf->data, data, len);
abuf->ready = 1;
}
if (ab_buffering && buf_fill >= buffer_start_fill) {
ab_buffering = 0;
pthread_cond_signal(&ab_buffer_ready);
}
if (!ab_buffering) {
// check if the t+10th packet has arrived... last-chance resend
read = ab_read + 10;
abuf = audio_buffer + BUFIDX(read);
if (abuf->ready != 1) {
rtp_request_resend(read, read);
abuf->ready = -1;
}
}
}
void player_put_packet(seq_t seqno, uint8_t *data, int len) {
abuf_t *abuf = 0;
int16_t buf_fill;
pthread_mutex_lock(&ab_mutex);
if (!ab_synced) {
debug(1, "syncing to first seqno %04X\n", seqno);
ab_write = seqno-1;
ab_read = seqno;
ab_synced = 1;
}
if (seq_diff(ab_write, seqno) == 1) { // expected packet
abuf = audio_buffer + BUFIDX(seqno);
ab_write = seqno;
} else if (seq_order(ab_write, seqno)) { // newer than expected
// Be careful with new packets that are in advance
// Those more than a buffer size in advance will cause an Overrun
// When buffering the valid threshold should be the buffer fill target itself which should re-sync
if (ab_buffering && (seq_diff(ab_read, seqno) > config.buffer_start_fill)) {
warn("out of range re-sync %04X (%04X:%04X)", seqno, ab_read, ab_write);
ab_resync();
ab_synced = 1;
ab_read = seqno;
ab_write = seqno;
abuf = audio_buffer + BUFIDX(seqno);
} else {
debug(1, "advance packet %04X (%04X:%04X)\n", seqno, ab_read, ab_write);
rtp_request_resend(ab_write+1, seqno-1);
abuf = audio_buffer + BUFIDX(seqno);
ab_write = seqno;
}
} else if (seq_order(ab_read, seqno)) { // late but not yet played
abuf = audio_buffer + BUFIDX(seqno);
if (abuf->ready) { // discard this frame if frame previously received
abuf =0;
debug(1, "duplicate packet %04X (%04X:%04X)\n", seqno, ab_read, ab_write);
}
} else { // too late.
debug(1, "late packet %04X (%04X:%04X)\n", seqno, ab_read, ab_write);
}
buf_fill = seq_diff(ab_read, ab_write);
pthread_mutex_unlock(&ab_mutex);
if (abuf) {
alac_decode(abuf->data, data, len);
abuf->ready = 1;
}
pthread_mutex_lock(&ab_mutex);
if (ab_buffering && buf_fill >= config.buffer_start_fill) {
debug(1, "buffering over. starting play (%04X:%04X)\n", ab_read, ab_write);
ab_buffering = 0;
}
pthread_mutex_unlock(&ab_mutex);
}
// get the next frame, when available. return 0 if underrun/stream reset.
static short *buffer_get_frame(void) {
short buf_fill;
seq_t read;
abuf_t *abuf = 0;
unsigned short next;
int i;
pthread_mutex_lock(&ab_mutex);
buf_fill = ab_write - ab_read;
if (buf_fill < 1 || !ab_synced || ab_buffering) { // init or underrun. stop and wait
if (ab_synced)
fprintf(stderr, "\nunderrun.\n");
ab_buffering = 1;
pthread_cond_wait(&ab_buffer_ready, &ab_mutex);
ab_read++;
buf_fill = ab_write - ab_read;
bf_est_reset(buf_fill);
pthread_mutex_unlock(&ab_mutex);
return 0;
}
if (buf_fill >= BUFFER_FRAMES) { // overrunning! uh-oh. restart at a sane distance
fprintf(stderr, "\noverrun.\n");
ab_read = ab_write - buffer_start_fill;
}
read = ab_read;
ab_read++;
buf_fill = ab_write - ab_read;
bf_est_update(buf_fill);
// check if t+16, t+32, t+64, t+128, ... (START_FILL / 2)
// packets have arrived... last-chance resend
if (!ab_buffering) {
for (i = 16; i < (START_FILL / 2); i = (i * 2)) {
next = ab_read + i;
abuf = audio_buffer + BUFIDX(next);
if (!abuf->ready) {
rtp_request_resend(next, next);
}
}
}
abuf_t *curframe = audio_buffer + BUFIDX(read);
if (!curframe->ready) {
fprintf(stderr, "\nmissing frame.\n");
memset(curframe->data, 0, FRAME_BYTES);
}
curframe->ready = 0;
pthread_mutex_unlock(&ab_mutex);
return curframe->data;
}
// get the next frame, when available. return 0 if underrun/stream reset.
static short *buffer_get_frame(void) {
int16_t buf_fill;
seq_t read, next;
abuf_t *abuf = 0;
int i;
if (ab_buffering)
return 0;
pthread_mutex_lock(&ab_mutex);
buf_fill = seq_diff(ab_read, ab_write);
if (buf_fill < 1 || !ab_synced) {
if (buf_fill < 1)
warn("underrun %i (%04X:%04X)", buf_fill, ab_read, ab_write);
ab_resync();
pthread_mutex_unlock(&ab_mutex);
return 0;
}
if (buf_fill >= BUFFER_FRAMES) { // overrunning! uh-oh. restart at a sane distance
warn("overrun %i (%04X:%04X)", buf_fill, ab_read, ab_write);
read = ab_read;
ab_read = ab_write - config.buffer_start_fill;
ab_reset((ab_write + 1 - BUFFER_FRAMES), ab_read); // reset any ready frames in those we've skipped (avoiding wrap around)
}
read = ab_read;
ab_read++;
buf_fill = seq_diff(ab_read, ab_write);
bf_est_update(buf_fill);
// check if t+16, t+32, t+64, t+128, ... resend focus boundary
// packets have arrived... last-chance resend
if (!ab_buffering) {
for (i = 16; i <= resend_focus(config.buffer_start_fill); i = (i * 2)) {
next = ab_read + i;
abuf = audio_buffer + BUFIDX(next);
if ((!abuf->ready) && (next < ab_write)){
rtp_request_resend(next, next);
debug(1, "last chance resend T+%i, %04X (%04X:%04X)\n", i, next, ab_read, ab_write);
}
}
}
abuf_t *curframe = audio_buffer + BUFIDX(read);
if (!curframe->ready) {
debug(1, "missing frame %04X\n", read);
memset(curframe->data, 0, FRAME_BYTES(frame_size));
}
curframe->ready = 0;
pthread_mutex_unlock(&ab_mutex);
return curframe->data;
}
// get the next frame, when available. return 0 if underrun/stream reset.
static short *buffer_get_frame(void) {
int16_t buf_fill;
seq_t read, next;
abuf_t *abuf = 0;
int i;
if (ab_buffering)
return 0;
pthread_mutex_lock(&ab_mutex);
buf_fill = seq_diff(ab_read, ab_write);
if (buf_fill < 1 || !ab_synced) {
if (buf_fill < 1)
warn("underrun.");
ab_buffering = 1;
pthread_mutex_unlock(&ab_mutex);
return 0;
}
if (buf_fill >= BUFFER_FRAMES) { // overrunning! uh-oh. restart at a sane distance
warn("overrun.");
ab_read = ab_write - config.buffer_start_fill;
}
read = ab_read;
ab_read++;
buf_fill = seq_diff(ab_read, ab_write);
bf_est_update(buf_fill);
// check if t+16, t+32, t+64, t+128, ... (buffer_start_fill / 2)
// packets have arrived... last-chance resend
if (!ab_buffering) {
for (i = 16; i < (config.buffer_start_fill / 2); i = (i * 2)) {
next = ab_read + i;
abuf = audio_buffer + BUFIDX(next);
if (!abuf->ready) {
rtp_request_resend(next, next);
}
}
}
abuf_t *curframe = audio_buffer + BUFIDX(read);
if (!curframe->ready) {
debug(1, "missing frame %04X.", read);
memset(curframe->data, 0, FRAME_BYTES(frame_size));
}
curframe->ready = 0;
pthread_mutex_unlock(&ab_mutex);
return curframe->data;
}
// get the next frame, when available. return 0 if underrun/stream reset.
static short *buffer_get_frame(void) {
short buf_fill;
seq_t read;
abuf_t *abuf = 0;
pthread_mutex_lock(&ab_mutex);
buf_fill = ab_write - ab_read;
if (buf_fill < 1 || !ab_synced || ab_buffering) { // init or underrun. stop and wait
if (ab_synced)
fprintf(stderr, "\nunderrun.\n");
ab_buffering = 1;
pthread_cond_wait(&ab_buffer_ready, &ab_mutex);
ab_read++;
buf_fill = ab_write - ab_read;
bf_est_reset(buf_fill);
pthread_mutex_unlock(&ab_mutex);
return 0;
}
if (buf_fill >= BUFFER_FRAMES) { // overrunning! uh-oh. restart at a sane distance
fprintf(stderr, "\noverrun.\n");
ab_read = ab_write - buffer_start_fill;
}
read = ab_read;
ab_read++;
buf_fill = ab_write - ab_read;
bf_est_update(buf_fill);
if (!ab_buffering) {
// check if the t+5th packet has arrived... last-chance resend
read = ab_read + 5;
abuf = audio_buffer + BUFIDX(read);
if (!abuf->ready) {
rtp_request_resend(read, read);
abuf->ready = -1;
}
}
abuf_t *curframe = audio_buffer + BUFIDX(read);
if (!curframe->ready) {
fprintf(stderr, "\nmissing frame.\n");
memset(curframe->data, 0, FRAME_BYTES);
}
curframe->ready = 0;
pthread_mutex_unlock(&ab_mutex);
return curframe->data;
}
void player_put_packet(seq_t seqno, uint8_t *data, int len) {
abuf_t *abuf = 0;
int16_t buf_fill;
pthread_mutex_lock(&ab_mutex);
if (!ab_synced) {
debug(2, "syncing to first seqno %04X\n", seqno);
ab_write = seqno-1;
ab_read = seqno;
ab_synced = 1;
}
if (seq_diff(ab_write, seqno) == 1) { // expected packet
abuf = audio_buffer + BUFIDX(seqno);
ab_write = seqno;
} else if (seq_order(ab_write, seqno)) { // newer than expected
rtp_request_resend(ab_write+1, seqno-1);
abuf = audio_buffer + BUFIDX(seqno);
ab_write = seqno;
} else if (seq_order(ab_read, seqno)) { // late but not yet played
abuf = audio_buffer + BUFIDX(seqno);
} else { // too late.
debug(1, "late packet %04X (%04X:%04X)", seqno, ab_read, ab_write);
}
buf_fill = seq_diff(ab_read, ab_write);
pthread_mutex_unlock(&ab_mutex);
if (abuf) {
alac_decode(abuf->data, data, len);
abuf->ready = 1;
}
pthread_mutex_lock(&ab_mutex);
if (ab_buffering && buf_fill >= config.buffer_start_fill) {
debug(1, "buffering over. starting play\n");
ab_buffering = 0;
bf_est_reset(buf_fill);
}
pthread_mutex_unlock(&ab_mutex);
}
void player_put_packet(seq_t seqno, uint32_t timestamp, uint8_t *data, int len) {
pthread_mutex_lock(&ab_mutex);
packet_count++;
time_of_last_audio_packet = get_absolute_time_in_fp();
if (connection_state_to_output) { // if we are supposed to be processing these packets
if ((flush_rtp_timestamp != 0) &&
((timestamp == flush_rtp_timestamp) || seq32_order(timestamp, flush_rtp_timestamp))) {
debug(2, "Dropping flushed packet in player_put_packet, seqno %u, timestamp %u, flushing to "
"timestamp: %u.",
seqno, timestamp, flush_rtp_timestamp);
} else {
if ((flush_rtp_timestamp != 0x0) &&
(!seq32_order(timestamp,
flush_rtp_timestamp))) // if we have gone past the flush boundary time
flush_rtp_timestamp = 0x0;
abuf_t *abuf = 0;
if (!ab_synced) {
debug(2, "syncing to seqno %u.", seqno);
ab_write = seqno;
ab_read = seqno;
ab_synced = 1;
}
if (ab_write == seqno) { // expected packet
abuf = audio_buffer + BUFIDX(seqno);
ab_write = SUCCESSOR(seqno);
} else if (seq_order(ab_write, seqno)) { // newer than expected
// if (ORDINATE(seqno)>(BUFFER_FRAMES*7)/8)
// debug(1,"An interval of %u frames has opened, with ab_read: %u, ab_write: %u and seqno:
// %u.",seq_diff(ab_read,seqno),ab_read,ab_write,seqno);
int32_t gap = seq_diff(ab_write, PREDECESSOR(seqno)) + 1;
if (gap <= 0)
debug(1, "Unexpected gap size: %d.", gap);
int i;
for (i = 0; i < gap; i++) {
abuf = audio_buffer + BUFIDX(seq_sum(ab_write, i));
abuf->ready = 0; // to be sure, to be sure
abuf->timestamp = 0;
abuf->sequence_number = 0;
}
// debug(1,"N %d s %u.",seq_diff(ab_write,PREDECESSOR(seqno))+1,ab_write);
abuf = audio_buffer + BUFIDX(seqno);
rtp_request_resend(ab_write, gap);
resend_requests++;
ab_write = SUCCESSOR(seqno);
} else if (seq_order(ab_read, seqno)) { // late but not yet played
late_packets++;
abuf = audio_buffer + BUFIDX(seqno);
} else { // too late.
too_late_packets++;
/*
if (!late_packet_message_sent) {
debug(1, "too-late packet received: %u; ab_read: %u; ab_write: %u.", seqno, ab_read,
ab_write);
late_packet_message_sent=1;
}
*/
}
// pthread_mutex_unlock(&ab_mutex);
if (abuf) {
alac_decode(abuf->data, data, len);
abuf->ready = 1;
abuf->timestamp = timestamp;
abuf->sequence_number = seqno;
}
// pthread_mutex_lock(&ab_mutex);
}
int rc = pthread_cond_signal(&flowcontrol);
if (rc)
debug(1, "Error signalling flowcontrol.");
}
pthread_mutex_unlock(&ab_mutex);
}
static inline void buffer_put_packet(seq_t seqno, char *data, int len) {
abuf_t *abuf = 0;
abuf_t *tmpbuf = 0;
unsigned short buf_fill;
pthread_mutex_lock(&ab_mutex);
/* sync is required. */
if (!ab_synced) {
ab_write = seqno;
if (seqno == 0) {
ab_read = 0;
} else {
ab_read = seqno-1;
}
ab_synced = 1;
}
/* Check seq_no is what we want. */
buf_fill=BUF_FILL_SIZE(seqno,ab_read);
if (buf_fill > 1000) {
pthread_mutex_unlock(&ab_mutex);
return;
}
/* Check buf slot is occupied. */
tmpbuf = audio_buffer + BUFIDX(seqno); // buffering fits here!
if (tmpbuf->ready) {
pthread_mutex_unlock(&ab_mutex);
return;
}
/* if seqno moves faster than expected. */
if (seq_order(ab_write, seqno)) { // late but not yet played
rtp_request_resend(ab_write+1, seqno-1);
}
/* update ab_write */
ab_write = seqno;
abuf = audio_buffer + BUFIDX(seqno); // buffering fits here!
/* Make sure the slot of abuf is empty! */
if (!abuf->ready) {
memcpy(abuf->data, data, len);
abuf->len=len;
abuf->ready = 1;
}
buf_fill=BUF_FILL_SIZE(ab_write,ab_read);
#ifdef DEBUG
fprintf(stderr,"seqno=%d ab_write=%d ab_read=%d buf_fill=%d ab_buffering=%d \n",seqno,ab_write,ab_read,buf_fill,ab_buffering);
#endif
if (ab_buffering && (buf_fill >= (buffer_start_fill-1))) {
ab_buffering = 0;
pthread_cond_signal(&ab_buffer_ready);
}
if (buf_fill >= (BUFFER_FRAMES-1)) { // overrunning!
#ifdef DEBUG
fprintf(stderr,"overrunning.\n");
#endif
pthread_cond_wait(&ab_buffer_full, &ab_mutex);
buf_fill=BUF_FILL_SIZE(ab_write,ab_read);
}
pthread_mutex_unlock(&ab_mutex);
}
