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562bec14fe908e047524de89b9bc6a02d107e39e
squeezelite-esp32/components/squeezelite/decode_external.c
Sebastien 562bec14fe migrating to esp-idf V4.0 gcc 8.2 and CMake
2020-03-06 16:43:56 -05:00

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/*
* Squeezelite for esp32
*
* (c) Sebastien 2019
* Philippe G. 2019, philippe_44@outlook.com
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*/
#include "platform_config.h"
#include "squeezelite.h"
#include "raop_sink.h"
#include <math.h>
#include <platform_bt_sink.h>
#define LOCK_O mutex_lock(outputbuf->mutex)
#define UNLOCK_O mutex_unlock(outputbuf->mutex)
#define LOCK_D mutex_lock(decode.mutex);
#define UNLOCK_D mutex_unlock(decode.mutex);
enum { DECODE_BT = 1, DECODE_RAOP };
extern struct outputstate output;
extern struct decodestate decode;
extern struct buffer *outputbuf;
// this is the only system-wide loglevel variable
extern log_level loglevel;
static bool enable_bt_sink;
static bool enable_airplay;
#define RAOP_OUTPUT_SIZE (RAOP_SAMPLE_RATE * 2 * 2 * 2 * 1.2)
#define SYNC_NB 5
static raop_event_t raop_state;
static struct {
bool enabled, start;
s32_t error[SYNC_NB];
u32_t idx, len;
u32_t start_time, playtime;
} raop_sync;
/****************************************************************************************
* Common sink data handler
*/
static void sink_data_handler(const uint8_t *data, uint32_t len)
{
size_t bytes, space;
// would be better to lock output, but really, it does not matter
if (!output.external) {
LOG_SDEBUG("Cannot use external sink while LMS is controlling player");
return;
}
// there will always be room at some point
while (len) {
LOCK_O;
bytes = min(_buf_space(outputbuf), _buf_cont_write(outputbuf));
bytes = min(len, bytes);
#if BYTES_PER_FRAME == 4
memcpy(outputbuf->writep, data, bytes);
#else
{
s16_t *iptr = (s16_t*) data;
ISAMPLE_T *optr = (ISAMPLE_T*) outputbuf->writep;
size_t n = bytes / BYTES_PER_FRAME * 2;
while (n--) *optr++ = *iptr++ << 16;
}
#endif
_buf_inc_writep(outputbuf, bytes);
space = _buf_space(outputbuf);
len -= bytes;
data += bytes;
UNLOCK_O;
// allow i2s to empty the buffer if needed
if (len && !space) usleep(50000);
}
}
/****************************************************************************************
* BT sink command handler
*/
static bool bt_sink_cmd_handler(bt_sink_cmd_t cmd, va_list args)
{
// don't LOCK_O as there is always a chance that LMS takes control later anyway
if (output.external != DECODE_BT && output.state > OUTPUT_STOPPED) {
LOG_WARN("Cannot use BT sink while LMS/AirPlay is controlling player");
return false;
}
LOCK_D;
if (cmd != BT_SINK_VOLUME) LOCK_O;
switch(cmd) {
case BT_SINK_AUDIO_STARTED:
output.next_sample_rate = output.current_sample_rate = va_arg(args, u32_t);
output.external = DECODE_BT;
output.state = OUTPUT_STOPPED;
output.frames_played = 0;
_buf_flush(outputbuf);
if (decode.state != DECODE_STOPPED) decode.state = DECODE_ERROR;
LOG_INFO("BT sink started");
break;
case BT_SINK_AUDIO_STOPPED:
if (output.external == DECODE_BT) {
if (output.state > OUTPUT_STOPPED) output.state = OUTPUT_STOPPED;
LOG_INFO("BT sink stopped");
}
break;
case BT_SINK_PLAY:
output.state = OUTPUT_RUNNING;
LOG_INFO("BT sink playing");
break;
case BT_SINK_STOP:
_buf_flush(outputbuf);
output.state = OUTPUT_STOPPED;
output.stop_time = gettime_ms();
LOG_INFO("BT sink stopped");
break;
case BT_SINK_PAUSE:
LOG_INFO("BT sink paused, just silence");
break;
case BT_SINK_RATE:
output.next_sample_rate = output.current_sample_rate = va_arg(args, u32_t);
LOG_INFO("Setting BT sample rate %u", output.next_sample_rate);
break;
case BT_SINK_VOLUME: {
u16_t volume = (u16_t) va_arg(args, u32_t);
volume = 65536 * powf(volume / 128.0f, 3);
set_volume(volume, volume);
break;
default:
break;
}
}
if (cmd != BT_SINK_VOLUME) UNLOCK_O;
UNLOCK_D;
return true;
}
/****************************************************************************************
* raop sink data handler
*/
static void raop_sink_data_handler(const uint8_t *data, uint32_t len, u32_t playtime) {
raop_sync.playtime = playtime;
raop_sync.len = len;
sink_data_handler(data, len);
}
/****************************************************************************************
* AirPlay sink command handler
*/
static bool raop_sink_cmd_handler(raop_event_t event, va_list args)
{
// don't LOCK_O as there is always a chance that LMS takes control later anyway
if (output.external != DECODE_RAOP && output.state > OUTPUT_STOPPED) {
LOG_WARN("Cannot use Airplay sink while LMS/BT is controlling player");
return false;
}
LOCK_D;
if (event != RAOP_VOLUME) LOCK_O;
// this is async, so player might have been deleted
switch (event) {
case RAOP_TIMING: {
u32_t ms, now = gettime_ms();
s32_t sync_nb, error = 0;
if (!raop_sync.enabled || output.state < OUTPUT_RUNNING || output.frames_played_dmp < output.device_frames) break;
// first must make sure we started on time
if (raop_sync.start) {
// how many ms have we really played
ms = now - output.updated + ((u64_t) (output.frames_played_dmp - output.device_frames) * 1000) / RAOP_SAMPLE_RATE;
raop_sync.error[raop_sync.idx] = ms - (now - raop_sync.start_time);
sync_nb = 2;
LOG_INFO("backend played %u, desired %u, (delta:%d)", ms, now - raop_sync.start_time, raop_sync.error[raop_sync.idx]);
} else {
// in how many ms will the most recent block play
ms = ((u64_t) ((_buf_used(outputbuf) - raop_sync.len) / BYTES_PER_FRAME + output.device_frames + output.frames_in_process) * 1000) / RAOP_SAMPLE_RATE - (now - output.updated);
raop_sync.error[raop_sync.idx] = (raop_sync.playtime - now) - ms;
sync_nb = SYNC_NB;
LOG_DEBUG("head local:%u, remote:%u (delta:%d)", ms, raop_sync.playtime - now, raop_sync.error[raop_sync.idx]);
LOG_DEBUG("obuf:%u, sync_len:%u, devframes:%u, inproc:%u", _buf_used(outputbuf), raop_sync.len, output.device_frames, output.frames_in_process);
}
// calculate the average error
for (int i = 0; i < sync_nb; i++) error += raop_sync.error[i];
error /= sync_nb;
raop_sync.idx = (raop_sync.idx + 1) % sync_nb;
// need at least nb_sync measures done to exit quick mode
if (raop_sync.start && !raop_sync.idx && abs(error) < 10) raop_sync.start = false;
// correct if needed
if (error < -10) {
output.skip_frames = (abs(error) * RAOP_SAMPLE_RATE) / 1000;
output.state = OUTPUT_SKIP_FRAMES;
memset(raop_sync.error, 0, sizeof(raop_sync.error));
LOG_INFO("skipping %u frames", output.skip_frames);
} else if (error > 10) {
output.pause_frames = (abs(error) * RAOP_SAMPLE_RATE) / 1000;
output.state = OUTPUT_PAUSE_FRAMES;
memset(raop_sync.error, 0, sizeof(raop_sync.error));
LOG_INFO("pausing for %u frames", output.pause_frames);
}
break;
}
case RAOP_SETUP:
// we need a fair bit of space for RTP process
_buf_resize(outputbuf, RAOP_OUTPUT_SIZE);
output.frames_played = 0;
output.external = DECODE_RAOP;
output.state = OUTPUT_STOPPED;
if (decode.state != DECODE_STOPPED) decode.state = DECODE_ERROR;
LOG_INFO("resizing buffer %u", outputbuf->size);
break;
case RAOP_STREAM:
LOG_INFO("Stream", NULL);
raop_state = event;
memset(raop_sync.error, 0, sizeof(raop_sync.error));
raop_sync.idx = 0;
raop_sync.start = true;
raop_sync.enabled = !strcasestr(output.device, "BT");
output.next_sample_rate = output.current_sample_rate = RAOP_SAMPLE_RATE;
break;
case RAOP_STOP:
case RAOP_FLUSH:
if (event == RAOP_FLUSH) { LOG_INFO("Flush", NULL); }
else { LOG_INFO("Stop", NULL); }
raop_state = event;
_buf_flush(outputbuf);
if (output.state > OUTPUT_STOPPED) output.state = OUTPUT_STOPPED;
output.frames_played = 0;
output.stop_time = gettime_ms();
break;
case RAOP_PLAY: {
LOG_INFO("Play", NULL);
if (raop_state != RAOP_PLAY) {
output.state = OUTPUT_START_AT;
output.start_at = va_arg(args, u32_t);
raop_sync.start_time = output.start_at;
LOG_INFO("Starting at %u (in %d ms)", output.start_at, output.start_at - gettime_ms());
}
raop_state = event;
break;
}
case RAOP_VOLUME: {
float volume = va_arg(args, double);
LOG_INFO("Volume[0..1] %0.4f", volume);
volume = 65536 * powf(volume, 3);
set_volume((u16_t) volume, (u16_t) volume);
break;
}
default:
break;
}
if (event != RAOP_VOLUME) UNLOCK_O;
UNLOCK_D;
return true;
}
/****************************************************************************************
* We provide the generic codec register option
*/
void register_external(void) {
char *p;
if ((p = config_alloc_get(NVS_TYPE_STR, "enable_bt_sink")) != NULL) {
enable_bt_sink = strcmp(p,"1") == 0 || strcasecmp(p,"y") == 0;
free(p);
}
if ((p = config_alloc_get(NVS_TYPE_STR, "enable_airplay")) != NULL) {
enable_airplay = strcmp(p,"1") == 0 || strcasecmp(p,"y") == 0;
free(p);
}
if (!strcasestr(output.device, "BT ") ) {
if(enable_bt_sink){
bt_sink_init(bt_sink_cmd_handler, sink_data_handler);
LOG_INFO("Initializing BT sink");
}
} else {
LOG_WARN("Cannot be a BT sink and source");
}
if (enable_airplay){
raop_sink_init(raop_sink_cmd_handler, raop_sink_data_handler);
LOG_INFO("Initializing AirPlay sink");
}
}
void deregister_external(void) {
if (!strcasestr(output.device, "BT ") && enable_bt_sink) {
bt_sink_deinit();
LOG_INFO("Stopping BT sink");
}
if (enable_airplay){
raop_sink_deinit();
LOG_INFO("Stopping AirPlay sink");
}
}
void decode_restore(int external) {
switch (external) {
case DECODE_BT:
bt_disconnect();
break;
case DECODE_RAOP:
raop_disconnect();
raop_state = RAOP_STOP;
break;
}
}
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