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/*
Copyright (C) 2009 Red Hat, Inc.
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 "common.h"
#include "red_client.h"
#include "audio_channels.h"
#include "audio_devices.h"
//#define WAVE_CAPTURE
#ifdef WAVE_CAPTURE
#include <fcntl.h>
#define WAVE_BUF_SIZE (1024 * 1024 * 20)
typedef struct __attribute__ ((__packed__)) ChunkHeader {
uint32_t id;
uint32_t size;
} ChunkHeader;
typedef struct __attribute__ ((__packed__)) FormatInfo {
uint16_t compression_code;
uint16_t num_channels;
uint32_t sample_rate;
uint32_t average_bytes_per_second;
uint16_t block_align;
uint16_t bits_per_sample;
//uint16_t extra_format_bytes;
//uint8_t extra[0];
} FormatInfo;
static uint8_t* wave_buf = NULL;
static uint8_t* wave_now = NULL;
static uint8_t* wave_end = NULL;
static bool wave_blocked = false;
static void write_all(int fd, uint8_t* data, uint32_t size)
{
while (size) {
int n = write(fd, data, size);
if (n == -1) {
if (errno != EINTR) {
throw Exception(fmt("%s: failed") % __FUNCTION__);
}
} else {
data += n;
size -= n;
}
}
}
static void write_wave()
{
static uint32_t file_id = 0;
char file_name[100];
ChunkHeader header;
FormatInfo format;
if (wave_buf == wave_now) {
return;
}
sprintf(file_name, "/tmp/%u.wav", ++file_id);
int fd = open(file_name, O_CREAT | O_TRUNC | O_WRONLY, 0644);
if (fd == -1) {
DBG(0, fmt("open file %s failed") % file_name);
return;
}
memcpy((char *)&header.id, "RIFF", 4);
header.size = 4;
write_all(fd, (uint8_t *)&header, sizeof(header));
write_all(fd, (uint8_t *)"WAVE", 4);
memcpy((char *)&header.id, "fmt ", 4);
header.size = sizeof(format);
write_all(fd, (uint8_t *)&header, sizeof(header));
format.compression_code = 1;
format.num_channels = 2;
format.sample_rate = 44100;
format.average_bytes_per_second = format.sample_rate * 4;
format.block_align = 4;
format.bits_per_sample = 16;
write_all(fd, (uint8_t *)&format, sizeof(format));
memcpy((char *)&header.id, "data", 4);
header.size = wave_now - wave_buf;
write_all(fd, (uint8_t *)&header, sizeof(header));
write_all(fd, wave_buf, header.size);
close(fd);
}
static void init_wave()
{
if (!wave_buf) {
wave_buf = new uint8_t[WAVE_BUF_SIZE];
}
wave_now = wave_buf;
wave_end = wave_buf + WAVE_BUF_SIZE;
}
static void start_wave()
{
wave_blocked = false;
wave_now = wave_buf;
}
static void put_wave_data(uint8_t *data, uint32_t size)
{
if (wave_blocked || size > wave_end - wave_now) {
wave_blocked = true;
return;
}
memcpy((void *)wave_now, (void *)data, size);
wave_now += size;
}
static void end_wave()
{
write_wave();
}
#endif
class PlaybackHandler: public MessageHandlerImp<PlaybackChannel, RED_PLAYBACK_MESSAGES_END> {
public:
PlaybackHandler(PlaybackChannel& channel)
: MessageHandlerImp<PlaybackChannel, RED_PLAYBACK_MESSAGES_END>(channel) {}
};
PlaybackChannel::PlaybackChannel(RedClient& client, uint32_t id)
: RedChannel(client, RED_CHANNEL_PLAYBACK, id, new PlaybackHandler(*this),
Platform::PRIORITY_HIGH)
, _wave_player (NULL)
, _mode (RED_AUDIO_DATA_MODE_INVALD)
, _celt_mode (NULL)
, _celt_decoder (NULL)
, _playing (false)
{
#ifdef WAVE_CAPTURE
init_wave();
#endif
PlaybackHandler* handler = static_cast<PlaybackHandler*>(get_message_handler());
handler->set_handler(RED_MIGRATE, &PlaybackChannel::handle_migrate, 0);
handler->set_handler(RED_SET_ACK, &PlaybackChannel::handle_set_ack, sizeof(RedSetAck));
handler->set_handler(RED_PING, &PlaybackChannel::handle_ping, sizeof(RedPing));
handler->set_handler(RED_WAIT_FOR_CHANNELS, &PlaybackChannel::handle_wait_for_channels,
sizeof(RedWaitForChannels));
handler->set_handler(RED_DISCONNECTING, &PlaybackChannel::handle_disconnect,
sizeof(RedDisconnect));
handler->set_handler(RED_NOTIFY, &PlaybackChannel::handle_notify, sizeof(RedNotify));
handler->set_handler(RED_PLAYBACK_MODE, &PlaybackChannel::handle_mode,
sizeof(RedPlaybackMode));
set_capability(RED_PLAYBACK_CAP_CELT_0_5_1);
}
PlaybackChannel::~PlaybackChannel(void)
{
delete _wave_player;
if (_celt_decoder) {
celt051_decoder_destroy(_celt_decoder);
}
if (_celt_mode) {
celt051_mode_destroy(_celt_mode);
}
}
bool PlaybackChannel::abort(void)
{
return (!_wave_player || _wave_player->abort()) && RedChannel::abort();
}
void PlaybackChannel::set_data_handler()
{
PlaybackHandler* handler = static_cast<PlaybackHandler*>(get_message_handler());
if (_mode == RED_AUDIO_DATA_MODE_RAW) {
handler->set_handler(RED_PLAYBACK_DATA, &PlaybackChannel::handle_raw_data, 0);
} else if (_mode == RED_AUDIO_DATA_MODE_CELT_0_5_1) {
handler->set_handler(RED_PLAYBACK_DATA, &PlaybackChannel::handle_celt_data, 0);
} else {
THROW("invalid mode");
}
}
void PlaybackChannel::handle_mode(RedPeer::InMessage* message)
{
RedPlaybackMode* playbacke_mode = (RedPlaybackMode*)message->data();
if (playbacke_mode->mode != RED_AUDIO_DATA_MODE_RAW &&
playbacke_mode->mode != RED_AUDIO_DATA_MODE_CELT_0_5_1) {
THROW("invalid mode");
}
_mode = playbacke_mode->mode;
if (_playing) {
set_data_handler();
return;
}
PlaybackHandler* handler = static_cast<PlaybackHandler*>(get_message_handler());
handler->set_handler(RED_PLAYBACK_START, &PlaybackChannel::handle_start,
sizeof(RedPlaybackStart));
}
void PlaybackChannel::null_handler(RedPeer::InMessage* message)
{
}
void PlaybackChannel::disable()
{
PlaybackHandler* handler = static_cast<PlaybackHandler*>(get_message_handler());
handler->set_handler(RED_PLAYBACK_START, &PlaybackChannel::null_handler, 0);
handler->set_handler(RED_PLAYBACK_STOP, &PlaybackChannel::null_handler, 0);
handler->set_handler(RED_PLAYBACK_MODE, &PlaybackChannel::null_handler, 0);
handler->set_handler(RED_PLAYBACK_DATA, &PlaybackChannel::null_handler, 0);
}
void PlaybackChannel::handle_start(RedPeer::InMessage* message)
{
PlaybackHandler* handler = static_cast<PlaybackHandler*>(get_message_handler());
RedPlaybackStart* start = (RedPlaybackStart*)message->data();
handler->set_handler(RED_PLAYBACK_START, NULL, 0);
handler->set_handler(RED_PLAYBACK_STOP, &PlaybackChannel::handle_stop, 0);
#ifdef WAVE_CAPTURE
start_wave();
#endif
if (!_wave_player) {
// for now support only one setting
int celt_mode_err;
if (start->format != RED_AUDIO_FMT_S16) {
THROW("unexpected format");
}
int bits_per_sample = 16;
int frame_size = 256;
_frame_bytes = frame_size * start->channels * bits_per_sample / 8;
try {
_wave_player = Platform::create_player(start->frequency, bits_per_sample,
start->channels);
} catch (...) {
LOG_WARN("create player failed");
//todo: support disconnecting singel channel
disable();
return;
}
if (!(_celt_mode = celt051_mode_create(start->frequency, start->channels,
frame_size, &celt_mode_err))) {
THROW("create celt mode failed %d", celt_mode_err);
}
if (!(_celt_decoder = celt051_decoder_create(_celt_mode))) {
THROW("create celt decoder");
}
}
_playing = true;
_frame_count = 0;
set_data_handler();
}
void PlaybackChannel::handle_stop(RedPeer::InMessage* message)
{
PlaybackHandler* handler = static_cast<PlaybackHandler*>(get_message_handler());
handler->set_handler(RED_PLAYBACK_STOP, NULL, 0);
handler->set_handler(RED_PLAYBACK_DATA, NULL, 0);
handler->set_handler(RED_PLAYBACK_START, &PlaybackChannel::handle_start,
sizeof(RedPlaybackStart));
#ifdef WAVE_CAPTURE
end_wave();
#endif
_wave_player->stop();
_playing = false;
}
void PlaybackChannel::handle_raw_data(RedPeer::InMessage* message)
{
RedPlaybackPacket* packet = (RedPlaybackPacket*)message->data();
uint8_t* data = (uint8_t*)(packet + 1);
uint32_t size = message->size() - sizeof(*packet);
#ifdef WAVE_CAPTURE
put_wave_data(data, size);
return;
#endif
if (size != _frame_bytes) {
//for now throw on unexpected size (based on current server imp).
// will probably be replaced by supporting flexible data size in the player imp
THROW("unexpected frame size");
}
if ((_frame_count++ % 1000) == 0) {
get_client().set_mm_time(packet->time - _wave_player->get_delay_ms());
}
_wave_player->write(data);
}
void PlaybackChannel::handle_celt_data(RedPeer::InMessage* message)
{
RedPlaybackPacket* packet = (RedPlaybackPacket*)message->data();
uint8_t* data = (uint8_t*)(packet + 1);
uint32_t size = message->size() - sizeof(*packet);
celt_int16_t pcm[256 * 2];
if (celt051_decode(_celt_decoder, data, size, pcm) != CELT_OK) {
THROW("celt decode failed");
}
#ifdef WAVE_CAPTURE
put_wave_data(pcm, _frame_bytes);
return;
#endif
if ((_frame_count++ % 1000) == 0) {
get_client().set_mm_time(packet->time - _wave_player->get_delay_ms());
}
_wave_player->write((uint8_t *)pcm);
}
class PlaybackFactory: public ChannelFactory {
public:
PlaybackFactory() : ChannelFactory(RED_CHANNEL_PLAYBACK) {}
virtual RedChannel* construct(RedClient& client, uint32_t id)
{
return new PlaybackChannel(client, id);
}
};
static PlaybackFactory factory;
ChannelFactory& PlaybackChannel::Factory()
{
return factory;
}
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