static void volume_process(MSFilter *f){
mblk_t *m;
Volume *v=(Volume*)f->data;
float target_gain;
/* Important notice: any processes called herein can modify v->target_gain, at
* end of this function apply_gain() is called, thus: later process calls can
* override this target gain, and order must be well thought out
*/
if (v->agc_enabled || v->peer!=NULL){
mblk_t *om;
int nbytes=v->nsamples*2;
ms_bufferizer_put_from_queue(v->buffer,f->inputs[0]);
while(ms_bufferizer_get_avail(v->buffer)>=nbytes){
om=allocb(nbytes,0);
ms_bufferizer_read(v->buffer,om->b_wptr,nbytes);
om->b_wptr+=nbytes;
update_energy((int16_t*)om->b_rptr, v->nsamples, v);
target_gain = v->static_gain;
if (v->peer) /* this ptr set = echo limiter enable flag */
target_gain = volume_echo_avoider_process(v, om);
/* Multiply with gain from echo limiter, not "choose smallest". Why?
* Remote talks, local echo suppress via mic path, but still audible in
* remote speaker. AGC operates fully, too (local speaker close to local mic!);
* having agc gain reduction also contribute to total reduction makes sense.
*/
if (v->agc_enabled) target_gain/= volume_agc_process(v, om);
if (v->noise_gate_enabled)
volume_noise_gate_process(v, v->level_pk, om);
apply_gain(v, om, target_gain);
ms_queue_put(f->outputs[0],om);
}
}else{
/*light processing: no agc. Work in place in the input buffer*/
while((m=ms_queue_get(f->inputs[0]))!=NULL){
update_energy((int16_t*)m->b_rptr, (m->b_wptr - m->b_rptr) / 2, v);
target_gain = v->static_gain;
if (v->noise_gate_enabled)
volume_noise_gate_process(v, v->level_pk, m);
apply_gain(v, m, target_gain);
ms_queue_put(f->outputs[0],m);
}
}
}
/* inputs[0]= reference signal from far end (sent to soundcard)
* inputs[1]= near speech & echo signal (read from soundcard)
* outputs[0]= is a copy of inputs[0] to be sent to soundcard
* outputs[1]= near end speech, echo removed - towards far end
*/
static void speex_ec_process(MSFilter *f){
SpeexECState *s=(SpeexECState*)f->data;
int nbytes=s->framesize*2;
mblk_t *refm;
uint8_t *ref,*echo;
if (s->bypass_mode) {
while((refm=ms_queue_get(f->inputs[0]))!=NULL){
ms_queue_put(f->outputs[0],refm);
}
while((refm=ms_queue_get(f->inputs[1]))!=NULL){
ms_queue_put(f->outputs[1],refm);
}
return;
}
if (f->inputs[0]!=NULL){
if (s->echostarted){
while((refm=ms_queue_get(f->inputs[0]))!=NULL){
refm=audio_flow_controller_process(&s->afc,refm);
if (refm){
mblk_t *cp=dupmsg(refm);
ms_bufferizer_put(&s->delayed_ref,cp);
ms_bufferizer_put(&s->ref,refm);
}
}
}else{
ms_warning("Getting reference signal but no echo to synchronize on.");
ms_queue_flush(f->inputs[0]);
}
}
ms_bufferizer_put_from_queue(&s->echo,f->inputs[1]);
ref=(uint8_t*)alloca(nbytes);
echo=(uint8_t*)alloca(nbytes);
while (ms_bufferizer_read(&s->echo,echo,nbytes)==nbytes){
mblk_t *oecho=allocb(nbytes,0);
int avail;
int avail_samples;
if (!s->echostarted) s->echostarted=TRUE;
if ((avail=ms_bufferizer_get_avail(&s->delayed_ref))<((s->nominal_ref_samples*2)+nbytes)){
/*we don't have enough to read in a reference signal buffer, inject silence instead*/
avail=nbytes;
refm=allocb(nbytes,0);
memset(refm->b_wptr,0,nbytes);
refm->b_wptr+=nbytes;
ms_bufferizer_put(&s->delayed_ref,refm);
ms_queue_put(f->outputs[0],dupmsg(refm));
if (!s->using_zeroes){
ms_warning("Not enough ref samples, using zeroes");
s->using_zeroes=TRUE;
}
}else{
if (s->using_zeroes){
ms_message("Samples are back.");
s->using_zeroes=FALSE;
}
/* read from our no-delay buffer and output */
refm=allocb(nbytes,0);
if (ms_bufferizer_read(&s->ref,refm->b_wptr,nbytes)==0){
ms_fatal("Should never happen");
}
refm->b_wptr+=nbytes;
ms_queue_put(f->outputs[0],refm);
}
/*now read a valid buffer of delayed ref samples*/
if (ms_bufferizer_read(&s->delayed_ref,ref,nbytes)==0){
ms_fatal("Should never happen");
}
avail-=nbytes;
avail_samples=avail/2;
/*ms_message("avail=%i",avail_samples);*/
if (avail_samples<s->min_ref_samples || s->min_ref_samples==-1){
s->min_ref_samples=avail_samples;
}
#ifdef EC_DUMP
if (s->reffile)
fwrite(ref,nbytes,1,s->reffile);
if (s->echofile)
fwrite(echo,nbytes,1,s->echofile);
#endif
speex_echo_cancellation(s->ecstate,(short*)echo,(short*)ref,(short*)oecho->b_wptr);
speex_preprocess_run(s->den, (short*)oecho->b_wptr);
#ifdef EC_DUMP
if (s->cleanfile)
fwrite(oecho->b_wptr,nbytes,1,s->cleanfile);
#endif
oecho->b_wptr+=nbytes;
ms_queue_put(f->outputs[1],oecho);
}
/*verify our ref buffer does not become too big, meaning that we are receiving more samples than we are sending*/
if ((((uint32_t)(f->ticker->time - s->flow_control_time)) >= flow_control_interval_ms) && (s->min_ref_samples != -1)) {
int diff=s->min_ref_samples-s->nominal_ref_samples;
if (diff>(nbytes/2)){
int purge=diff-(nbytes/2);
ms_warning("echo canceller: we are accumulating too much reference signal, need to throw out %i samples",purge);
audio_flow_controller_set_target(&s->afc,purge,(flow_control_interval_ms*s->samplerate)/1000);
}
s->min_ref_samples=-1;
s->flow_control_time = f->ticker->time;
}
}
static void ms_opus_enc_process(MSFilter *f) {
OpusEncData *d = (OpusEncData *)f->data;
OpusRepacketizer *repacketizer = NULL;
mblk_t *om = NULL;
int packet_size, pcm_buffer_size;
int max_frame_byte_size, ptime = 20;
int frame_count = 0, frame_size = 0;
opus_int32 total_length = 0;
uint8_t *repacketizer_frame_buffer[MAX_INPUT_FRAMES];
int i;
ms_filter_lock(f);
ptime = d->ptime;
packet_size = d->samplerate * ptime / 1000; /* in samples */
ms_filter_unlock(f);
switch (ptime) {
case 10:
frame_size = d->samplerate * 10 / 1000;
frame_count = 1;
break;
case 20:
frame_size = d->samplerate * 20 / 1000;
frame_count = 1;
break;
case 40:
frame_size = d->samplerate * 40 / 1000;
frame_count = 1;
break;
case 60:
frame_size = d->samplerate * 60 / 1000;
frame_count = 1;
break;
case 80:
frame_size = d->samplerate * 40 / 1000;
frame_count = 2;
break;
case 100:
frame_size = d->samplerate * 20 / 1000;
frame_count = 5;
break;
case 120:
frame_size = d->samplerate * 60 / 1000;
frame_count = 2;
break;
default:
frame_size = d->samplerate * 20 / 1000;
frame_count = 1;
}
max_frame_byte_size = MAX_BYTES_PER_MS * ptime/frame_count;
pcm_buffer_size = d->channels * frame_size * SIGNAL_SAMPLE_SIZE;
if (pcm_buffer_size > d->pcmbufsize){
if (d->pcmbuffer) ms_free(d->pcmbuffer);
d->pcmbuffer = ms_malloc(pcm_buffer_size);
d->pcmbufsize = pcm_buffer_size;
}
for (i=0; i<MAX_INPUT_FRAMES; i++) {
repacketizer_frame_buffer[i]=NULL;
}
ms_bufferizer_put_from_queue(d->bufferizer, f->inputs[0]);
while (ms_bufferizer_get_avail(d->bufferizer) >= (d->channels * packet_size * SIGNAL_SAMPLE_SIZE)) {
opus_int32 ret = 0;
if (frame_count == 1) { /* One Opus frame, not using the repacketizer */
om = allocb(max_frame_byte_size, 0);
ms_bufferizer_read(d->bufferizer, d->pcmbuffer, frame_size * SIGNAL_SAMPLE_SIZE * d->channels);
ret = opus_encode(d->state, (opus_int16 *)d->pcmbuffer, frame_size, om->b_wptr, max_frame_byte_size);
if (ret < 0) {
freemsg(om);
om=NULL;
ms_error("Opus encoder error: %s", opus_strerror(ret));
break;
} else {
total_length = ret;
om->b_wptr += total_length;
}
} else if(frame_count > 1) { /* We have multiple Opus frames we will use the opus repacketizer */
repacketizer = opus_repacketizer_create();
opus_repacketizer_init(repacketizer);
/* Do not include FEC/LBRR in any frame after the first one since it will be sent with the previous one */
ret = opus_encoder_ctl(d->state, OPUS_SET_INBAND_FEC(0));
if (ret != OPUS_OK) {
ms_error("could not set inband FEC to opus encoder: %s", opus_strerror(ret));
}
for (i=0; i<frame_count; i++) {
if(frame_count == i+1){ /* if configured, reactivate FEC on the last frame to tell the encoder he should restart saving LBRR frames */
ret = opus_encoder_ctl(d->state, OPUS_SET_INBAND_FEC(d->useinbandfec));
if (ret != OPUS_OK) {
ms_error("could not set inband FEC to opus encoder: %s", opus_strerror(ret));
}
}
if (!repacketizer_frame_buffer[i]) repacketizer_frame_buffer[i] = ms_malloc(max_frame_byte_size); /* the repacketizer need the pointer to packet to remain valid, so we shall have a buffer for each coded frame */
ms_bufferizer_read(d->bufferizer, d->pcmbuffer, frame_size * SIGNAL_SAMPLE_SIZE * d->channels);
ret = opus_encode(d->state, (opus_int16 *)d->pcmbuffer, frame_size, repacketizer_frame_buffer[i], max_frame_byte_size);
if (ret < 0) {
ms_error("Opus encoder error: %s", opus_strerror(ret));
break;
} else if (ret > 0) {
int err = opus_repacketizer_cat(repacketizer, repacketizer_frame_buffer[i], ret); /* add the encoded frame into the current packet */
if (err != OPUS_OK) {
ms_error("Opus repacketizer error: %s", opus_strerror(err));
break;
}
total_length += ret;
}
}
om = allocb(total_length + frame_count + 1, 0); /* opus repacketizer API: allocate at least number of frame + size of all data added before */
ret = opus_repacketizer_out(repacketizer, om->b_wptr, total_length+frame_count);
if(ret < 0){
freemsg(om);
om=NULL;
ms_error("Opus repacketizer out error: %s", opus_strerror(ret));
} else {
om->b_wptr += ret;
}
opus_repacketizer_destroy(repacketizer);
for (i=0; i<frame_count; i++) {
if (repacketizer_frame_buffer[i] != NULL) {
ms_free(repacketizer_frame_buffer[i]);
}
}
}
if(om) { /* we have an encoded output message */
mblk_set_timestamp_info(om, d->ts);
ms_bufferizer_fill_current_metas(d->bufferizer, om);
ms_queue_put(f->outputs[0], om);
d->ts += packet_size*48000/d->samplerate; /* RFC payload RTP opus 03 - section 4: RTP timestamp multiplier : WARNING works only with sr at 48000 */
total_length = 0;
}
}
}
static void conf_process(MSFilter *f){
int i;
ConfState *s=(ConfState*)f->data;
Channel *chan;
Channel *chan0;
ms_mutex_lock(&s->lock);
/*read from all inputs and put into bufferizers*/
for (i=0;i<CONF_MAX_PINS;++i){
if (f->inputs[i]!=NULL){
chan=&s->channels[i];
ms_bufferizer_put_from_queue(&chan->buff,f->inputs[i]);
if (ms_bufferizer_get_avail(&chan->buff)>0)
{
chan->missed=0; /* reset counter of missed packet */
if (/*i>0 && */chan->is_used==FALSE)
{
chan->is_used=TRUE;
ms_message("msconf: new contributing stream (chan=%i) %i", ms_bufferizer_get_avail(&chan->buff), i);
}
}
}
}
/*do the job */
while(should_process(f,s)==TRUE){
conf_sum(f, s);
conf_dispatch(f,s);
}
#if 0
/* mixer is disabled! -> copy A->B and B->A*/
if (s->mix_mode == FALSE)
{
/* get the soundread data and copy it to pinX */
for (i=1;i<CONF_MAX_PINS;i=i+2){
if (f->inputs[i]!=NULL){
chan0=&s->channels[0];
chan=&s->channels[i];
if (chan->is_used==TRUE)
{
while (ms_bufferizer_read(&chan->buff,(uint8_t*)chan->input,s->conf_gran)==s->conf_gran)
{
if (f->outputs[0]!=NULL)
{
/* send in pin0 */
mblk_t *m=allocb(s->conf_gran,0);
memcpy(m->b_wptr, chan->input, s->conf_gran);
m->b_wptr+=s->conf_gran;
ms_queue_put(f->outputs[0],m);
}
}
}
if (chan0->is_used==TRUE)
{
while (ms_bufferizer_read(&chan0->buff,(uint8_t*)chan0->input,s->conf_gran)==s->conf_gran)
{
if (f->outputs[i]!=NULL)
{
/* send in pinI */
mblk_t *m=allocb(s->conf_gran,0);
memcpy(m->b_wptr, chan0->input, s->conf_gran);
m->b_wptr+=s->conf_gran;
ms_queue_put(f->outputs[i],m);
}
}
}
break;
}
}
}
#endif // 0
ms_mutex_unlock(&s->lock);
}