jackaudio
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jack2
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More flexible handling of network audio buffers. 

git-svn-id: http://subversion.jackaudio.org/jack/jack2/branches/libjacknet@3932 0c269be4-1314-0410-8aa9-9f06e86f4224
tags/1.9.8
sletz 15 years ago
parent
1305523784
commit
b6bf30679d
9 changed files with 314 additions and 91 deletions
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  1. +35
    -12
      common/JackNetInterface.cpp
  2. +2
    -1
      common/JackNetInterface.h
  3. +55
    -55
      common/JackNetTool.cpp
  4. +196
    -10
      common/JackNetTool.h
  5. +1
    -1
      common/JackTools.h
  6. +2
    -2
      macosx/coreaudio/TiPhoneCoreAudioRenderer.cpp
  7. +1
    -1
      macosx/coreaudio/TiPhoneCoreAudioRenderer.h
  8. +1
    -1
      macosx/iphone/main_master.mm
  9. +21
    -8
      macosx/iphone/main_slave.mm

+ 35
- 12
common/JackNetInterface.cpp View File

@@ -115,6 +115,7 @@ namespace Jack
fParams.fPeriodSize * sizeof(sample_t) / PACKET_AVAILABLE_SIZE);
//bufsize = sync + audio + midi
bufsize = MAX_LATENCY * (fParams.fMtu + ( int ) audio_size + ( int ) midi_size);
jack_info("SetNetBufferSize bufsize = %d", bufsize);

//tx buffer
if ( fSocket.SetOption ( SOL_SOCKET, SO_SNDBUF, &bufsize, sizeof ( bufsize ) ) == SOCKET_ERROR )
@@ -298,8 +299,12 @@ namespace Jack
assert ( fNetMidiPlaybackBuffer );

//audio net buffers
fNetAudioCaptureBuffer = new NetAudioBuffer ( &fParams, fParams.fSendAudioChannels, fTxData );
fNetAudioPlaybackBuffer = new NetAudioBuffer ( &fParams, fParams.fReturnAudioChannels, fRxData );
fNetAudioCaptureBuffer = new NetSingleAudioBuffer ( &fParams, fParams.fSendAudioChannels, fTxData );
fNetAudioPlaybackBuffer = new NetSingleAudioBuffer ( &fParams, fParams.fReturnAudioChannels, fRxData );
//fNetAudioCaptureBuffer = new NetBufferedAudioBuffer ( &fParams, fParams.fSendAudioChannels, fTxData );
//fNetAudioPlaybackBuffer = new NetBufferedAudioBuffer ( &fParams, fParams.fReturnAudioChannels, fRxData );
assert ( fNetAudioCaptureBuffer );
assert ( fNetAudioPlaybackBuffer );

@@ -387,7 +392,7 @@ namespace Jack
bool JackNetMasterInterface::IsSynched()
{
if (fParams.fNetworkMode == 's') {
return (fCycleOffset < 3);
return (fCycleOffset < (CYCLE_OFFSET_SLOW + 1));
} else {
return true;
}
@@ -464,13 +469,13 @@ namespace Jack
// - if the network is two fast, just wait the next cycle, this mode allows a shorter cycle duration for the master
// - this mode will skip the two first cycles, thus it lets time for data to be processed and queued on the socket rx buffer
//the slow mode is the safest mode because it wait twice the bandwidth relative time (send/return + process)
if (fCycleOffset < 2) {
if (fCycleOffset < CYCLE_OFFSET_SLOW) {
return 0;
} else {
rx_bytes = Recv ( rx_head->fPacketSize, 0 );
}
if (fCycleOffset > 2) {
if (fCycleOffset > CYCLE_OFFSET_SLOW) {
jack_info("Warning : '%s' runs in slow network mode, but data received too late (%d cycle(s) offset)", fParams.fName, fCycleOffset);
}
break;
@@ -514,6 +519,8 @@ namespace Jack
uint jumpcnt = 0;
uint recvd_midi_pckt = 0;
uint recvd_audio_pckt = 0;
int last_cycle = 0;
packet_header_t* rx_head = reinterpret_cast<packet_header_t*> ( fRxBuffer );
while ( !fRxHeader.fIsLastPckt )
@@ -553,16 +560,22 @@ namespace Jack
fRxHeader.fCycle = rx_head->fCycle;
fRxHeader.fSubCycle = rx_head->fSubCycle;
fRxHeader.fIsLastPckt = rx_head->fIsLastPckt;
fNetAudioPlaybackBuffer->RenderToJackPorts ( rx_head->fSubCycle );
fNetAudioPlaybackBuffer->RenderToJackPorts ( rx_head->fCycle, rx_head->fSubCycle);
jumpcnt = 0;
last_cycle = rx_head->fCycle;
break;

case 's': //sync
jack_info("NetMaster : overloaded, skipping receive from '%s'", fParams.fName);
// Finish rendering (copy to JACK ports)
fNetAudioPlaybackBuffer->FinishRenderToJackPorts(last_cycle);
return 0;
}
}
}
// Finish rendering (copy to JACK ports)
fNetAudioPlaybackBuffer->FinishRenderToJackPorts(last_cycle);
return rx_bytes;
}
@@ -790,8 +803,11 @@ namespace Jack
fNetMidiPlaybackBuffer = new NetMidiBuffer ( &fParams, fParams.fReturnMidiChannels, fTxData );

//audio net buffers
fNetAudioCaptureBuffer = new NetAudioBuffer ( &fParams, fParams.fSendAudioChannels, fRxData );
fNetAudioPlaybackBuffer = new NetAudioBuffer ( &fParams, fParams.fReturnAudioChannels, fTxData );
fNetAudioCaptureBuffer = new NetSingleAudioBuffer ( &fParams, fParams.fSendAudioChannels, fRxData );
fNetAudioPlaybackBuffer = new NetSingleAudioBuffer ( &fParams, fParams.fReturnAudioChannels, fTxData );
//fNetAudioCaptureBuffer = new NetBufferedAudioBuffer ( &fParams, fParams.fSendAudioChannels, fRxData );
//fNetAudioPlaybackBuffer = new NetBufferedAudioBuffer ( &fParams, fParams.fReturnAudioChannels, fTxData );

//audio netbuffer length
fAudioTxLen = sizeof ( packet_header_t ) + fNetAudioPlaybackBuffer->GetSize();
@@ -867,6 +883,8 @@ namespace Jack
uint recvd_midi_pckt = 0;
uint recvd_audio_pckt = 0;
int rx_bytes = 0;
int last_cycle = 0;
packet_header_t* rx_head = reinterpret_cast<packet_header_t*> ( fRxBuffer );

while ( !fRxHeader.fIsLastPckt )
@@ -893,21 +911,26 @@ namespace Jack
case 'a': //audio
rx_bytes = Recv ( rx_head->fPacketSize, 0 );
if (recvd_audio_pckt++ != rx_head->fSubCycle) {
//jack_error("Packet(s) missing from '%s'...", fParams.fMasterNetName);
jack_error("Packet(s) missing from '%s'... %d %d %d", fParams.fMasterNetName, rx_head->fCycle, recvd_audio_pckt, rx_head->fSubCycle);
jack_error("Packet(s) missing from '%s'...", fParams.fMasterNetName);
}
fRxHeader.fCycle = rx_head->fCycle;
fRxHeader.fSubCycle = rx_head->fSubCycle;
fRxHeader.fIsLastPckt = rx_head->fIsLastPckt;
fNetAudioCaptureBuffer->RenderToJackPorts ( rx_head->fSubCycle );
fNetAudioCaptureBuffer->RenderToJackPorts ( rx_head->fCycle, rx_head->fSubCycle);
last_cycle = rx_head->fCycle;
break;

case 's': //sync
jack_info ( "NetSlave : overloaded, skipping receive." );
// Finish rendering (copy to JACK ports)
fNetAudioCaptureBuffer->FinishRenderToJackPorts(last_cycle);
return 0;
}
}
}
// Finish rendering (copy to JACK ports)
fNetAudioCaptureBuffer->FinishRenderToJackPorts(last_cycle);
fRxHeader.fCycle = rx_head->fCycle;
return 0;
}


+ 2
- 1
common/JackNetInterface.h View File

@@ -212,6 +212,7 @@ namespace Jack
#define MASTER_INIT_TIMEOUT 1000000 // in usec
#define SLAVE_INIT_TIMEOUT 2000000 // in usec

#define MAX_LATENCY 6
#define CYCLE_OFFSET_SLOW 2
#define MAX_LATENCY CYCLE_OFFSET_SLOW * 4

#endif

+ 55
- 55
common/JackNetTool.cpp View File

@@ -127,93 +127,93 @@ namespace Jack

// net audio buffer *********************************************************************************

NetAudioBuffer::NetAudioBuffer ( session_params_t* params, uint32_t nports, char* net_buffer )

NetSingleAudioBuffer::NetSingleAudioBuffer ( session_params_t* params, uint32_t nports, char* net_buffer )
: fPortBuffer(params, nports), fNetBuffer(net_buffer)
{}

NetSingleAudioBuffer::~NetSingleAudioBuffer()
{}

size_t NetSingleAudioBuffer::GetSize()
{
fNPorts = nports;
fPeriodSize = params->fPeriodSize;
fSubPeriodSize = params->fFramesPerPacket;
fSubPeriodBytesSize = fSubPeriodSize * sizeof ( sample_t );
fPortBuffer = new sample_t* [fNPorts];
for ( int port_index = 0; port_index < fNPorts; port_index++ )
fPortBuffer[port_index] = NULL;
fNetBuffer = net_buffer;
return fPortBuffer.GetSize();
}

NetAudioBuffer::~NetAudioBuffer()
void NetSingleAudioBuffer::SetBuffer ( int index, sample_t* buffer )
{
delete[] fPortBuffer;
fPortBuffer.SetBuffer(index, buffer);
}

size_t NetAudioBuffer::GetSize()
sample_t* NetSingleAudioBuffer::GetBuffer ( int index )
{
return fNPorts * fSubPeriodBytesSize;
return fPortBuffer.GetBuffer(index);
}

void NetAudioBuffer::SetBuffer ( int index, sample_t* buffer )
void NetSingleAudioBuffer::RenderFromJackPorts (int subcycle)
{
fPortBuffer[index] = buffer;
fPortBuffer.RenderFromJackPorts(fNetBuffer, subcycle);
}

sample_t* NetAudioBuffer::GetBuffer ( int index )
void NetSingleAudioBuffer::RenderToJackPorts (int cycle, int subcycle)
{
return fPortBuffer[index];
fPortBuffer.RenderToJackPorts(fNetBuffer, subcycle);
}

#ifdef __BIG_ENDIAN__
// Buffered

static inline float SwapFloat(float f)
NetBufferedAudioBuffer::NetBufferedAudioBuffer ( session_params_t* params, uint32_t nports, char* net_buffer )
{
union
{
float f;
unsigned char b[4];
} dat1, dat2;
fMaxCycle = 0;
fNetBuffer = net_buffer;
for (int i = 0; i < AUDIO_BUFFER_SIZE; i++) {
fPortBuffer[i].Init(params, nports);
}
fJackPortBuffer = new sample_t* [nports];
for ( int port_index = 0; port_index < nports; port_index++ )
fJackPortBuffer[port_index] = NULL;
}

dat1.f = f;
dat2.b[0] = dat1.b[3];
dat2.b[1] = dat1.b[2];
dat2.b[2] = dat1.b[1];
dat2.b[3] = dat1.b[0];
return dat2.f;
NetBufferedAudioBuffer::~NetBufferedAudioBuffer()
{
delete [] fJackPortBuffer;
}

void NetAudioBuffer::RenderFromJackPorts ( int subcycle )
size_t NetBufferedAudioBuffer::GetSize()
{
for ( int port_index = 0; port_index < fNPorts; port_index++ ) {
float* src = (float*)(fPortBuffer[port_index] + subcycle * fSubPeriodSize);
float* dst = (float*)(fNetBuffer + port_index * fSubPeriodBytesSize);
for (unsigned int sample = 0; sample < fSubPeriodBytesSize / sizeof(float); sample++) {
dst[sample] = SwapFloat(src[sample]);
}
}
return fPortBuffer[0].GetSize();
}

void NetAudioBuffer::RenderToJackPorts ( int subcycle )
void NetBufferedAudioBuffer::SetBuffer ( int index, sample_t* buffer )
{
for ( int port_index = 0; port_index < fNPorts; port_index++ ) {
float* src = (float*)(fNetBuffer + port_index * fSubPeriodBytesSize);
float* dst = (float*)(fPortBuffer[port_index] + subcycle * fSubPeriodSize);
for (unsigned int sample = 0; sample < fSubPeriodBytesSize / sizeof(float); sample++) {
dst[sample] = SwapFloat(src[sample]);
}
}
fJackPortBuffer[index] = buffer;
}
#else

void NetAudioBuffer::RenderFromJackPorts ( int subcycle )
sample_t* NetBufferedAudioBuffer::GetBuffer ( int index )
{
for ( int port_index = 0; port_index < fNPorts; port_index++ )
memcpy ( fNetBuffer + port_index * fSubPeriodBytesSize, fPortBuffer[port_index] + subcycle * fSubPeriodSize, fSubPeriodBytesSize );
return fJackPortBuffer[index];
}
void NetBufferedAudioBuffer::RenderFromJackPorts (int subcycle )
{
fPortBuffer[0].RenderFromJackPorts(fNetBuffer, subcycle); // Always use first buffer...
}

void NetAudioBuffer::RenderToJackPorts ( int subcycle )
void NetBufferedAudioBuffer::RenderToJackPorts (int cycle, int subcycle)
{
for ( int port_index = 0; port_index < fNPorts; port_index++ )
memcpy ( fPortBuffer[port_index] + subcycle * fSubPeriodSize, fNetBuffer + port_index * fSubPeriodBytesSize, fSubPeriodBytesSize );
if (cycle < fMaxCycle) {
jack_info("Wrong order fCycle %d subcycle %d fMaxCycle %d", cycle, subcycle, fMaxCycle);
}
fPortBuffer[cycle % AUDIO_BUFFER_SIZE].RenderToJackPorts(fNetBuffer, subcycle);
}

#endif
void NetBufferedAudioBuffer::FinishRenderToJackPorts (int cycle)
{
fMaxCycle = std::max(fMaxCycle, cycle);
fPortBuffer[(cycle + 1) % AUDIO_BUFFER_SIZE].Copy(fJackPortBuffer); // Copy internal buffer in JACK ports
}

// SessionParams ************************************************************************************



+ 196
- 10
common/JackNetTool.h View File

@@ -248,6 +248,25 @@ namespace Jack

// audio data *********************************************************************************

class SERVER_EXPORT NetAudioBuffer
{
public:
NetAudioBuffer ()
{}
~NetAudioBuffer()
{}
virtual size_t GetSize() = 0;
//jack<->buffer
virtual void RenderFromJackPorts (int subcycle ) = 0;
virtual void RenderToJackPorts ( int cycle, int subcycle) = 0;
virtual void FinishRenderToJackPorts (int cycle) = 0;

virtual void SetBuffer ( int index, sample_t* buffer ) = 0;
virtual sample_t* GetBuffer ( int index ) = 0;
};

/**
\Brief Audio buffer and operations class

@@ -257,24 +276,191 @@ namespace Jack
So there is no need of an intermediate buffer as in NetMidiBuffer.

*/
struct JackPortList {
jack_nframes_t fPeriodSize;
jack_nframes_t fSubPeriodSize;
size_t fSubPeriodBytesSize;
sample_t** fPortBuffer;
int fNPorts;
JackPortList(session_params_t* params, uint32_t nports)
{
fNPorts = nports;
fPeriodSize = params->fPeriodSize;
fSubPeriodSize = params->fFramesPerPacket;
fSubPeriodBytesSize = fSubPeriodSize * sizeof ( sample_t );
fPortBuffer = new sample_t* [fNPorts];
for ( int port_index = 0; port_index < fNPorts; port_index++ )
fPortBuffer[port_index] = NULL;
}
JackPortList()
{
fNPorts = 0;
fPeriodSize = 0;
fSubPeriodSize = 0;
fSubPeriodBytesSize = 0;
fPortBuffer = 0;
}
~JackPortList()
{
delete [] fPortBuffer;
}
void SetBuffer( int index, sample_t* buffer )
{
fPortBuffer[index] = buffer;
}
sample_t* GetBuffer ( int index )
{
return fPortBuffer[index];
}
void Copy(sample_t** buffers)
{
for ( int port_index = 0; port_index < fNPorts; port_index++ )
memcpy(buffers[port_index], fPortBuffer[port_index], fPeriodSize * sizeof(float));
}
size_t GetSize()
{
return fNPorts * fSubPeriodBytesSize;
}
#ifdef __BIG_ENDIAN__

static inline float SwapFloat(float f)
{
union
{
float f;
unsigned char b[4];
} dat1, dat2;

dat1.f = f;
dat2.b[0] = dat1.b[3];
dat2.b[1] = dat1.b[2];
dat2.b[2] = dat1.b[1];
dat2.b[3] = dat1.b[0];
return dat2.f;
}

void RenderFromJackPorts (char* net_buffer, int subcycle )
{
for ( int port_index = 0; port_index < fNPorts; port_index++ ) {
float* src = (float*)(fPortBuffer[port_index] + subcycle * fSubPeriodSize);
float* dst = (float*)(net_buffer + port_index * fSubPeriodBytesSize);
for (unsigned int sample = 0; sample < fSubPeriodBytesSize / sizeof(float); sample++) {
dst[sample] = SwapFloat(src[sample]);
}
}
}

void RenderToJackPorts (char* net_buffer, int subcycle)
{
for ( int port_index = 0; port_index < fNPorts; port_index++ ) {
float* src = (float*)(net_buffer + port_index * fSubPeriodBytesSize);
float* dst = (float*)(fPortBuffer[port_index] + subcycle * fSubPeriodSize);
for (unsigned int sample = 0; sample < fSubPeriodBytesSize / sizeof(float); sample++) {
dst[sample] = SwapFloat(src[sample]);
}
}
}
#else

void RenderFromJackPorts (char* net_buffer, int subcycle )
{
for ( int port_index = 0; port_index < fNPorts; port_index++ )
memcpy ( net_buffer + port_index * fSubPeriodBytesSize, fPortBuffer[port_index] + subcycle * fSubPeriodSize, fSubPeriodBytesSize );
}

void RenderToJackPorts (char* net_buffer, int subcycle)
{
for ( int port_index = 0; port_index < fNPorts; port_index++ )
memcpy ( fPortBuffer[port_index] + subcycle * fSubPeriodSize, net_buffer + port_index * fSubPeriodBytesSize, fSubPeriodBytesSize );
}

#endif
};
struct JackPortListAllocate : public JackPortList {
JackPortListAllocate()
{
fNPorts = 0;
fPeriodSize = 0;
fSubPeriodSize = 0;
fSubPeriodBytesSize = 0;
fPortBuffer = 0;
}
~JackPortListAllocate()
{
for ( int port_index = 0; port_index < fNPorts; port_index++ )
delete [] fPortBuffer[port_index];
delete [] fPortBuffer;
}
void Init(session_params_t* params, uint32_t nports)
{
fNPorts = nports;
fPeriodSize = params->fPeriodSize;
fSubPeriodSize = params->fFramesPerPacket;
fSubPeriodBytesSize = fSubPeriodSize * sizeof ( sample_t );
fPortBuffer = new sample_t* [fNPorts];
for ( int port_index = 0; port_index < fNPorts; port_index++ )
fPortBuffer[port_index] = new sample_t[fPeriodSize];
}
};

class SERVER_EXPORT NetAudioBuffer
class SERVER_EXPORT NetSingleAudioBuffer : public NetAudioBuffer
{
private:
int fNPorts;
jack_nframes_t fPeriodSize;
jack_nframes_t fSubPeriodSize;
size_t fSubPeriodBytesSize;
JackPortList fPortBuffer;
char* fNetBuffer;
public:
NetSingleAudioBuffer ( session_params_t* params, uint32_t nports, char* net_buffer );
~NetSingleAudioBuffer();

size_t GetSize();
//jack<->buffer
void RenderFromJackPorts (int subcycle );
void RenderToJackPorts (int cycle, int subcycle);

void SetBuffer ( int index, sample_t* buffer );
sample_t* GetBuffer ( int index );
void FinishRenderToJackPorts (int cycle) {}
};
#define AUDIO_BUFFER_SIZE 8
class SERVER_EXPORT NetBufferedAudioBuffer : public NetAudioBuffer
{
private:
char* fNetBuffer;
sample_t** fPortBuffer;
JackPortListAllocate fPortBuffer[AUDIO_BUFFER_SIZE];
sample_t** fJackPortBuffer;
int fMaxCycle;
public:
NetAudioBuffer ( session_params_t* params, uint32_t nports, char* net_buffer );
~NetAudioBuffer();
NetBufferedAudioBuffer ( session_params_t* params, uint32_t nports, char* net_buffer );
~NetBufferedAudioBuffer();

size_t GetSize();
//jack<->buffer
void RenderFromJackPorts ( int subcycle );
void RenderToJackPorts ( int subcycle );
void RenderFromJackPorts (int subcycle );
void RenderToJackPorts ( int cycle, int subcycle);
void FinishRenderToJackPorts (int cycle);

void SetBuffer ( int index, sample_t* buffer );
sample_t* GetBuffer ( int index );


+ 1
- 1
common/JackTools.h View File

@@ -137,7 +137,7 @@ namespace Jack

T Add ( T measure_point )
{
return fCurrentMeasure[fMeasureId++] = measure_point;
return fCurrentMeasure[fMeasureId++] = measure_point;
}

uint32_t AddLast ( T measure_point )


+ 2
- 2
macosx/coreaudio/TiPhoneCoreAudioRenderer.cpp View File

@@ -118,14 +118,14 @@ void TiPhoneCoreAudioRenderer::InterruptionListener(void *inClientData, UInt32 i
}
}

int TiPhoneCoreAudioRenderer::OpenDefault(int bufferSize, int samplerate)
int TiPhoneCoreAudioRenderer::Open(int bufferSize, int samplerate)
{
OSStatus err1;
UInt32 outSize;
UInt32 enableIO;
AudioStreamBasicDescription srcFormat, dstFormat;
printf("OpenDefault fDevNumInChans = %ld fDevNumOutChans = %ld bufferSize = %ld samplerate = %ld\n", fDevNumInChans, fDevNumOutChans, bufferSize, samplerate);
printf("Open fDevNumInChans = %ld fDevNumOutChans = %ld bufferSize = %ld samplerate = %ld\n", fDevNumInChans, fDevNumOutChans, bufferSize, samplerate);
// Initialize and configure the audio session
err1 = AudioSessionInitialize(NULL, NULL, InterruptionListener, this);


+ 1
- 1
macosx/coreaudio/TiPhoneCoreAudioRenderer.h View File

@@ -78,7 +78,7 @@ class TiPhoneCoreAudioRenderer
}
}

int OpenDefault(int bufferSize, int sampleRate);
int Open(int bufferSize, int sampleRate);
int Close();

int Start();


+ 1
- 1
macosx/iphone/main_master.mm View File

@@ -71,7 +71,7 @@ int main(int argc, char *argv[]) {
audio_output_buffer[i] = (float*)(calloc(buffer_size, sizeof(float)));
}
if (audio_device.OpenDefault(buffer_size, sample_rate) < 0) {
if (audio_device.Open(buffer_size, sample_rate) < 0) {
return -1;
}


+ 21
- 8
macosx/iphone/main_slave.mm View File

@@ -11,8 +11,8 @@

#include "TiPhoneCoreAudioRenderer.h"

#define NUM_INPUT 2
#define NUM_OUTPUT 2
#define NUM_INPUT 1
#define NUM_OUTPUT 1

jack_net_slave_t* net;
jack_adapter_t* adapter;
@@ -33,23 +33,36 @@ static int net_process(jack_nframes_t buffer_size,
void* data)
{

jack_adapter_pull_and_push(adapter, audio_output_buffer, audio_input_buffer, buffer_size);
//jack_adapter_pull_and_push(adapter, audio_output_buffer, audio_input_buffer, buffer_size);
// Process input, produce output
if (audio_input == audio_output) {
// Copy input to output
for (int i = 0; i < audio_input; i++) {
memcpy(audio_output_buffer[i], audio_input_buffer[i], buffer_size * sizeof(float));
}
}
return 0;
}

static void SlaveAudioCallback(int frames, float** inputs, float** outputs, void* arg)
{
jack_adapter_push_and_pull(adapter, inputs, outputs, frames);
//jack_adapter_push_and_pull(adapter, inputs, outputs, frames);
}

//http://www.securityfocus.com/infocus/1884

#define WIFI_MTU 1500


int main(int argc, char *argv[]) {
NSAutoreleasePool * pool = [[NSAutoreleasePool alloc] init];
NSAutoreleasePool* pool = [[NSAutoreleasePool alloc] init];
jack_slave_t request = { NUM_INPUT, NUM_OUTPUT, 0, 0, DEFAULT_MTU, -1, JackSlowMode };
jack_slave_t request = { NUM_INPUT, NUM_OUTPUT, 0, 0, WIFI_MTU, -1, JackSlowMode };
jack_master_t result;

if ((net = jack_net_slave_open(DEFAULT_MULTICAST_IP, DEFAULT_PORT, "iPhone", &request, &result)) == 0) {
if ((net = jack_net_slave_open("169.254.136.64", DEFAULT_PORT, "iPhone", &request, &result)) == 0) {
return -1;
}
@@ -69,7 +82,7 @@ int main(int argc, char *argv[]) {
return -1;
}
if (audio_device.OpenDefault(result.buffer_size, result.sample_rate) < 0) {
if (audio_device.Open(result.buffer_size, result.sample_rate) < 0) {
return -1;
}


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