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jack2
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jack2/common/JackNetAPI.cpp

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  1. /*

  2. Copyright (C) 2009-2011 Grame

  3. 

  4. This program is free software; you can redistribute it and/or modify

  5. it under the terms of the GNU Lesser General Public License as published by

  6. the Free Software Foundation; either version 2.1 of the License, or

  7. (at your option) any later version.

  8. 

  9. This program is distributed in the hope that it will be useful,

  10. but WITHOUT ANY WARRANTY; without even the implied warranty of

  11. MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

  12. GNU Lesser General Public License for more details.

  13. 

  14. You should have received a copy of the GNU Lesser General Public License

  15. along with this program; if not, write to the Free Software

  16. Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.

  17. 

  18. */

  19. 

  20. #include <assert.h>

  21. #include <stdarg.h>

  22. #include "JackNetInterface.h"

  23. #include "JackError.h"

  24. #include "JackException.h"

  25. #include "JackAudioAdapterInterface.h"

  26. 

  27. #ifdef __cplusplus

  28. extern "C"

  29. {

  30. #endif

  31. 

  32.     // NetJack common API

  33. 

  34.     #define MASTER_NAME_SIZE 256

  35. 

  36.     enum JackNetEncoder {

  37. 

  38.         JackFloatEncoder = 0,

  39.         JackIntEncoder = 1,

  40.         JackCeltEncoder = 2,

  41.         JackMaxEncoder = 3

  42.     };

  43. 

  44.     typedef struct {

  45. 

  46.         int audio_input;

  47.         int audio_output;

  48.         int midi_input;

  49.         int midi_output;

  50.         int mtu;

  51.         int time_out;   // in millisecond, -1 means in infinite

  52.         int encoder;    // one of JackNetEncoder

  53.         int kbps;       // KB per second for CELT encoder

  54.         int latency;    // network cycles

  55. 

  56.     } jack_slave_t;

  57. 

  58.     typedef struct {

  59. 

  60.         int audio_input;

  61.         int audio_output;

  62.         int midi_input;

  63.         int midi_output;

  64.         jack_nframes_t buffer_size;

  65.         jack_nframes_t sample_rate;

  66.         char master_name[MASTER_NAME_SIZE];

  67. 

  68.     } jack_master_t;

  69. 

  70.     // NetJack slave API

  71. 

  72.     typedef struct _jack_net_slave jack_net_slave_t;

  73. 

  74.     typedef int (* JackNetSlaveProcessCallback) (jack_nframes_t buffer_size,

  75.                                             int audio_input,

  76.                                             float** audio_input_buffer,

  77.                                             int midi_input,

  78.                                             void** midi_input_buffer,

  79.                                             int audio_output,

  80.                                             float** audio_output_buffer,

  81.                                             int midi_output,

  82.                                             void** midi_output_buffer,

  83.                                             void* data);

  84. 

  85.     typedef int (*JackNetSlaveBufferSizeCallback) (jack_nframes_t nframes, void *arg);

  86.     typedef int (*JackNetSlaveSampleRateCallback) (jack_nframes_t nframes, void *arg);

  87.     typedef void (*JackNetSlaveShutdownCallback) (void* data);

  88. 

  89.     SERVER_EXPORT jack_net_slave_t* jack_net_slave_open(const char* ip, int port, const char* name, jack_slave_t* request, jack_master_t* result);

  90.     SERVER_EXPORT int jack_net_slave_close(jack_net_slave_t* net);

  91. 

  92.     SERVER_EXPORT int jack_net_slave_activate(jack_net_slave_t* net);

  93.     SERVER_EXPORT int jack_net_slave_deactivate(jack_net_slave_t* net);

  94. 

  95.     SERVER_EXPORT int jack_set_net_slave_process_callback(jack_net_slave_t* net, JackNetSlaveProcessCallback net_callback, void *arg);

  96.     SERVER_EXPORT int jack_set_net_slave_buffer_size_callback(jack_net_slave_t* net, JackNetSlaveBufferSizeCallback bufsize_callback, void *arg);

  97.     SERVER_EXPORT int jack_set_net_slave_sample_rate_callback(jack_net_slave_t* net, JackNetSlaveSampleRateCallback samplerate_callback, void *arg);

  98.     SERVER_EXPORT int jack_set_net_slave_shutdown_callback(jack_net_slave_t* net, JackNetSlaveShutdownCallback shutdown_callback, void *arg);

  99. 

  100.     // NetJack master API

  101. 

  102.     typedef struct _jack_net_master jack_net_master_t;

  103. 

  104.     SERVER_EXPORT jack_net_master_t* jack_net_master_open(const char* ip, int port, const char* name, jack_master_t* request, jack_slave_t* result);

  105.     SERVER_EXPORT int jack_net_master_close(jack_net_master_t* net);

  106. 

  107.     SERVER_EXPORT int jack_net_master_recv(jack_net_master_t* net, int audio_input, float** audio_input_buffer, int midi_input, void** midi_input_buffer);

  108.     SERVER_EXPORT int jack_net_master_send(jack_net_master_t* net, int audio_output, float** audio_output_buffer, int midi_output, void** midi_output_buffer);

  109. 

  110.     // NetJack adapter API

  111. 

  112.     typedef struct _jack_adapter jack_adapter_t;

  113. 

  114.     SERVER_EXPORT jack_adapter_t* jack_create_adapter(int input, int output,

  115.                                                     jack_nframes_t host_buffer_size,

  116.                                                     jack_nframes_t host_sample_rate,

  117.                                                     jack_nframes_t adapted_buffer_size,

  118.                                                     jack_nframes_t adapted_sample_rate);

  119.     SERVER_EXPORT int jack_destroy_adapter(jack_adapter_t* adapter);

  120.     SERVER_EXPORT void jack_flush_adapter(jack_adapter_t* adapter);

  121. 

  122.     SERVER_EXPORT int jack_adapter_push_and_pull(jack_adapter_t* adapter, float** input, float** output, unsigned int frames);

  123.     SERVER_EXPORT int jack_adapter_pull_and_push(jack_adapter_t* adapter, float** input, float** output, unsigned int frames);

  124. 

  125. #ifdef __cplusplus

  126. }

  127. #endif

  128. 

  129. namespace Jack

  130. {

  131. 

  132. struct JackNetExtMaster : public JackNetMasterInterface {

  133. 

  134.     // Data buffers

  135.     float** fAudioCaptureBuffer;

  136.     float** fAudioPlaybackBuffer;

  137. 

  138.     JackMidiBuffer** fMidiCaptureBuffer;

  139.     JackMidiBuffer** fMidiPlaybackBuffer;

  140. 

  141.     jack_master_t fRequest;

  142. 

  143.     JackNetExtMaster(const char* ip,

  144.                     int port,

  145.                     const char* name,

  146.                     jack_master_t* request)

  147.     {

  148.         fRunning = true;

  149.         assert(strlen(ip) < 32);

  150.         strcpy(fMulticastIP, ip);

  151.         fSocket.SetPort(port);

  152.         fRequest.buffer_size = request->buffer_size;

  153.         fRequest.sample_rate = request->sample_rate;

  154.         fAudioCaptureBuffer = NULL;

  155.         fAudioPlaybackBuffer = NULL;

  156.         fMidiCaptureBuffer = NULL;

  157.         fMidiPlaybackBuffer = NULL;

  158.     }

  159. 

  160.     virtual ~JackNetExtMaster()

  161.     {}

  162. 

  163.     int Open(jack_slave_t* result)

  164.     {

  165.         // Init socket API (win32)

  166.         if (SocketAPIInit() < 0) {

  167.             jack_error("Can't init Socket API, exiting...");

  168.             return -1;

  169.         }

  170. 

  171.         // Request socket

  172.         if (fSocket.NewSocket() == SOCKET_ERROR) {

  173.             jack_error("Can't create the network management input socket : %s", StrError(NET_ERROR_CODE));

  174.             return -1;

  175.         }

  176. 

  177.         // Bind the socket to the local port

  178.         if (fSocket.Bind() == SOCKET_ERROR) {

  179.             jack_error("Can't bind the network manager socket : %s", StrError(NET_ERROR_CODE));

  180.             fSocket.Close();

  181.             return -1;

  182.         }

  183. 

  184.         // Join multicast group

  185.         if (fSocket.JoinMCastGroup(fMulticastIP) == SOCKET_ERROR) {

  186.             jack_error("Can't join multicast group : %s", StrError(NET_ERROR_CODE));

  187.         }

  188. 

  189.         // Local loop

  190.         if (fSocket.SetLocalLoop() == SOCKET_ERROR) {

  191.             jack_error("Can't set local loop : %s", StrError(NET_ERROR_CODE));

  192.         }

  193. 

  194.         // Set a timeout on the multicast receive (the thread can now be cancelled)

  195.         if (fSocket.SetTimeOut(MANAGER_INIT_TIMEOUT) == SOCKET_ERROR) {

  196.             jack_error("Can't set timeout : %s", StrError(NET_ERROR_CODE));

  197.         }

  198. 

  199.          // Main loop, wait for data, deal with it and wait again

  200.         int attempt = 0;

  201.         int rx_bytes = 0;

  202. 

  203.         do

  204.         {

  205.             session_params_t net_params;

  206.             rx_bytes = fSocket.CatchHost(&net_params, sizeof(session_params_t), 0);

  207.             SessionParamsNToH(&net_params, &fParams);

  208. 

  209.             if ((rx_bytes == SOCKET_ERROR) && (fSocket.GetError() != NET_NO_DATA)) {

  210.                 jack_error("Error in receive : %s", StrError(NET_ERROR_CODE));

  211.                 if (++attempt == 10) {

  212.                     jack_error("Can't receive on the socket, exiting net manager" );

  213.                     goto error;

  214.                 }

  215.             }

  216. 

  217.             if (rx_bytes == sizeof(session_params_t ))  {

  218. 

  219.                 switch (GetPacketType(&fParams)) {

  220. 

  221.                     case SLAVE_AVAILABLE:

  222.                         if (MasterInit() == 0) {

  223.                             SessionParamsDisplay(&fParams);

  224.                             fRunning = false;

  225.                         } else {

  226.                             jack_error("Can't init new net master...");

  227.                             goto error;

  228.                         }

  229.                         jack_info("Waiting for a slave...");

  230.                         break;

  231. 

  232.                     case KILL_MASTER:

  233.                          break;

  234. 

  235.                     default:

  236.                         break;

  237.                 }

  238.             }

  239.         }

  240.         while (fRunning);

  241. 

  242.         // Set result paramaters

  243.         result->audio_input = fParams.fSendAudioChannels;

  244.         result->audio_output = fParams.fReturnAudioChannels;

  245.         result->midi_input = fParams.fSendMidiChannels;

  246.         result->midi_output = fParams.fReturnMidiChannels;

  247.         result->mtu = fParams.fMtu;

  248.         result->latency = fParams.fNetworkLatency;

  249.         return 0;

  250. 

  251.     error:

  252.         fSocket.Close();

  253.         return -1;

  254.     }

  255. 

  256.     int MasterInit()

  257.     {

  258.         // Check MASTER <==> SLAVE network protocol coherency

  259.         if (fParams.fProtocolVersion != MASTER_PROTOCOL) {

  260.             jack_error("Error : slave is running with a different protocol %s", fParams.fName);

  261.             return -1;

  262.         }

  263. 

  264.         // Settings

  265.         fSocket.GetName(fParams.fMasterNetName);

  266.         fParams.fID = 1;

  267.         fParams.fSampleEncoder = JackFloatEncoder;

  268.         fParams.fPeriodSize = fRequest.buffer_size;

  269.         fParams.fSampleRate = fRequest.sample_rate;

  270. 

  271.         // Close request socket

  272.         fSocket.Close();

  273. 

  274.         // Network slave init

  275.         if (!JackNetMasterInterface::Init()) {

  276.             return -1;

  277.         }

  278. 

  279.         // Set global parameters

  280.         if (!SetParams()) {

  281.             return -1;

  282.         }

  283. 

  284.         AllocPorts();

  285.         return 0;

  286.     }

  287. 

  288.     int Close()

  289.     {

  290.         fSocket.Close();

  291.         FreePorts();

  292.         return 0;

  293.     }

  294. 

  295.     void AllocPorts()

  296.     {

  297.         // Set buffers

  298.         if (fParams.fSendAudioChannels > 0) {

  299.             fAudioCaptureBuffer = new float*[fParams.fSendAudioChannels];

  300.             for (int audio_port_index = 0; audio_port_index < fParams.fSendAudioChannels; audio_port_index++) {

  301.                 fAudioCaptureBuffer[audio_port_index] = new float[fParams.fPeriodSize];

  302.                 fNetAudioCaptureBuffer->SetBuffer(audio_port_index, fAudioCaptureBuffer[audio_port_index]);

  303.             }

  304.         }

  305. 

  306.         if (fParams.fSendMidiChannels > 0) {

  307.             fMidiCaptureBuffer = new JackMidiBuffer*[fParams.fSendMidiChannels];

  308.             for (int midi_port_index = 0; midi_port_index < fParams.fSendMidiChannels; midi_port_index++) {

  309.                 fMidiCaptureBuffer[midi_port_index] = (JackMidiBuffer*)new float[fParams.fPeriodSize];

  310.                 fNetMidiCaptureBuffer->SetBuffer(midi_port_index, fMidiCaptureBuffer[midi_port_index]);

  311.             }

  312.         }

  313. 

  314.         if (fParams.fReturnAudioChannels > 0) {

  315.             fAudioPlaybackBuffer = new float*[fParams.fReturnAudioChannels];

  316.             for (int audio_port_index = 0; audio_port_index < fParams.fReturnAudioChannels; audio_port_index++) {

  317.                 fAudioPlaybackBuffer[audio_port_index] = new float[fParams.fPeriodSize];

  318.                 fNetAudioPlaybackBuffer->SetBuffer(audio_port_index, fAudioPlaybackBuffer[audio_port_index]);

  319.             }

  320.         }

  321. 

  322.         if (fParams.fReturnMidiChannels > 0) {

  323.             fMidiPlaybackBuffer = new JackMidiBuffer*[fParams.fReturnMidiChannels];

  324.             for (int midi_port_index = 0; midi_port_index < fParams.fReturnMidiChannels; midi_port_index++) {

  325.                 fMidiPlaybackBuffer[midi_port_index] = (JackMidiBuffer*)new float[fParams.fPeriodSize];

  326.                 fNetMidiPlaybackBuffer->SetBuffer(midi_port_index, fMidiPlaybackBuffer[midi_port_index]);

  327.             }

  328.         }

  329.     }

  330. 

  331.     void FreePorts()

  332.     {

  333.         if (fAudioPlaybackBuffer) {

  334.             for (int audio_port_index = 0; audio_port_index < fParams.fSendAudioChannels; audio_port_index++)

  335.                 delete[] fAudioPlaybackBuffer[audio_port_index];

  336.             delete[] fAudioPlaybackBuffer;

  337.             fAudioPlaybackBuffer = NULL;

  338.         }

  339. 

  340.         if (fMidiPlaybackBuffer) {

  341.             for (int midi_port_index = 0; midi_port_index < fParams.fSendMidiChannels; midi_port_index++)

  342.                 delete[] (fMidiPlaybackBuffer[midi_port_index]);

  343.             delete[] fMidiPlaybackBuffer;

  344.             fMidiPlaybackBuffer = NULL;

  345.         }

  346. 

  347.         if (fAudioCaptureBuffer) {

  348.             for (int audio_port_index = 0; audio_port_index < fParams.fReturnAudioChannels; audio_port_index++)

  349.                 delete[] fAudioCaptureBuffer[audio_port_index];

  350.             delete[] fAudioCaptureBuffer;

  351.             fAudioCaptureBuffer = NULL;

  352.         }

  353. 

  354.         if (fMidiCaptureBuffer) {

  355.             for (int midi_port_index = 0; midi_port_index < fParams.fReturnMidiChannels; midi_port_index++)

  356.                 delete[] fMidiCaptureBuffer[midi_port_index];

  357.             delete[] fMidiCaptureBuffer;

  358.             fMidiCaptureBuffer = NULL;

  359.         }

  360.     }

  361. 

  362.     int Read(int audio_input, float** audio_input_buffer, int midi_input, void** midi_input_buffer)

  363.     {

  364.         try {

  365.             assert(audio_input == fParams.fReturnAudioChannels);

  366. 

  367.             for (int audio_port_index = 0; audio_port_index < audio_input; audio_port_index++) {

  368.                 fNetAudioPlaybackBuffer->SetBuffer(audio_port_index, audio_input_buffer[audio_port_index]);

  369.             }

  370. 

  371.             for (int midi_port_index = 0; midi_port_index < midi_input; midi_port_index++) {

  372.                 fNetMidiPlaybackBuffer->SetBuffer(midi_port_index, ((JackMidiBuffer**)midi_input_buffer)[midi_port_index]);

  373.             }

  374. 

  375.             if (SyncRecv() == SOCKET_ERROR) {

  376.                 return 0;

  377.             }

  378. 

  379.             DecodeSyncPacket();

  380.             return DataRecv();

  381. 

  382.         } catch (JackNetException& e) {

  383.             jack_error("Connection lost.");

  384.             return -1;

  385.         }

  386.      }

  387. 

  388.      int Write(int audio_output, float** audio_output_buffer, int midi_output, void** midi_output_buffer)

  389.      {

  390.         try {

  391.             assert(audio_output == fParams.fSendAudioChannels);

  392. 

  393.             for (int audio_port_index = 0; audio_port_index < audio_output; audio_port_index++) {

  394.                 fNetAudioCaptureBuffer->SetBuffer(audio_port_index, audio_output_buffer[audio_port_index]);

  395.             }

  396. 

  397.             for (int midi_port_index = 0; midi_port_index < midi_output; midi_port_index++) {

  398.                 fNetMidiCaptureBuffer->SetBuffer(midi_port_index, ((JackMidiBuffer**)midi_output_buffer)[midi_port_index]);

  399.             }

  400. 

  401.             EncodeSyncPacket();

  402. 

  403.             if (SyncSend() == SOCKET_ERROR) {

  404.                 return SOCKET_ERROR;

  405.             }

  406. 

  407.             return DataSend();

  408. 

  409.         } catch (JackNetException& e) {

  410.             jack_error("Connection lost.");

  411.             return -1;

  412.         }

  413.      }

  414. 

  415.     // Transport

  416.     void EncodeTransportData()

  417.     {}

  418. 

  419.     void DecodeTransportData()

  420.     {}

  421. 

  422. };

  423. 

  424. struct JackNetExtSlave : public JackNetSlaveInterface, public JackRunnableInterface {

  425. 

  426.     JackThread fThread;

  427. 

  428.     JackNetSlaveProcessCallback fProcessCallback;

  429.     void* fProcessArg;

  430. 

  431.     JackNetSlaveShutdownCallback fShutdownCallback;

  432.     void* fShutdownArg;

  433. 

  434.     JackNetSlaveBufferSizeCallback fBufferSizeCallback;

  435.     void* fBufferSizeArg;

  436. 

  437.     JackNetSlaveSampleRateCallback fSampleRateCallback;

  438.     void* fSampleRateArg;

  439. 

  440.     //sample buffers

  441.     float** fAudioCaptureBuffer;

  442.     float** fAudioPlaybackBuffer;

  443. 

  444.     JackMidiBuffer** fMidiCaptureBuffer;

  445.     JackMidiBuffer** fMidiPlaybackBuffer;

  446. 

  447.     int fConnectTimeOut;

  448. 

  449.     JackNetExtSlave(const char* ip,

  450.                     int port,

  451.                     const char* name,

  452.                     jack_slave_t* request)

  453.         :fThread(this),

  454.         fProcessCallback(NULL),fProcessArg(NULL),

  455.         fShutdownCallback(NULL), fShutdownArg(NULL),

  456.         fBufferSizeCallback(NULL), fBufferSizeArg(NULL),

  457.         fSampleRateCallback(NULL), fSampleRateArg(NULL),

  458.         fAudioCaptureBuffer(NULL), fAudioPlaybackBuffer(NULL),

  459.         fMidiCaptureBuffer(NULL), fMidiPlaybackBuffer(NULL)

  460.     {

  461.         char host_name[JACK_CLIENT_NAME_SIZE];

  462. 

  463.         // Request parameters

  464.         assert(strlen(ip) < 32);

  465.         strcpy(fMulticastIP, ip);

  466.         fParams.fMtu = request->mtu;

  467.         fParams.fTransportSync = 0;

  468.         fParams.fSendAudioChannels = request->audio_input;

  469.         fParams.fReturnAudioChannels = request->audio_output;

  470.         fParams.fSendMidiChannels = request->midi_input;

  471.         fParams.fReturnMidiChannels = request->midi_output;

  472.         fParams.fNetworkLatency = request->latency;

  473.         fParams.fSampleEncoder = request->encoder;

  474.         fParams.fKBps = request->kbps;

  475.         fParams.fSlaveSyncMode = 1;

  476.         fConnectTimeOut = request->time_out;

  477. 

  478.         // Create name with hostname and client name

  479.         GetHostName(host_name, JACK_CLIENT_NAME_SIZE);

  480.         snprintf(fParams.fName, JACK_CLIENT_NAME_SIZE, "%s_%s", host_name, name);

  481.         fSocket.GetName(fParams.fSlaveNetName);

  482. 

  483.         // Set the socket parameters

  484.         fSocket.SetPort(port);

  485.         fSocket.SetAddress(fMulticastIP, port);

  486.     }

  487. 

  488.     virtual ~JackNetExtSlave()

  489.     {}

  490. 

  491.     int Open(jack_master_t* result)

  492.     {

  493.         if (fParams.fNetworkLatency > NETWORK_MAX_LATENCY) {

  494.             jack_error("Error : network latency is limited to %d", NETWORK_MAX_LATENCY);

  495.             return -1;

  496.         }

  497. 

  498.         // Init network connection

  499.         if (!JackNetSlaveInterface::InitConnection(fConnectTimeOut)) {

  500.             jack_error("Initing network fails...");

  501.             return -1;

  502.         }

  503. 

  504.         // Finish connection...

  505.         if (!JackNetSlaveInterface::InitRendering()) {

  506.             jack_error("Starting network fails...");

  507.             return -1;

  508.         }

  509. 

  510.         // Then set global parameters

  511.         if (!SetParams()) {

  512.             jack_error("SetParams error...");

  513.             return -1;

  514.         }

  515. 

  516.          // Set result

  517.          if (result != NULL) {

  518.             result->buffer_size = fParams.fPeriodSize;

  519.             result->sample_rate = fParams.fSampleRate;

  520.             result->audio_input = fParams.fSendAudioChannels;

  521.             result->audio_output = fParams.fReturnAudioChannels;

  522.             result->midi_input = fParams.fSendMidiChannels;

  523.             result->midi_output = fParams.fReturnMidiChannels;

  524.             strcpy(result->master_name, fParams.fMasterNetName);

  525.         }

  526. 

  527.         AllocPorts();

  528.         return 0;

  529.     }

  530. 

  531.     int Restart()

  532.     {

  533.         // If shutdown cb is set, then call it

  534.         if (fShutdownCallback) {

  535.             fShutdownCallback(fShutdownArg);

  536.         }

  537. 

  538.         // Init network connection

  539.         if (!JackNetSlaveInterface::InitConnection(fConnectTimeOut)) {

  540.             jack_error("Initing network fails...");

  541.             return -1;

  542.         }

  543. 

  544.          // Finish connection...

  545.         if (!JackNetSlaveInterface::InitRendering()) {

  546.             jack_error("Starting network fails...");

  547.             return -1;

  548.         }

  549. 

  550.         // Then set global parameters

  551.         if (!SetParams()) {

  552.             jack_error("SetParams error...");

  553.             return -1;

  554.         }

  555. 

  556.         // We need to notify possibly new buffer size and sample rate (see Execute)

  557.         if (fBufferSizeCallback) {

  558.             fBufferSizeCallback(fParams.fPeriodSize, fBufferSizeArg);

  559.         }

  560. 

  561.         if (fSampleRateCallback) {

  562.             fSampleRateCallback(fParams.fSampleRate, fSampleRateArg);

  563.         }

  564. 

  565.         AllocPorts();

  566.         return 0;

  567.     }

  568. 

  569.     int Close()

  570.     {

  571.         fSocket.Close();

  572.         FreePorts();

  573.         return 0;

  574.     }

  575. 

  576.     void AllocPorts()

  577.     {

  578.         // Set buffers

  579.         fAudioCaptureBuffer = new float*[fParams.fSendAudioChannels];

  580.         for (int audio_port_index = 0; audio_port_index < fParams.fSendAudioChannels; audio_port_index++) {

  581.             fAudioCaptureBuffer[audio_port_index] = new float[fParams.fPeriodSize];

  582.             fNetAudioCaptureBuffer->SetBuffer(audio_port_index, fAudioCaptureBuffer[audio_port_index]);

  583.         }

  584. 

  585.         fMidiCaptureBuffer = new JackMidiBuffer*[fParams.fSendMidiChannels];

  586.         for (int midi_port_index = 0; midi_port_index < fParams.fSendMidiChannels; midi_port_index++) {

  587.             fMidiCaptureBuffer[midi_port_index] = (JackMidiBuffer*)new float[fParams.fPeriodSize];

  588.             fNetMidiCaptureBuffer->SetBuffer(midi_port_index, fMidiCaptureBuffer[midi_port_index]);

  589.         }

  590. 

  591.         fAudioPlaybackBuffer = new float*[fParams.fReturnAudioChannels];

  592.         for (int audio_port_index = 0; audio_port_index < fParams.fReturnAudioChannels; audio_port_index++) {

  593.             fAudioPlaybackBuffer[audio_port_index] = new float[fParams.fPeriodSize];

  594.             fNetAudioPlaybackBuffer->SetBuffer(audio_port_index, fAudioPlaybackBuffer[audio_port_index]);

  595.         }

  596. 

  597.         fMidiPlaybackBuffer = new JackMidiBuffer*[fParams.fReturnMidiChannels];

  598.         for (int midi_port_index = 0; midi_port_index < fParams.fReturnMidiChannels; midi_port_index++) {

  599.             fMidiPlaybackBuffer[midi_port_index] = (JackMidiBuffer*)new float[fParams.fPeriodSize];

  600.             fNetMidiPlaybackBuffer->SetBuffer(midi_port_index, fMidiPlaybackBuffer[midi_port_index]);

  601.         }

  602.     }

  603. 

  604.     void FreePorts()

  605.     {

  606.         if (fAudioCaptureBuffer) {

  607.             for (int audio_port_index = 0; audio_port_index < fParams.fSendAudioChannels; audio_port_index++)

  608.                 delete[] fAudioCaptureBuffer[audio_port_index];

  609.             delete[] fAudioCaptureBuffer;

  610.             fAudioCaptureBuffer = NULL;

  611.         }

  612. 

  613.         if (fMidiCaptureBuffer) {

  614.             for (int midi_port_index = 0; midi_port_index < fParams.fSendMidiChannels; midi_port_index++)

  615.                 delete[] (fMidiCaptureBuffer[midi_port_index]);

  616.             delete[] fMidiCaptureBuffer;

  617.             fMidiCaptureBuffer = NULL;

  618.         }

  619. 

  620.         if (fAudioPlaybackBuffer) {

  621.             for (int audio_port_index = 0; audio_port_index < fParams.fReturnAudioChannels; audio_port_index++)

  622.                 delete[] fAudioPlaybackBuffer[audio_port_index];

  623.             delete[] fAudioPlaybackBuffer;

  624.             fAudioPlaybackBuffer = NULL;

  625.         }

  626. 

  627.         if (fMidiPlaybackBuffer) {

  628.             for (int midi_port_index = 0; midi_port_index < fParams.fReturnMidiChannels; midi_port_index++)

  629.                 delete[] fMidiPlaybackBuffer[midi_port_index];

  630.             delete[] fMidiPlaybackBuffer;

  631.             fMidiPlaybackBuffer = NULL;

  632.         }

  633.     }

  634. 

  635.     // Transport

  636.     void EncodeTransportData()

  637.     {}

  638. 

  639.     void DecodeTransportData()

  640.     {}

  641. 

  642.     bool Init()

  643.     {

  644.         // Will do "something" on OSX only...

  645.         UInt64 period, constraint;

  646.         period = constraint = UInt64(1000000000.f * (float(fParams.fPeriodSize) / float(fParams.fSampleRate)));

  647.         UInt64 computation = JackTools::ComputationMicroSec(fParams.fPeriodSize) * 1000;

  648.         fThread.SetParams(period, computation, constraint);

  649. 

  650.         return (fThread.AcquireSelfRealTime(80) == 0);      // TODO: get a value from the server

  651.     }

  652. 

  653.     bool Execute()

  654.     {

  655.         try  {

  656.             // Keep running even in case of error

  657.             while (fThread.GetStatus() == JackThread::kRunning) {

  658.                 if (Process() == SOCKET_ERROR) {

  659.                     return false;

  660.                 }

  661.             }

  662.             return false;

  663.         } catch (JackNetException& e) {

  664. 

  665.             // Otherwise just restart...

  666.             e.PrintMessage();

  667.             fThread.DropRealTime();

  668.             fThread.SetStatus(JackThread::kIniting);

  669.             FreePorts();

  670.             if (Restart() == 0 && Init()) {

  671.                 fThread.SetStatus(JackThread::kRunning);

  672.                 return true;

  673.             } else {

  674.                 return false;

  675.             }

  676.         }

  677.     }

  678. 

  679.     int Read()

  680.     {

  681.         //receive sync (launch the cycle)

  682.         if (SyncRecv() == SOCKET_ERROR) {

  683.             return SOCKET_ERROR;

  684.         }

  685. 

  686.         DecodeSyncPacket();

  687.         return DataRecv();

  688.     }

  689. 

  690.     int Write()

  691.     {

  692.         EncodeSyncPacket();

  693. 

  694.         if (SyncSend() == SOCKET_ERROR) {

  695.             return SOCKET_ERROR;

  696.         }

  697. 

  698.         return DataSend();

  699.     }

  700. 

  701.     int Process()

  702.     {

  703.         // Read data from the network, throw JackNetException in case of network error...

  704.         if (Read() == SOCKET_ERROR) {

  705.             return SOCKET_ERROR;

  706.         }

  707. 

  708.         fProcessCallback(fParams.fPeriodSize,

  709.                         fParams.fSendAudioChannels,

  710.                         fAudioCaptureBuffer,

  711.                         fParams.fSendMidiChannels,

  712.                         (void**)fMidiCaptureBuffer,

  713.                         fParams.fReturnAudioChannels,

  714.                         fAudioPlaybackBuffer,

  715.                         fParams.fReturnMidiChannels,

  716.                         (void**)fMidiPlaybackBuffer,

  717.                         fProcessArg);

  718. 

  719.         // Then write data to network, throw JackNetException in case of network error...

  720.         if (Write() == SOCKET_ERROR) {

  721.             return SOCKET_ERROR;

  722.         }

  723. 

  724.         return 0;

  725.     }

  726. 

  727.     int Start()

  728.     {

  729.         return (fProcessCallback == 0) ? -1 : fThread.StartSync();

  730.     }

  731. 

  732.     int Stop()

  733.     {

  734.         return (fProcessCallback == 0) ? -1 : fThread.Kill();

  735.     }

  736. 

  737.     // Callback

  738.     int SetProcessCallback(JackNetSlaveProcessCallback net_callback, void *arg)

  739.     {

  740.         if (fThread.GetStatus() == JackThread::kRunning) {

  741.             return -1;

  742.         } else {

  743.             fProcessCallback = net_callback;

  744.             fProcessArg = arg;

  745.             return 0;

  746.         }

  747.     }

  748. 

  749.     int SetShutdownCallback(JackNetSlaveShutdownCallback shutdown_callback, void *arg)

  750.     {

  751.         if (fThread.GetStatus() == JackThread::kRunning) {

  752.             return -1;

  753.         } else {

  754.             fShutdownCallback = shutdown_callback;

  755.             fShutdownArg = arg;

  756.             return 0;

  757.         }

  758.     }

  759. 

  760.     int SetBufferSizeCallback(JackNetSlaveBufferSizeCallback bufsize_callback, void *arg)

  761.     {

  762.         if (fThread.GetStatus() == JackThread::kRunning) {

  763.             return -1;

  764.         } else {

  765.             fBufferSizeCallback = bufsize_callback;

  766.             fBufferSizeArg = arg;

  767.             return 0;

  768.         }

  769.     }

  770. 

  771.     int SetSampleRateCallback(JackNetSlaveSampleRateCallback samplerate_callback, void *arg)

  772.     {

  773.         if (fThread.GetStatus() == JackThread::kRunning) {

  774.             return -1;

  775.         } else {

  776.             fSampleRateCallback = samplerate_callback;

  777.             fSampleRateArg = arg;

  778.             return 0;

  779.         }

  780.     }

  781. 

  782. };

  783. 

  784. struct JackNetAdapter : public JackAudioAdapterInterface {

  785. 

  786.     JackNetAdapter(int input, int output,

  787.                     jack_nframes_t host_buffer_size,

  788.                     jack_nframes_t host_sample_rate,

  789.                     jack_nframes_t adapted_buffer_size,

  790.                     jack_nframes_t adapted_sample_rate)

  791.         :JackAudioAdapterInterface(host_buffer_size, host_sample_rate, adapted_buffer_size, adapted_sample_rate)

  792.     {

  793.         fCaptureChannels = input;

  794.         fPlaybackChannels = output;

  795.         Create();

  796.     }

  797. 

  798.     void Create()

  799.     {

  800.         //ringbuffers

  801. 

  802.         if (fCaptureChannels > 0) {

  803.             fCaptureRingBuffer = new JackResampler*[fCaptureChannels];

  804.         }

  805.         if (fPlaybackChannels > 0) {

  806.             fPlaybackRingBuffer = new JackResampler*[fPlaybackChannels];

  807.         }

  808. 

  809.         if (fAdaptative) {

  810.             AdaptRingBufferSize();

  811.             jack_info("Ringbuffer automatic adaptative mode size = %d frames", fRingbufferCurSize);

  812.         } else {

  813.             if (fRingbufferCurSize > DEFAULT_RB_SIZE) {

  814.                 fRingbufferCurSize = DEFAULT_RB_SIZE;

  815.             }

  816.             jack_info("Fixed ringbuffer size = %d frames", fRingbufferCurSize);

  817.         }

  818. 

  819.         for (int i = 0; i < fCaptureChannels; i++ ) {

  820.             fCaptureRingBuffer[i] = new JackResampler();

  821.             fCaptureRingBuffer[i]->Reset(fRingbufferCurSize);

  822.         }

  823.         for (int i = 0; i < fPlaybackChannels; i++ ) {

  824.             fPlaybackRingBuffer[i] = new JackResampler();

  825.             fPlaybackRingBuffer[i]->Reset(fRingbufferCurSize);

  826.         }

  827. 

  828.         if (fCaptureChannels > 0) {

  829.             jack_log("ReadSpace = %ld", fCaptureRingBuffer[0]->ReadSpace());

  830.         }

  831.         if (fPlaybackChannels > 0) {

  832.             jack_log("WriteSpace = %ld", fPlaybackRingBuffer[0]->WriteSpace());

  833.         }

  834.     }

  835. 

  836.     virtual ~JackNetAdapter()

  837.     {

  838.         Destroy();

  839.     }

  840. 

  841.     void Flush()

  842.     {

  843.         for (int i = 0; i < fCaptureChannels; i++ ) {

  844.             fCaptureRingBuffer[i]->Reset(fRingbufferCurSize);

  845.         }

  846.         for (int i = 0; i < fPlaybackChannels; i++ ) {

  847.             fPlaybackRingBuffer[i]->Reset(fRingbufferCurSize);

  848.         }

  849.     }

  850. 

  851. };

  852. 

  853. 

  854. } // end of namespace

  855. 

  856. using namespace Jack;

  857. 

  858. SERVER_EXPORT jack_net_slave_t* jack_net_slave_open(const char* ip, int port, const char* name, jack_slave_t* request, jack_master_t* result)

  859. {

  860.     JackNetExtSlave* slave = new JackNetExtSlave(ip, port, name, request);

  861.     if (slave->Open(result) == 0) {

  862.         return (jack_net_slave_t*)slave;

  863.     } else {

  864.         delete slave;

  865.         return NULL;

  866.     }

  867. }

  868. 

  869. SERVER_EXPORT int jack_net_slave_close(jack_net_slave_t* net)

  870. {

  871.     JackNetExtSlave* slave = (JackNetExtSlave*)net;

  872.     slave->Close();

  873.     delete slave;

  874.     return 0;

  875. }

  876. 

  877. SERVER_EXPORT int jack_set_net_slave_process_callback(jack_net_slave_t* net, JackNetSlaveProcessCallback net_callback, void *arg)

  878. {

  879.      JackNetExtSlave* slave = (JackNetExtSlave*)net;

  880.      return slave->SetProcessCallback(net_callback, arg);

  881. }

  882. 

  883. SERVER_EXPORT int jack_net_slave_activate(jack_net_slave_t* net)

  884. {

  885.     JackNetExtSlave* slave = (JackNetExtSlave*)net;

  886.     return slave->Start();

  887. }

  888. 

  889. SERVER_EXPORT int jack_net_slave_deactivate(jack_net_slave_t* net)

  890. {

  891.     JackNetExtSlave* slave = (JackNetExtSlave*)net;

  892.     return slave->Stop();

  893. }

  894. 

  895. SERVER_EXPORT int jack_set_net_slave_buffer_size_callback(jack_net_slave_t *net, JackNetSlaveBufferSizeCallback bufsize_callback, void *arg)

  896. {

  897.     JackNetExtSlave* slave = (JackNetExtSlave*)net;

  898.     return slave->SetBufferSizeCallback(bufsize_callback, arg);

  899. }

  900. 

  901. SERVER_EXPORT int jack_set_net_slave_sample_rate_callback(jack_net_slave_t *net, JackNetSlaveSampleRateCallback samplerate_callback, void *arg)

  902. {

  903.     JackNetExtSlave* slave = (JackNetExtSlave*)net;

  904.     return slave->SetSampleRateCallback(samplerate_callback, arg);

  905. }

  906. 

  907. SERVER_EXPORT int jack_set_net_slave_shutdown_callback(jack_net_slave_t *net, JackNetSlaveShutdownCallback shutdown_callback, void *arg)

  908. {

  909.     JackNetExtSlave* slave = (JackNetExtSlave*)net;

  910.     return slave->SetShutdownCallback(shutdown_callback, arg);

  911. }

  912. 

  913. // Master API

  914. 

  915. SERVER_EXPORT jack_net_master_t* jack_net_master_open(const char* ip, int port, const char* name, jack_master_t* request, jack_slave_t* result)

  916. {

  917.     JackNetExtMaster* master = new JackNetExtMaster(ip, port, name, request);

  918.     if (master->Open(result) == 0) {

  919.         return (jack_net_master_t*)master;

  920.     } else {

  921.         delete master;

  922.         return NULL;

  923.     }

  924. }

  925. 

  926. SERVER_EXPORT int jack_net_master_close(jack_net_master_t* net)

  927. {

  928.     JackNetExtMaster* master = (JackNetExtMaster*)net;

  929.     master->Close();

  930.     delete master;

  931.     return 0;

  932. }

  933. SERVER_EXPORT int jack_net_master_recv(jack_net_master_t* net, int audio_input, float** audio_input_buffer, int midi_input, void** midi_input_buffer)

  934. {

  935.     JackNetExtMaster* master = (JackNetExtMaster*)net;

  936.     return master->Read(audio_input, audio_input_buffer, midi_input, midi_input_buffer);

  937. }

  938. 

  939. SERVER_EXPORT int jack_net_master_send(jack_net_master_t* net, int audio_output, float** audio_output_buffer, int midi_output, void** midi_output_buffer)

  940. {

  941.     JackNetExtMaster* master = (JackNetExtMaster*)net;

  942.     return master->Write(audio_output, audio_output_buffer, midi_output, midi_output_buffer);

  943. }

  944. 

  945. // Adapter API

  946. 

  947. SERVER_EXPORT jack_adapter_t* jack_create_adapter(int input, int output,

  948.                                                 jack_nframes_t host_buffer_size,

  949.                                                 jack_nframes_t host_sample_rate,

  950.                                                 jack_nframes_t adapted_buffer_size,

  951.                                                 jack_nframes_t adapted_sample_rate)

  952. {

  953.     try {

  954.         return (jack_adapter_t*)new JackNetAdapter(input, output, host_buffer_size, host_sample_rate, adapted_buffer_size, adapted_sample_rate);

  955.     } catch (...) {

  956.         return NULL;

  957.     }

  958. }

  959. 

  960. SERVER_EXPORT int jack_destroy_adapter(jack_adapter_t* adapter)

  961. {

  962.     delete((JackNetAdapter*)adapter);

  963.     return 0;

  964. }

  965. 

  966. SERVER_EXPORT void jack_flush_adapter(jack_adapter_t* adapter)

  967. {

  968.     JackNetAdapter* slave = (JackNetAdapter*)adapter;

  969.     slave->Flush();

  970. }

  971. 

  972. SERVER_EXPORT int jack_adapter_push_and_pull(jack_adapter_t* adapter, float** input, float** output, unsigned int frames)

  973. {

  974.     JackNetAdapter* slave = (JackNetAdapter*)adapter;

  975.     return slave->PushAndPull(input, output, frames);

  976. }

  977. 

  978. SERVER_EXPORT int jack_adapter_pull_and_push(jack_adapter_t* adapter, float** input, float** output, unsigned int frames)

  979. {

  980.     JackNetAdapter* slave = (JackNetAdapter*)adapter;

  981.     return slave->PullAndPush(input, output, frames);

  982. }

  983. 

  984. 

  985. //#ifdef MY_TARGET_OS_IPHONE

  986. #if 1

  987. 

  988. static void jack_format_and_log(int level, const char *prefix, const char *fmt, va_list ap)

  989. {

  990.     char buffer[300];

  991.     size_t len;

  992. 

  993.     if (prefix != NULL) {

  994.         len = strlen(prefix);

  995.         memcpy(buffer, prefix, len);

  996.     } else {

  997.         len = 0;

  998.     }

  999. 

  1000.     vsnprintf(buffer + len, sizeof(buffer) - len, fmt, ap);

  1001.     printf("%s", buffer);

  1002.     printf("\n");

  1003. }

  1004. 

  1005. SERVER_EXPORT void jack_error(const char *fmt, ...)

  1006. {

  1007.     va_list ap;

  1008.     va_start(ap, fmt);

  1009.     jack_format_and_log(LOG_LEVEL_INFO, "Jack: ", fmt, ap);

  1010.     va_end(ap);

  1011. }

  1012. 

  1013. SERVER_EXPORT void jack_info(const char *fmt, ...)

  1014. {

  1015.     va_list ap;

  1016.     va_start(ap, fmt);

  1017.     jack_format_and_log(LOG_LEVEL_INFO, "Jack: ", fmt, ap);

  1018.     va_end(ap);

  1019. }

  1020. 

  1021. SERVER_EXPORT void jack_log(const char *fmt, ...)

  1022. {

  1023.     va_list ap;

  1024.     va_start(ap, fmt);

  1025.     jack_format_and_log(LOG_LEVEL_INFO, "Jack: ", fmt, ap);

  1026.     va_end(ap);

  1027. }

  1028. 

  1029. #else

  1030. 

  1031. // Empty code for now..

  1032. 

  1033. SERVER_EXPORT void jack_error(const char *fmt, ...)

  1034. {}

  1035. 

  1036. SERVER_EXPORT void jack_info(const char *fmt, ...)

  1037. {}

  1038. 

  1039. SERVER_EXPORT void jack_log(const char *fmt, ...)

  1040. {}

  1041. 

  1042. #endif