libcm is a C development framework with an emphasis on audio signal processing applications.
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  1. #ifndef cmUdpNet_h
  2. #define cmUdpNet_h
  3. #ifdef __cplusplus
  4. extern "C" {
  5. #endif
  6. /*( { file_desc:"UDP based network object." kw:[network] }
  7. A cmUdpNet is a wrapper around a single cmUdpPort. This object
  8. maintains an array of remote nodes which map application defined
  9. node label/id's to IP address/port. This allows the application
  10. to communicate in terms of its own id scheme without having to
  11. consider the IP addr/port of the remote nodes.
  12. */
  13. enum
  14. {
  15. kOkUnRC = cmOkRC,
  16. kDuplicateNodeLabelUnRC,
  17. kDuplicateNodeIdUnRC,
  18. kUdpPortFailUnRC,
  19. kInvalidNodeLabelUnRC,
  20. kNodeNotFoundUnRC,
  21. kInvalidNodeAddrUnRC,
  22. kSendFailUnRC,
  23. kGetDataFailUnRC,
  24. kJsonFailUnRC
  25. };
  26. typedef cmRC_t cmUnRC_t;
  27. typedef cmHandle_t cmUdpNetH_t;
  28. extern cmUdpNetH_t cmUdpNetNullHandle;
  29. typedef void (*cmUdpNetCallback_t)( void* cbArg, cmUdpNetH_t h, const char* data, unsigned dataByteCnt, unsigned remoteNodeId );
  30. // Allocate a UDP net manager. To use the manager one of the
  31. // initialization functions must be used configure it.
  32. cmUnRC_t cmUdpNetAlloc( cmCtx_t* ctx, cmUdpNetH_t* hp );
  33. // Allocate and initialize a UDP network manager from
  34. // a JSON script. This function is a simple wrapper for
  35. // calls to cmUdpNetAlloc(), cmUdpNetInitJson(), and
  36. // cmUdpNetEnableListen(h,listenFl).
  37. enum { kListenUnFl=0x01, kNetOptionalUnFl=0x02 };
  38. cmUnRC_t cmUdpNetAllocJson(
  39. cmCtx_t* ctx,
  40. cmUdpNetH_t* hp,
  41. cmJsonH_t jsH,
  42. cmUdpNetCallback_t cbFunc,
  43. void* cbArg,
  44. unsigned flags);
  45. // Release a UDP network manager and any resources it may hold.
  46. cmUnRC_t cmUdpNetFree( cmUdpNetH_t* hp );
  47. // Initialize a UDP net using a previously allocated handle
  48. // The node information (nodeLabel,nodeId,nodeSocketPort) refers
  49. // to the local node. The callback information (cbFunc,cbArg)
  50. // are used during cmUdpNetReceive() to receive incoming
  51. // information from the local node.
  52. cmUnRC_t cmUdpNetInit(
  53. cmUdpNetH_t h,
  54. const cmChar_t* nodeLabel,
  55. unsigned nodeId,
  56. cmUdpPort_t nodeSocketPort,
  57. cmUdpNetCallback_t cbFunc,
  58. void* cbArg,
  59. unsigned recvBufByteCnt,
  60. unsigned socketRecvTimeOutMs );
  61. // Initialize a UDP net and register remote nodes using a JSON resource.
  62. cmUnRC_t cmUdpNetInitJson(
  63. cmUdpNetH_t h,
  64. cmJsonH_t jsH,
  65. cmUdpNetCallback_t cbFunc,
  66. void* cbArg );
  67. // Return true if the if the network has been initialized.
  68. bool cmUdpNetIsInitialized( cmUdpNetH_t h );
  69. // Finalize a UDP net. This releases any resources allocated
  70. // via one of the above 'init' functions.
  71. cmUnRC_t cmUdpNetFinal( cmUdpNetH_t h );
  72. // Enable/disable the networks listening port. While in
  73. // 'listening' mode the network internally queue's all arriving
  74. // messages. Messages are then forwarded to the client via
  75. // calls to cmUdpNetReceive().
  76. cmUnRC_t cmUdpNetEnableListen( cmUdpNetH_t h, bool enableFl );
  77. // Return true if the handle is valid.
  78. bool cmUdpNetIsValid( cmUdpNetH_t h );
  79. unsigned cmUdpNetLocalNodeId( cmUdpNetH_t h );
  80. const cmChar_t* cmUdpNetLocalNodeLabel( cmUdpNetH_t h );
  81. // Return the node id associated with a node label or 'cmInvalidId' if the
  82. // label is not found.
  83. unsigned cmUdpNetNodeLabelToId( cmUdpNetH_t h, const cmChar_t* label );
  84. // Return the node label associated with a node id or NULL if the id
  85. // is not found.
  86. const cmChar_t* cmUdpNetNodeIdToLabel( cmUdpNetH_t h, unsigned id );
  87. // Get the total count of nodes on the network. This count includes the local node.
  88. unsigned cmUdpNetNodeCount( cmUdpNetH_t h );
  89. // Return the node id of each network node.
  90. unsigned cmUdpNetNodeId( cmUdpNetH_t h, unsigned nodeIdx );
  91. // Register a remote node.
  92. cmUnRC_t cmUdpNetRegisterRemote(
  93. cmUdpNetH_t h,
  94. const cmChar_t* remoteNodeLabel,
  95. unsigned remoteNodeId,
  96. const char* remoteNodeSockAddr,
  97. cmUdpPort_t remoteNodePort );
  98. // Send a message to a remote network node.
  99. cmUnRC_t cmUdpNetSendById( cmUdpNetH_t h, unsigned remoteNodeId, const void* data, unsigned dataByteCnt );
  100. cmUnRC_t cmUdpNetSendByLabel( cmUdpNetH_t h, const cmChar_t* remoteNodeLabel, const void* data, unsigned dataByteCnt );
  101. // Transmit any waiting incoming messages to the client via the
  102. // cmUdpNetCallback_t callback function provided
  103. // cmUdpNetInit().
  104. // On input *msgCntPtr should hold the max. number of
  105. // messages to receive or NULL to receive all available.
  106. // On return *msgCntPtr is set to the actual number of
  107. // messages received.
  108. cmUnRC_t cmUdpNetReceive( cmUdpNetH_t h, unsigned* msgCntPtr );
  109. cmUnRC_t cmUdpNetPrintNodes( cmUdpNetH_t h, cmRpt_t* rpt );
  110. void cmUdpNetReport( cmUdpNetH_t h, cmRpt_t* rpt );
  111. cmRC_t cmUdpNetTest( cmCtx_t* ctx, int argc, const char* argv[] );
  112. //)
  113. #ifdef __cplusplus
  114. }
  115. #endif
  116. #endif