148 rivejä
5.8 KiB
C
148 rivejä
5.8 KiB
C
#ifndef cmUdpPort_h
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#define cmUdpPort_h
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#ifdef __cplusplus
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extern "C" {
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#endif
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#include <netinet/in.h>
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enum
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{
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kOkUdpRC = cmOkRC,
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kSockCreateFailUdpRC,
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kSockCloseFailUdpRC,
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kSockBindFailUdpRC,
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kSockConnectFailUdpRC,
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kSockOptSetFailUdpRC,
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kSockSendFailUdpRC,
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kSockRecvFailUdpRC,
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kSockSelectFailUdpRC,
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kPtoNFailUdpRC,
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kNtoPFailUdpRC,
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kNotConnectedUdpRC,
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kThreadFailUdpRC,
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kQueueFailUdpRC,
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kRecvBufOverflowUdpRC,
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kBufTooSmallUdpRC,
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kHostNameFailUdpRC,
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kInvalidPortNumbUdpRC,
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kTimeOutUdpRC,
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kTestFailUdpRC
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};
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typedef cmRC_t cmUdpRC_t;
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typedef cmHandle_t cmUdpH_t;
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typedef unsigned short cmUdpPort_t;
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extern cmUdpH_t cmUdpNullHandle;
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typedef void (*cmUdpCallback_t)( void* cbArg, const char* data, unsigned dataByteCnt, const struct sockaddr_in* fromAddr );
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enum
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{
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kNonBlockingUdpFl = 0x00,
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kBlockingUdpFl = 0x01,
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kNoQueueUdpFl = 0x02,
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kBroadcastUdpFl = 0x04
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};
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enum
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{
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// port 0 is reserved by and is therefore a convenient invalid port number
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kInvalidUdpPortNumber = 0
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};
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cmUdpRC_t cmUdpAlloc( cmCtx_t* ctx, cmUdpH_t* hp );
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cmUdpRC_t cmUdpFree( cmUdpH_t* hp );
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cmUdpRC_t cmUdpInit(
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cmUdpH_t h,
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cmUdpPort_t port, // this sockets port
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unsigned flags, // see kXXXUdpFl
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cmUdpCallback_t cbFunc, // Callback for use w/ cmUdpGetAvailData()
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void* cbArg, // First arg to cbFunc().
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const char* remoteAddr, // Remote addr to bind this socket to (or NULL).
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cmUdpPort_t remotePort, // Remote port to use with remoteAddr.
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unsigned recvBufByteCnt, // Size of the internal receive buffer in bytes. Size of the internal queue and msg receive buffer. No single msg can exceed this size.
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unsigned timeOutMs ); // Receive time-out in milliseconds
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cmUdpRC_t cmUdpFinal( cmUdpH_t h );
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bool cmUdpIsValid( cmUdpH_t h );
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// This function may not return a useful value until the
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// socket has gone into 'listen' mode.
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const struct sockaddr_in* cmUdpLocalAddr( cmUdpH_t h );
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// Set a destination address for this socket. Once a destination address is set
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// the caller may use cmUdpSend() to communicate with the specified remote socket
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// without having to specify an destination address on each call.
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cmUdpRC_t cmUdpConnect( cmUdpH_t h, const char* remoteAddr, cmUdpPort_t remotePort );
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// Send a message to a remote UDP socket. Use the function cmUdpInitAddr() to setup
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// the 'sockaddr_in' arg. for cmUdpSendTo().
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cmUdpRC_t cmUdpSend( cmUdpH_t h, const char* data, unsigned dataByteCnt );
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cmUdpRC_t cmUdpSendTo( cmUdpH_t h, const char* data, unsigned dataByteCnt, const struct sockaddr_in* remoteAddr );
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cmUdpRC_t cmUdpSend2( cmUdpH_t h, const char* data, unsigned dataByteCnt, const char* remoteAddr, cmUdpPort_t remotePort );
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// Receive incoming messages by directly checking the internal
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// socket for waiting data. This function is used to receive
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// incoming data when the internal listening thread is not used.
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// Note that if kBlockingUdpFl was set
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// in cmUdpInit() that this call will block for available data
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// or for 'timeOutMs' milliseconds, whichever comes first.
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// If kNonBlockingUdpFl was set in cmUdpInit() then the function
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// will return immediately if no incoming messages are waiting.
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// If non-NULL *recvByteCntPtr is set to the length of the received
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// message or 0 if no msg was received.
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cmUdpRC_t cmUdpRecv( cmUdpH_t h, char* data, unsigned dataByteCnt, struct sockaddr_in* fromAddr, unsigned* recvByteCntPtr );
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// Start a listening thread. If the queue is enabled then incoming
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// messages are received as they arrive and stored in an internal
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// queue until the client requests them using cmUdpGetAvailData().
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// If the queue is disabled the messages are transmitted immediately
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// to the client in the context of the internal listening thread.
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cmUdpRC_t cmUdpEnableListen( cmUdpH_t h, bool enableFl );
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// Enable/disable the internal queue. If the queue is disabled then
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// the receive callback function will be called immediately upon reception
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// of the incoming message in the context of the internal listening thread.
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// If the queue is enabled then incoming
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// messages will be queued until they are transmitted by calling
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// cmUdpGetAvailData().
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bool cmUdpIsQueueEnabled( cmUdpH_t h );
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void cmUdpQueueEnable( cmUdpH_t h, bool enableFl );
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// Return the size of the next available message waiting in the
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// internal data queue.
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unsigned cmUdpAvailDataByteCount( cmUdpH_t h );
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// The Call this function to receieve any data waiting in the internal queue.
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// Set 'data' to NULL to receive the data via the callback provided
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// in cmUdpAlloc().
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// On input *dataByteCntPtr must be set to the number of bytes in data[].
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// On return *dataByteCntPtr is set to the actual number of bytes copied into data[].
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// If fromAddr is non-NULL it is set to the data source address.
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cmUdpRC_t cmUdpGetAvailData( cmUdpH_t h, char* data, unsigned* dataByteCntPtr, struct sockaddr_in* fromAddr );
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void cmUdpReport( cmUdpH_t h, cmRpt_t* rpt );
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// Prepare a struct sockadddr_in for use with cmUdpSendTo()
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cmUdpRC_t cmUdpInitAddr( cmUdpH_t h, const char* addrStr, cmUdpPort_t portNumber, struct sockaddr_in* retAddrPtr );
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const cmChar_t* cmUdpAddrToString( cmUdpH_t h, const struct sockaddr_in* addr );
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bool cmUdpAddrIsEqual( const struct sockaddr_in* a0, const struct sockaddr_in* a1 );
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const cmChar_t* cmUdpHostName( cmUdpH_t h );
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cmUdpRC_t cmUdpTest( cmCtx_t* ctx, const char* remoteIpAddr, cmUdpPort_t port );
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cmUdpRC_t cmUdpTestV( cmCtx_t* ctx, unsigned argc, const char* argv[]);
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#ifdef __cplusplus
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}
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#endif
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#endif
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