/* -*- C++ -*- */ // $Id$ // =========================================================================== // // = LIBRARY // ace // // = FILENAME // SOCK_Dgram.h // // = AUTHOR // Doug Schmidt // // =========================================================================== #ifndef ACE_SOCK_DGRAM_H #include "ace/pre.h" #define ACE_SOCK_DGRAM_H #include "ace/SOCK.h" #if !defined (ACE_LACKS_PRAGMA_ONCE) # pragma once #endif /* ACE_LACKS_PRAGMA_ONCE */ #include "ace/Addr.h" class ACE_Export ACE_SOCK_Dgram : public ACE_SOCK { // = TITLE // Defines the member functions for the ACE_SOCK datagram // abstraction. public: // = Initialization and termination methods. ACE_SOCK_Dgram (void); // Default constructor. ACE_SOCK_Dgram (const ACE_Addr &local, int protocol_family = PF_INET, int protocol = 0, int reuse_addr = 0); // This is a BSD-style method (i.e., no QoS) for initiating a socket // dgram that will accept datagrams at the address. ACE_SOCK_Dgram (const ACE_Addr &local, int protocol_family, int protocol, ACE_Protocol_Info *protocolinfo, ACE_SOCK_GROUP g = 0, u_long flags = 0, int reuse_addr = 0); // This is a QoS-enabed method for initiating a socket dgram that // will accept datagrams at the address. The // are passed to . int open (const ACE_Addr &local, int protocol_family = PF_INET, int protocol = 0, int reuse_addr = 0); // This is a BSD-style method (i.e., no QoS) for initiating a socket // dgram that will accept datagrams at the address. int open (const ACE_Addr &local, int protocol_family, int protocol, ACE_Protocol_Info *protocolinfo, ACE_SOCK_GROUP g = 0, u_long flags = 0, int reuse_addr = 0); // This is a QoS-enabed method for initiating a socket dgram that // will accept datagrams at the address. The // are passed to . ~ACE_SOCK_Dgram (void); // Default dtor. // = Data transfer routines. ssize_t send (const void *buf, size_t n, const ACE_Addr &addr, int flags = 0) const; // Send an byte to the datagram socket (uses ). ssize_t recv (void *buf, size_t n, ACE_Addr &addr, int flags = 0) const; // Receive an byte from the datagram socket (uses // ). ssize_t recv (iovec *io_vec, ACE_Addr &addr, int flags = 0, const ACE_Time_Value *timeout = 0) const; // Allows a client to read from a socket without having to provide a // buffer to read. This method determines how much data is in the // socket, allocates a buffer of this size, reads in the data, and // returns the number of bytes read. The caller is responsible for // deleting the member in the field of using the // ``delete []'' syntax. ssize_t send (const iovec iov[], size_t n, const ACE_Addr &addr, int flags = 0) const; // Send an of size to the datagram socket (uses // ). ssize_t recv (iovec iov[], size_t n, ACE_Addr &addr, int flags = 0) const; // Recv an of size to the datagram socket (uses // ). ssize_t recv (void *buf, size_t n, ACE_Addr &addr, int flags, const ACE_Time_Value *timeout) const; // Wait up to amount of time to receive a datagram into // . The indicates how long to blocking // trying to receive. If == 0, the caller will block // until action is possible, else will wait until the relative time // specified in * elapses). If times out a -1 is // returned with . If it succeeds the number of // bytes received is returned. ssize_t send (const void *buf, size_t n, ACE_Addr &addr, int flags, const ACE_Time_Value *timeout) const; // Wait up to amount of time to receive a datagram into // . The indicates how long to blocking // trying to receive. If == 0, the caller will block // until action is possible, else will wait until the relative time // specified in * elapses). If times out a -1 is // returned with . If it succeeds the number of // bytes received is returned. ssize_t send (const iovec buffers[], int buffer_count, size_t &number_of_bytes_sent, int flags, const ACE_Addr &addr, ACE_OVERLAPPED *overlapped, ACE_OVERLAPPED_COMPLETION_FUNC func) const; // Send worth of to using overlapped // I/O (uses ). Returns 0 on success. ssize_t recv (iovec buffers[], int buffer_count, size_t &number_of_bytes_recvd, int &flags, ACE_Addr &addr, ACE_OVERLAPPED *overlapped, ACE_OVERLAPPED_COMPLETION_FUNC func) const; // Recv worth of from using // overlapped I/O (uses ). Returns 0 on success. ssize_t send (const void *buf, size_t n, const ACE_Addr &addr, int flags, ACE_OVERLAPPED *overlapped, ACE_OVERLAPPED_COMPLETION_FUNC func) const; // Send an byte to the datagram socket (uses ). ssize_t recv (void *buf, size_t n, ACE_Addr &addr, int flags, ACE_OVERLAPPED *overlapped, ACE_OVERLAPPED_COMPLETION_FUNC func) const; // Receive an byte from the datagram socket (uses // ). void dump (void) const; // Dump the state of an object. ACE_ALLOC_HOOK_DECLARE; // Declare the dynamic allocation hooks. protected: int shared_open (const ACE_Addr &local, int protocol_family); // Open is shared by this and by . private: int get_remote_addr (ACE_Addr &) const; // Do not allow this function to percolate up to this interface... }; #if !defined (ACE_LACKS_INLINE_FUNCTIONS) #include "ace/SOCK_Dgram.i" #endif #include "ace/post.h" #endif /* ACE_SOCK_DGRAM_H */