/* ------------------------------------------------------------------------- * Project: GSocket (Generic Socket) for WX * Name: gsocket.c * Purpose: GSocket main Unix file * CVSID: $Id$ * ------------------------------------------------------------------------- */ #include "wx/setup.h" #if wxUSE_SOCKETS #include #include #include #ifdef vms #include #else #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #ifdef sun # include #endif #ifdef sgi # include #endif #include #include "wx/gsocket.h" #include "gsockunx.h" #ifndef SOCKLEN_T #ifdef __GLIBC__ # if __GLIBC__ == 2 # define SOCKLEN_T socklen_t # endif #else # define SOCKLEN_T int #endif #endif #define MASK_SIGNAL() \ { \ void (*old_handler)(int); \ \ old_handler = signal(SIGPIPE, SIG_IGN); #define UNMASK_SIGNAL() \ signal(SIGPIPE, old_handler); \ } #define ENABLE_TIMEOUT(socket) \ { \ struct itimerval old_ival, new_ival; \ void (*old_timer_sig)(int); \ \ old_timer_sig = signal(SIGALRM, SIG_DFL); \ siginterrupt(SIGALRM, 1); \ new_ival.it_value.tv_sec = socket->m_timeout / 1000; \ new_ival.it_value.tv_usec = (socket->m_timeout % 1000) * 1000; \ new_ival.it_interval.tv_sec = 0; \ new_ival.it_interval.tv_usec = 0; \ setitimer(ITIMER_REAL, &new_ival, &old_ival); #define DISABLE_TIMEOUT(socket) \ signal(SIGALRM, old_timer_sig); \ siginterrupt(SIGALRM, 0); \ setitimer(ITIMER_REAL, &old_ival, NULL); \ } /* Global initialisers */ bool GSocket_Init() { return TRUE; } void GSocket_Cleanup() { } /* Constructors / Destructors */ GSocket *GSocket_new() { int i; GSocket *socket; socket = (GSocket *)malloc(sizeof(GSocket)); if (socket == NULL) return NULL; socket->m_fd = -1; for (i=0;im_cbacks[i] = NULL; socket->m_iocalls[i] = FALSE; } socket->m_local = NULL; socket->m_peer = NULL; socket->m_error = GSOCK_NOERROR; socket->m_server = FALSE; socket->m_stream = TRUE; socket->m_gui_dependent = NULL; socket->m_non_blocking = FALSE; socket->m_timeout = 10*60*1000; /* 10 minutes * 60 sec * 1000 millisec */ socket->m_establishing = FALSE; /* We initialize the GUI specific entries here */ _GSocket_GUI_Init(socket); return socket; } void GSocket_destroy(GSocket *socket) { assert(socket != NULL); /* First, we check that the socket is really shutdowned */ if (socket->m_fd != -1) GSocket_Shutdown(socket); /* We destroy GUI specific variables */ _GSocket_GUI_Destroy(socket); /* We destroy private addresses */ if (socket->m_local) GAddress_destroy(socket->m_local); if (socket->m_peer) GAddress_destroy(socket->m_peer); /* We destroy socket itself */ free(socket); } void GSocket_Shutdown(GSocket *socket) { int evt; assert(socket != NULL); /* If socket has been created, we shutdown it */ if (socket->m_fd != -1) { /* Only oriented connection should be shutdowned */ if (socket->m_oriented) shutdown(socket->m_fd, 2); close(socket->m_fd); socket->m_fd = -1; } /* We also disable GUI callbacks */ for (evt=0;evtm_fd != -1 && !socket->m_server)) { socket->m_error = GSOCK_INVSOCK; return GSOCK_INVSOCK; } if (address == NULL || address->m_family == GSOCK_NOFAMILY) { socket->m_error = GSOCK_INVADDR; return GSOCK_INVADDR; } if (socket->m_local) GAddress_destroy(socket->m_local); socket->m_local = GAddress_copy(address); return GSOCK_NOERROR; } GSocketError GSocket_SetPeer(GSocket *socket, GAddress *address) { assert(socket != NULL); if (address == NULL || address->m_family == GSOCK_NOFAMILY) { socket->m_error = GSOCK_INVADDR; return GSOCK_INVADDR; } if (socket->m_peer) GAddress_destroy(socket->m_peer); socket->m_peer = GAddress_copy(address); return GSOCK_NOERROR; } GAddress *GSocket_GetLocal(GSocket *socket) { GAddress *address; struct sockaddr addr; SOCKLEN_T size; GSocketError err; assert(socket != NULL); if (socket->m_local) return GAddress_copy(socket->m_local); if (socket->m_fd == -1) { socket->m_error = GSOCK_INVSOCK; return NULL; } size = sizeof(addr); if (getsockname(socket->m_fd, &addr, &size) < 0) { socket->m_error = GSOCK_IOERR; return NULL; } address = GAddress_new(); if (address == NULL) { socket->m_error = GSOCK_MEMERR; return NULL; } socket->m_error = _GAddress_translate_from(address, &addr, size); if (socket->m_error != GSOCK_NOERROR) { GAddress_destroy(address); return NULL; } return address; } GAddress *GSocket_GetPeer(GSocket *socket) { assert(socket != NULL); if (socket->m_peer) return GAddress_copy(socket->m_peer); return NULL; } /* Server specific parts */ /* GSocket_SetServer() setup the socket as a server. It uses the "Local" field of GSocket. "Local" must be set by GSocket_SetLocal() before GSocket_SetServer() is called. GSOCK_INVSOCK if socket has been initialized. In case, you haven't yet defined the local address, it returns GSOCK_INVADDR. In the other cases it returns GSOCK_IOERR. */ GSocketError GSocket_SetServer(GSocket *sck) { int type; assert(sck != NULL); if (sck->m_fd != -1) { sck->m_error = GSOCK_INVSOCK; return GSOCK_INVSOCK; } if (!sck->m_local) { sck->m_error = GSOCK_INVADDR; return GSOCK_INVADDR; } /* We always have a stream here */ sck->m_stream = TRUE; sck->m_server = TRUE; /* Create the socket */ sck->m_fd = socket(sck->m_local->m_realfamily, SOCK_STREAM, 0); if (sck->m_fd == -1) { sck->m_error = GSOCK_IOERR; return GSOCK_IOERR; } /* Bind the socket to the LOCAL address */ if (bind(sck->m_fd, sck->m_local->m_addr, sck->m_local->m_len) < 0) { close(sck->m_fd); sck->m_fd = -1; sck->m_error = GSOCK_IOERR; return GSOCK_IOERR; } /* Enable listening up to 5 connections */ if (listen(sck->m_fd, 5) < 0) { close(sck->m_fd); sck->m_fd = -1; sck->m_error = GSOCK_IOERR; return GSOCK_IOERR; } GSocket_SetNonBlocking(sck, sck->m_non_blocking); GSocket_SetTimeout(sck, sck->m_timeout); return GSOCK_NOERROR; } /* GSocket_WaitConnection() waits for an incoming client connection. */ GSocket *GSocket_WaitConnection(GSocket *socket) { GSocket *connection; assert(socket != NULL); /* If the socket has already been created, we exit immediately */ if (socket->m_fd == -1 || !socket->m_server) { socket->m_error = GSOCK_INVSOCK; return NULL; } /* Reenable GSOCK_CONNECTION event */ _GSocket_Enable(socket, GSOCK_CONNECTION); /* Create a GSocket object for the new connection */ connection = GSocket_new(); if (!connection) { connection->m_error = GSOCK_MEMERR; return NULL; } /* Accept the incoming connection */ ENABLE_TIMEOUT(connection); connection->m_fd = accept(socket->m_fd, NULL, NULL); DISABLE_TIMEOUT(connection); if (connection->m_fd == -1) { GSocket_destroy(connection); switch(errno) { case EINTR: case ETIMEDOUT: connection->m_error = GSOCK_TIMEDOUT; break; case EWOULDBLOCK: connection->m_error = GSOCK_WOULDBLOCK; break; default: connection->m_error = GSOCK_IOERR; break; } return NULL; } /* Initialize all fields */ connection->m_stream = TRUE; connection->m_server = FALSE; connection->m_oriented = TRUE; return connection; } /* Non oriented connections */ GSocketError GSocket_SetNonOriented(GSocket *sck) { assert(sck != NULL); if (sck->m_fd != -1) { sck->m_error = GSOCK_INVSOCK; return GSOCK_INVSOCK; } if (!sck->m_local) { sck->m_error = GSOCK_INVADDR; return GSOCK_INVADDR; } sck->m_stream = FALSE; sck->m_server = FALSE; sck->m_oriented = FALSE; /* Create the socket */ sck->m_fd = socket(sck->m_local->m_realfamily, SOCK_DGRAM, 0); if (sck->m_fd < 0) { sck->m_error = GSOCK_IOERR; return GSOCK_IOERR; } /* Bind it to the LOCAL address */ if (bind(sck->m_fd, sck->m_local->m_addr, sck->m_local->m_len) < 0) { close(sck->m_fd); sck->m_fd = -1; sck->m_error = GSOCK_IOERR; return GSOCK_IOERR; } GSocket_SetNonBlocking(sck, sck->m_non_blocking); GSocket_SetTimeout(sck, sck->m_timeout); return GSOCK_NOERROR; } /* Client specific parts */ /* GSocket_Connect() establishes a client connection to a server using the "Peer" field of GSocket. "Peer" must be set by GSocket_SetPeer() before GSocket_Connect() is called. In the other case, it returns GSOCK_INVADDR. */ GSocketError GSocket_Connect(GSocket *sck, GSocketStream stream) { int type, err; assert(sck != NULL); if (sck->m_fd != -1) { sck->m_error = GSOCK_INVSOCK; return GSOCK_INVSOCK; } if (!sck->m_peer) { sck->m_error = GSOCK_INVADDR; return GSOCK_INVADDR; } /* Test whether we want the socket to be a stream (e.g. TCP) */ sck->m_stream = (stream == GSOCK_STREAMED); sck->m_oriented = TRUE; if (sck->m_stream) type = SOCK_STREAM; else type = SOCK_DGRAM; /* Create the socket */ sck->m_fd = socket(sck->m_peer->m_realfamily, type, 0); if (sck->m_fd == -1) { sck->m_error = GSOCK_IOERR; return GSOCK_IOERR; } GSocket_SetNonBlocking(sck, sck->m_non_blocking); GSocket_SetTimeout(sck, sck->m_timeout); /* Connect it to the PEER address */ ENABLE_TIMEOUT(sck); err = connect(sck->m_fd, sck->m_peer->m_addr, sck->m_peer->m_len); DISABLE_TIMEOUT(sck); if (err != 0 && errno != EINPROGRESS) { close(sck->m_fd); sck->m_fd = -1; switch (errno) { case EINTR: case ETIMEDOUT: sck->m_error = GSOCK_TIMEDOUT; break; default: sck->m_error = GSOCK_IOERR; break; } return GSOCK_IOERR; } /* It is not a server */ sck->m_server = FALSE; sck->m_establishing = (errno == EINPROGRESS); return (sck->m_establishing) ? GSOCK_WOULDBLOCK : GSOCK_NOERROR; } /* Generic IO */ /* Like recv(), send(), ... */ int GSocket_Read(GSocket *socket, char *buffer, int size) { assert(socket != NULL); if (socket->m_fd == -1 || socket->m_server) { socket->m_error = GSOCK_INVSOCK; return -1; } /* Reenable GSOCK_INPUT event */ _GSocket_Enable(socket, GSOCK_INPUT); if (socket->m_stream) return _GSocket_Recv_Stream(socket, buffer, size); else return _GSocket_Recv_Dgram(socket, buffer, size); } int GSocket_Write(GSocket *socket, const char *buffer, int size) { assert(socket != NULL); if (socket->m_fd == -1 || socket->m_server) { socket->m_error = GSOCK_INVSOCK; return -1; } _GSocket_Enable(socket, GSOCK_OUTPUT); if (socket->m_stream) return _GSocket_Send_Stream(socket, buffer, size); else return _GSocket_Send_Dgram(socket, buffer, size); } bool GSocket_DataAvailable(GSocket *socket) { fd_set read_set; struct timeval tv; assert(socket != NULL); if (socket->m_fd == -1 || socket->m_server) { socket->m_error = GSOCK_INVSOCK; return FALSE; } FD_ZERO(&read_set); FD_SET(socket->m_fd, &read_set); tv.tv_sec = 0; tv.tv_usec = 0; select(socket->m_fd+1, &read_set, NULL, NULL, &tv); return FD_ISSET(socket->m_fd, &read_set); } /* Flags */ /* GSocket_SetNonBlocking() puts the socket in non-blocking mode. This is useful if we don't want to wait. */ void GSocket_SetNonBlocking(GSocket *socket, bool non_block) { assert(socket != NULL); socket->m_non_blocking = non_block; if (socket->m_fd != -1) ioctl(socket->m_fd, FIONBIO, &non_block); } /* * GSocket_SetTimeout() */ void GSocket_SetTimeout(GSocket *socket, unsigned long millisec) { assert(socket != NULL); socket->m_timeout = millisec; } /* GSocket_GetError() returns the last error occured on the socket stream. */ GSocketError GSocket_GetError(GSocket *socket) { assert(socket != NULL); return socket->m_error; } /* Callbacks */ /* Only one callback is possible for each event (INPUT, OUTPUT, CONNECTION) INPUT: The function is called when there is at least a byte in the input buffer OUTPUT: The function is called when the system is sure the next write call will not block CONNECTION: Two cases is possible: Client socket -> the connection is established Server socket -> a client request a connection LOST: the connection is lost SetCallback accepts a combination of these flags so a same callback can receive different events. An event is generated only once and its state is reseted when the relative IO call is requested. For example: INPUT -> GSocket_Read() CONNECTION -> GSocket_Accept() */ void GSocket_SetCallback(GSocket *socket, GSocketEventFlags event, GSocketCallback callback, char *cdata) { int count; assert (socket != NULL); for (count=0;countm_cbacks[count] = callback; socket->m_data[count] = cdata; _GSocket_Enable(socket, count); } } } /* UnsetCallback will disables all callbacks specified by "event". NOTE: event may be a combination of flags */ void GSocket_UnsetCallback(GSocket *socket, GSocketEventFlags event) { int count = 0; assert(socket != NULL); for (count=0;countm_cbacks[count] = NULL; } } } #define CALL_CALLBACK(socket, event) \ if (socket->m_iocalls[event] && \ socket->m_cbacks[event]) {\ _GSocket_Disable(socket, event); \ socket->m_cbacks[event](socket, event, \ socket->m_data[event]); \ } void _GSocket_Enable(GSocket *socket, GSocketEvent event) { socket->m_iocalls[event] = TRUE; if (socket->m_cbacks[event]) _GSocket_Install_Callback(socket, event); } void _GSocket_Disable(GSocket *socket, GSocketEvent event) { socket->m_iocalls[event] = FALSE; if (socket->m_cbacks[event]) _GSocket_Uninstall_Callback(socket, event); } int _GSocket_Recv_Stream(GSocket *socket, char *buffer, int size) { int ret; MASK_SIGNAL(); ENABLE_TIMEOUT(socket); ret = recv(socket->m_fd, buffer, size, 0); DISABLE_TIMEOUT(socket); UNMASK_SIGNAL(); if (ret == -1 && errno != ETIMEDOUT && errno != EWOULDBLOCK && errno != EINTR) { socket->m_error = GSOCK_IOERR; return -1; } if (errno == EWOULDBLOCK) { socket->m_error = GSOCK_WOULDBLOCK; return -1; } if (errno == ETIMEDOUT || errno == EINTR) { socket->m_error = GSOCK_TIMEDOUT; return -1; } return ret; } int _GSocket_Recv_Dgram(GSocket *socket, char *buffer, int size) { struct sockaddr from; SOCKLEN_T fromlen; int ret; GSocketError err; fromlen = sizeof(from); MASK_SIGNAL(); ENABLE_TIMEOUT(socket); ret = recvfrom(socket->m_fd, buffer, size, 0, &from, &fromlen); DISABLE_TIMEOUT(socket); UNMASK_SIGNAL(); if (ret == -1 && errno != EWOULDBLOCK && errno != EINTR && errno != ETIMEDOUT) { socket->m_error = GSOCK_IOERR; return -1; } if (errno == EWOULDBLOCK) { socket->m_error = GSOCK_WOULDBLOCK; return -1; } if (errno == ETIMEDOUT || errno == EINTR) { socket->m_error = GSOCK_TIMEDOUT; return -1; } /* Translate a system address into a GSocket address */ if (!socket->m_peer) { socket->m_peer = GAddress_new(); if (!socket->m_peer) { socket->m_error = GSOCK_MEMERR; return -1; } } err = _GAddress_translate_from(socket->m_peer, &from, fromlen); if (err != GSOCK_NOERROR) { GAddress_destroy(socket->m_peer); socket->m_peer = NULL; socket->m_error = err; return -1; } return ret; } int _GSocket_Send_Stream(GSocket *socket, const char *buffer, int size) { int ret; GSocketError err; MASK_SIGNAL(); ENABLE_TIMEOUT(socket); ret = send(socket->m_fd, buffer, size, 0); DISABLE_TIMEOUT(socket); UNMASK_SIGNAL(); if (ret == -1 && errno != EWOULDBLOCK && errno != ETIMEDOUT && errno != EINTR) { socket->m_error = GSOCK_IOERR; return -1; } if (errno == EWOULDBLOCK) { socket->m_error = GSOCK_WOULDBLOCK; return -1; } if (errno == ETIMEDOUT || errno == EINTR) { socket->m_error = GSOCK_TIMEDOUT; return -1; } return ret; } int _GSocket_Send_Dgram(GSocket *socket, const char *buffer, int size) { struct sockaddr *addr; int len, ret; GSocketError err; if (!socket->m_peer) { socket->m_error = GSOCK_INVADDR; return -1; } err = _GAddress_translate_to(socket->m_peer, &addr, &len); if (err != GSOCK_NOERROR) { socket->m_error = err; return -1; } MASK_SIGNAL(); ENABLE_TIMEOUT(socket); ret = sendto(socket->m_fd, buffer, size, 0, addr, len); DISABLE_TIMEOUT(socket); UNMASK_SIGNAL(); /* Frees memory allocated from _GAddress_translate_to */ free(addr); if (ret == -1 && errno != EWOULDBLOCK) { socket->m_error = GSOCK_IOERR; return -1; } if (errno == EWOULDBLOCK) { socket->m_error = GSOCK_WOULDBLOCK; return -1; } return ret; } void _GSocket_Detected_Read(GSocket *socket) { char c; int ret; if (socket->m_stream) { ret = recv(socket->m_fd, &c, 1, MSG_PEEK); if (ret < 0 && socket->m_server) { CALL_CALLBACK(socket, GSOCK_CONNECTION); return; } if (ret > 0) { CALL_CALLBACK(socket, GSOCK_INPUT); } else { CALL_CALLBACK(socket, GSOCK_LOST); } } } void _GSocket_Detected_Write(GSocket *socket) { if (socket->m_establishing) { int error, len; len = sizeof(error); socket->m_establishing = FALSE; getsockopt(socket->m_fd, SOL_SOCKET, SO_ERROR, &error, &len); if (error) { socket->m_error = GSOCK_IOERR; GSocket_Shutdown(socket); } else socket->m_error = GSOCK_NOERROR; CALL_CALLBACK(socket, GSOCK_CONNECTION); } else CALL_CALLBACK(socket, GSOCK_OUTPUT); } /* * ------------------------------------------------------------------------- * GAddress * ------------------------------------------------------------------------- */ /* CHECK_ADDRESS verifies that the current family is either GSOCK_NOFAMILY or * GSOCK_*family*. In case it is GSOCK_NOFAMILY, it initializes address to be * a GSOCK_*family*. In other cases, it returns GSOCK_INVADDR. */ #define CHECK_ADDRESS(address, family, retval) \ { \ if (address->m_family == GSOCK_NOFAMILY) \ if (_GAddress_Init_##family(address) != GSOCK_NOERROR) {\ return address->m_error; \ }\ if (address->m_family != GSOCK_##family) {\ address->m_error = GSOCK_INVADDR; \ return retval; \ } \ } GAddress *GAddress_new() { GAddress *address; address = (GAddress *)malloc(sizeof(GAddress)); if (address == NULL) return NULL; address->m_family = GSOCK_NOFAMILY; address->m_addr = NULL; address->m_len = 0; return address; } GAddress *GAddress_copy(GAddress *address) { GAddress *addr2; assert(address != NULL); addr2 = (GAddress *)malloc(sizeof(GAddress)); if (addr2 == NULL) return NULL; memcpy(addr2, address, sizeof(GAddress)); if (address->m_addr) { addr2->m_addr = (struct sockaddr *)malloc(addr2->m_len); if (addr2->m_addr == NULL) { free(addr2); return NULL; } memcpy(addr2->m_addr, address->m_addr, addr2->m_len); } return addr2; } void GAddress_destroy(GAddress *address) { assert(address != NULL); free(address); } void GAddress_SetFamily(GAddress *address, GAddressType type) { assert(address != NULL); address->m_family = type; } GAddressType GAddress_GetFamily(GAddress *address) { assert(address != NULL); return address->m_family; } GSocketError _GAddress_translate_from(GAddress *address, struct sockaddr *addr, int len){ address->m_realfamily = addr->sa_family; switch (addr->sa_family) { case AF_INET: address->m_family = GSOCK_INET; break; case AF_UNIX: address->m_family = GSOCK_UNIX; break; #ifdef AF_INET6 case AF_INET6: address->m_family = GSOCK_INET6; break; #endif default: { address->m_error = GSOCK_INVOP; return GSOCK_INVOP; } } if (address->m_addr) free(address->m_addr); address->m_len = len; address->m_addr = (struct sockaddr *)malloc(len); if (address->m_addr == NULL) { address->m_error = GSOCK_MEMERR; return GSOCK_MEMERR; } memcpy(address->m_addr, addr, len); return GSOCK_NOERROR; } GSocketError _GAddress_translate_to(GAddress *address, struct sockaddr **addr, int *len) { if (!address->m_addr) { address->m_error = GSOCK_INVADDR; return GSOCK_INVADDR; } *len = address->m_len; *addr = (struct sockaddr *)malloc(address->m_len); if (*addr == NULL) { address->m_error = GSOCK_MEMERR; return GSOCK_MEMERR; } memcpy(*addr, address->m_addr, address->m_len); return GSOCK_NOERROR; } /* * ------------------------------------------------------------------------- * Internet address family * ------------------------------------------------------------------------- */ GSocketError _GAddress_Init_INET(GAddress *address) { address->m_addr = (struct sockaddr *)malloc(sizeof(struct sockaddr_in)); if (address->m_addr == NULL) { address->m_error = GSOCK_MEMERR; return GSOCK_MEMERR; } address->m_len = sizeof(struct sockaddr_in); address->m_family = GSOCK_INET; address->m_realfamily = PF_INET; ((struct sockaddr_in *)address->m_addr)->sin_family = AF_INET; ((struct sockaddr_in *)address->m_addr)->sin_addr.s_addr = INADDR_ANY; return GSOCK_NOERROR; } GSocketError GAddress_INET_SetHostName(GAddress *address, const char *hostname) { struct hostent *he; struct in_addr *addr; assert(address != NULL); CHECK_ADDRESS(address, INET, GSOCK_INVADDR); addr = &(((struct sockaddr_in *)address->m_addr)->sin_addr); /* If it is a numeric host name, convert it now */ #if defined(HAVE_INET_ATON) if (inet_aton(hostname, addr) == 0) { #elif defined(HAVE_INET_ADDR) /* Fix from Guillermo Rodriguez Garcia */ if ( (addr->s_addr = inet_addr(hostname)) == -1 ) { #else /* Use gethostbyname by default */ if (1) { #endif struct in_addr *array_addr; /* It is a real name, we solve it */ if ((he = gethostbyname(hostname)) == NULL) { address->m_error = GSOCK_NOHOST; return GSOCK_NOHOST; } array_addr = (struct in_addr *) *(he->h_addr_list); addr->s_addr = array_addr[0].s_addr; } return GSOCK_NOERROR; } GSocketError GAddress_INET_SetHostAddress(GAddress *address, unsigned long hostaddr) { struct in_addr *addr; assert(address != NULL); CHECK_ADDRESS(address, INET, GSOCK_INVADDR); addr = &(((struct sockaddr_in *)address->m_addr)->sin_addr); addr->s_addr = hostaddr; return GSOCK_NOERROR; } GSocketError GAddress_INET_SetPortName(GAddress *address, const char *port, const char *protocol) { struct servent *se; struct sockaddr_in *addr; assert(address != NULL); CHECK_ADDRESS(address, INET, GSOCK_INVADDR); if (!port) { address->m_error = GSOCK_INVPORT; return GSOCK_INVPORT; } se = getservbyname(port, protocol); if (!se) { if (isdigit(port[0])) { int port_int; port_int = atoi(port); addr = (struct sockaddr_in *)address->m_addr; addr->sin_port = htons(port_int); return GSOCK_NOERROR; } address->m_error = GSOCK_INVPORT; return GSOCK_INVPORT; } addr = (struct sockaddr_in *)address->m_addr; addr->sin_port = se->s_port; return GSOCK_NOERROR; } GSocketError GAddress_INET_SetPort(GAddress *address, unsigned short port) { struct sockaddr_in *addr; assert(address != NULL); CHECK_ADDRESS(address, INET, GSOCK_INVADDR); addr = (struct sockaddr_in *)address->m_addr; addr->sin_port = htons(port); return GSOCK_NOERROR; } GSocketError GAddress_INET_GetHostName(GAddress *address, char *hostname, size_t sbuf) { struct hostent *he; char *addr_buf; struct sockaddr_in *addr; assert(address != NULL); CHECK_ADDRESS(address, INET, GSOCK_INVADDR); addr = (struct sockaddr_in *)address->m_addr; addr_buf = (char *)&(addr->sin_addr); he = gethostbyaddr(addr_buf, sizeof(addr->sin_addr), AF_INET); if (he == NULL) { address->m_error = GSOCK_NOHOST; return GSOCK_NOHOST; } strncpy(hostname, he->h_name, sbuf); return GSOCK_NOERROR; } unsigned long GAddress_INET_GetHostAddress(GAddress *address) { struct sockaddr_in *addr; assert(address != NULL); CHECK_ADDRESS(address, INET, 0); addr = (struct sockaddr_in *)address->m_addr; return addr->sin_addr.s_addr; } unsigned short GAddress_INET_GetPort(GAddress *address) { struct sockaddr_in *addr; assert(address != NULL); CHECK_ADDRESS(address, INET, 0); addr = (struct sockaddr_in *)address->m_addr; return ntohs(addr->sin_port); } /* * ------------------------------------------------------------------------- * Unix address family * ------------------------------------------------------------------------- */ GSocketError _GAddress_Init_UNIX(GAddress *address) { address->m_addr = (struct sockaddr *)malloc(address->m_len); if (address->m_addr == NULL) { address->m_error = GSOCK_MEMERR; return GSOCK_MEMERR; } address->m_len = sizeof(struct sockaddr_un); address->m_family = GSOCK_UNIX; address->m_realfamily = PF_UNIX; ((struct sockaddr_un *)address->m_addr)->sun_family = AF_UNIX; ((struct sockaddr_un *)address->m_addr)->sun_path[0] = 0; return TRUE; } GSocketError GAddress_UNIX_SetPath(GAddress *address, const char *path) { struct sockaddr_un *addr; assert(address != NULL); CHECK_ADDRESS(address, UNIX, GSOCK_INVADDR); addr = ((struct sockaddr_un *)address->m_addr); memcpy(addr->sun_path, path, strlen(path)); return GSOCK_NOERROR; } GSocketError GAddress_UNIX_GetPath(GAddress *address, char *path, size_t sbuf) { struct sockaddr_un *addr; assert(address != NULL); CHECK_ADDRESS(address, UNIX, GSOCK_INVADDR); addr = (struct sockaddr_un *)address->m_addr; strncpy(path, addr->sun_path, sbuf); return GSOCK_NOERROR; } #endif /* wxUSE_SOCKETS */