/* * tclWinSock.c -- * * This file contains Windows-specific socket related code. * * Copyright (c) 1995-1997 Sun Microsystems, Inc. * * See the file "license.terms" for information on usage and redistribution * of this file, and for a DISCLAIMER OF ALL WARRANTIES. * * RCS: @(#) $Id$ */ #include "tclInt.h" #include "tclPort.h" #ifdef _MSC_VER #define PASCAL #endif /* * The following variable is used to tell whether this module has been * initialized. */ static int initialized = 0; static int hostnameInitialized = 0; static char hostname[255]; /* This buffer should be big enough for * hostname plus domain name. */ /* * The following structure contains pointers to all of the WinSock API entry * points used by Tcl. It is initialized by InitSockets. Since we * dynamically load Winsock.dll on demand, we must use this function table * to refer to functions in the socket API. */ static struct { HINSTANCE hInstance; /* Handle to WinSock library. */ HWND hwnd; /* Handle to window for socket messages. */ SOCKET (PASCAL FAR *accept)(SOCKET s, struct sockaddr FAR *addr, int FAR *addrlen); int (PASCAL FAR *bind)(SOCKET s, const struct sockaddr FAR *addr, int namelen); int (PASCAL FAR *closesocket)(SOCKET s); int (PASCAL FAR *connect)(SOCKET s, const struct sockaddr FAR *name, int namelen); int (PASCAL FAR *ioctlsocket)(SOCKET s, long cmd, u_long FAR *argp); int (PASCAL FAR *getsockopt)(SOCKET s, int level, int optname, char FAR * optval, int FAR *optlen); u_short (PASCAL FAR *htons)(u_short hostshort); unsigned long (PASCAL FAR *inet_addr)(const char FAR * cp); char FAR * (PASCAL FAR *inet_ntoa)(struct in_addr in); int (PASCAL FAR *listen)(SOCKET s, int backlog); u_short (PASCAL FAR *ntohs)(u_short netshort); int (PASCAL FAR *recv)(SOCKET s, char FAR * buf, int len, int flags); int (PASCAL FAR *select)(int nfds, fd_set FAR * readfds, fd_set FAR * writefds, fd_set FAR * exceptfds, const struct timeval FAR * tiemout); int (PASCAL FAR *send)(SOCKET s, const char FAR * buf, int len, int flags); int (PASCAL FAR *setsockopt)(SOCKET s, int level, int optname, const char FAR * optval, int optlen); int (PASCAL FAR *shutdown)(SOCKET s, int how); SOCKET (PASCAL FAR *socket)(int af, int type, int protocol); struct hostent FAR * (PASCAL FAR *gethostbyname)(const char FAR * name); struct hostent FAR * (PASCAL FAR *gethostbyaddr)(const char FAR *addr, int addrlen, int addrtype); int (PASCAL FAR *gethostname)(char FAR * name, int namelen); int (PASCAL FAR *getpeername)(SOCKET sock, struct sockaddr FAR *name, int FAR *namelen); struct servent FAR * (PASCAL FAR *getservbyname)(const char FAR * name, const char FAR * proto); int (PASCAL FAR *getsockname)(SOCKET sock, struct sockaddr FAR *name, int FAR *namelen); int (PASCAL FAR *WSAStartup)(WORD wVersionRequired, LPWSADATA lpWSAData); int (PASCAL FAR *WSACleanup)(void); int (PASCAL FAR *WSAGetLastError)(void); int (PASCAL FAR *WSAAsyncSelect)(SOCKET s, HWND hWnd, u_int wMsg, long lEvent); } winSock; /* * The following defines declare the messages used on socket windows. */ #define SOCKET_MESSAGE WM_USER+1 /* * The following structure is used to store the data associated with * each socket. */ typedef struct SocketInfo { Tcl_Channel channel; /* Channel associated with this socket. */ SOCKET socket; /* Windows SOCKET handle. */ int flags; /* Bit field comprised of the flags * described below. */ int watchEvents; /* OR'ed combination of FD_READ, FD_WRITE, * FD_CLOSE, FD_ACCEPT and FD_CONNECT that * indicate which events are interesting. */ int readyEvents; /* OR'ed combination of FD_READ, FD_WRITE, * FD_CLOSE, FD_ACCEPT and FD_CONNECT that * indicate which events have occurred. */ int selectEvents; /* OR'ed combination of FD_READ, FD_WRITE, * FD_CLOSE, FD_ACCEPT and FD_CONNECT that * indicate which events are currently * being selected. */ Tcl_TcpAcceptProc *acceptProc; /* Proc to call on accept. */ ClientData acceptProcData; /* The data for the accept proc. */ int lastError; /* Error code from last message. */ /* CYGNUS LOCAL */ int clientChannel; /* Created by Tcp_MakeTcpClientChannel. */ /* END CYGNUS LOCAL */ struct SocketInfo *nextPtr; /* The next socket on the global socket * list. */ } SocketInfo; /* * The following structure is what is added to the Tcl event queue when * a socket event occurs. */ typedef struct SocketEvent { Tcl_Event header; /* Information that is standard for * all events. */ SOCKET socket; /* Socket descriptor that is ready. Used * to find the SocketInfo structure for * the file (can't point directly to the * SocketInfo structure because it could * go away while the event is queued). */ } SocketEvent; /* * This defines the minimum buffersize maintained by the kernel. */ #define TCP_BUFFER_SIZE 4096 /* * The following macros may be used to set the flags field of * a SocketInfo structure. */ #define SOCKET_ASYNC (1<<0) /* The socket is in blocking mode. */ #define SOCKET_EOF (1<<1) /* A zero read happened on * the socket. */ #define SOCKET_ASYNC_CONNECT (1<<2) /* This socket uses async connect. */ #define SOCKET_PENDING (1<<3) /* A message has been sent * for this socket */ /* * Every open socket has an entry on the following list. */ static SocketInfo *socketList; /* * Static functions defined in this file. */ static SocketInfo * CreateSocket _ANSI_ARGS_((Tcl_Interp *interp, int port, char *host, int server, char *myaddr, int myport, int async)); static int CreateSocketAddress _ANSI_ARGS_( (struct sockaddr_in *sockaddrPtr, char *host, int port)); static void InitSockets _ANSI_ARGS_((void)); static SocketInfo * NewSocketInfo _ANSI_ARGS_((SOCKET socket)); static void SocketCheckProc _ANSI_ARGS_((ClientData clientData, int flags)); static int SocketEventProc _ANSI_ARGS_((Tcl_Event *evPtr, int flags)); static void SocketExitHandler _ANSI_ARGS_((ClientData clientData)); static LRESULT CALLBACK SocketProc _ANSI_ARGS_((HWND hwnd, UINT message, WPARAM wParam, LPARAM lParam)); static void SocketSetupProc _ANSI_ARGS_((ClientData clientData, int flags)); static void TcpAccept _ANSI_ARGS_((SocketInfo *infoPtr)); static int TcpBlockProc _ANSI_ARGS_((ClientData instanceData, int mode)); static int TcpCloseProc _ANSI_ARGS_((ClientData instanceData, Tcl_Interp *interp)); static int TcpGetOptionProc _ANSI_ARGS_((ClientData instanceData, Tcl_Interp *interp, char *optionName, Tcl_DString *optionValue)); static int TcpInputProc _ANSI_ARGS_((ClientData instanceData, char *buf, int toRead, int *errorCode)); static int TcpOutputProc _ANSI_ARGS_((ClientData instanceData, char *buf, int toWrite, int *errorCode)); static void TcpWatchProc _ANSI_ARGS_((ClientData instanceData, int mask)); static int TcpGetHandleProc _ANSI_ARGS_((ClientData instanceData, int direction, ClientData *handlePtr)); static int WaitForSocketEvent _ANSI_ARGS_((SocketInfo *infoPtr, int events, int *errorCodePtr)); /* * This structure describes the channel type structure for TCP socket * based IO. */ static Tcl_ChannelType tcpChannelType = { "tcp", /* Type name. */ TcpBlockProc, /* Set socket into blocking/non-blocking mode. */ TcpCloseProc, /* Close proc. */ TcpInputProc, /* Input proc. */ TcpOutputProc, /* Output proc. */ NULL, /* Seek proc. */ NULL, /* Set option proc. */ TcpGetOptionProc, /* Get option proc. */ TcpWatchProc, /* Initialize notifier to watch this channel. */ TcpGetHandleProc, /* Get an OS handle from channel. */ }; /* * Define version of Winsock required by Tcl. */ #define WSA_VERSION_REQD MAKEWORD(1,1) /* *---------------------------------------------------------------------- * * InitSockets -- * * Initialize the socket module. Attempts to load the wsock32.dll * library and set up the winSock function table. If successful, * registers the event window for the socket notifier code. * * Results: * None. * * Side effects: * Dynamically loads wsock32.dll, and registers a new window * class and creates a window for use in asynchronous socket * notification. * *---------------------------------------------------------------------- */ static void InitSockets() { WSADATA wsaData; OSVERSIONINFO info; WNDCLASS class; initialized = 1; Tcl_CreateExitHandler(SocketExitHandler, (ClientData) NULL); /* * Find out if we're running on Win32s. */ info.dwOSVersionInfoSize = sizeof(OSVERSIONINFO); GetVersionEx(&info); /* * Check to see if Sockets are supported on this system. Since * win32s panics if we call WSAStartup on a system that doesn't * have winsock.dll, we need to look for it on the system first. * If we find winsock, then load the library and initialize the * stub table. */ if ((info.dwPlatformId != VER_PLATFORM_WIN32s) || (SearchPath(NULL, "WINSOCK", ".DLL", 0, NULL, NULL) != 0)) { winSock.hInstance = LoadLibrary("wsock32.dll"); } else { winSock.hInstance = NULL; } /* * Initialize the function table. */ if (winSock.hInstance == NULL) { return; } /* CYGNUS LOCAL */ #ifdef __GNUC__ /* gcc can't handle `PASCAL FAR' in a cast. */ #define PASCAL_FAR #else #define PASCAL_FAR PASCAL FAR #endif winSock.accept = (SOCKET (PASCAL_FAR *)(SOCKET s, struct sockaddr FAR *addr, int FAR *addrlen)) GetProcAddress(winSock.hInstance, "accept"); winSock.bind = (int (PASCAL_FAR *)(SOCKET s, const struct sockaddr FAR *addr, int namelen)) GetProcAddress(winSock.hInstance, "bind"); winSock.closesocket = (int (PASCAL_FAR *)(SOCKET s)) GetProcAddress(winSock.hInstance, "closesocket"); winSock.connect = (int (PASCAL_FAR *)(SOCKET s, const struct sockaddr FAR *name, int namelen)) GetProcAddress(winSock.hInstance, "connect"); winSock.ioctlsocket = (int (PASCAL_FAR *)(SOCKET s, long cmd, u_long FAR *argp)) GetProcAddress(winSock.hInstance, "ioctlsocket"); winSock.getsockopt = (int (PASCAL_FAR *)(SOCKET s, int level, int optname, char FAR * optval, int FAR *optlen)) GetProcAddress(winSock.hInstance, "getsockopt"); winSock.htons = (u_short (PASCAL_FAR *)(u_short hostshort)) GetProcAddress(winSock.hInstance, "htons"); winSock.inet_addr = (unsigned long (PASCAL_FAR *)(const char FAR *cp)) GetProcAddress(winSock.hInstance, "inet_addr"); winSock.inet_ntoa = (char FAR * (PASCAL_FAR *)(struct in_addr in)) GetProcAddress(winSock.hInstance, "inet_ntoa"); winSock.listen = (int (PASCAL_FAR *)(SOCKET s, int backlog)) GetProcAddress(winSock.hInstance, "listen"); winSock.ntohs = (u_short (PASCAL_FAR *)(u_short netshort)) GetProcAddress(winSock.hInstance, "ntohs"); winSock.recv = (int (PASCAL_FAR *)(SOCKET s, char FAR * buf, int len, int flags)) GetProcAddress(winSock.hInstance, "recv"); winSock.select = (int (PASCAL_FAR *)(int nfds, fd_set FAR * readfds, fd_set FAR * writefds, fd_set FAR * exceptfds, const struct timeval FAR * tiemout)) GetProcAddress(winSock.hInstance, "select"); winSock.send = (int (PASCAL_FAR *)(SOCKET s, const char FAR * buf, int len, int flags)) GetProcAddress(winSock.hInstance, "send"); winSock.setsockopt = (int (PASCAL_FAR *)(SOCKET s, int level, int optname, const char FAR * optval, int optlen)) GetProcAddress(winSock.hInstance, "setsockopt"); winSock.shutdown = (int (PASCAL_FAR *)(SOCKET s, int how)) GetProcAddress(winSock.hInstance, "shutdown"); winSock.socket = (SOCKET (PASCAL_FAR *)(int af, int type, int protocol)) GetProcAddress(winSock.hInstance, "socket"); winSock.gethostbyaddr = (struct hostent FAR * (PASCAL_FAR *) (const char FAR *addr, int addrlen, int addrtype)) GetProcAddress(winSock.hInstance, "gethostbyaddr"); winSock.gethostbyname = (struct hostent FAR * (PASCAL_FAR *) (const char FAR *name)) GetProcAddress(winSock.hInstance, "gethostbyname"); winSock.gethostname = (int (PASCAL_FAR *)(char FAR * name, int namelen)) GetProcAddress(winSock.hInstance, "gethostname"); winSock.getpeername = (int (PASCAL_FAR *)(SOCKET sock, struct sockaddr FAR *name, int FAR *namelen)) GetProcAddress(winSock.hInstance, "getpeername"); winSock.getservbyname = (struct servent FAR * (PASCAL_FAR *) (const char FAR * name, const char FAR * proto)) GetProcAddress(winSock.hInstance, "getservbyname"); winSock.getsockname = (int (PASCAL_FAR *)(SOCKET sock, struct sockaddr FAR *name, int FAR *namelen)) GetProcAddress(winSock.hInstance, "getsockname"); winSock.WSAStartup = (int (PASCAL_FAR *)(WORD wVersionRequired, LPWSADATA lpWSAData)) GetProcAddress(winSock.hInstance, "WSAStartup"); winSock.WSACleanup = (int (PASCAL_FAR *)(void)) GetProcAddress(winSock.hInstance, "WSACleanup"); winSock.WSAGetLastError = (int (PASCAL_FAR *)(void)) GetProcAddress(winSock.hInstance, "WSAGetLastError"); winSock.WSAAsyncSelect = (int (PASCAL_FAR *)(SOCKET s, HWND hWnd, u_int wMsg, long lEvent)) GetProcAddress(winSock.hInstance, "WSAAsyncSelect"); /* END CYGNUS LOCAL */ /* * Now check that all fields are properly initialized. If not, return * zero to indicate that we failed to initialize properly. */ if ((winSock.hInstance == NULL) || (winSock.accept == NULL) || (winSock.bind == NULL) || (winSock.closesocket == NULL) || (winSock.connect == NULL) || (winSock.ioctlsocket == NULL) || (winSock.getsockopt == NULL) || (winSock.htons == NULL) || (winSock.inet_addr == NULL) || (winSock.inet_ntoa == NULL) || (winSock.listen == NULL) || (winSock.ntohs == NULL) || (winSock.recv == NULL) || (winSock.select == NULL) || (winSock.send == NULL) || (winSock.setsockopt == NULL) || (winSock.socket == NULL) || (winSock.gethostbyname == NULL) || (winSock.gethostbyaddr == NULL) || (winSock.gethostname == NULL) || (winSock.getpeername == NULL) || (winSock.getservbyname == NULL) || (winSock.getsockname == NULL) || (winSock.WSAStartup == NULL) || (winSock.WSACleanup == NULL) || (winSock.WSAGetLastError == NULL) || (winSock.WSAAsyncSelect == NULL)) { goto unloadLibrary; } /* * Initialize the winsock library and check the version number. */ if ((*winSock.WSAStartup)(WSA_VERSION_REQD, &wsaData) != 0) { goto unloadLibrary; } if (wsaData.wVersion != WSA_VERSION_REQD) { (*winSock.WSACleanup)(); goto unloadLibrary; } /* * Create the async notification window with a new class. We * must create a new class to avoid a Windows 95 bug that causes * us to get the wrong message number for socket events if the * message window is a subclass of a static control. */ class.style = 0; class.cbClsExtra = 0; class.cbWndExtra = 0; class.hInstance = TclWinGetTclInstance(); class.hbrBackground = NULL; class.lpszMenuName = NULL; class.lpszClassName = "TclSocket"; class.lpfnWndProc = SocketProc; class.hIcon = NULL; class.hCursor = NULL; if (RegisterClass(&class)) { winSock.hwnd = CreateWindow("TclSocket", "TclSocket", WS_TILED, 0, 0, 0, 0, NULL, NULL, class.hInstance, NULL); } else { winSock.hwnd = NULL; } if (winSock.hwnd == NULL) { TclWinConvertError(GetLastError()); (*winSock.WSACleanup)(); goto unloadLibrary; } Tcl_CreateEventSource(SocketSetupProc, SocketCheckProc, NULL); return; unloadLibrary: FreeLibrary(winSock.hInstance); winSock.hInstance = NULL; return; } /* *---------------------------------------------------------------------- * * SocketExitHandler -- * * Callback invoked during exit clean up to delete the socket * communication window and to release the WinSock DLL. * * Results: * None. * * Side effects: * None. * *---------------------------------------------------------------------- */ /* ARGSUSED */ static void SocketExitHandler(clientData) ClientData clientData; /* Not used. */ { if (winSock.hInstance) { DestroyWindow(winSock.hwnd); UnregisterClass("TclSocket", TclWinGetTclInstance()); (*winSock.WSACleanup)(); FreeLibrary(winSock.hInstance); winSock.hInstance = NULL; } Tcl_DeleteEventSource(SocketSetupProc, SocketCheckProc, NULL); initialized = 0; hostnameInitialized = 0; } /* *---------------------------------------------------------------------- * * TclHasSockets -- * * This function determines whether sockets are available on the * current system and returns an error in interp if they are not. * Note that interp may be NULL. * * Results: * Returns TCL_OK if the system supports sockets, or TCL_ERROR with * an error in interp. * * Side effects: * None. * *---------------------------------------------------------------------- */ int TclHasSockets(interp) Tcl_Interp *interp; { if (!initialized) { InitSockets(); } if (winSock.hInstance != NULL) { return TCL_OK; } if (interp != NULL) { Tcl_AppendResult(interp, "sockets are not available on this system", NULL); } return TCL_ERROR; } /* *---------------------------------------------------------------------- * * SocketSetupProc -- * * This procedure is invoked before Tcl_DoOneEvent blocks waiting * for an event. * * Results: * None. * * Side effects: * Adjusts the block time if needed. * *---------------------------------------------------------------------- */ void SocketSetupProc(data, flags) ClientData data; /* Not used. */ int flags; /* Event flags as passed to Tcl_DoOneEvent. */ { SocketInfo *infoPtr; Tcl_Time blockTime = { 0, 0 }; if (!(flags & TCL_FILE_EVENTS)) { return; } /* * Check to see if there is a ready socket. If so, poll. */ for (infoPtr = socketList; infoPtr != NULL; infoPtr = infoPtr->nextPtr) { if (infoPtr->readyEvents & infoPtr->watchEvents) { Tcl_SetMaxBlockTime(&blockTime); break; } } } /* *---------------------------------------------------------------------- * * SocketCheckProc -- * * This procedure is called by Tcl_DoOneEvent to check the socket * event source for events. * * Results: * None. * * Side effects: * May queue an event. * *---------------------------------------------------------------------- */ static void SocketCheckProc(data, flags) ClientData data; /* Not used. */ int flags; /* Event flags as passed to Tcl_DoOneEvent. */ { SocketInfo *infoPtr; SocketEvent *evPtr; if (!(flags & TCL_FILE_EVENTS)) { return; } /* * Queue events for any ready sockets that don't already have events * queued (caused by persistent states that won't generate WinSock * events). */ for (infoPtr = socketList; infoPtr != NULL; infoPtr = infoPtr->nextPtr) { if ((infoPtr->readyEvents & infoPtr->watchEvents) && !(infoPtr->flags & SOCKET_PENDING)) { infoPtr->flags |= SOCKET_PENDING; evPtr = (SocketEvent *) ckalloc(sizeof(SocketEvent)); evPtr->header.proc = SocketEventProc; evPtr->socket = infoPtr->socket; Tcl_QueueEvent((Tcl_Event *) evPtr, TCL_QUEUE_TAIL); } } } /* *---------------------------------------------------------------------- * * SocketEventProc -- * * This procedure is called by Tcl_ServiceEvent when a socket event * reaches the front of the event queue. This procedure is * responsible for notifying the generic channel code. * * Results: * Returns 1 if the event was handled, meaning it should be removed * from the queue. Returns 0 if the event was not handled, meaning * it should stay on the queue. The only time the event isn't * handled is if the TCL_FILE_EVENTS flag bit isn't set. * * Side effects: * Whatever the channel callback procedures do. * *---------------------------------------------------------------------- */ static int SocketEventProc(evPtr, flags) Tcl_Event *evPtr; /* Event to service. */ int flags; /* Flags that indicate what events to * handle, such as TCL_FILE_EVENTS. */ { SocketInfo *infoPtr; SocketEvent *eventPtr = (SocketEvent *) evPtr; int mask = 0; int events; if (!(flags & TCL_FILE_EVENTS)) { return 0; } /* * Find the specified socket on the socket list. */ for (infoPtr = socketList; infoPtr != NULL; infoPtr = infoPtr->nextPtr) { if (infoPtr->socket == eventPtr->socket) { break; } } /* * Discard events that have gone stale. */ if (!infoPtr) { return 1; } infoPtr->flags &= ~SOCKET_PENDING; /* * Handle connection requests directly. */ if (infoPtr->readyEvents & FD_ACCEPT) { /* CYGNUS LOCAL: If we get an FD_ACCEPT on a client channel, don't accept it; just set TCL_READABLE. */ if (infoPtr->clientChannel) { mask |= TCL_READABLE; infoPtr->readyEvents &= ~(FD_ACCEPT); } else { TcpAccept(infoPtr); return 1; } } /* CYGNUS LOCAL: Treat FD_CONNECT on a client channel as meaning that the socket is now readable and writable. Otherwise we won't pick up a failed connect. */ if ((infoPtr->readyEvents & FD_CONNECT) && infoPtr->clientChannel) { mask |= TCL_READABLE | TCL_WRITABLE; infoPtr->readyEvents &= ~(FD_CONNECT); } /* * Mask off unwanted events and compute the read/write mask so * we can notify the channel. */ events = infoPtr->readyEvents & infoPtr->watchEvents; if (events & FD_CLOSE) { /* * If the socket was closed and the channel is still interested * in read events, then we need to ensure that we keep polling * for this event until someone does something with the channel. * Note that we do this before calling Tcl_NotifyChannel so we don't * have to watch out for the channel being deleted out from under * us. This may cause a redundant trip through the event loop, but * it's simpler than trying to do unwind protection. */ Tcl_Time blockTime = { 0, 0 }; Tcl_SetMaxBlockTime(&blockTime); mask |= TCL_READABLE; /* CYGNUS LOCAL: For a client channel, set TCL_WRITABLE for FD_CLOSE. Otherwise a program waiting to write will hang forever. Besides, select returns if a descriptor selected for write is closed. */ if (infoPtr->clientChannel) { mask |= TCL_WRITABLE; } /* END CYGNUS LOCAL. */ } else if (events & FD_READ) { fd_set readFds; struct timeval timeout; /* * We must check to see if data is really available, since someone * could have consumed the data in the meantime. Turn off async * notification so select will work correctly. If the socket is * still readable, notify the channel driver, otherwise reset the * async select handler and keep waiting. */ (void) (*winSock.WSAAsyncSelect)(infoPtr->socket, winSock.hwnd, 0, 0); FD_ZERO(&readFds); FD_SET(infoPtr->socket, &readFds); timeout.tv_usec = 0; timeout.tv_sec = 0; if ((*winSock.select)(0, &readFds, NULL, NULL, &timeout) != 0) { mask |= TCL_READABLE; } else { (void) (*winSock.WSAAsyncSelect)(infoPtr->socket, winSock.hwnd, SOCKET_MESSAGE, infoPtr->selectEvents); infoPtr->readyEvents &= ~(FD_READ); } } if (events & FD_WRITE) { mask |= TCL_WRITABLE; } if (mask) { Tcl_NotifyChannel(infoPtr->channel, mask); } return 1; } /* *---------------------------------------------------------------------- * * TcpBlockProc -- * * Sets a socket into blocking or non-blocking mode. * * Results: * 0 if successful, errno if there was an error. * * Side effects: * None. * *---------------------------------------------------------------------- */ static int TcpBlockProc(instanceData, mode) ClientData instanceData; /* The socket to block/un-block. */ int mode; /* TCL_MODE_BLOCKING or * TCL_MODE_NONBLOCKING. */ { SocketInfo *infoPtr = (SocketInfo *) instanceData; if (mode == TCL_MODE_NONBLOCKING) { infoPtr->flags |= SOCKET_ASYNC; } else { infoPtr->flags &= ~(SOCKET_ASYNC); } return 0; } /* *---------------------------------------------------------------------- * * TcpCloseProc -- * * This procedure is called by the generic IO level to perform * channel type specific cleanup on a socket based channel * when the channel is closed. * * Results: * 0 if successful, the value of errno if failed. * * Side effects: * Closes the socket. * *---------------------------------------------------------------------- */ /* ARGSUSED */ static int TcpCloseProc(instanceData, interp) ClientData instanceData; /* The socket to close. */ Tcl_Interp *interp; /* Unused. */ { SocketInfo *infoPtr = (SocketInfo *) instanceData; SocketInfo **nextPtrPtr; int errorCode = 0; /* * Check that WinSock is initialized; do not call it if not, to * prevent system crashes. This can happen at exit time if the exit * handler for WinSock ran before other exit handlers that want to * use sockets. */ if (winSock.hInstance != NULL) { /* * Clean up the OS socket handle. The default Windows setting * for a socket is SO_DONTLINGER, which does a graceful shutdown * in the background. */ if ((*winSock.closesocket)(infoPtr->socket) == SOCKET_ERROR) { TclWinConvertWSAError((*winSock.WSAGetLastError)()); errorCode = Tcl_GetErrno(); } } /* * Remove the socket from socketList. */ for (nextPtrPtr = &socketList; (*nextPtrPtr) != NULL; nextPtrPtr = &((*nextPtrPtr)->nextPtr)) { if ((*nextPtrPtr) == infoPtr) { (*nextPtrPtr) = infoPtr->nextPtr; break; } } ckfree((char *) infoPtr); return errorCode; } /* *---------------------------------------------------------------------- * * NewSocketInfo -- * * This function allocates and initializes a new SocketInfo * structure. * * Results: * Returns a newly allocated SocketInfo. * * Side effects: * Adds the socket to the global socket list. * *---------------------------------------------------------------------- */ static SocketInfo * NewSocketInfo(socket) SOCKET socket; { SocketInfo *infoPtr; infoPtr = (SocketInfo *) ckalloc((unsigned) sizeof(SocketInfo)); infoPtr->socket = socket; infoPtr->flags = 0; infoPtr->watchEvents = 0; infoPtr->readyEvents = 0; infoPtr->selectEvents = 0; infoPtr->acceptProc = NULL; infoPtr->lastError = 0; /* CYGNUS LOCAL. */ infoPtr->clientChannel = 0; /* END CYGNUS LOCAL. */ infoPtr->nextPtr = socketList; socketList = infoPtr; return infoPtr; } /* *---------------------------------------------------------------------- * * CreateSocket -- * * This function opens a new socket and initializes the * SocketInfo structure. * * Results: * Returns a new SocketInfo, or NULL with an error in interp. * * Side effects: * Adds a new socket to the socketList. * *---------------------------------------------------------------------- */ static SocketInfo * CreateSocket(interp, port, host, server, myaddr, myport, async) Tcl_Interp *interp; /* For error reporting; can be NULL. */ int port; /* Port number to open. */ char *host; /* Name of host on which to open port. */ int server; /* 1 if socket should be a server socket, * else 0 for a client socket. */ char *myaddr; /* Optional client-side address */ int myport; /* Optional client-side port */ int async; /* If nonzero, connect client socket * asynchronously. */ { u_long flag = 1; /* Indicates nonblocking mode. */ int asyncConnect = 0; /* Will be 1 if async connect is * in progress. */ struct sockaddr_in sockaddr; /* Socket address */ struct sockaddr_in mysockaddr; /* Socket address for client */ SOCKET sock; SocketInfo *infoPtr; /* The returned value. */ /* * Check that WinSock is initialized; do not call it if not, to * prevent system crashes. This can happen at exit time if the exit * handler for WinSock ran before other exit handlers that want to * use sockets. */ if (winSock.hInstance == NULL) { return NULL; } if (! CreateSocketAddress(&sockaddr, host, port)) { goto error; } if ((myaddr != NULL || myport != 0) && ! CreateSocketAddress(&mysockaddr, myaddr, myport)) { goto error; } sock = (*winSock.socket)(AF_INET, SOCK_STREAM, 0); if (sock == INVALID_SOCKET) { goto error; } /* * Set kernel space buffering */ TclSockMinimumBuffers(sock, TCP_BUFFER_SIZE); if (server) { /* * Bind to the specified port. Note that we must not call setsockopt * with SO_REUSEADDR because Microsoft allows addresses to be reused * even if they are still in use. * * Bind should not be affected by the socket having already been * set into nonblocking mode. If there is trouble, this is one place * to look for bugs. */ if ((*winSock.bind)(sock, (struct sockaddr *) &sockaddr, sizeof(sockaddr)) == SOCKET_ERROR) { goto error; } /* * Set the maximum number of pending connect requests to the * max value allowed on each platform (Win32 and Win32s may be * different, and there may be differences between TCP/IP stacks). */ if ((*winSock.listen)(sock, SOMAXCONN) == SOCKET_ERROR) { goto error; } /* * Add this socket to the global list of sockets. */ infoPtr = NewSocketInfo(sock); /* * Set up the select mask for connection request events. */ infoPtr->selectEvents = FD_ACCEPT; infoPtr->watchEvents |= FD_ACCEPT; } else { /* * Try to bind to a local port, if specified. */ if (myaddr != NULL || myport != 0) { if ((*winSock.bind)(sock, (struct sockaddr *) &mysockaddr, sizeof(struct sockaddr)) == SOCKET_ERROR) { goto error; } } /* * Set the socket into nonblocking mode if the connect should be * done in the background. */ if (async) { if ((*winSock.ioctlsocket)(sock, FIONBIO, &flag) == SOCKET_ERROR) { goto error; } } /* * Attempt to connect to the remote socket. */ if ((*winSock.connect)(sock, (struct sockaddr *) &sockaddr, sizeof(sockaddr)) == SOCKET_ERROR) { TclWinConvertWSAError((*winSock.WSAGetLastError)()); if (Tcl_GetErrno() != EWOULDBLOCK) { goto error; } /* * The connection is progressing in the background. */ asyncConnect = 1; } /* * Add this socket to the global list of sockets. */ infoPtr = NewSocketInfo(sock); /* * Set up the select mask for read/write events. If the connect * attempt has not completed, include connect events. */ infoPtr->selectEvents = FD_READ | FD_WRITE | FD_CLOSE; if (asyncConnect) { infoPtr->flags |= SOCKET_ASYNC_CONNECT; infoPtr->selectEvents |= FD_CONNECT; } } /* * Register for interest in events in the select mask. Note that this * automatically places the socket into non-blocking mode. */ (*winSock.ioctlsocket)(sock, FIONBIO, &flag); (void) (*winSock.WSAAsyncSelect)(infoPtr->socket, winSock.hwnd, SOCKET_MESSAGE, infoPtr->selectEvents); return infoPtr; error: TclWinConvertWSAError((*winSock.WSAGetLastError)()); if (interp != NULL) { Tcl_AppendResult(interp, "couldn't open socket: ", Tcl_PosixError(interp), (char *) NULL); } if (sock != INVALID_SOCKET) { (*winSock.closesocket)(sock); } return NULL; } /* *---------------------------------------------------------------------- * * CreateSocketAddress -- * * This function initializes a sockaddr structure for a host and port. * * Results: * 1 if the host was valid, 0 if the host could not be converted to * an IP address. * * Side effects: * Fills in the *sockaddrPtr structure. * *---------------------------------------------------------------------- */ static int CreateSocketAddress(sockaddrPtr, host, port) struct sockaddr_in *sockaddrPtr; /* Socket address */ char *host; /* Host. NULL implies INADDR_ANY */ int port; /* Port number */ { struct hostent *hostent; /* Host database entry */ struct in_addr addr; /* For 64/32 bit madness */ /* * Check that WinSock is initialized; do not call it if not, to * prevent system crashes. This can happen at exit time if the exit * handler for WinSock ran before other exit handlers that want to * use sockets. */ if (winSock.hInstance == NULL) { Tcl_SetErrno(EFAULT); return 0; } (void) memset((char *) sockaddrPtr, '\0', sizeof(struct sockaddr_in)); sockaddrPtr->sin_family = AF_INET; sockaddrPtr->sin_port = (*winSock.htons)((short) (port & 0xFFFF)); if (host == NULL) { addr.s_addr = INADDR_ANY; } else { addr.s_addr = (*winSock.inet_addr)(host); if (addr.s_addr == INADDR_NONE) { hostent = (*winSock.gethostbyname)(host); if (hostent != NULL) { memcpy((char *) &addr, (char *) hostent->h_addr_list[0], (size_t) hostent->h_length); } else { #ifdef EHOSTUNREACH Tcl_SetErrno(EHOSTUNREACH); #else #ifdef ENXIO Tcl_SetErrno(ENXIO); #endif #endif return 0; /* Error. */ } } } /* * NOTE: On 64 bit machines the assignment below is rumored to not * do the right thing. Please report errors related to this if you * observe incorrect behavior on 64 bit machines such as DEC Alphas. * Should we modify this code to do an explicit memcpy? */ sockaddrPtr->sin_addr.s_addr = addr.s_addr; return 1; /* Success. */ } /* *---------------------------------------------------------------------- * * WaitForSocketEvent -- * * Waits until one of the specified events occurs on a socket. * * Results: * Returns 1 on success or 0 on failure, with an error code in * errorCodePtr. * * Side effects: * Processes socket events off the system queue. * *---------------------------------------------------------------------- */ static int WaitForSocketEvent(infoPtr, events, errorCodePtr) SocketInfo *infoPtr; /* Information about this socket. */ int events; /* Events to look for. */ int *errorCodePtr; /* Where to store errors? */ { MSG msg; int result = 1; int oldMode; /* * Be sure to disable event servicing so we are truly modal. */ oldMode = Tcl_SetServiceMode(TCL_SERVICE_NONE); /* * Reset WSAAsyncSelect so we have a fresh set of events pending. */ (void) (*winSock.WSAAsyncSelect)(infoPtr->socket, winSock.hwnd, 0, 0); (void) (*winSock.WSAAsyncSelect)(infoPtr->socket, winSock.hwnd, SOCKET_MESSAGE, infoPtr->selectEvents); while (1) { /* * Process all outstanding messages on the socket window. */ while (PeekMessage(&msg, winSock.hwnd, 0, 0, PM_REMOVE)) { DispatchMessage(&msg); } if (infoPtr->lastError) { *errorCodePtr = infoPtr->lastError; result = 0; break; } else if (infoPtr->readyEvents & events) { break; } else if (infoPtr->flags & SOCKET_ASYNC) { *errorCodePtr = EWOULDBLOCK; result = 0; break; } /* * Wait until something happens. */ WaitMessage(); } (void) Tcl_SetServiceMode(oldMode); return result; } /* *---------------------------------------------------------------------- * * Tcl_OpenTcpClient -- * * Opens a TCP client socket and creates a channel around it. * * Results: * The channel or NULL if failed. An error message is returned * in the interpreter on failure. * * Side effects: * Opens a client socket and creates a new channel. * *---------------------------------------------------------------------- */ Tcl_Channel Tcl_OpenTcpClient(interp, port, host, myaddr, myport, async) Tcl_Interp *interp; /* For error reporting; can be NULL. */ int port; /* Port number to open. */ char *host; /* Host on which to open port. */ char *myaddr; /* Client-side address */ int myport; /* Client-side port */ int async; /* If nonzero, should connect * client socket asynchronously. */ { SocketInfo *infoPtr; char channelName[20]; if (TclHasSockets(interp) != TCL_OK) { return NULL; } /* * Create a new client socket and wrap it in a channel. */ infoPtr = CreateSocket(interp, port, host, 0, myaddr, myport, async); if (infoPtr == NULL) { return NULL; } sprintf(channelName, "sock%d", infoPtr->socket); infoPtr->channel = Tcl_CreateChannel(&tcpChannelType, channelName, (ClientData) infoPtr, (TCL_READABLE | TCL_WRITABLE)); if (Tcl_SetChannelOption(interp, infoPtr->channel, "-translation", "auto crlf") == TCL_ERROR) { Tcl_Close((Tcl_Interp *) NULL, infoPtr->channel); return (Tcl_Channel) NULL; } if (Tcl_SetChannelOption(NULL, infoPtr->channel, "-eofchar", "") == TCL_ERROR) { Tcl_Close((Tcl_Interp *) NULL, infoPtr->channel); return (Tcl_Channel) NULL; } return infoPtr->channel; } /* *---------------------------------------------------------------------- * * Tcl_MakeTcpClientChannel -- * * Creates a Tcl_Channel from an existing client TCP socket. * * Results: * The Tcl_Channel wrapped around the preexisting TCP socket. * * Side effects: * None. * * NOTE: Code contributed by Mark Diekhans (markd@grizzly.com) * *---------------------------------------------------------------------- */ Tcl_Channel Tcl_MakeTcpClientChannel(sock) ClientData sock; /* The socket to wrap up into a channel. */ { SocketInfo *infoPtr; char channelName[20]; if (TclHasSockets(NULL) != TCL_OK) { return NULL; } /* * Set kernel space buffering and non-blocking. */ TclSockMinimumBuffers((SOCKET) sock, TCP_BUFFER_SIZE); infoPtr = NewSocketInfo((SOCKET) sock); /* CYGNUS LOCAL: Set clientChannel. */ infoPtr->clientChannel = 1; /* * Start watching for read/write events on the socket. */ /* CYGNUS LOCAL: Select for FD_ACCEPT and FD_CONNECT. */ infoPtr->selectEvents = (FD_READ | FD_CLOSE | FD_WRITE | FD_ACCEPT | FD_CONNECT); (void) (*winSock.WSAAsyncSelect)(infoPtr->socket, winSock.hwnd, SOCKET_MESSAGE, infoPtr->selectEvents); sprintf(channelName, "sock%d", infoPtr->socket); infoPtr->channel = Tcl_CreateChannel(&tcpChannelType, channelName, (ClientData) infoPtr, (TCL_READABLE | TCL_WRITABLE)); Tcl_SetChannelOption(NULL, infoPtr->channel, "-translation", "auto crlf"); return infoPtr->channel; } /* *---------------------------------------------------------------------- * * Tcl_OpenTcpServer -- * * Opens a TCP server socket and creates a channel around it. * * Results: * The channel or NULL if failed. An error message is returned * in the interpreter on failure. * * Side effects: * Opens a server socket and creates a new channel. * *---------------------------------------------------------------------- */ Tcl_Channel Tcl_OpenTcpServer(interp, port, host, acceptProc, acceptProcData) Tcl_Interp *interp; /* For error reporting - may be * NULL. */ int port; /* Port number to open. */ char *host; /* Name of local host. */ Tcl_TcpAcceptProc *acceptProc; /* Callback for accepting connections * from new clients. */ ClientData acceptProcData; /* Data for the callback. */ { SocketInfo *infoPtr; char channelName[20]; if (TclHasSockets(interp) != TCL_OK) { return NULL; } /* * Create a new client socket and wrap it in a channel. */ infoPtr = CreateSocket(interp, port, host, 1, NULL, 0, 0); if (infoPtr == NULL) { return NULL; } infoPtr->acceptProc = acceptProc; infoPtr->acceptProcData = acceptProcData; sprintf(channelName, "sock%d", infoPtr->socket); infoPtr->channel = Tcl_CreateChannel(&tcpChannelType, channelName, (ClientData) infoPtr, 0); if (Tcl_SetChannelOption(interp, infoPtr->channel, "-eofchar", "") == TCL_ERROR) { Tcl_Close((Tcl_Interp *) NULL, infoPtr->channel); return (Tcl_Channel) NULL; } return infoPtr->channel; } /* *---------------------------------------------------------------------- * * TcpAccept -- * Accept a TCP socket connection. This is called by * SocketEventProc and it in turns calls the registered accept * procedure. * * Results: * None. * * Side effects: * Invokes the accept proc which may invoke arbitrary Tcl code. * *---------------------------------------------------------------------- */ static void TcpAccept(infoPtr) SocketInfo *infoPtr; /* Socket to accept. */ { SOCKET newSocket; SocketInfo *newInfoPtr; struct sockaddr_in addr; int len; char channelName[20]; /* * Accept the incoming connection request. */ len = sizeof(struct sockaddr_in); newSocket = (*winSock.accept)(infoPtr->socket, (struct sockaddr *)&addr, &len); /* * Clear the ready mask so we can detect the next connection request. * Note that connection requests are level triggered, so if there is * a request already pending, a new event will be generated. */ infoPtr->readyEvents &= ~(FD_ACCEPT); if (newSocket == INVALID_SOCKET) { return; } /* * Add this socket to the global list of sockets. */ newInfoPtr = NewSocketInfo(newSocket); /* * Select on read/write events and create the channel. */ newInfoPtr->selectEvents = (FD_READ | FD_WRITE | FD_CLOSE); (void) (*winSock.WSAAsyncSelect)(newInfoPtr->socket, winSock.hwnd, SOCKET_MESSAGE, newInfoPtr->selectEvents); sprintf(channelName, "sock%d", newInfoPtr->socket); newInfoPtr->channel = Tcl_CreateChannel(&tcpChannelType, channelName, (ClientData) newInfoPtr, (TCL_READABLE | TCL_WRITABLE)); if (Tcl_SetChannelOption(NULL, newInfoPtr->channel, "-translation", "auto crlf") == TCL_ERROR) { Tcl_Close((Tcl_Interp *) NULL, newInfoPtr->channel); return; } if (Tcl_SetChannelOption(NULL, newInfoPtr->channel, "-eofchar", "") == TCL_ERROR) { Tcl_Close((Tcl_Interp *) NULL, newInfoPtr->channel); return; } /* * Invoke the accept callback procedure. */ if (infoPtr->acceptProc != NULL) { (infoPtr->acceptProc) (infoPtr->acceptProcData, newInfoPtr->channel, (*winSock.inet_ntoa)(addr.sin_addr), (*winSock.ntohs)(addr.sin_port)); } } /* *---------------------------------------------------------------------- * * TcpInputProc -- * * This procedure is called by the generic IO level to read data from * a socket based channel. * * Results: * The number of bytes read or -1 on error. * * Side effects: * Consumes input from the socket. * *---------------------------------------------------------------------- */ static int TcpInputProc(instanceData, buf, toRead, errorCodePtr) ClientData instanceData; /* The socket state. */ char *buf; /* Where to store data. */ int toRead; /* Maximum number of bytes to read. */ int *errorCodePtr; /* Where to store error codes. */ { SocketInfo *infoPtr = (SocketInfo *) instanceData; int bytesRead; int error; *errorCodePtr = 0; /* * Check that WinSock is initialized; do not call it if not, to * prevent system crashes. This can happen at exit time if the exit * handler for WinSock ran before other exit handlers that want to * use sockets. */ if (winSock.hInstance == NULL) { *errorCodePtr = EFAULT; return -1; } /* * First check to see if EOF was already detected, to prevent * calling the socket stack after the first time EOF is detected. */ if (infoPtr->flags & SOCKET_EOF) { return 0; } /* * Check to see if the socket is connected before trying to read. */ if ((infoPtr->flags & SOCKET_ASYNC_CONNECT) && ! WaitForSocketEvent(infoPtr, FD_CONNECT, errorCodePtr)) { return -1; } /* * No EOF, and it is connected, so try to read more from the socket. * Note that we clear the FD_READ bit because read events are level * triggered so a new event will be generated if there is still data * available to be read. We have to simulate blocking behavior here * since we are always using non-blocking sockets. */ while (1) { (void) (*winSock.WSAAsyncSelect)(infoPtr->socket, winSock.hwnd, 0, 0); bytesRead = (*winSock.recv)(infoPtr->socket, buf, toRead, 0); infoPtr->readyEvents &= ~(FD_READ); /* * Check for end-of-file condition or successful read. */ if (bytesRead == 0) { infoPtr->flags |= SOCKET_EOF; } if (bytesRead != SOCKET_ERROR) { break; } /* * If an error occurs after the FD_CLOSE has arrived, * then ignore the error and report an EOF. */ if (infoPtr->readyEvents & FD_CLOSE) { infoPtr->flags |= SOCKET_EOF; bytesRead = 0; break; } /* * Check for error condition or underflow in non-blocking case. */ error = (*winSock.WSAGetLastError)(); if ((infoPtr->flags & SOCKET_ASYNC) || (error != WSAEWOULDBLOCK)) { TclWinConvertWSAError(error); *errorCodePtr = Tcl_GetErrno(); bytesRead = -1; break; } /* * In the blocking case, wait until the file becomes readable * or closed and try again. */ if (!WaitForSocketEvent(infoPtr, FD_READ|FD_CLOSE, errorCodePtr)) { bytesRead = -1; break; } } (void) (*winSock.WSAAsyncSelect)(infoPtr->socket, winSock.hwnd, SOCKET_MESSAGE, infoPtr->selectEvents); return bytesRead; } /* *---------------------------------------------------------------------- * * TcpOutputProc -- * * This procedure is called by the generic IO level to write data * to a socket based channel. * * Results: * The number of bytes written or -1 on failure. * * Side effects: * Produces output on the socket. * *---------------------------------------------------------------------- */ static int TcpOutputProc(instanceData, buf, toWrite, errorCodePtr) ClientData instanceData; /* The socket state. */ char *buf; /* Where to get data. */ int toWrite; /* Maximum number of bytes to write. */ int *errorCodePtr; /* Where to store error codes. */ { SocketInfo *infoPtr = (SocketInfo *) instanceData; int bytesWritten; int error; *errorCodePtr = 0; /* * Check that WinSock is initialized; do not call it if not, to * prevent system crashes. This can happen at exit time if the exit * handler for WinSock ran before other exit handlers that want to * use sockets. */ if (winSock.hInstance == NULL) { *errorCodePtr = EFAULT; return -1; } /* * Check to see if the socket is connected before trying to write. */ if ((infoPtr->flags & SOCKET_ASYNC_CONNECT) && ! WaitForSocketEvent(infoPtr, FD_CONNECT, errorCodePtr)) { return -1; } while (1) { (void) (*winSock.WSAAsyncSelect)(infoPtr->socket, winSock.hwnd, 0, 0); bytesWritten = (*winSock.send)(infoPtr->socket, buf, toWrite, 0); if (bytesWritten != SOCKET_ERROR) { /* * Since Windows won't generate a new write event until we hit * an overflow condition, we need to force the event loop to * poll until the condition changes. */ if (infoPtr->watchEvents & FD_WRITE) { Tcl_Time blockTime = { 0, 0 }; Tcl_SetMaxBlockTime(&blockTime); } break; } /* * Check for error condition or overflow. In the event of overflow, we * need to clear the FD_WRITE flag so we can detect the next writable * event. Note that Windows only sends a new writable event after a * send fails with WSAEWOULDBLOCK. */ error = (*winSock.WSAGetLastError)(); if (error == WSAEWOULDBLOCK) { infoPtr->readyEvents &= ~(FD_WRITE); if (infoPtr->flags & SOCKET_ASYNC) { *errorCodePtr = EWOULDBLOCK; bytesWritten = -1; break; } } else { TclWinConvertWSAError(error); *errorCodePtr = Tcl_GetErrno(); bytesWritten = -1; break; } /* * In the blocking case, wait until the file becomes writable * or closed and try again. */ if (!WaitForSocketEvent(infoPtr, FD_WRITE|FD_CLOSE, errorCodePtr)) { bytesWritten = -1; break; } } (void) (*winSock.WSAAsyncSelect)(infoPtr->socket, winSock.hwnd, SOCKET_MESSAGE, infoPtr->selectEvents); return bytesWritten; } /* *---------------------------------------------------------------------- * * TcpGetOptionProc -- * * Computes an option value for a TCP socket based channel, or a * list of all options and their values. * * Note: This code is based on code contributed by John Haxby. * * Results: * A standard Tcl result. The value of the specified option or a * list of all options and their values is returned in the * supplied DString. * * Side effects: * None. * *---------------------------------------------------------------------- */ static int TcpGetOptionProc(instanceData, interp, optionName, dsPtr) ClientData instanceData; /* Socket state. */ Tcl_Interp *interp; /* For error reporting - can be NULL */ char *optionName; /* Name of the option to * retrieve the value for, or * NULL to get all options and * their values. */ Tcl_DString *dsPtr; /* Where to store the computed * value; initialized by caller. */ { SocketInfo *infoPtr; struct sockaddr_in sockname; struct sockaddr_in peername; struct hostent *hostEntPtr; SOCKET sock; int size = sizeof(struct sockaddr_in); size_t len = 0; char buf[128]; /* * Check that WinSock is initialized; do not call it if not, to * prevent system crashes. This can happen at exit time if the exit * handler for WinSock ran before other exit handlers that want to * use sockets. */ if (winSock.hInstance == NULL) { if (interp) { Tcl_AppendResult(interp, "winsock is not initialized", NULL); } return TCL_ERROR; } infoPtr = (SocketInfo *) instanceData; sock = (int) infoPtr->socket; if (optionName != (char *) NULL) { len = strlen(optionName); } if ((len == 0) || ((len > 1) && (optionName[1] == 'p') && (strncmp(optionName, "-peername", len) == 0))) { if ((*winSock.getpeername)(sock, (struct sockaddr *) &peername, &size) == 0) { if (len == 0) { Tcl_DStringAppendElement(dsPtr, "-peername"); Tcl_DStringStartSublist(dsPtr); } Tcl_DStringAppendElement(dsPtr, (*winSock.inet_ntoa)(peername.sin_addr)); hostEntPtr = (*winSock.gethostbyaddr)( (char *) &(peername.sin_addr), sizeof(peername.sin_addr), AF_INET); if (hostEntPtr != (struct hostent *) NULL) { Tcl_DStringAppendElement(dsPtr, hostEntPtr->h_name); } else { Tcl_DStringAppendElement(dsPtr, (*winSock.inet_ntoa)(peername.sin_addr)); } sprintf(buf, "%d", (*winSock.ntohs)(peername.sin_port)); Tcl_DStringAppendElement(dsPtr, buf); if (len == 0) { Tcl_DStringEndSublist(dsPtr); } else { return TCL_OK; } } else { /* * getpeername failed - but if we were asked for all the options * (len==0), don't flag an error at that point because it could * be an fconfigure request on a server socket. (which have * no peer). {copied from unix/tclUnixChan.c} */ if (len) { TclWinConvertWSAError((*winSock.WSAGetLastError)()); if (interp) { Tcl_AppendResult(interp, "can't get peername: ", Tcl_PosixError(interp), (char *) NULL); } return TCL_ERROR; } } } if ((len == 0) || ((len > 1) && (optionName[1] == 's') && (strncmp(optionName, "-sockname", len) == 0))) { if ((*winSock.getsockname)(sock, (struct sockaddr *) &sockname, &size) == 0) { if (len == 0) { Tcl_DStringAppendElement(dsPtr, "-sockname"); Tcl_DStringStartSublist(dsPtr); } Tcl_DStringAppendElement(dsPtr, (*winSock.inet_ntoa)(sockname.sin_addr)); hostEntPtr = (*winSock.gethostbyaddr)( (char *) &(sockname.sin_addr), sizeof(peername.sin_addr), AF_INET); if (hostEntPtr != (struct hostent *) NULL) { Tcl_DStringAppendElement(dsPtr, hostEntPtr->h_name); } else { Tcl_DStringAppendElement(dsPtr, (*winSock.inet_ntoa)(sockname.sin_addr)); } sprintf(buf, "%d", (*winSock.ntohs)(sockname.sin_port)); Tcl_DStringAppendElement(dsPtr, buf); if (len == 0) { Tcl_DStringEndSublist(dsPtr); } else { return TCL_OK; } } else { if (interp) { TclWinConvertWSAError((*winSock.WSAGetLastError)()); Tcl_AppendResult(interp, "can't get sockname: ", Tcl_PosixError(interp), (char *) NULL); } return TCL_ERROR; } } if (len > 0) { return Tcl_BadChannelOption(interp, optionName, "peername sockname"); } return TCL_OK; } /* *---------------------------------------------------------------------- * * TcpWatchProc -- * * Informs the channel driver of the events that the generic * channel code wishes to receive on this socket. * * Results: * None. * * Side effects: * May cause the notifier to poll if any of the specified * conditions are already true. * *---------------------------------------------------------------------- */ static void TcpWatchProc(instanceData, mask) ClientData instanceData; /* The socket state. */ int mask; /* Events of interest; an OR-ed * combination of TCL_READABLE, * TCL_WRITABLE and TCL_EXCEPTION. */ { SocketInfo *infoPtr = (SocketInfo *) instanceData; /* * Update the watch events mask. */ infoPtr->watchEvents = 0; if (mask & TCL_READABLE) { infoPtr->watchEvents |= (FD_READ|FD_CLOSE|FD_ACCEPT); } if (mask & TCL_WRITABLE) { infoPtr->watchEvents |= (FD_WRITE); /* CYGNUS LOCAL: For a client channel, also look for FD_CLOSE when waiting for a socket to be writable. */ if (infoPtr->clientChannel) { infoPtr->watchEvents |= (FD_CLOSE); } } /* CYGNUS LOCAL: For a client channel, also look for FD_CONNECT events. */ if (infoPtr->clientChannel) { infoPtr->watchEvents |= (FD_CONNECT); } /* * If there are any conditions already set, then tell the notifier to poll * rather than block. */ if (infoPtr->readyEvents & infoPtr->watchEvents) { Tcl_Time blockTime = { 0, 0 }; Tcl_SetMaxBlockTime(&blockTime); } } /* *---------------------------------------------------------------------- * * TcpGetProc -- * * Called from Tcl_GetChannelFile to retrieve an OS handle from inside * a TCP socket based channel. * * Results: * Returns TCL_OK with the socket in handlePtr. * * Side effects: * None. * *---------------------------------------------------------------------- */ static int TcpGetHandleProc(instanceData, direction, handlePtr) ClientData instanceData; /* The socket state. */ int direction; /* Not used. */ ClientData *handlePtr; /* Where to store the handle. */ { SocketInfo *statePtr = (SocketInfo *) instanceData; *handlePtr = (ClientData) statePtr->socket; return TCL_OK; } /* *---------------------------------------------------------------------- * * SocketProc -- * * This function is called when WSAAsyncSelect has been used * to register interest in a socket event, and the event has * occurred. * * Results: * 0 on success. * * Side effects: * The flags for the given socket are updated to reflect the * event that occured. * *---------------------------------------------------------------------- */ static LRESULT CALLBACK SocketProc(hwnd, message, wParam, lParam) HWND hwnd; UINT message; WPARAM wParam; LPARAM lParam; { int event, error; SOCKET socket; SocketInfo *infoPtr; if (message != SOCKET_MESSAGE) { return DefWindowProc(hwnd, message, wParam, lParam); } event = WSAGETSELECTEVENT(lParam); error = WSAGETSELECTERROR(lParam); socket = (SOCKET) wParam; /* * Find the specified socket on the socket list and update its * eventState flag. */ for (infoPtr = socketList; infoPtr != NULL; infoPtr = infoPtr->nextPtr) { if (infoPtr->socket == socket) { /* * Update the socket state. */ if (event & FD_CLOSE) { infoPtr->readyEvents &= ~(FD_WRITE|FD_ACCEPT); } if (event & FD_CONNECT) { /* * The socket is now connected, so clear the async connect * flag. */ infoPtr->flags &= ~(SOCKET_ASYNC_CONNECT); /* * Remember any error that occurred so we can report * connection failures. */ if (error != ERROR_SUCCESS) { TclWinConvertWSAError(error); infoPtr->lastError = Tcl_GetErrno(); } } infoPtr->readyEvents |= event; break; } } /* * Flush the Tcl event queue before returning to the event loop. */ Tcl_ServiceAll(); return 0; } /* *---------------------------------------------------------------------- * * Tcl_GetHostName -- * * Returns the name of the local host. * * Results: * A string containing the network name for this machine, or * an empty string if we can't figure out the name. The caller * must not modify or free this string. * * Side effects: * None. * *---------------------------------------------------------------------- */ char * Tcl_GetHostName() { DWORD length; char *p; if (hostnameInitialized) { return hostname; } if (TclHasSockets(NULL) == TCL_OK) { if ((*winSock.gethostname)(hostname, sizeof(hostname)) == 0) { hostnameInitialized = 1; return hostname; } } length = sizeof(hostname); if (GetComputerName(hostname, &length) != 0) { for (p = hostname; *p != '\0'; p++) { if (isupper(*((unsigned char *) p))) { *p = (char) tolower(*((unsigned char *) p)); } } } else { hostname[0] = '\0'; } hostnameInitialized = 1; return hostname; } /* *---------------------------------------------------------------------- * * TclWinGetSockOpt, et al. -- * * These functions are wrappers that let us bind the WinSock * API dynamically so we can run on systems that don't have * the wsock32.dll. We need wrappers for these interfaces * because they are called from the generic Tcl code. * * Results: * As defined for each function. * * Side effects: * As defined for each function. * *---------------------------------------------------------------------- */ int PASCAL FAR TclWinGetSockOpt(SOCKET s, int level, int optname, char FAR * optval, int FAR *optlen) { /* * Check that WinSock is initialized; do not call it if not, to * prevent system crashes. This can happen at exit time if the exit * handler for WinSock ran before other exit handlers that want to * use sockets. */ if (winSock.hInstance == NULL) { return SOCKET_ERROR; } return (*winSock.getsockopt)(s, level, optname, optval, optlen); } int PASCAL FAR TclWinSetSockOpt(SOCKET s, int level, int optname, const char FAR * optval, int optlen) { /* * Check that WinSock is initialized; do not call it if not, to * prevent system crashes. This can happen at exit time if the exit * handler for WinSock ran before other exit handlers that want to * use sockets. */ if (winSock.hInstance == NULL) { return SOCKET_ERROR; } return (*winSock.setsockopt)(s, level, optname, optval, optlen); } u_short PASCAL FAR TclWinNToHS(u_short netshort) { /* * Check that WinSock is initialized; do not call it if not, to * prevent system crashes. This can happen at exit time if the exit * handler for WinSock ran before other exit handlers that want to * use sockets. */ if (winSock.hInstance == NULL) { return (u_short) -1; } return (*winSock.ntohs)(netshort); } struct servent FAR * PASCAL FAR TclWinGetServByName(const char FAR * name, const char FAR * proto) { /* * Check that WinSock is initialized; do not call it if not, to * prevent system crashes. This can happen at exit time if the exit * handler for WinSock ran before other exit handlers that want to * use sockets. */ if (winSock.hInstance == NULL) { return (struct servent FAR *) NULL; } return (*winSock.getservbyname)(name, proto); }