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[/] [or1k/] [trunk/] [insight/] [tcl/] [unix/] [tclUnixPipe.c] - Rev 1775
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/* * tclUnixPipe.c -- * * This file implements the UNIX-specific exec pipeline functions, * the "pipe" channel driver, and the "pid" Tcl command. * * Copyright (c) 1991-1994 The Regents of the University of California. * Copyright (c) 1994-1997 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: tclUnixPipe.c,v 1.1.1.1 2002-01-16 10:25:37 markom Exp $ */ #include "tclInt.h" #include "tclPort.h" /* * The following macros convert between TclFile's and fd's. The conversion * simple involves shifting fd's up by one to ensure that no valid fd is ever * the same as NULL. */ #define MakeFile(fd) ((TclFile)(((int)fd)+1)) #define GetFd(file) (((int)file)-1) /* * This structure describes per-instance state of a pipe based channel. */ typedef struct PipeState { Tcl_Channel channel;/* Channel associated with this file. */ TclFile inFile; /* Output from pipe. */ TclFile outFile; /* Input to pipe. */ TclFile errorFile; /* Error output from pipe. */ int numPids; /* How many processes are attached to this pipe? */ Tcl_Pid *pidPtr; /* The process IDs themselves. Allocated by * the creator of the pipe. */ int isNonBlocking; /* Nonzero when the pipe is in nonblocking mode. * Used to decide whether to wait for the children * at close time. */ } PipeState; /* * Declarations for local procedures defined in this file: */ static int PipeBlockModeProc _ANSI_ARGS_((ClientData instanceData, int mode)); static int PipeCloseProc _ANSI_ARGS_((ClientData instanceData, Tcl_Interp *interp)); static int PipeGetHandleProc _ANSI_ARGS_((ClientData instanceData, int direction, ClientData *handlePtr)); static int PipeInputProc _ANSI_ARGS_((ClientData instanceData, char *buf, int toRead, int *errorCode)); static int PipeOutputProc _ANSI_ARGS_(( ClientData instanceData, char *buf, int toWrite, int *errorCode)); static void PipeWatchProc _ANSI_ARGS_((ClientData instanceData, int mask)); static void RestoreSignals _ANSI_ARGS_((void)); static int SetupStdFile _ANSI_ARGS_((TclFile file, int type)); /* * This structure describes the channel type structure for command pipe * based IO: */ static Tcl_ChannelType pipeChannelType = { "pipe", /* Type name. */ PipeBlockModeProc, /* Set blocking/nonblocking mode.*/ PipeCloseProc, /* Close proc. */ PipeInputProc, /* Input proc. */ PipeOutputProc, /* Output proc. */ NULL, /* Seek proc. */ NULL, /* Set option proc. */ NULL, /* Get option proc. */ PipeWatchProc, /* Initialize notifier. */ PipeGetHandleProc, /* Get OS handles out of channel. */ }; /* *---------------------------------------------------------------------- * * TclpMakeFile -- * * Make a TclFile from a channel. * * Results: * Returns a new TclFile or NULL on failure. * * Side effects: * None. * *---------------------------------------------------------------------- */ TclFile TclpMakeFile(channel, direction) Tcl_Channel channel; /* Channel to get file from. */ int direction; /* Either TCL_READABLE or TCL_WRITABLE. */ { ClientData data; if (Tcl_GetChannelHandle(channel, direction, (ClientData *) &data) == TCL_OK) { return MakeFile((int)data); } else { return (TclFile) NULL; } } /* *---------------------------------------------------------------------- * * TclpOpenFile -- * * Open a file for use in a pipeline. * * Results: * Returns a new TclFile handle or NULL on failure. * * Side effects: * May cause a file to be created on the file system. * *---------------------------------------------------------------------- */ TclFile TclpOpenFile(fname, mode) char *fname; /* The name of the file to open. */ int mode; /* In what mode to open the file? */ { int fd; fd = open(fname, mode, 0666); if (fd != -1) { fcntl(fd, F_SETFD, FD_CLOEXEC); /* * If the file is being opened for writing, seek to the end * so we can append to any data already in the file. */ if (mode & O_WRONLY) { lseek(fd, 0, SEEK_END); } /* * Increment the fd so it can't be 0, which would conflict with * the NULL return for errors. */ return MakeFile(fd); } return NULL; } /* *---------------------------------------------------------------------- * * TclpCreateTempFile -- * * This function creates a temporary file initialized with an * optional string, and returns a file handle with the file pointer * at the beginning of the file. * * Results: * A handle to a file. * * Side effects: * None. * *---------------------------------------------------------------------- */ TclFile TclpCreateTempFile(contents, namePtr) char *contents; /* String to write into temp file, or NULL. */ Tcl_DString *namePtr; /* If non-NULL, pointer to initialized * DString that is filled with the name of * the temp file that was created. */ { char fileName[L_tmpnam]; TclFile file; size_t length = (contents == NULL) ? 0 : strlen(contents); tmpnam(fileName); file = TclpOpenFile(fileName, O_RDWR|O_CREAT|O_TRUNC); unlink(fileName); if ((file != NULL) && (length > 0)) { int fd = GetFd(file); while (1) { if (write(fd, contents, length) != -1) { break; } else if (errno != EINTR) { close(fd); return NULL; } } lseek(fd, 0, SEEK_SET); } if (namePtr != NULL) { Tcl_DStringAppend(namePtr, fileName, -1); } return file; } /* *---------------------------------------------------------------------- * * TclpCreatePipe -- * * Creates a pipe - simply calls the pipe() function. * * Results: * Returns 1 on success, 0 on failure. * * Side effects: * Creates a pipe. * *---------------------------------------------------------------------- */ int TclpCreatePipe(readPipe, writePipe) TclFile *readPipe; /* Location to store file handle for * read side of pipe. */ TclFile *writePipe; /* Location to store file handle for * write side of pipe. */ { int pipeIds[2]; if (pipe(pipeIds) != 0) { return 0; } fcntl(pipeIds[0], F_SETFD, FD_CLOEXEC); fcntl(pipeIds[1], F_SETFD, FD_CLOEXEC); *readPipe = MakeFile(pipeIds[0]); *writePipe = MakeFile(pipeIds[1]); return 1; } /* *---------------------------------------------------------------------- * * TclpCloseFile -- * * Implements a mechanism to close a UNIX file. * * Results: * Returns 0 on success, or -1 on error, setting errno. * * Side effects: * The file is closed. * *---------------------------------------------------------------------- */ int TclpCloseFile(file) TclFile file; /* The file to close. */ { int fd = GetFd(file); /* * Refuse to close the fds for stdin, stdout and stderr. */ if ((fd == 0) || (fd == 1) || (fd == 2)) { return 0; } Tcl_DeleteFileHandler(fd); return close(fd); } /* *---------------------------------------------------------------------- * * TclpCreateProcess -- * * Create a child process that has the specified files as its * standard input, output, and error. The child process runs * asynchronously and runs with the same environment variables * as the creating process. * * The path is searched to find the specified executable. * * Results: * The return value is TCL_ERROR and an error message is left in * interp->result if there was a problem creating the child * process. Otherwise, the return value is TCL_OK and *pidPtr is * filled with the process id of the child process. * * Side effects: * A process is created. * *---------------------------------------------------------------------- */ /* ARGSUSED */ int TclpCreateProcess(interp, argc, argv, inputFile, outputFile, errorFile, pidPtr) Tcl_Interp *interp; /* Interpreter in which to leave errors that * occurred when creating the child process. * Error messages from the child process * itself are sent to errorFile. */ int argc; /* Number of arguments in following array. */ char **argv; /* Array of argument strings. argv[0] * contains the name of the executable * converted to native format (using the * Tcl_TranslateFileName call). Additional * arguments have not been converted. */ TclFile inputFile; /* If non-NULL, gives the file to use as * input for the child process. If inputFile * file is not readable or is NULL, the child * will receive no standard input. */ TclFile outputFile; /* If non-NULL, gives the file that * receives output from the child process. If * outputFile file is not writeable or is * NULL, output from the child will be * discarded. */ TclFile errorFile; /* If non-NULL, gives the file that * receives errors from the child process. If * errorFile file is not writeable or is NULL, * errors from the child will be discarded. * errorFile may be the same as outputFile. */ Tcl_Pid *pidPtr; /* If this procedure is successful, pidPtr * is filled with the process id of the child * process. */ { TclFile errPipeIn, errPipeOut; int joinThisError, count, status, fd; char errSpace[200]; int pid; errPipeIn = NULL; errPipeOut = NULL; pid = -1; /* * Create a pipe that the child can use to return error * information if anything goes wrong. */ if (TclpCreatePipe(&errPipeIn, &errPipeOut) == 0) { Tcl_AppendResult(interp, "couldn't create pipe: ", Tcl_PosixError(interp), (char *) NULL); goto error; } joinThisError = (errorFile == outputFile); pid = vfork(); if (pid == 0) { fd = GetFd(errPipeOut); /* * Set up stdio file handles for the child process. */ if (!SetupStdFile(inputFile, TCL_STDIN) || !SetupStdFile(outputFile, TCL_STDOUT) || (!joinThisError && !SetupStdFile(errorFile, TCL_STDERR)) || (joinThisError && ((dup2(1,2) == -1) || (fcntl(2, F_SETFD, 0) != 0)))) { sprintf(errSpace, "%dforked process couldn't set up input/output: ", errno); write(fd, errSpace, (size_t) strlen(errSpace)); _exit(1); } /* * Close the input side of the error pipe. */ RestoreSignals(); execvp(argv[0], &argv[0]); sprintf(errSpace, "%dcouldn't execute \"%.150s\": ", errno, argv[0]); write(fd, errSpace, (size_t) strlen(errSpace)); _exit(1); } if (pid == -1) { Tcl_AppendResult(interp, "couldn't fork child process: ", Tcl_PosixError(interp), (char *) NULL); goto error; } /* * Read back from the error pipe to see if the child started * up OK. The info in the pipe (if any) consists of a decimal * errno value followed by an error message. */ TclpCloseFile(errPipeOut); errPipeOut = NULL; fd = GetFd(errPipeIn); count = read(fd, errSpace, (size_t) (sizeof(errSpace) - 1)); if (count > 0) { char *end; errSpace[count] = 0; errno = strtol(errSpace, &end, 10); Tcl_AppendResult(interp, end, Tcl_PosixError(interp), (char *) NULL); goto error; } TclpCloseFile(errPipeIn); *pidPtr = (Tcl_Pid) pid; return TCL_OK; error: if (pid != -1) { /* * Reap the child process now if an error occurred during its * startup. */ Tcl_WaitPid((Tcl_Pid) pid, &status, WNOHANG); } if (errPipeIn) { TclpCloseFile(errPipeIn); } if (errPipeOut) { TclpCloseFile(errPipeOut); } return TCL_ERROR; } /* *---------------------------------------------------------------------- * * RestoreSignals -- * * This procedure is invoked in a forked child process just before * exec-ing a new program to restore all signals to their default * settings. * * Results: * None. * * Side effects: * Signal settings get changed. * *---------------------------------------------------------------------- */ static void RestoreSignals() { #ifdef SIGABRT signal(SIGABRT, SIG_DFL); #endif #ifdef SIGALRM signal(SIGALRM, SIG_DFL); #endif #ifdef SIGFPE signal(SIGFPE, SIG_DFL); #endif #ifdef SIGHUP signal(SIGHUP, SIG_DFL); #endif #ifdef SIGILL signal(SIGILL, SIG_DFL); #endif #ifdef SIGINT signal(SIGINT, SIG_DFL); #endif #ifdef SIGPIPE signal(SIGPIPE, SIG_DFL); #endif #ifdef SIGQUIT signal(SIGQUIT, SIG_DFL); #endif #ifdef SIGSEGV signal(SIGSEGV, SIG_DFL); #endif #ifdef SIGTERM signal(SIGTERM, SIG_DFL); #endif #ifdef SIGUSR1 signal(SIGUSR1, SIG_DFL); #endif #ifdef SIGUSR2 signal(SIGUSR2, SIG_DFL); #endif #ifdef SIGCHLD signal(SIGCHLD, SIG_DFL); #endif #ifdef SIGCONT signal(SIGCONT, SIG_DFL); #endif #ifdef SIGTSTP signal(SIGTSTP, SIG_DFL); #endif #ifdef SIGTTIN signal(SIGTTIN, SIG_DFL); #endif #ifdef SIGTTOU signal(SIGTTOU, SIG_DFL); #endif } /* *---------------------------------------------------------------------- * * SetupStdFile -- * * Set up stdio file handles for the child process, using the * current standard channels if no other files are specified. * If no standard channel is defined, or if no file is associated * with the channel, then the corresponding standard fd is closed. * * Results: * Returns 1 on success, or 0 on failure. * * Side effects: * Replaces stdio fds. * *---------------------------------------------------------------------- */ static int SetupStdFile(file, type) TclFile file; /* File to dup, or NULL. */ int type; /* One of TCL_STDIN, TCL_STDOUT, TCL_STDERR */ { Tcl_Channel channel; int fd; int targetFd = 0; /* Initializations here needed only to */ int direction = 0; /* prevent warnings about using uninitialized * variables. */ switch (type) { case TCL_STDIN: targetFd = 0; direction = TCL_READABLE; break; case TCL_STDOUT: targetFd = 1; direction = TCL_WRITABLE; break; case TCL_STDERR: targetFd = 2; direction = TCL_WRITABLE; break; } if (!file) { channel = Tcl_GetStdChannel(type); if (channel) { file = TclpMakeFile(channel, direction); } } if (file) { fd = GetFd(file); if (fd != targetFd) { if (dup2(fd, targetFd) == -1) { return 0; } /* * Must clear the close-on-exec flag for the target FD, since * some systems (e.g. Ultrix) do not clear the CLOEXEC flag on * the target FD. */ fcntl(targetFd, F_SETFD, 0); } else { int result; /* * Since we aren't dup'ing the file, we need to explicitly clear * the close-on-exec flag. */ result = fcntl(fd, F_SETFD, 0); } } else { close(targetFd); } return 1; } /* *---------------------------------------------------------------------- * * TclpCreateCommandChannel -- * * This function is called by the generic IO level to perform * the platform specific channel initialization for a command * channel. * * Results: * Returns a new channel or NULL on failure. * * Side effects: * Allocates a new channel. * *---------------------------------------------------------------------- */ Tcl_Channel TclpCreateCommandChannel(readFile, writeFile, errorFile, numPids, pidPtr) TclFile readFile; /* If non-null, gives the file for reading. */ TclFile writeFile; /* If non-null, gives the file for writing. */ TclFile errorFile; /* If non-null, gives the file where errors * can be read. */ int numPids; /* The number of pids in the pid array. */ Tcl_Pid *pidPtr; /* An array of process identifiers. * Allocated by the caller, freed when * the channel is closed or the processes * are detached (in a background exec). */ { char channelName[20]; int channelId; PipeState *statePtr = (PipeState *) ckalloc((unsigned) sizeof(PipeState)); int mode; statePtr->inFile = readFile; statePtr->outFile = writeFile; statePtr->errorFile = errorFile; statePtr->numPids = numPids; statePtr->pidPtr = pidPtr; statePtr->isNonBlocking = 0; mode = 0; if (readFile) { mode |= TCL_READABLE; } if (writeFile) { mode |= TCL_WRITABLE; } /* * Use one of the fds associated with the channel as the * channel id. */ if (readFile) { channelId = GetFd(readFile); } else if (writeFile) { channelId = GetFd(writeFile); } else if (errorFile) { channelId = GetFd(errorFile); } else { channelId = 0; } /* * For backward compatibility with previous versions of Tcl, we * use "file%d" as the base name for pipes even though it would * be more natural to use "pipe%d". */ sprintf(channelName, "file%d", channelId); statePtr->channel = Tcl_CreateChannel(&pipeChannelType, channelName, (ClientData) statePtr, mode); return statePtr->channel; } /* *---------------------------------------------------------------------- * * TclGetAndDetachPids -- * * This procedure is invoked in the generic implementation of a * background "exec" (An exec when invoked with a terminating "&") * to store a list of the PIDs for processes in a command pipeline * in interp->result and to detach the processes. * * Results: * None. * * Side effects: * Modifies interp->result. Detaches processes. * *---------------------------------------------------------------------- */ void TclGetAndDetachPids(interp, chan) Tcl_Interp *interp; Tcl_Channel chan; { PipeState *pipePtr; Tcl_ChannelType *chanTypePtr; int i; char buf[20]; /* * Punt if the channel is not a command channel. */ chanTypePtr = Tcl_GetChannelType(chan); if (chanTypePtr != &pipeChannelType) { return; } pipePtr = (PipeState *) Tcl_GetChannelInstanceData(chan); for (i = 0; i < pipePtr->numPids; i++) { sprintf(buf, "%ld", TclpGetPid(pipePtr->pidPtr[i])); Tcl_AppendElement(interp, buf); Tcl_DetachPids(1, &(pipePtr->pidPtr[i])); } if (pipePtr->numPids > 0) { ckfree((char *) pipePtr->pidPtr); pipePtr->numPids = 0; } } /* *---------------------------------------------------------------------- * * PipeBlockModeProc -- * * Helper procedure to set blocking and nonblocking modes on a * pipe based channel. Invoked by generic IO level code. * * Results: * 0 if successful, errno when failed. * * Side effects: * Sets the device into blocking or non-blocking mode. * *---------------------------------------------------------------------- */ /* ARGSUSED */ static int PipeBlockModeProc(instanceData, mode) ClientData instanceData; /* Pipe state. */ int mode; /* The mode to set. Can be one of * TCL_MODE_BLOCKING or * TCL_MODE_NONBLOCKING. */ { PipeState *psPtr = (PipeState *) instanceData; int curStatus; int fd; #ifndef USE_FIONBIO if (psPtr->inFile) { fd = GetFd(psPtr->inFile); curStatus = fcntl(fd, F_GETFL); if (mode == TCL_MODE_BLOCKING) { curStatus &= (~(O_NONBLOCK)); } else { curStatus |= O_NONBLOCK; } if (fcntl(fd, F_SETFL, curStatus) < 0) { return errno; } curStatus = fcntl(fd, F_GETFL); } if (psPtr->outFile) { fd = GetFd(psPtr->outFile); curStatus = fcntl(fd, F_GETFL); if (mode == TCL_MODE_BLOCKING) { curStatus &= (~(O_NONBLOCK)); } else { curStatus |= O_NONBLOCK; } if (fcntl(fd, F_SETFL, curStatus) < 0) { return errno; } } #endif /* !FIONBIO */ #ifdef USE_FIONBIO if (psPtr->inFile) { fd = GetFd(psPtr->inFile); if (mode == TCL_MODE_BLOCKING) { curStatus = 0; } else { curStatus = 1; } if (ioctl(fd, (int) FIONBIO, &curStatus) < 0) { return errno; } } if (psPtr->outFile != NULL) { fd = GetFd(psPtr->outFile); if (mode == TCL_MODE_BLOCKING) { curStatus = 0; } else { curStatus = 1; } if (ioctl(fd, (int) FIONBIO, &curStatus) < 0) { return errno; } } #endif /* USE_FIONBIO */ return 0; } /* *---------------------------------------------------------------------- * * PipeCloseProc -- * * This procedure is invoked by the generic IO level to perform * channel-type-specific cleanup when a command pipeline channel * is closed. * * Results: * 0 on success, errno otherwise. * * Side effects: * Closes the command pipeline channel. * *---------------------------------------------------------------------- */ /* ARGSUSED */ static int PipeCloseProc(instanceData, interp) ClientData instanceData; /* The pipe to close. */ Tcl_Interp *interp; /* For error reporting. */ { PipeState *pipePtr; Tcl_Channel errChan; int errorCode, result; errorCode = 0; result = 0; pipePtr = (PipeState *) instanceData; if (pipePtr->inFile) { if (TclpCloseFile(pipePtr->inFile) < 0) { errorCode = errno; } } if (pipePtr->outFile) { if ((TclpCloseFile(pipePtr->outFile) < 0) && (errorCode == 0)) { errorCode = errno; } } if (pipePtr->isNonBlocking || TclInExit()) { /* * If the channel is non-blocking or Tcl is being cleaned up, just * detach the children PIDs, reap them (important if we are in a * dynamic load module), and discard the errorFile. */ Tcl_DetachPids(pipePtr->numPids, pipePtr->pidPtr); Tcl_ReapDetachedProcs(); if (pipePtr->errorFile) { TclpCloseFile(pipePtr->errorFile); } } else { /* * Wrap the error file into a channel and give it to the cleanup * routine. */ if (pipePtr->errorFile) { errChan = Tcl_MakeFileChannel( (ClientData) GetFd(pipePtr->errorFile), TCL_READABLE); } else { errChan = NULL; } result = TclCleanupChildren(interp, pipePtr->numPids, pipePtr->pidPtr, errChan); } if (pipePtr->numPids != 0) { ckfree((char *) pipePtr->pidPtr); } ckfree((char *) pipePtr); if (errorCode == 0) { return result; } return errorCode; } /* *---------------------------------------------------------------------- * * PipeInputProc -- * * This procedure is invoked from the generic IO level to read * input from a command pipeline based channel. * * Results: * The number of bytes read is returned or -1 on error. An output * argument contains a POSIX error code if an error occurs, or zero. * * Side effects: * Reads input from the input device of the channel. * *---------------------------------------------------------------------- */ static int PipeInputProc(instanceData, buf, toRead, errorCodePtr) ClientData instanceData; /* Pipe state. */ char *buf; /* Where to store data read. */ int toRead; /* How much space is available * in the buffer? */ int *errorCodePtr; /* Where to store error code. */ { PipeState *psPtr = (PipeState *) instanceData; int bytesRead; /* How many bytes were actually * read from the input device? */ *errorCodePtr = 0; /* * Assume there is always enough input available. This will block * appropriately, and read will unblock as soon as a short read is * possible, if the channel is in blocking mode. If the channel is * nonblocking, the read will never block. */ bytesRead = read(GetFd(psPtr->inFile), buf, (size_t) toRead); if (bytesRead > -1) { return bytesRead; } *errorCodePtr = errno; return -1; } /* *---------------------------------------------------------------------- * * PipeOutputProc-- * * This procedure is invoked from the generic IO level to write * output to a command pipeline based channel. * * Results: * The number of bytes written is returned or -1 on error. An * output argument contains a POSIX error code if an error occurred, * or zero. * * Side effects: * Writes output on the output device of the channel. * *---------------------------------------------------------------------- */ static int PipeOutputProc(instanceData, buf, toWrite, errorCodePtr) ClientData instanceData; /* Pipe state. */ char *buf; /* The data buffer. */ int toWrite; /* How many bytes to write? */ int *errorCodePtr; /* Where to store error code. */ { PipeState *psPtr = (PipeState *) instanceData; int written; *errorCodePtr = 0; written = write(GetFd(psPtr->outFile), buf, (size_t) toWrite); if (written > -1) { return written; } *errorCodePtr = errno; return -1; } /* *---------------------------------------------------------------------- * * PipeWatchProc -- * * Initialize the notifier to watch the fds from this channel. * * Results: * None. * * Side effects: * Sets up the notifier so that a future event on the channel will * be seen by Tcl. * *---------------------------------------------------------------------- */ static void PipeWatchProc(instanceData, mask) ClientData instanceData; /* The pipe state. */ int mask; /* Events of interest; an OR-ed * combination of TCL_READABLE, * TCL_WRITABEL and TCL_EXCEPTION. */ { PipeState *psPtr = (PipeState *) instanceData; int newmask; if (psPtr->inFile) { newmask = mask & (TCL_READABLE | TCL_EXCEPTION); if (newmask) { Tcl_CreateFileHandler(GetFd(psPtr->inFile), mask, (Tcl_FileProc *) Tcl_NotifyChannel, (ClientData) psPtr->channel); } else { Tcl_DeleteFileHandler(GetFd(psPtr->inFile)); } } if (psPtr->outFile) { newmask = mask & (TCL_WRITABLE | TCL_EXCEPTION); if (newmask) { Tcl_CreateFileHandler(GetFd(psPtr->outFile), mask, (Tcl_FileProc *) Tcl_NotifyChannel, (ClientData) psPtr->channel); } else { Tcl_DeleteFileHandler(GetFd(psPtr->outFile)); } } } /* *---------------------------------------------------------------------- * * PipeGetHandleProc -- * * Called from Tcl_GetChannelHandle to retrieve OS handles from * inside a command pipeline based channel. * * Results: * Returns TCL_OK with the fd in handlePtr, or TCL_ERROR if * there is no handle for the specified direction. * * Side effects: * None. * *---------------------------------------------------------------------- */ static int PipeGetHandleProc(instanceData, direction, handlePtr) ClientData instanceData; /* The pipe state. */ int direction; /* TCL_READABLE or TCL_WRITABLE */ ClientData *handlePtr; /* Where to store the handle. */ { PipeState *psPtr = (PipeState *) instanceData; if (direction == TCL_READABLE && psPtr->inFile) { *handlePtr = (ClientData) GetFd(psPtr->inFile); return TCL_OK; } if (direction == TCL_WRITABLE && psPtr->outFile) { *handlePtr = (ClientData) GetFd(psPtr->outFile); return TCL_OK; } return TCL_ERROR; } /* *---------------------------------------------------------------------- * * Tcl_WaitPid -- * * Implements the waitpid system call on Unix systems. * * Results: * Result of calling waitpid. * * Side effects: * Waits for a process to terminate. * *---------------------------------------------------------------------- */ Tcl_Pid Tcl_WaitPid(pid, statPtr, options) Tcl_Pid pid; int *statPtr; int options; { int result; pid_t real_pid; real_pid = (pid_t) pid; while (1) { result = (int) waitpid(real_pid, statPtr, options); if ((result != -1) || (errno != EINTR)) { return (Tcl_Pid) result; } } } /* *---------------------------------------------------------------------- * * Tcl_PidObjCmd -- * * This procedure is invoked to process the "pid" Tcl command. * See the user documentation for details on what it does. * * Results: * A standard Tcl result. * * Side effects: * See the user documentation. * *---------------------------------------------------------------------- */ /* ARGSUSED */ int Tcl_PidObjCmd(dummy, interp, objc, objv) ClientData dummy; /* Not used. */ Tcl_Interp *interp; /* Current interpreter. */ int objc; /* Number of arguments. */ Tcl_Obj *CONST *objv; /* Argument strings. */ { Tcl_Channel chan; Tcl_ChannelType *chanTypePtr; PipeState *pipePtr; int i; Tcl_Obj *resultPtr, *longObjPtr; if (objc > 2) { Tcl_WrongNumArgs(interp, 1, objv, "?channelId?"); return TCL_ERROR; } if (objc == 1) { Tcl_SetLongObj(Tcl_GetObjResult(interp), (long) getpid()); } else { chan = Tcl_GetChannel(interp, Tcl_GetStringFromObj(objv[1], NULL), NULL); if (chan == (Tcl_Channel) NULL) { return TCL_ERROR; } chanTypePtr = Tcl_GetChannelType(chan); if (chanTypePtr != &pipeChannelType) { return TCL_OK; } pipePtr = (PipeState *) Tcl_GetChannelInstanceData(chan); resultPtr = Tcl_GetObjResult(interp); for (i = 0; i < pipePtr->numPids; i++) { longObjPtr = Tcl_NewLongObj((long) TclpGetPid(pipePtr->pidPtr[i])); Tcl_ListObjAppendElement(NULL, resultPtr, longObjPtr); } } return TCL_OK; }
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