/* * tclEvent.c -- * * This file implements some general event related interfaces including * background errors, exit handlers, and the "vwait" and "update" * command procedures. * * Copyright (c) 1990-1994 The Regents of the University of California. * Copyright (c) 1994-1998 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: tclEvent.c,v 1.28.2.10 2005/06/22 19:35:15 kennykb Exp $ */ #include "tclInt.h" #include "tclPort.h" /* * The data structure below is used to report background errors. One * such structure is allocated for each error; it holds information * about the interpreter and the error until bgerror can be invoked * later as an idle handler. */ typedef struct BgError { Tcl_Interp *interp; /* Interpreter in which error occurred. NULL * means this error report has been cancelled * (a previous report generated a break). */ char *errorMsg; /* Copy of the error message (the interp's * result when the error occurred). * Malloc-ed. */ char *errorInfo; /* Value of the errorInfo variable * (malloc-ed). */ char *errorCode; /* Value of the errorCode variable * (malloc-ed). */ struct BgError *nextPtr; /* Next in list of all pending error * reports for this interpreter, or NULL * for end of list. */ } BgError; /* * One of the structures below is associated with the "tclBgError" * assoc data for each interpreter. It keeps track of the head and * tail of the list of pending background errors for the interpreter. */ typedef struct ErrAssocData { BgError *firstBgPtr; /* First in list of all background errors * waiting to be processed for this * interpreter (NULL if none). */ BgError *lastBgPtr; /* Last in list of all background errors * waiting to be processed for this * interpreter (NULL if none). */ } ErrAssocData; /* * For each exit handler created with a call to Tcl_CreateExitHandler * there is a structure of the following type: */ typedef struct ExitHandler { Tcl_ExitProc *proc; /* Procedure to call when process exits. */ ClientData clientData; /* One word of information to pass to proc. */ struct ExitHandler *nextPtr;/* Next in list of all exit handlers for * this application, or NULL for end of list. */ } ExitHandler; /* * There is both per-process and per-thread exit handlers. * The first list is controlled by a mutex. The other is in * thread local storage. */ static ExitHandler *firstExitPtr = NULL; /* First in list of all exit handlers for * application. */ TCL_DECLARE_MUTEX(exitMutex) /* * This variable is set to 1 when Tcl_Finalize is called, and at the end of * its work, it is reset to 0. The variable is checked by TclInExit() to * allow different behavior for exit-time processing, e.g. in closing of * files and pipes. */ static int inFinalize = 0; static int subsystemsInitialized = 0; typedef struct ThreadSpecificData { ExitHandler *firstExitPtr; /* First in list of all exit handlers for * this thread. */ int inExit; /* True when this thread is exiting. This * is used as a hack to decide to close * the standard channels. */ Tcl_Obj *tclLibraryPath; /* Path(s) to the Tcl library */ } ThreadSpecificData; static Tcl_ThreadDataKey dataKey; /* * Common string for the library path for sharing across threads. * This is ckalloc'd and cleared in Tcl_Finalize. */ static char *tclLibraryPathStr = NULL; #ifdef TCL_THREADS typedef struct { Tcl_ThreadCreateProc *proc; /* Main() function of the thread */ ClientData clientData; /* The one argument to Main() */ } ThreadClientData; static Tcl_ThreadCreateType NewThreadProc _ANSI_ARGS_(( ClientData clientData)); #endif /* * Prototypes for procedures referenced only in this file: */ static void BgErrorDeleteProc _ANSI_ARGS_((ClientData clientData, Tcl_Interp *interp)); static void HandleBgErrors _ANSI_ARGS_((ClientData clientData)); static char * VwaitVarProc _ANSI_ARGS_((ClientData clientData, Tcl_Interp *interp, CONST char *name1, CONST char *name2, int flags)); /* *---------------------------------------------------------------------- * * Tcl_BackgroundError -- * * This procedure is invoked to handle errors that occur in Tcl * commands that are invoked in "background" (e.g. from event or * timer bindings). * * Results: * None. * * Side effects: * The command "bgerror" is invoked later as an idle handler to * process the error, passing it the error message. If that fails, * then an error message is output on stderr. * *---------------------------------------------------------------------- */ void Tcl_BackgroundError(interp) Tcl_Interp *interp; /* Interpreter in which an error has * occurred. */ { BgError *errPtr; CONST char *errResult, *varValue; ErrAssocData *assocPtr; int length; /* * The Tcl_AddErrorInfo call below (with an empty string) ensures that * errorInfo gets properly set. It's needed in cases where the error * came from a utility procedure like Tcl_GetVar instead of Tcl_Eval; * in these cases errorInfo still won't have been set when this * procedure is called. */ Tcl_AddErrorInfo(interp, ""); errResult = Tcl_GetStringFromObj(Tcl_GetObjResult(interp), &length); errPtr = (BgError *) ckalloc(sizeof(BgError)); errPtr->interp = interp; errPtr->errorMsg = (char *) ckalloc((unsigned) (length + 1)); memcpy(errPtr->errorMsg, errResult, (size_t) (length + 1)); varValue = Tcl_GetVar(interp, "errorInfo", TCL_GLOBAL_ONLY); if (varValue == NULL) { varValue = errPtr->errorMsg; } errPtr->errorInfo = (char *) ckalloc((unsigned) (strlen(varValue) + 1)); strcpy(errPtr->errorInfo, varValue); varValue = Tcl_GetVar(interp, "errorCode", TCL_GLOBAL_ONLY); if (varValue == NULL) { varValue = ""; } errPtr->errorCode = (char *) ckalloc((unsigned) (strlen(varValue) + 1)); strcpy(errPtr->errorCode, varValue); errPtr->nextPtr = NULL; assocPtr = (ErrAssocData *) Tcl_GetAssocData(interp, "tclBgError", (Tcl_InterpDeleteProc **) NULL); if (assocPtr == NULL) { /* * This is the first time a background error has occurred in * this interpreter. Create associated data to keep track of * pending error reports. */ assocPtr = (ErrAssocData *) ckalloc(sizeof(ErrAssocData)); assocPtr->firstBgPtr = NULL; assocPtr->lastBgPtr = NULL; Tcl_SetAssocData(interp, "tclBgError", BgErrorDeleteProc, (ClientData) assocPtr); } if (assocPtr->firstBgPtr == NULL) { assocPtr->firstBgPtr = errPtr; Tcl_DoWhenIdle(HandleBgErrors, (ClientData) assocPtr); } else { assocPtr->lastBgPtr->nextPtr = errPtr; } assocPtr->lastBgPtr = errPtr; Tcl_ResetResult(interp); } /* *---------------------------------------------------------------------- * * HandleBgErrors -- * * This procedure is invoked as an idle handler to process all of * the accumulated background errors. * * Results: * None. * * Side effects: * Depends on what actions "bgerror" takes for the errors. * *---------------------------------------------------------------------- */ static void HandleBgErrors(clientData) ClientData clientData; /* Pointer to ErrAssocData structure. */ { Tcl_Interp *interp; CONST char *argv[2]; int code; BgError *errPtr; ErrAssocData *assocPtr = (ErrAssocData *) clientData; Tcl_Channel errChannel; Tcl_Preserve((ClientData) assocPtr); while (assocPtr->firstBgPtr != NULL) { interp = assocPtr->firstBgPtr->interp; if (interp == NULL) { goto doneWithInterp; } /* * Restore important state variables to what they were at * the time the error occurred. */ Tcl_SetVar(interp, "errorInfo", assocPtr->firstBgPtr->errorInfo, TCL_GLOBAL_ONLY); Tcl_SetVar(interp, "errorCode", assocPtr->firstBgPtr->errorCode, TCL_GLOBAL_ONLY); /* * Create and invoke the bgerror command. */ argv[0] = "bgerror"; argv[1] = assocPtr->firstBgPtr->errorMsg; Tcl_AllowExceptions(interp); Tcl_Preserve((ClientData) interp); code = TclGlobalInvoke(interp, 2, argv, 0); if (code == TCL_ERROR) { /* * If the interpreter is safe, we look for a hidden command * named "bgerror" and call that with the error information. * Otherwise, simply ignore the error. The rationale is that * this could be an error caused by a malicious applet trying * to cause an infinite barrage of error messages. The hidden * "bgerror" command can be used by a security policy to * interpose on such attacks and e.g. kill the applet after a * few attempts. */ if (Tcl_IsSafe(interp)) { Tcl_SavedResult save; Tcl_SaveResult(interp, &save); TclGlobalInvoke(interp, 2, argv, TCL_INVOKE_HIDDEN); Tcl_RestoreResult(interp, &save); goto doneWithInterp; } /* * We have to get the error output channel at the latest possible * time, because the eval (above) might have changed the channel. */ errChannel = Tcl_GetStdChannel(TCL_STDERR); if (errChannel != (Tcl_Channel) NULL) { char *string; int len; string = Tcl_GetStringFromObj(Tcl_GetObjResult(interp), &len); if (Tcl_FindCommand(interp, "bgerror", NULL, TCL_GLOBAL_ONLY) == NULL) { Tcl_WriteChars(errChannel, assocPtr->firstBgPtr->errorInfo, -1); Tcl_WriteChars(errChannel, "\n", -1); } else { Tcl_WriteChars(errChannel, "bgerror failed to handle background error.\n", -1); Tcl_WriteChars(errChannel, " Original error: ", -1); Tcl_WriteChars(errChannel, assocPtr->firstBgPtr->errorMsg, -1); Tcl_WriteChars(errChannel, "\n", -1); Tcl_WriteChars(errChannel, " Error in bgerror: ", -1); Tcl_WriteChars(errChannel, string, len); Tcl_WriteChars(errChannel, "\n", -1); } Tcl_Flush(errChannel); } } else if (code == TCL_BREAK) { /* * Break means cancel any remaining error reports for this * interpreter. */ for (errPtr = assocPtr->firstBgPtr; errPtr != NULL; errPtr = errPtr->nextPtr) { if (errPtr->interp == interp) { errPtr->interp = NULL; } } } /* * Discard the command and the information about the error report. */ doneWithInterp: if (assocPtr->firstBgPtr) { ckfree(assocPtr->firstBgPtr->errorMsg); ckfree(assocPtr->firstBgPtr->errorInfo); ckfree(assocPtr->firstBgPtr->errorCode); errPtr = assocPtr->firstBgPtr->nextPtr; ckfree((char *) assocPtr->firstBgPtr); assocPtr->firstBgPtr = errPtr; } if (interp != NULL) { Tcl_Release((ClientData) interp); } } assocPtr->lastBgPtr = NULL; Tcl_Release((ClientData) assocPtr); } /* *---------------------------------------------------------------------- * * BgErrorDeleteProc -- * * This procedure is associated with the "tclBgError" assoc data * for an interpreter; it is invoked when the interpreter is * deleted in order to free the information assoicated with any * pending error reports. * * Results: * None. * * Side effects: * Background error information is freed: if there were any * pending error reports, they are cancelled. * *---------------------------------------------------------------------- */ static void BgErrorDeleteProc(clientData, interp) ClientData clientData; /* Pointer to ErrAssocData structure. */ Tcl_Interp *interp; /* Interpreter being deleted. */ { ErrAssocData *assocPtr = (ErrAssocData *) clientData; BgError *errPtr; while (assocPtr->firstBgPtr != NULL) { errPtr = assocPtr->firstBgPtr; assocPtr->firstBgPtr = errPtr->nextPtr; ckfree(errPtr->errorMsg); ckfree(errPtr->errorInfo); ckfree(errPtr->errorCode); ckfree((char *) errPtr); } Tcl_CancelIdleCall(HandleBgErrors, (ClientData) assocPtr); Tcl_EventuallyFree((ClientData) assocPtr, TCL_DYNAMIC); } /* *---------------------------------------------------------------------- * * Tcl_CreateExitHandler -- * * Arrange for a given procedure to be invoked just before the * application exits. * * Results: * None. * * Side effects: * Proc will be invoked with clientData as argument when the * application exits. * *---------------------------------------------------------------------- */ void Tcl_CreateExitHandler(proc, clientData) Tcl_ExitProc *proc; /* Procedure to invoke. */ ClientData clientData; /* Arbitrary value to pass to proc. */ { ExitHandler *exitPtr; exitPtr = (ExitHandler *) ckalloc(sizeof(ExitHandler)); exitPtr->proc = proc; exitPtr->clientData = clientData; Tcl_MutexLock(&exitMutex); exitPtr->nextPtr = firstExitPtr; firstExitPtr = exitPtr; Tcl_MutexUnlock(&exitMutex); } /* *---------------------------------------------------------------------- * * Tcl_DeleteExitHandler -- * * This procedure cancels an existing exit handler matching proc * and clientData, if such a handler exits. * * Results: * None. * * Side effects: * If there is an exit handler corresponding to proc and clientData * then it is cancelled; if no such handler exists then nothing * happens. * *---------------------------------------------------------------------- */ void Tcl_DeleteExitHandler(proc, clientData) Tcl_ExitProc *proc; /* Procedure that was previously registered. */ ClientData clientData; /* Arbitrary value to pass to proc. */ { ExitHandler *exitPtr, *prevPtr; Tcl_MutexLock(&exitMutex); for (prevPtr = NULL, exitPtr = firstExitPtr; exitPtr != NULL; prevPtr = exitPtr, exitPtr = exitPtr->nextPtr) { if ((exitPtr->proc == proc) && (exitPtr->clientData == clientData)) { if (prevPtr == NULL) { firstExitPtr = exitPtr->nextPtr; } else { prevPtr->nextPtr = exitPtr->nextPtr; } ckfree((char *) exitPtr); break; } } Tcl_MutexUnlock(&exitMutex); return; } /* *---------------------------------------------------------------------- * * Tcl_CreateThreadExitHandler -- * * Arrange for a given procedure to be invoked just before the * current thread exits. * * Results: * None. * * Side effects: * Proc will be invoked with clientData as argument when the * application exits. * *---------------------------------------------------------------------- */ void Tcl_CreateThreadExitHandler(proc, clientData) Tcl_ExitProc *proc; /* Procedure to invoke. */ ClientData clientData; /* Arbitrary value to pass to proc. */ { ExitHandler *exitPtr; ThreadSpecificData *tsdPtr = TCL_TSD_INIT(&dataKey); exitPtr = (ExitHandler *) ckalloc(sizeof(ExitHandler)); exitPtr->proc = proc; exitPtr->clientData = clientData; exitPtr->nextPtr = tsdPtr->firstExitPtr; tsdPtr->firstExitPtr = exitPtr; } /* *---------------------------------------------------------------------- * * Tcl_DeleteThreadExitHandler -- * * This procedure cancels an existing exit handler matching proc * and clientData, if such a handler exits. * * Results: * None. * * Side effects: * If there is an exit handler corresponding to proc and clientData * then it is cancelled; if no such handler exists then nothing * happens. * *---------------------------------------------------------------------- */ void Tcl_DeleteThreadExitHandler(proc, clientData) Tcl_ExitProc *proc; /* Procedure that was previously registered. */ ClientData clientData; /* Arbitrary value to pass to proc. */ { ExitHandler *exitPtr, *prevPtr; ThreadSpecificData *tsdPtr = TCL_TSD_INIT(&dataKey); for (prevPtr = NULL, exitPtr = tsdPtr->firstExitPtr; exitPtr != NULL; prevPtr = exitPtr, exitPtr = exitPtr->nextPtr) { if ((exitPtr->proc == proc) && (exitPtr->clientData == clientData)) { if (prevPtr == NULL) { tsdPtr->firstExitPtr = exitPtr->nextPtr; } else { prevPtr->nextPtr = exitPtr->nextPtr; } ckfree((char *) exitPtr); return; } } } /* *---------------------------------------------------------------------- * * Tcl_Exit -- * * This procedure is called to terminate the application. * * Results: * None. * * Side effects: * All existing exit handlers are invoked, then the application * ends. * *---------------------------------------------------------------------- */ void Tcl_Exit(status) int status; /* Exit status for application; typically * 0 for normal return, 1 for error return. */ { Tcl_Finalize(); TclpExit(status); } /* *------------------------------------------------------------------------- * * TclSetLibraryPath -- * * Set the path that will be used for searching for init.tcl and * encodings when an interp is being created. * * Results: * None. * * Side effects: * Changing the library path will affect what directories are * examined when looking for encodings for all interps from that * point forward. * * The refcount of the new library path is incremented and the * refcount of the old path is decremented. * *------------------------------------------------------------------------- */ void TclSetLibraryPath(pathPtr) Tcl_Obj *pathPtr; /* A Tcl list object whose elements are * the new library path. */ { ThreadSpecificData *tsdPtr = TCL_TSD_INIT(&dataKey); const char *toDupe; int size; if (pathPtr != NULL) { Tcl_IncrRefCount(pathPtr); } if (tsdPtr->tclLibraryPath != NULL) { Tcl_DecrRefCount(tsdPtr->tclLibraryPath); } tsdPtr->tclLibraryPath = pathPtr; /* * No mutex locking is needed here as up the stack we're within * TclpInitLock(). */ if (tclLibraryPathStr != NULL) { ckfree(tclLibraryPathStr); } toDupe = Tcl_GetStringFromObj(pathPtr, &size); tclLibraryPathStr = ckalloc((unsigned)size+1); memcpy(tclLibraryPathStr, toDupe, (unsigned)size+1); } /* *------------------------------------------------------------------------- * * TclGetLibraryPath -- * * Return a Tcl list object whose elements are the library path. * The caller should not modify the contents of the returned object. * * Results: * As above. * * Side effects: * None. * *------------------------------------------------------------------------- */ Tcl_Obj * TclGetLibraryPath() { ThreadSpecificData *tsdPtr = TCL_TSD_INIT(&dataKey); if (tsdPtr->tclLibraryPath == NULL) { /* * Grab the shared string and place it into a new thread specific * Tcl_Obj. */ tsdPtr->tclLibraryPath = Tcl_NewStringObj(tclLibraryPathStr, -1); /* take ownership */ Tcl_IncrRefCount(tsdPtr->tclLibraryPath); } return tsdPtr->tclLibraryPath; } /* *------------------------------------------------------------------------- * * TclInitSubsystems -- * * Initialize various subsytems in Tcl. This should be called the * first time an interp is created, or before any of the subsystems * are used. This function ensures an order for the initialization * of subsystems: * * 1. that cannot be initialized in lazy order because they are * mutually dependent. * * 2. so that they can be finalized in a known order w/o causing * the subsequent re-initialization of a subsystem in the act of * shutting down another. * * Results: * None. * * Side effects: * Varied, see the respective initialization routines. * *------------------------------------------------------------------------- */ void TclInitSubsystems(argv0) CONST char *argv0; /* Name of executable from argv[0] to main() * in native multi-byte encoding. */ { ThreadSpecificData *tsdPtr; if (inFinalize != 0) { panic("TclInitSubsystems called while finalizing"); } /* * Grab the thread local storage pointer before doing anything because * the initialization routines will be registering exit handlers. * We use this pointer to detect if this is the first time this * thread has created an interpreter. */ tsdPtr = (ThreadSpecificData *) TclThreadDataKeyGet(&dataKey); if (subsystemsInitialized == 0) { /* * Double check inside the mutex. There are definitly calls * back into this routine from some of the procedures below. */ TclpInitLock(); if (subsystemsInitialized == 0) { /* * Have to set this bit here to avoid deadlock with the * routines below us that call into TclInitSubsystems. */ subsystemsInitialized = 1; tclExecutableName = NULL; /* * Initialize locks used by the memory allocators before anything * interesting happens so we can use the allocators in the * implementation of self-initializing locks. */ #if USE_TCLALLOC TclInitAlloc(); /* process wide mutex init */ #endif #ifdef TCL_MEM_DEBUG TclInitDbCkalloc(); /* process wide mutex init */ #endif TclpInitPlatform(); /* creates signal handler(s) */ TclInitObjSubsystem(); /* register obj types, create mutexes */ TclInitIOSubsystem(); /* inits a tsd key (noop) */ TclInitEncodingSubsystem(); /* process wide encoding init */ TclInitNamespaceSubsystem(); /* register ns obj type (mutexed) */ } TclpInitUnlock(); } if (tsdPtr == NULL) { /* * First time this thread has created an interpreter. * We fetch the key again just in case no exit handlers were * registered by this point. */ (void) TCL_TSD_INIT(&dataKey); TclInitNotifier(); } } /* *---------------------------------------------------------------------- * * Tcl_Finalize -- * * Shut down Tcl. First calls registered exit handlers, then * carefully shuts down various subsystems. * Called by Tcl_Exit or when the Tcl shared library is being * unloaded. * * Results: * None. * * Side effects: * Varied, see the respective finalization routines. * *---------------------------------------------------------------------- */ void Tcl_Finalize() { ExitHandler *exitPtr; /* * Invoke exit handlers first. */ Tcl_MutexLock(&exitMutex); inFinalize = 1; for (exitPtr = firstExitPtr; exitPtr != NULL; exitPtr = firstExitPtr) { /* * Be careful to remove the handler from the list before * invoking its callback. This protects us against * double-freeing if the callback should call * Tcl_DeleteExitHandler on itself. */ firstExitPtr = exitPtr->nextPtr; Tcl_MutexUnlock(&exitMutex); (*exitPtr->proc)(exitPtr->clientData); ckfree((char *) exitPtr); Tcl_MutexLock(&exitMutex); } firstExitPtr = NULL; Tcl_MutexUnlock(&exitMutex); TclpInitLock(); if (subsystemsInitialized != 0) { subsystemsInitialized = 0; /* * Ensure the thread-specific data is initialised as it is * used in Tcl_FinalizeThread() */ (void) TCL_TSD_INIT(&dataKey); /* * Clean up after the current thread now, after exit handlers. * In particular, the testexithandler command sets up something * that writes to standard output, which gets closed. * Note that there is no thread-local storage after this call. */ Tcl_FinalizeThread(); /* * Now finalize the Tcl execution environment. Note that this * must be done after the exit handlers, because there are * order dependencies. */ TclFinalizeCompExecEnv(); TclFinalizeEnvironment(); /* * Finalizing the filesystem must come after anything which * might conceivably interact with the 'Tcl_FS' API. */ TclFinalizeFilesystem(); /* * We must be sure the encoding finalization doesn't need * to examine the filesystem in any way. Since it only * needs to clean up internal data structures, this is * fine. */ TclFinalizeEncodingSubsystem(); if (tclExecutableName != NULL) { ckfree(tclExecutableName); tclExecutableName = NULL; } if (tclNativeExecutableName != NULL) { ckfree(tclNativeExecutableName); tclNativeExecutableName = NULL; } if (tclDefaultEncodingDir != NULL) { ckfree(tclDefaultEncodingDir); tclDefaultEncodingDir = NULL; } if (tclLibraryPathStr != NULL) { ckfree(tclLibraryPathStr); tclLibraryPathStr = NULL; } Tcl_SetPanicProc(NULL); /* * Free synchronization objects. There really should only be one * thread alive at this moment. */ TclFinalizeSynchronization(); /* * We defer unloading of packages until very late * to avoid memory access issues. Both exit callbacks and * synchronization variables may be stored in packages. * * Note that TclFinalizeLoad unloads packages in the reverse * of the order they were loaded in (i.e. last to be loaded * is the first to be unloaded). This can be important for * correct unloading when dependencies exist. * * Once load has been finalized, we will have deleted any * temporary copies of shared libraries and can therefore * reset the filesystem to its original state. */ TclFinalizeLoad(); TclResetFilesystem(); /* * There have been several bugs in the past that cause * exit handlers to be established during Tcl_Finalize * processing. Such exit handlers leave malloc'ed memory, * and Tcl_FinalizeThreadAlloc or Tcl_FinalizeMemorySubsystem * will result in a corrupted heap. The result can be a * mysterious crash on process exit. Check here that * nobody's done this. */ if ( firstExitPtr != NULL ) { Tcl_Panic( "exit handlers were created during Tcl_Finalize" ); } /* * There shouldn't be any malloc'ed memory after this. */ #if defined(TCL_THREADS) && defined(USE_THREAD_ALLOC) && !defined(TCL_MEM_DEBUG) && !defined(PURIFY) TclFinalizeThreadAlloc(); #endif TclFinalizeMemorySubsystem(); inFinalize = 0; } TclFinalizeLock(); } /* *---------------------------------------------------------------------- * * Tcl_FinalizeThread -- * * Runs the exit handlers to allow Tcl to clean up its state * about a particular thread. * * Results: * None. * * Side effects: * Varied, see the respective finalization routines. * *---------------------------------------------------------------------- */ void Tcl_FinalizeThread() { ExitHandler *exitPtr; ThreadSpecificData *tsdPtr = (ThreadSpecificData *)TclThreadDataKeyGet(&dataKey); if (tsdPtr != NULL) { tsdPtr->inExit = 1; /* * Clean up the library path now, before we invalidate thread-local * storage or calling thread exit handlers. */ if (tsdPtr->tclLibraryPath != NULL) { Tcl_DecrRefCount(tsdPtr->tclLibraryPath); tsdPtr->tclLibraryPath = NULL; } for (exitPtr = tsdPtr->firstExitPtr; exitPtr != NULL; exitPtr = tsdPtr->firstExitPtr) { /* * Be careful to remove the handler from the list before invoking * its callback. This protects us against double-freeing if the * callback should call Tcl_DeleteThreadExitHandler on itself. */ tsdPtr->firstExitPtr = exitPtr->nextPtr; (*exitPtr->proc)(exitPtr->clientData); ckfree((char *) exitPtr); } TclFinalizeIOSubsystem(); TclFinalizeNotifier(); TclFinalizeAsync(); } /* * Blow away all thread local storage blocks. * * Note that Tcl API allows creation of threads which do not use any * Tcl interp or other Tcl subsytems. Those threads might, however, * use thread local storage, so we must unconditionally finalize it. * * Fix [Bug #571002] */ TclFinalizeThreadData(); } /* *---------------------------------------------------------------------- * * TclInExit -- * * Determines if we are in the middle of exit-time cleanup. * * Results: * If we are in the middle of exiting, 1, otherwise 0. * * Side effects: * None. * *---------------------------------------------------------------------- */ int TclInExit() { return inFinalize; } /* *---------------------------------------------------------------------- * * TclInThreadExit -- * * Determines if we are in the middle of thread exit-time cleanup. * * Results: * If we are in the middle of exiting this thread, 1, otherwise 0. * * Side effects: * None. * *---------------------------------------------------------------------- */ int TclInThreadExit() { ThreadSpecificData *tsdPtr = (ThreadSpecificData *) TclThreadDataKeyGet(&dataKey); if (tsdPtr == NULL) { return 0; } else { return tsdPtr->inExit; } } /* *---------------------------------------------------------------------- * * Tcl_VwaitObjCmd -- * * This procedure is invoked to process the "vwait" 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_VwaitObjCmd(clientData, interp, objc, objv) ClientData clientData; /* Not used. */ Tcl_Interp *interp; /* Current interpreter. */ int objc; /* Number of arguments. */ Tcl_Obj *CONST objv[]; /* Argument objects. */ { int done, foundEvent; char *nameString; if (objc != 2) { Tcl_WrongNumArgs(interp, 1, objv, "name"); return TCL_ERROR; } nameString = Tcl_GetString(objv[1]); if (Tcl_TraceVar(interp, nameString, TCL_GLOBAL_ONLY|TCL_TRACE_WRITES|TCL_TRACE_UNSETS, VwaitVarProc, (ClientData) &done) != TCL_OK) { return TCL_ERROR; }; done = 0; foundEvent = 1; while (!done && foundEvent) { foundEvent = Tcl_DoOneEvent(TCL_ALL_EVENTS); } Tcl_UntraceVar(interp, nameString, TCL_GLOBAL_ONLY|TCL_TRACE_WRITES|TCL_TRACE_UNSETS, VwaitVarProc, (ClientData) &done); /* * Clear out the interpreter's result, since it may have been set * by event handlers. */ Tcl_ResetResult(interp); if (!foundEvent) { Tcl_AppendResult(interp, "can't wait for variable \"", nameString, "\": would wait forever", (char *) NULL); return TCL_ERROR; } return TCL_OK; } /* ARGSUSED */ static char * VwaitVarProc(clientData, interp, name1, name2, flags) ClientData clientData; /* Pointer to integer to set to 1. */ Tcl_Interp *interp; /* Interpreter containing variable. */ CONST char *name1; /* Name of variable. */ CONST char *name2; /* Second part of variable name. */ int flags; /* Information about what happened. */ { int *donePtr = (int *) clientData; *donePtr = 1; return (char *) NULL; } /* *---------------------------------------------------------------------- * * Tcl_UpdateObjCmd -- * * This procedure is invoked to process the "update" 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_UpdateObjCmd(clientData, interp, objc, objv) ClientData clientData; /* Not used. */ Tcl_Interp *interp; /* Current interpreter. */ int objc; /* Number of arguments. */ Tcl_Obj *CONST objv[]; /* Argument objects. */ { int optionIndex; int flags = 0; /* Initialized to avoid compiler warning. */ static CONST char *updateOptions[] = {"idletasks", (char *) NULL}; enum updateOptions {REGEXP_IDLETASKS}; if (objc == 1) { flags = TCL_ALL_EVENTS|TCL_DONT_WAIT; } else if (objc == 2) { if (Tcl_GetIndexFromObj(interp, objv[1], updateOptions, "option", 0, &optionIndex) != TCL_OK) { return TCL_ERROR; } switch ((enum updateOptions) optionIndex) { case REGEXP_IDLETASKS: { flags = TCL_WINDOW_EVENTS|TCL_IDLE_EVENTS|TCL_DONT_WAIT; break; } default: { panic("Tcl_UpdateObjCmd: bad option index to UpdateOptions"); } } } else { Tcl_WrongNumArgs(interp, 1, objv, "?idletasks?"); return TCL_ERROR; } while (Tcl_DoOneEvent(flags) != 0) { /* Empty loop body */ } /* * Must clear the interpreter's result because event handlers could * have executed commands. */ Tcl_ResetResult(interp); return TCL_OK; } #ifdef TCL_THREADS /* *----------------------------------------------------------------------------- * * NewThreadProc -- * * Bootstrap function of a new Tcl thread. * * Results: * None. * * Side Effects: * Initializes Tcl notifier for the current thread. * *----------------------------------------------------------------------------- */ static Tcl_ThreadCreateType NewThreadProc(ClientData clientData) { ThreadClientData *cdPtr; ClientData threadClientData; Tcl_ThreadCreateProc *threadProc; cdPtr = (ThreadClientData*)clientData; threadProc = cdPtr->proc; threadClientData = cdPtr->clientData; Tcl_Free((char*)clientData); /* Allocated in Tcl_CreateThread() */ (*threadProc)(threadClientData); TCL_THREAD_CREATE_RETURN; } #endif /* *---------------------------------------------------------------------- * * Tcl_CreateThread -- * * This procedure creates a new thread. This actually belongs * to the tclThread.c file but since we use some private * data structures local to this file, it is placed here. * * Results: * TCL_OK if the thread could be created. The thread ID is * returned in a parameter. * * Side effects: * A new thread is created. * *---------------------------------------------------------------------- */ int Tcl_CreateThread(idPtr, proc, clientData, stackSize, flags) Tcl_ThreadId *idPtr; /* Return, the ID of the thread */ Tcl_ThreadCreateProc proc; /* Main() function of the thread */ ClientData clientData; /* The one argument to Main() */ int stackSize; /* Size of stack for the new thread */ int flags; /* Flags controlling behaviour of * the new thread */ { #ifdef TCL_THREADS ThreadClientData *cdPtr; cdPtr = (ThreadClientData*)Tcl_Alloc(sizeof(ThreadClientData)); cdPtr->proc = proc; cdPtr->clientData = clientData; return TclpThreadCreate(idPtr, NewThreadProc, (ClientData)cdPtr, stackSize, flags); #else return TCL_ERROR; #endif /* TCL_THREADS */ }