/* * tclIOUtil.c -- * * This file contains the implementation of Tcl's generic * filesystem code, which supports a pluggable filesystem * architecture allowing both platform specific filesystems and * 'virtual filesystems'. All filesystem access should go through * the functions defined in this file. Most of this code was * contributed by Vince Darley. * * Parts of this file are based on code contributed by Karl * Lehenbauer, Mark Diekhans and Peter da Silva. * * 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: tclIOUtil.c,v 1.1.1.2 2009/03/23 15:10:40 duncan Exp $ */ #include "tclInt.h" #include "tclPort.h" #ifdef MAC_TCL #include "tclMacInt.h" #endif #ifdef __WIN32__ /* for tclWinProcs->useWide */ #include "tclWinInt.h" #endif /* * struct FilesystemRecord -- * * A filesystem record is used to keep track of each * filesystem currently registered with the core, * in a linked list. Pointers to these structures * are also kept by each "path" Tcl_Obj, and we must * retain a refCount on the number of such references. */ typedef struct FilesystemRecord { ClientData clientData; /* Client specific data for the new * filesystem (can be NULL) */ Tcl_Filesystem *fsPtr; /* Pointer to filesystem dispatch * table. */ int fileRefCount; /* How many Tcl_Obj's use this * filesystem. */ struct FilesystemRecord *nextPtr; /* The next filesystem registered * to Tcl, or NULL if no more. */ struct FilesystemRecord *prevPtr; /* The previous filesystem registered * to Tcl, or NULL if no more. */ } FilesystemRecord; /* * The internal TclFS API provides routines for handling and * manipulating paths efficiently, taking direct advantage of * the "path" Tcl_Obj type. * * These functions are not exported at all at present. */ int TclFSCwdPointerEquals _ANSI_ARGS_((Tcl_Obj* objPtr)); int TclFSMakePathFromNormalized _ANSI_ARGS_((Tcl_Interp *interp, Tcl_Obj *objPtr, ClientData clientData)); int TclFSNormalizeToUniquePath _ANSI_ARGS_((Tcl_Interp *interp, Tcl_Obj *pathPtr, int startAt, ClientData *clientDataPtr)); Tcl_Obj* TclFSMakePathRelative _ANSI_ARGS_((Tcl_Interp *interp, Tcl_Obj *objPtr, Tcl_Obj *cwdPtr)); Tcl_Obj* TclFSInternalToNormalized _ANSI_ARGS_(( Tcl_Filesystem *fromFilesystem, ClientData clientData, FilesystemRecord **fsRecPtrPtr)); int TclFSEnsureEpochOk _ANSI_ARGS_((Tcl_Obj* pathObjPtr, Tcl_Filesystem **fsPtrPtr)); void TclFSSetPathDetails _ANSI_ARGS_((Tcl_Obj *pathObjPtr, FilesystemRecord *fsRecPtr, ClientData clientData)); /* * Private variables for use in this file */ extern Tcl_Filesystem tclNativeFilesystem; extern int theFilesystemEpoch; /* * Private functions for use in this file */ static Tcl_PathType FSGetPathType _ANSI_ARGS_((Tcl_Obj *pathObjPtr, Tcl_Filesystem **filesystemPtrPtr, int *driveNameLengthPtr)); static Tcl_PathType GetPathType _ANSI_ARGS_((Tcl_Obj *pathObjPtr, Tcl_Filesystem **filesystemPtrPtr, int *driveNameLengthPtr, Tcl_Obj **driveNameRef)); static Tcl_FSPathInFilesystemProc NativePathInFilesystem; static Tcl_Obj* TclFSNormalizeAbsolutePath _ANSI_ARGS_((Tcl_Interp* interp, Tcl_Obj *pathPtr, ClientData *clientDataPtr)); /* * Prototypes for procedures defined later in this file. */ static FilesystemRecord* FsGetFirstFilesystem(void); static void FsThrExitProc(ClientData cd); static Tcl_Obj* FsListMounts _ANSI_ARGS_((Tcl_Obj *pathPtr, CONST char *pattern)); static Tcl_Obj* FsAddMountsToGlobResult _ANSI_ARGS_((Tcl_Obj *result, Tcl_Obj *pathPtr, CONST char *pattern, Tcl_GlobTypeData *types)); #ifdef TCL_THREADS static void FsRecacheFilesystemList(void); #endif /* * These form part of the native filesystem support. They are needed * here because we have a few native filesystem functions (which are * the same for mac/win/unix) in this file. There is no need to place * them in tclInt.h, because they are not (and should not be) used * anywhere else. */ extern CONST char * tclpFileAttrStrings[]; extern CONST TclFileAttrProcs tclpFileAttrProcs[]; /* * The following functions are obsolete string based APIs, and should * be removed in a future release (Tcl 9 would be a good time). */ /* Obsolete */ int Tcl_Stat(path, oldStyleBuf) CONST char *path; /* Path of file to stat (in current CP). */ struct stat *oldStyleBuf; /* Filled with results of stat call. */ { int ret; Tcl_StatBuf buf; Tcl_Obj *pathPtr = Tcl_NewStringObj(path,-1); Tcl_IncrRefCount(pathPtr); ret = Tcl_FSStat(pathPtr, &buf); Tcl_DecrRefCount(pathPtr); if (ret != -1) { #ifndef TCL_WIDE_INT_IS_LONG # define OUT_OF_RANGE(x) \ (((Tcl_WideInt)(x)) < Tcl_LongAsWide(LONG_MIN) || \ ((Tcl_WideInt)(x)) > Tcl_LongAsWide(LONG_MAX)) #if defined(__GNUC__) && __GNUC__ >= 2 /* * Workaround gcc warning of "comparison is always false due to limited range of * data type" in this macro by checking max type size, and when necessary ANDing * with the complement of ULONG_MAX instead of the comparison: */ # define OUT_OF_URANGE(x) \ ((((Tcl_WideUInt)(~ (__typeof__(x)) 0)) > (Tcl_WideUInt)ULONG_MAX) && \ (((Tcl_WideUInt)(x)) & ~(Tcl_WideUInt)ULONG_MAX)) #else # define OUT_OF_URANGE(x) \ (((Tcl_WideUInt)(x)) > (Tcl_WideUInt)ULONG_MAX) #endif /* * Perform the result-buffer overflow check manually. * * Note that ino_t/ino64_t is unsigned... */ if (OUT_OF_URANGE(buf.st_ino) || OUT_OF_RANGE(buf.st_size) #ifdef HAVE_ST_BLOCKS || OUT_OF_RANGE(buf.st_blocks) #endif ) { #ifdef EFBIG errno = EFBIG; #else # ifdef EOVERFLOW errno = EOVERFLOW; # else # error "What status should be returned for file size out of range?" # endif #endif return -1; } # undef OUT_OF_RANGE # undef OUT_OF_URANGE #endif /* !TCL_WIDE_INT_IS_LONG */ /* * Copy across all supported fields, with possible type * coercions on those fields that change between the normal * and lf64 versions of the stat structure (on Solaris at * least.) This is slow when the structure sizes coincide, * but that's what you get for using an obsolete interface. */ oldStyleBuf->st_mode = buf.st_mode; oldStyleBuf->st_ino = (ino_t) buf.st_ino; oldStyleBuf->st_dev = buf.st_dev; oldStyleBuf->st_rdev = buf.st_rdev; oldStyleBuf->st_nlink = buf.st_nlink; oldStyleBuf->st_uid = buf.st_uid; oldStyleBuf->st_gid = buf.st_gid; oldStyleBuf->st_size = (off_t) buf.st_size; oldStyleBuf->st_atime = buf.st_atime; oldStyleBuf->st_mtime = buf.st_mtime; oldStyleBuf->st_ctime = buf.st_ctime; #ifdef HAVE_ST_BLOCKS oldStyleBuf->st_blksize = buf.st_blksize; oldStyleBuf->st_blocks = (blkcnt_t) buf.st_blocks; #endif } return ret; } /* Obsolete */ int Tcl_Access(path, mode) CONST char *path; /* Path of file to access (in current CP). */ int mode; /* Permission setting. */ { int ret; Tcl_Obj *pathPtr = Tcl_NewStringObj(path,-1); Tcl_IncrRefCount(pathPtr); ret = Tcl_FSAccess(pathPtr,mode); Tcl_DecrRefCount(pathPtr); return ret; } /* Obsolete */ Tcl_Channel Tcl_OpenFileChannel(interp, path, modeString, permissions) Tcl_Interp *interp; /* Interpreter for error reporting; * can be NULL. */ CONST char *path; /* Name of file to open. */ CONST char *modeString; /* A list of POSIX open modes or * a string such as "rw". */ int permissions; /* If the open involves creating a * file, with what modes to create * it? */ { Tcl_Channel ret; Tcl_Obj *pathPtr = Tcl_NewStringObj(path,-1); Tcl_IncrRefCount(pathPtr); ret = Tcl_FSOpenFileChannel(interp, pathPtr, modeString, permissions); Tcl_DecrRefCount(pathPtr); return ret; } /* Obsolete */ int Tcl_Chdir(dirName) CONST char *dirName; { int ret; Tcl_Obj *pathPtr = Tcl_NewStringObj(dirName,-1); Tcl_IncrRefCount(pathPtr); ret = Tcl_FSChdir(pathPtr); Tcl_DecrRefCount(pathPtr); return ret; } /* Obsolete */ char * Tcl_GetCwd(interp, cwdPtr) Tcl_Interp *interp; Tcl_DString *cwdPtr; { Tcl_Obj *cwd; cwd = Tcl_FSGetCwd(interp); if (cwd == NULL) { return NULL; } else { Tcl_DStringInit(cwdPtr); Tcl_DStringAppend(cwdPtr, Tcl_GetString(cwd), -1); Tcl_DecrRefCount(cwd); return Tcl_DStringValue(cwdPtr); } } /* Obsolete */ int Tcl_EvalFile(interp, fileName) Tcl_Interp *interp; /* Interpreter in which to process file. */ CONST char *fileName; /* Name of file to process. Tilde-substitution * will be performed on this name. */ { int ret; Tcl_Obj *pathPtr = Tcl_NewStringObj(fileName,-1); Tcl_IncrRefCount(pathPtr); ret = Tcl_FSEvalFile(interp, pathPtr); Tcl_DecrRefCount(pathPtr); return ret; } /* * The 3 hooks for Stat, Access and OpenFileChannel are obsolete. The * complete, general hooked filesystem APIs should be used instead. * This define decides whether to include the obsolete hooks and * related code. If these are removed, we'll also want to remove them * from stubs/tclInt. The only known users of these APIs are prowrap * and mktclapp. New code/extensions should not use them, since they * do not provide as full support as the full filesystem API. * * As soon as prowrap and mktclapp are updated to use the full * filesystem support, I suggest all these hooks are removed. */ #define USE_OBSOLETE_FS_HOOKS #ifdef USE_OBSOLETE_FS_HOOKS /* * The following typedef declarations allow for hooking into the chain * of functions maintained for 'Tcl_Stat(...)', 'Tcl_Access(...)' & * 'Tcl_OpenFileChannel(...)'. Basically for each hookable function * a linked list is defined. */ typedef struct StatProc { TclStatProc_ *proc; /* Function to process a 'stat()' call */ struct StatProc *nextPtr; /* The next 'stat()' function to call */ } StatProc; typedef struct AccessProc { TclAccessProc_ *proc; /* Function to process a 'access()' call */ struct AccessProc *nextPtr; /* The next 'access()' function to call */ } AccessProc; typedef struct OpenFileChannelProc { TclOpenFileChannelProc_ *proc; /* Function to process a * 'Tcl_OpenFileChannel()' call */ struct OpenFileChannelProc *nextPtr; /* The next 'Tcl_OpenFileChannel()' * function to call */ } OpenFileChannelProc; /* * For each type of (obsolete) hookable function, a static node is * declared to hold the function pointer for the "built-in" routine * (e.g. 'TclpStat(...)') and the respective list is initialized as a * pointer to that node. * * The "delete" functions (e.g. 'TclStatDeleteProc(...)') ensure that * these statically declared list entry cannot be inadvertently removed. * * This method avoids the need to call any sort of "initialization" * function. * * All three lists are protected by a global obsoleteFsHookMutex. */ static StatProc *statProcList = NULL; static AccessProc *accessProcList = NULL; static OpenFileChannelProc *openFileChannelProcList = NULL; TCL_DECLARE_MUTEX(obsoleteFsHookMutex) #endif /* USE_OBSOLETE_FS_HOOKS */ /* * Declare the native filesystem support. These functions should * be considered private to Tcl, and should really not be called * directly by any code other than this file (i.e. neither by * Tcl's core nor by extensions). Similarly, the old string-based * Tclp... native filesystem functions should not be called. * * The correct API to use now is the Tcl_FS... set of functions, * which ensure correct and complete virtual filesystem support. * * We cannot make all of these static, since some of them * are implemented in the platform-specific directories. */ static Tcl_FSFilesystemSeparatorProc NativeFilesystemSeparator; static Tcl_FSFreeInternalRepProc NativeFreeInternalRep; static Tcl_FSCreateInternalRepProc NativeCreateNativeRep; static Tcl_FSFileAttrStringsProc NativeFileAttrStrings; static Tcl_FSFileAttrsGetProc NativeFileAttrsGet; static Tcl_FSFileAttrsSetProc NativeFileAttrsSet; /* * The only reason these functions are not static is that they * are either called by code in the native (win/unix/mac) directories * or they are actually implemented in those directories. They * should simply not be called by code outside Tcl's native * filesystem core. i.e. they should be considered 'static' to * Tcl's filesystem code (if we ever built the native filesystem * support into a separate code library, this could actually be * enforced). */ Tcl_FSFilesystemPathTypeProc TclpFilesystemPathType; Tcl_FSInternalToNormalizedProc TclpNativeToNormalized; Tcl_FSStatProc TclpObjStat; Tcl_FSAccessProc TclpObjAccess; Tcl_FSMatchInDirectoryProc TclpMatchInDirectory; Tcl_FSGetCwdProc TclpObjGetCwd; Tcl_FSChdirProc TclpObjChdir; Tcl_FSLstatProc TclpObjLstat; Tcl_FSCopyFileProc TclpObjCopyFile; Tcl_FSDeleteFileProc TclpObjDeleteFile; Tcl_FSRenameFileProc TclpObjRenameFile; Tcl_FSCreateDirectoryProc TclpObjCreateDirectory; Tcl_FSCopyDirectoryProc TclpObjCopyDirectory; Tcl_FSRemoveDirectoryProc TclpObjRemoveDirectory; Tcl_FSUnloadFileProc TclpUnloadFile; Tcl_FSLinkProc TclpObjLink; Tcl_FSListVolumesProc TclpObjListVolumes; /* * Define the native filesystem dispatch table. If necessary, it * is ok to make this non-static, but it should only be accessed * by the functions actually listed within it (or perhaps other * helper functions of them). Anything which is not part of this * 'native filesystem implementation' should not be delving inside * here! */ Tcl_Filesystem tclNativeFilesystem = { "native", sizeof(Tcl_Filesystem), TCL_FILESYSTEM_VERSION_1, &NativePathInFilesystem, &TclNativeDupInternalRep, &NativeFreeInternalRep, &TclpNativeToNormalized, &NativeCreateNativeRep, &TclpObjNormalizePath, &TclpFilesystemPathType, &NativeFilesystemSeparator, &TclpObjStat, &TclpObjAccess, &TclpOpenFileChannel, &TclpMatchInDirectory, &TclpUtime, #ifndef S_IFLNK NULL, #else &TclpObjLink, #endif /* S_IFLNK */ &TclpObjListVolumes, &NativeFileAttrStrings, &NativeFileAttrsGet, &NativeFileAttrsSet, &TclpObjCreateDirectory, &TclpObjRemoveDirectory, &TclpObjDeleteFile, &TclpObjCopyFile, &TclpObjRenameFile, &TclpObjCopyDirectory, &TclpObjLstat, &TclpDlopen, &TclpObjGetCwd, &TclpObjChdir }; /* * Define the tail of the linked list. Note that for unconventional * uses of Tcl without a native filesystem, we may in the future wish * to modify the current approach of hard-coding the native filesystem * in the lookup list 'filesystemList' below. * * We initialize the record so that it thinks one file uses it. This * means it will never be freed. */ static FilesystemRecord nativeFilesystemRecord = { NULL, &tclNativeFilesystem, 1, NULL }; /* * This is incremented each time we modify the linked list of * filesystems. Any time it changes, all cached filesystem * representations are suspect and must be freed. * For multithreading builds, change of the filesystem epoch * will trigger cache cleanup in all threads. */ int theFilesystemEpoch = 0; /* * Stores the linked list of filesystems. A 1:1 copy of this * list is also maintained in the TSD for each thread. This * is to avoid synchronization issues. */ static FilesystemRecord *filesystemList = &nativeFilesystemRecord; TCL_DECLARE_MUTEX(filesystemMutex) /* * Used to implement Tcl_FSGetCwd in a file-system independent way. */ static Tcl_Obj* cwdPathPtr = NULL; static int cwdPathEpoch = 0; TCL_DECLARE_MUTEX(cwdMutex) /* * This structure holds per-thread private copies of * some global data. This way we avoid most of the * synchronization calls which boosts performance, at * cost of having to update this information each * time the corresponding epoch counter changes. * */ typedef struct ThreadSpecificData { int initialized; int cwdPathEpoch; int filesystemEpoch; Tcl_Obj *cwdPathPtr; FilesystemRecord *filesystemList; } ThreadSpecificData; static Tcl_ThreadDataKey dataKey; /* * Declare fallback support function and * information for Tcl_FSLoadFile */ static Tcl_FSUnloadFileProc FSUnloadTempFile; /* * One of these structures is used each time we successfully load a * file from a file system by way of making a temporary copy of the * file on the native filesystem. We need to store both the actual * unloadProc/clientData combination which was used, and the original * and modified filenames, so that we can correctly undo the entire * operation when we want to unload the code. */ typedef struct FsDivertLoad { Tcl_LoadHandle loadHandle; Tcl_FSUnloadFileProc *unloadProcPtr; Tcl_Obj *divertedFile; Tcl_Filesystem *divertedFilesystem; ClientData divertedFileNativeRep; } FsDivertLoad; /* Now move on to the basic filesystem implementation */ static void FsThrExitProc(cd) ClientData cd; { ThreadSpecificData *tsdPtr = (ThreadSpecificData*)cd; FilesystemRecord *fsRecPtr = NULL, *tmpFsRecPtr = NULL; /* Trash the cwd copy */ if (tsdPtr->cwdPathPtr != NULL) { Tcl_DecrRefCount(tsdPtr->cwdPathPtr); tsdPtr->cwdPathPtr = NULL; } /* Trash the filesystems cache */ fsRecPtr = tsdPtr->filesystemList; while (fsRecPtr != NULL) { tmpFsRecPtr = fsRecPtr->nextPtr; if (--fsRecPtr->fileRefCount <= 0) { ckfree((char *)fsRecPtr); } fsRecPtr = tmpFsRecPtr; } tsdPtr->initialized = 0; } int TclFSCwdPointerEquals(objPtr) Tcl_Obj* objPtr; { ThreadSpecificData *tsdPtr = TCL_TSD_INIT(&dataKey); Tcl_MutexLock(&cwdMutex); if (tsdPtr->cwdPathPtr == NULL) { if (cwdPathPtr == NULL) { tsdPtr->cwdPathPtr = NULL; } else { tsdPtr->cwdPathPtr = Tcl_DuplicateObj(cwdPathPtr); Tcl_IncrRefCount(tsdPtr->cwdPathPtr); } tsdPtr->cwdPathEpoch = cwdPathEpoch; } else if (tsdPtr->cwdPathEpoch != cwdPathEpoch) { Tcl_DecrRefCount(tsdPtr->cwdPathPtr); if (cwdPathPtr == NULL) { tsdPtr->cwdPathPtr = NULL; } else { tsdPtr->cwdPathPtr = Tcl_DuplicateObj(cwdPathPtr); Tcl_IncrRefCount(tsdPtr->cwdPathPtr); } } Tcl_MutexUnlock(&cwdMutex); if (tsdPtr->initialized == 0) { Tcl_CreateThreadExitHandler(FsThrExitProc, (ClientData)tsdPtr); tsdPtr->initialized = 1; } return (tsdPtr->cwdPathPtr == objPtr); } #ifdef TCL_THREADS static void FsRecacheFilesystemList(void) { ThreadSpecificData *tsdPtr = TCL_TSD_INIT(&dataKey); FilesystemRecord *fsRecPtr, *tmpFsRecPtr = NULL; /* Trash the current cache */ fsRecPtr = tsdPtr->filesystemList; while (fsRecPtr != NULL) { tmpFsRecPtr = fsRecPtr->nextPtr; if (--fsRecPtr->fileRefCount <= 0) { ckfree((char *)fsRecPtr); } fsRecPtr = tmpFsRecPtr; } tsdPtr->filesystemList = NULL; /* * Code below operates on shared data. We * are already called under mutex lock so * we can safely proceed. */ /* Locate tail of the global filesystem list */ fsRecPtr = filesystemList; while (fsRecPtr != NULL) { tmpFsRecPtr = fsRecPtr; fsRecPtr = fsRecPtr->nextPtr; } /* Refill the cache honouring the order */ fsRecPtr = tmpFsRecPtr; while (fsRecPtr != NULL) { tmpFsRecPtr = (FilesystemRecord *)ckalloc(sizeof(FilesystemRecord)); *tmpFsRecPtr = *fsRecPtr; tmpFsRecPtr->nextPtr = tsdPtr->filesystemList; tmpFsRecPtr->prevPtr = NULL; if (tsdPtr->filesystemList) { tsdPtr->filesystemList->prevPtr = tmpFsRecPtr; } tsdPtr->filesystemList = tmpFsRecPtr; fsRecPtr = fsRecPtr->prevPtr; } /* Make sure the above gets released on thread exit */ if (tsdPtr->initialized == 0) { Tcl_CreateThreadExitHandler(FsThrExitProc, (ClientData)tsdPtr); tsdPtr->initialized = 1; } } #endif static FilesystemRecord * FsGetFirstFilesystem(void) { ThreadSpecificData *tsdPtr = TCL_TSD_INIT(&dataKey); FilesystemRecord *fsRecPtr; #ifndef TCL_THREADS tsdPtr->filesystemEpoch = theFilesystemEpoch; fsRecPtr = filesystemList; #else Tcl_MutexLock(&filesystemMutex); if (tsdPtr->filesystemList == NULL || (tsdPtr->filesystemEpoch != theFilesystemEpoch)) { FsRecacheFilesystemList(); tsdPtr->filesystemEpoch = theFilesystemEpoch; } Tcl_MutexUnlock(&filesystemMutex); fsRecPtr = tsdPtr->filesystemList; #endif return fsRecPtr; } static void FsUpdateCwd(cwdObj) Tcl_Obj *cwdObj; { int len; char *str = NULL; ThreadSpecificData *tsdPtr = TCL_TSD_INIT(&dataKey); if (cwdObj != NULL) { str = Tcl_GetStringFromObj(cwdObj, &len); } Tcl_MutexLock(&cwdMutex); if (cwdPathPtr != NULL) { Tcl_DecrRefCount(cwdPathPtr); } if (cwdObj == NULL) { cwdPathPtr = NULL; } else { /* This MUST be stored as string object! */ cwdPathPtr = Tcl_NewStringObj(str, len); Tcl_IncrRefCount(cwdPathPtr); } cwdPathEpoch++; tsdPtr->cwdPathEpoch = cwdPathEpoch; Tcl_MutexUnlock(&cwdMutex); if (tsdPtr->cwdPathPtr) { Tcl_DecrRefCount(tsdPtr->cwdPathPtr); } if (cwdObj == NULL) { tsdPtr->cwdPathPtr = NULL; } else { tsdPtr->cwdPathPtr = Tcl_NewStringObj(str, len); Tcl_IncrRefCount(tsdPtr->cwdPathPtr); } } /* *---------------------------------------------------------------------- * * TclFinalizeFilesystem -- * * Clean up the filesystem. After this, calls to all Tcl_FS... * functions will fail. * * We will later call TclResetFilesystem to restore the FS * to a pristine state. * * Results: * None. * * Side effects: * Frees any memory allocated by the filesystem. * *---------------------------------------------------------------------- */ void TclFinalizeFilesystem() { FilesystemRecord *fsRecPtr; /* * Assumption that only one thread is active now. Otherwise * we would need to put various mutexes around this code. */ if (cwdPathPtr != NULL) { Tcl_DecrRefCount(cwdPathPtr); cwdPathPtr = NULL; cwdPathEpoch = 0; } /* * Remove all filesystems, freeing any allocated memory * that is no longer needed */ fsRecPtr = filesystemList; while (fsRecPtr != NULL) { FilesystemRecord *tmpFsRecPtr = fsRecPtr->nextPtr; if (fsRecPtr->fileRefCount <= 0) { /* The native filesystem is static, so we don't free it */ if (fsRecPtr->fsPtr != &tclNativeFilesystem) { ckfree((char *)fsRecPtr); } } fsRecPtr = tmpFsRecPtr; } filesystemList = NULL; /* * Now filesystemList is NULL. This means that any attempt * to use the filesystem is likely to fail. */ statProcList = NULL; accessProcList = NULL; openFileChannelProcList = NULL; #ifdef __WIN32__ TclWinEncodingsCleanup(); #endif } /* *---------------------------------------------------------------------- * * TclResetFilesystem -- * * Restore the filesystem to a pristine state. * * Results: * None. * * Side effects: * None. * *---------------------------------------------------------------------- */ void TclResetFilesystem() { filesystemList = &nativeFilesystemRecord; /* * Note, at this point, I believe nativeFilesystemRecord -> * fileRefCount should equal 1 and if not, we should try to track * down the cause. */ #ifdef __WIN32__ /* * Cleans up the win32 API filesystem proc lookup table. This must * happen very late in finalization so that deleting of copied * dlls can occur. */ TclWinResetInterfaces(); #endif } /* *---------------------------------------------------------------------- * * Tcl_FSRegister -- * * Insert the filesystem function table at the head of the list of * functions which are used during calls to all file-system * operations. The filesystem will be added even if it is * already in the list. (You can use Tcl_FSData to * check if it is in the list, provided the ClientData used was * not NULL). * * Note that the filesystem handling is head-to-tail of the list. * Each filesystem is asked in turn whether it can handle a * particular request, _until_ one of them says 'yes'. At that * point no further filesystems are asked. * * In particular this means if you want to add a diagnostic * filesystem (which simply reports all fs activity), it must be * at the head of the list: i.e. it must be the last registered. * * Results: * Normally TCL_OK; TCL_ERROR if memory for a new node in the list * could not be allocated. * * Side effects: * Memory allocated and modifies the link list for filesystems. * *---------------------------------------------------------------------- */ int Tcl_FSRegister(clientData, fsPtr) ClientData clientData; /* Client specific data for this fs */ Tcl_Filesystem *fsPtr; /* The filesystem record for the new fs. */ { FilesystemRecord *newFilesystemPtr; if (fsPtr == NULL) { return TCL_ERROR; } newFilesystemPtr = (FilesystemRecord *) ckalloc(sizeof(FilesystemRecord)); newFilesystemPtr->clientData = clientData; newFilesystemPtr->fsPtr = fsPtr; /* * We start with a refCount of 1. If this drops to zero, then * anyone is welcome to ckfree us. */ newFilesystemPtr->fileRefCount = 1; /* * Is this lock and wait strictly speaking necessary? Since any * iterators out there will have grabbed a copy of the head of * the list and be iterating away from that, if we add a new * element to the head of the list, it can't possibly have any * effect on any of their loops. In fact it could be better not * to wait, since we are adjusting the filesystem epoch, any * cached representations calculated by existing iterators are * going to have to be thrown away anyway. * * However, since registering and unregistering filesystems is * a very rare action, this is not a very important point. */ Tcl_MutexLock(&filesystemMutex); newFilesystemPtr->nextPtr = filesystemList; newFilesystemPtr->prevPtr = NULL; if (filesystemList) { filesystemList->prevPtr = newFilesystemPtr; } filesystemList = newFilesystemPtr; /* * Increment the filesystem epoch counter, since existing paths * might conceivably now belong to different filesystems. */ theFilesystemEpoch++; Tcl_MutexUnlock(&filesystemMutex); return TCL_OK; } /* *---------------------------------------------------------------------- * * Tcl_FSUnregister -- * * Remove the passed filesystem from the list of filesystem * function tables. It also ensures that the built-in * (native) filesystem is not removable, although we may wish * to change that decision in the future to allow a smaller * Tcl core, in which the native filesystem is not used at * all (we could, say, initialise Tcl completely over a network * connection). * * Results: * TCL_OK if the procedure pointer was successfully removed, * TCL_ERROR otherwise. * * Side effects: * Memory may be deallocated (or will be later, once no "path" * objects refer to this filesystem), but the list of registered * filesystems is updated immediately. * *---------------------------------------------------------------------- */ int Tcl_FSUnregister(fsPtr) Tcl_Filesystem *fsPtr; /* The filesystem record to remove. */ { int retVal = TCL_ERROR; FilesystemRecord *fsRecPtr; Tcl_MutexLock(&filesystemMutex); /* * Traverse the 'filesystemList' looking for the particular node * whose 'fsPtr' member matches 'fsPtr' and remove that one from * the list. Ensure that the "default" node cannot be removed. */ fsRecPtr = filesystemList; while ((retVal == TCL_ERROR) && (fsRecPtr->fsPtr != &tclNativeFilesystem)) { if (fsRecPtr->fsPtr == fsPtr) { if (fsRecPtr->prevPtr) { fsRecPtr->prevPtr->nextPtr = fsRecPtr->nextPtr; } else { filesystemList = fsRecPtr->nextPtr; } if (fsRecPtr->nextPtr) { fsRecPtr->nextPtr->prevPtr = fsRecPtr->prevPtr; } /* * Increment the filesystem epoch counter, since existing * paths might conceivably now belong to different * filesystems. This should also ensure that paths which * have cached the filesystem which is about to be deleted * do not reference that filesystem (which would of course * lead to memory exceptions). */ theFilesystemEpoch++; fsRecPtr->fileRefCount--; if (fsRecPtr->fileRefCount <= 0) { ckfree((char *)fsRecPtr); } retVal = TCL_OK; } else { fsRecPtr = fsRecPtr->nextPtr; } } Tcl_MutexUnlock(&filesystemMutex); return (retVal); } /* *---------------------------------------------------------------------- * * Tcl_FSMatchInDirectory -- * * This routine is used by the globbing code to search a directory * for all files which match a given pattern. The appropriate * function for the filesystem to which pathPtr belongs will be * called. If pathPtr does not belong to any filesystem and if it * is NULL or the empty string, then we assume the pattern is to be * matched in the current working directory. To avoid each * filesystem's Tcl_FSMatchInDirectoryProc having to deal with this * issue, we create a pathPtr on the fly (equal to the cwd), and * then remove it from the results returned. This makes filesystems * easy to write, since they can assume the pathPtr passed to them * is an ordinary path. In fact this means we could remove such * special case handling from Tcl's native filesystems. * * If 'pattern' is NULL, then pathPtr is assumed to be a fully * specified path of a single file/directory which must be * checked for existence and correct type. * * Results: * * The return value is a standard Tcl result indicating whether an * error occurred in globbing. Error messages are placed in * interp, but good results are placed in the resultPtr given. * * Recursive searches, e.g. * * glob -dir $dir -join * pkgIndex.tcl * * which must recurse through each directory matching '*' are * handled internally by Tcl, by passing specific flags in a * modified 'types' parameter. This means the actual filesystem * only ever sees patterns which match in a single directory. * * Side effects: * The interpreter may have an error message inserted into it. * *---------------------------------------------------------------------- */ int Tcl_FSMatchInDirectory(interp, result, pathPtr, pattern, types) Tcl_Interp *interp; /* Interpreter to receive error messages. */ Tcl_Obj *result; /* List object to receive results. */ Tcl_Obj *pathPtr; /* Contains path to directory to search. */ CONST char *pattern; /* Pattern to match against. */ Tcl_GlobTypeData *types; /* Object containing list of acceptable types. * May be NULL. In particular the directory * flag is very important. */ { Tcl_Filesystem *fsPtr = Tcl_FSGetFileSystemForPath(pathPtr); if (fsPtr != NULL) { Tcl_FSMatchInDirectoryProc *proc = fsPtr->matchInDirectoryProc; if (proc != NULL) { int ret = (*proc)(interp, result, pathPtr, pattern, types); if (ret == TCL_OK && pattern != NULL) { result = FsAddMountsToGlobResult(result, pathPtr, pattern, types); } return ret; } } else { Tcl_Obj* cwd; int ret = -1; if (pathPtr != NULL) { int len; Tcl_GetStringFromObj(pathPtr,&len); if (len != 0) { /* * We have no idea how to match files in a directory * which belongs to no known filesystem */ Tcl_SetErrno(ENOENT); return -1; } } /* * We have an empty or NULL path. This is defined to mean we * must search for files within the current 'cwd'. We * therefore use that, but then since the proc we call will * return results which include the cwd we must then trim it * off the front of each path in the result. We choose to deal * with this here (in the generic code), since if we don't, * every single filesystem's implementation of * Tcl_FSMatchInDirectory will have to deal with it for us. */ cwd = Tcl_FSGetCwd(NULL); if (cwd == NULL) { if (interp != NULL) { Tcl_SetResult(interp, "glob couldn't determine " "the current working directory", TCL_STATIC); } return TCL_ERROR; } fsPtr = Tcl_FSGetFileSystemForPath(cwd); if (fsPtr != NULL) { Tcl_FSMatchInDirectoryProc *proc = fsPtr->matchInDirectoryProc; if (proc != NULL) { Tcl_Obj* tmpResultPtr = Tcl_NewListObj(0, NULL); Tcl_IncrRefCount(tmpResultPtr); ret = (*proc)(interp, tmpResultPtr, cwd, pattern, types); if (ret == TCL_OK) { int resLength; tmpResultPtr = FsAddMountsToGlobResult(tmpResultPtr, cwd, pattern, types); ret = Tcl_ListObjLength(interp, tmpResultPtr, &resLength); if (ret == TCL_OK) { int i; for (i = 0; i < resLength; i++) { Tcl_Obj *elt; Tcl_ListObjIndex(interp, tmpResultPtr, i, &elt); Tcl_ListObjAppendElement(interp, result, TclFSMakePathRelative(interp, elt, cwd)); } } } Tcl_DecrRefCount(tmpResultPtr); } } Tcl_DecrRefCount(cwd); return ret; } Tcl_SetErrno(ENOENT); return -1; } /* *---------------------------------------------------------------------- * * FsAddMountsToGlobResult -- * * This routine is used by the globbing code to take the results * of a directory listing and add any mounted paths to that * listing. This is required so that simple things like * 'glob *' merge mounts and listings correctly. * * Results: * * The passed in 'result' may be modified (in place, if * necessary), and the correct list is returned. * * Side effects: * None. * *---------------------------------------------------------------------- */ static Tcl_Obj* FsAddMountsToGlobResult(result, pathPtr, pattern, types) Tcl_Obj *result; /* The current list of matching paths */ Tcl_Obj *pathPtr; /* The directory in question */ CONST char *pattern; Tcl_GlobTypeData *types; { int mLength, gLength, i; int dir = (types == NULL || (types->type & TCL_GLOB_TYPE_DIR)); Tcl_Obj *mounts = FsListMounts(pathPtr, pattern); if (mounts == NULL) return result; if (Tcl_ListObjLength(NULL, mounts, &mLength) != TCL_OK || mLength == 0) { goto endOfMounts; } if (Tcl_ListObjLength(NULL, result, &gLength) != TCL_OK) { goto endOfMounts; } for (i = 0; i < mLength; i++) { Tcl_Obj *mElt; int j; int found = 0; Tcl_ListObjIndex(NULL, mounts, i, &mElt); for (j = 0; j < gLength; j++) { Tcl_Obj *gElt; Tcl_ListObjIndex(NULL, result, j, &gElt); if (Tcl_FSEqualPaths(mElt, gElt)) { found = 1; if (!dir) { /* We don't want to list this */ if (Tcl_IsShared(result)) { Tcl_Obj *newList; newList = Tcl_DuplicateObj(result); Tcl_DecrRefCount(result); result = newList; } Tcl_ListObjReplace(NULL, result, j, 1, 0, NULL); gLength--; } /* Break out of for loop */ break; } } if (!found && dir) { if (Tcl_IsShared(result)) { Tcl_Obj *newList; newList = Tcl_DuplicateObj(result); Tcl_DecrRefCount(result); result = newList; } Tcl_ListObjAppendElement(NULL, result, mElt); /* * No need to increment gLength, since we * don't want to compare mounts against * mounts. */ } } endOfMounts: Tcl_DecrRefCount(mounts); return result; } /* *---------------------------------------------------------------------- * * Tcl_FSMountsChanged -- * * Notify the filesystem that the available mounted filesystems * (or within any one filesystem type, the number or location of * mount points) have changed. * * Results: * None. * * Side effects: * The global filesystem variable 'theFilesystemEpoch' is * incremented. The effect of this is to make all cached * path representations invalid. Clearly it should only therefore * be called when it is really required! There are a few * circumstances when it should be called: * * (1) when a new filesystem is registered or unregistered. * Strictly speaking this is only necessary if the new filesystem * accepts file paths as is (normally the filesystem itself is * really a shell which hasn't yet had any mount points established * and so its 'pathInFilesystem' proc will always fail). However, * for safety, Tcl always calls this for you in these circumstances. * * (2) when additional mount points are established inside any * existing filesystem (except the native fs) * * (3) when any filesystem (except the native fs) changes the list * of available volumes. * * (4) when the mapping from a string representation of a file to * a full, normalized path changes. For example, if 'env(HOME)' * is modified, then any path containing '~' will map to a different * filesystem location. Therefore all such paths need to have * their internal representation invalidated. * * Tcl has no control over (2) and (3), so any registered filesystem * must make sure it calls this function when those situations * occur. * * (Note: the reason for the exception in 2,3 for the native * filesystem is that the native filesystem by default claims all * unknown files even if it really doesn't understand them or if * they don't exist). * *---------------------------------------------------------------------- */ void Tcl_FSMountsChanged(fsPtr) Tcl_Filesystem *fsPtr; { /* * We currently don't do anything with this parameter. We * could in the future only invalidate files for this filesystem * or otherwise take more advanced action. */ (void)fsPtr; /* * Increment the filesystem epoch counter, since existing paths * might now belong to different filesystems. */ Tcl_MutexLock(&filesystemMutex); theFilesystemEpoch++; Tcl_MutexUnlock(&filesystemMutex); } /* *---------------------------------------------------------------------- * * Tcl_FSData -- * * Retrieve the clientData field for the filesystem given, * or NULL if that filesystem is not registered. * * Results: * A clientData value, or NULL. Note that if the filesystem * was registered with a NULL clientData field, this function * will return that NULL value. * * Side effects: * None. * *---------------------------------------------------------------------- */ ClientData Tcl_FSData(fsPtr) Tcl_Filesystem *fsPtr; /* The filesystem record to query. */ { ClientData retVal = NULL; FilesystemRecord *fsRecPtr = FsGetFirstFilesystem(); /* * Traverse the 'filesystemList' looking for the particular node * whose 'fsPtr' member matches 'fsPtr' and remove that one from * the list. Ensure that the "default" node cannot be removed. */ while ((retVal == NULL) && (fsRecPtr != NULL)) { if (fsRecPtr->fsPtr == fsPtr) { retVal = fsRecPtr->clientData; } fsRecPtr = fsRecPtr->nextPtr; } return retVal; } /* *--------------------------------------------------------------------------- * * TclFSNormalizeAbsolutePath -- * * Description: * Takes an absolute path specification and computes a 'normalized' * path from it. * * A normalized path is one which has all '../', './' removed. * Also it is one which is in the 'standard' format for the native * platform. On MacOS, Unix, this means the path must be free of * symbolic links/aliases, and on Windows it means we want the * long form, with that long form's case-dependence (which gives * us a unique, case-dependent path). * * The behaviour of this function if passed a non-absolute path * is NOT defined. * * Results: * The result is returned in a Tcl_Obj with a refCount of 1, * which is therefore owned by the caller. It must be * freed (with Tcl_DecrRefCount) by the caller when no longer needed. * * Side effects: * None (beyond the memory allocation for the result). * * Special note: * This code is based on code from Matt Newman and Jean-Claude * Wippler, with additions from Vince Darley and is copyright * those respective authors. * *--------------------------------------------------------------------------- */ static Tcl_Obj * TclFSNormalizeAbsolutePath(interp, pathPtr, clientDataPtr) Tcl_Interp* interp; /* Interpreter to use */ Tcl_Obj *pathPtr; /* Absolute path to normalize */ ClientData *clientDataPtr; { int splen = 0, nplen, eltLen, i; char *eltName; Tcl_Obj *retVal; Tcl_Obj *split; Tcl_Obj *elt; /* Split has refCount zero */ split = Tcl_FSSplitPath(pathPtr, &splen); /* * Modify the list of entries in place, by removing '.', and * removing '..' and the entry before -- unless that entry before * is the top-level entry, i.e. the name of a volume. */ nplen = 0; for (i = 0; i < splen; i++) { Tcl_ListObjIndex(NULL, split, nplen, &elt); eltName = Tcl_GetStringFromObj(elt, &eltLen); if ((eltLen == 1) && (eltName[0] == '.')) { Tcl_ListObjReplace(NULL, split, nplen, 1, 0, NULL); } else if ((eltLen == 2) && (eltName[0] == '.') && (eltName[1] == '.')) { if (nplen > 1) { nplen--; Tcl_ListObjReplace(NULL, split, nplen, 2, 0, NULL); } else { Tcl_ListObjReplace(NULL, split, nplen, 1, 0, NULL); } } else { nplen++; } } if (nplen > 0) { ClientData clientData = NULL; retVal = Tcl_FSJoinPath(split, nplen); /* * Now we have an absolute path, with no '..', '.' sequences, * but it still may not be in 'unique' form, depending on the * platform. For instance, Unix is case-sensitive, so the * path is ok. Windows is case-insensitive, and also has the * weird 'longname/shortname' thing (e.g. C:/Program Files/ and * C:/Progra~1/ are equivalent). MacOS is case-insensitive. * * Virtual file systems which may be registered may have * other criteria for normalizing a path. */ Tcl_IncrRefCount(retVal); TclFSNormalizeToUniquePath(interp, retVal, 0, &clientData); /* * Since we know it is a normalized path, we can * actually convert this object into an "path" object for * greater efficiency */ TclFSMakePathFromNormalized(interp, retVal, clientData); if (clientDataPtr != NULL) { *clientDataPtr = clientData; } } else { /* Init to an empty string */ retVal = Tcl_NewStringObj("",0); Tcl_IncrRefCount(retVal); } /* * We increment and then decrement the refCount of split to free * it. We do this right at the end, in case there are * optimisations in Tcl_FSJoinPath(split, nplen) above which would * let it make use of split more effectively if it has a refCount * of zero. Also we can't just decrement the ref count, in case * 'split' was actually returned by the join call above, in a * single-element optimisation when nplen == 1. */ Tcl_IncrRefCount(split); Tcl_DecrRefCount(split); /* This has a refCount of 1 for the caller */ return retVal; } /* *--------------------------------------------------------------------------- * * TclFSNormalizeToUniquePath -- * * Description: * Takes a path specification containing no ../, ./ sequences, * and converts it into a unique path for the given platform. * On MacOS, Unix, this means the path must be free of * symbolic links/aliases, and on Windows it means we want the * long form, with that long form's case-dependence (which gives * us a unique, case-dependent path). * * Results: * The pathPtr is modified in place. The return value is * the last byte offset which was recognised in the path * string. * * Side effects: * None (beyond the memory allocation for the result). * * Special notes: * If the filesystem-specific normalizePathProcs can re-introduce * ../, ./ sequences into the path, then this function will * not return the correct result. This may be possible with * symbolic links on unix/macos. * * Important assumption: if startAt is non-zero, it must point * to a directory separator that we know exists and is already * normalized (so it is important not to point to the char just * after the separator). *--------------------------------------------------------------------------- */ int TclFSNormalizeToUniquePath(interp, pathPtr, startAt, clientDataPtr) Tcl_Interp *interp; Tcl_Obj *pathPtr; int startAt; ClientData *clientDataPtr; { FilesystemRecord *fsRecPtr, *firstFsRecPtr; /* Ignore this variable */ (void)clientDataPtr; /* * Call each of the "normalise path" functions in succession. This is * a special case, in which if we have a native filesystem handler, * we call it first. This is because the root of Tcl's filesystem * is always a native filesystem (i.e. '/' on unix is native). */ firstFsRecPtr = FsGetFirstFilesystem(); fsRecPtr = firstFsRecPtr; while (fsRecPtr != NULL) { if (fsRecPtr->fsPtr == &tclNativeFilesystem) { Tcl_FSNormalizePathProc *proc = fsRecPtr->fsPtr->normalizePathProc; if (proc != NULL) { startAt = (*proc)(interp, pathPtr, startAt); } break; } fsRecPtr = fsRecPtr->nextPtr; } fsRecPtr = firstFsRecPtr; while (fsRecPtr != NULL) { /* Skip the native system next time through */ if (fsRecPtr->fsPtr != &tclNativeFilesystem) { Tcl_FSNormalizePathProc *proc = fsRecPtr->fsPtr->normalizePathProc; if (proc != NULL) { startAt = (*proc)(interp, pathPtr, startAt); } /* * We could add an efficiency check like this: * * if (retVal == length-of(pathPtr)) {break;} * * but there's not much benefit. */ } fsRecPtr = fsRecPtr->nextPtr; } return startAt; } /* *--------------------------------------------------------------------------- * * TclGetOpenMode -- * * Description: * Computes a POSIX mode mask for opening a file, from a given string, * and also sets a flag to indicate whether the caller should seek to * EOF after opening the file. * * Results: * On success, returns mode to pass to "open". If an error occurs, the * return value is -1 and if interp is not NULL, sets interp's result * object to an error message. * * Side effects: * Sets the integer referenced by seekFlagPtr to 1 to tell the caller * to seek to EOF after opening the file. * * Special note: * This code is based on a prototype implementation contributed * by Mark Diekhans. * *--------------------------------------------------------------------------- */ int TclGetOpenMode(interp, string, seekFlagPtr) Tcl_Interp *interp; /* Interpreter to use for error * reporting - may be NULL. */ CONST char *string; /* Mode string, e.g. "r+" or * "RDONLY CREAT". */ int *seekFlagPtr; /* Set this to 1 if the caller * should seek to EOF during the * opening of the file. */ { int mode, modeArgc, c, i, gotRW; CONST char **modeArgv, *flag; #define RW_MODES (O_RDONLY|O_WRONLY|O_RDWR) /* * Check for the simpler fopen-like access modes (e.g. "r"). They * are distinguished from the POSIX access modes by the presence * of a lower-case first letter. */ *seekFlagPtr = 0; mode = 0; /* * Guard against international characters before using byte oriented * routines. */ if (!(string[0] & 0x80) && islower(UCHAR(string[0]))) { /* INTL: ISO only. */ switch (string[0]) { case 'r': mode = O_RDONLY; break; case 'w': mode = O_WRONLY|O_CREAT|O_TRUNC; break; case 'a': /* [Bug 680143]. * Added O_APPEND for proper automatic * seek-to-end-on-write by the OS. */ mode = O_WRONLY|O_CREAT|O_APPEND; *seekFlagPtr = 1; break; default: error: if (interp != (Tcl_Interp *) NULL) { Tcl_AppendResult(interp, "illegal access mode \"", string, "\"", (char *) NULL); } return -1; } if (string[1] == '+') { /* * Must remove the O_APPEND flag so that the seek command * works. [Bug 1773127] */ mode &= ~(O_RDONLY|O_WRONLY|O_APPEND); mode |= O_RDWR; if (string[2] != 0) { goto error; } } else if (string[1] != 0) { goto error; } return mode; } /* * The access modes are specified using a list of POSIX modes * such as O_CREAT. * * IMPORTANT NOTE: We rely on Tcl_SplitList working correctly when * a NULL interpreter is passed in. */ if (Tcl_SplitList(interp, string, &modeArgc, &modeArgv) != TCL_OK) { if (interp != (Tcl_Interp *) NULL) { Tcl_AddErrorInfo(interp, "\n while processing open access modes \""); Tcl_AddErrorInfo(interp, string); Tcl_AddErrorInfo(interp, "\""); } return -1; } gotRW = 0; for (i = 0; i < modeArgc; i++) { flag = modeArgv[i]; c = flag[0]; if ((c == 'R') && (strcmp(flag, "RDONLY") == 0)) { mode = (mode & ~RW_MODES) | O_RDONLY; gotRW = 1; } else if ((c == 'W') && (strcmp(flag, "WRONLY") == 0)) { mode = (mode & ~RW_MODES) | O_WRONLY; gotRW = 1; } else if ((c == 'R') && (strcmp(flag, "RDWR") == 0)) { mode = (mode & ~RW_MODES) | O_RDWR; gotRW = 1; } else if ((c == 'A') && (strcmp(flag, "APPEND") == 0)) { mode |= O_APPEND; *seekFlagPtr = 1; } else if ((c == 'C') && (strcmp(flag, "CREAT") == 0)) { mode |= O_CREAT; } else if ((c == 'E') && (strcmp(flag, "EXCL") == 0)) { mode |= O_EXCL; } else if ((c == 'N') && (strcmp(flag, "NOCTTY") == 0)) { #ifdef O_NOCTTY mode |= O_NOCTTY; #else if (interp != (Tcl_Interp *) NULL) { Tcl_AppendResult(interp, "access mode \"", flag, "\" not supported by this system", (char *) NULL); } ckfree((char *) modeArgv); return -1; #endif } else if ((c == 'N') && (strcmp(flag, "NONBLOCK") == 0)) { #if defined(O_NDELAY) || defined(O_NONBLOCK) # ifdef O_NONBLOCK mode |= O_NONBLOCK; # else mode |= O_NDELAY; # endif #else if (interp != (Tcl_Interp *) NULL) { Tcl_AppendResult(interp, "access mode \"", flag, "\" not supported by this system", (char *) NULL); } ckfree((char *) modeArgv); return -1; #endif } else if ((c == 'T') && (strcmp(flag, "TRUNC") == 0)) { mode |= O_TRUNC; } else { if (interp != (Tcl_Interp *) NULL) { Tcl_AppendResult(interp, "invalid access mode \"", flag, "\": must be RDONLY, WRONLY, RDWR, APPEND, CREAT", " EXCL, NOCTTY, NONBLOCK, or TRUNC", (char *) NULL); } ckfree((char *) modeArgv); return -1; } } ckfree((char *) modeArgv); if (!gotRW) { if (interp != (Tcl_Interp *) NULL) { Tcl_AppendResult(interp, "access mode must include either", " RDONLY, WRONLY, or RDWR", (char *) NULL); } return -1; } return mode; } /* *---------------------------------------------------------------------- * * Tcl_FSEvalFile -- * * Read in a file and process the entire file as one gigantic * Tcl command. * * Results: * A standard Tcl result, which is either the result of executing * the file or an error indicating why the file couldn't be read. * * Side effects: * Depends on the commands in the file. During the evaluation * of the contents of the file, iPtr->scriptFile is made to * point to pathPtr (the old value is cached and replaced when * this function returns). * *---------------------------------------------------------------------- */ int Tcl_FSEvalFile(interp, pathPtr) Tcl_Interp *interp; /* Interpreter in which to process file. */ Tcl_Obj *pathPtr; /* Path of file to process. Tilde-substitution * will be performed on this name. */ { int result, length; Tcl_StatBuf statBuf; Tcl_Obj *oldScriptFile; Interp *iPtr; char *string; Tcl_Channel chan; Tcl_Obj *objPtr; if (Tcl_FSGetNormalizedPath(interp, pathPtr) == NULL) { return TCL_ERROR; } result = TCL_ERROR; objPtr = Tcl_NewObj(); Tcl_IncrRefCount(objPtr); if (Tcl_FSStat(pathPtr, &statBuf) == -1) { Tcl_SetErrno(errno); Tcl_AppendResult(interp, "couldn't read file \"", Tcl_GetString(pathPtr), "\": ", Tcl_PosixError(interp), (char *) NULL); goto end; } chan = Tcl_FSOpenFileChannel(interp, pathPtr, "r", 0644); if (chan == (Tcl_Channel) NULL) { Tcl_ResetResult(interp); Tcl_AppendResult(interp, "couldn't read file \"", Tcl_GetString(pathPtr), "\": ", Tcl_PosixError(interp), (char *) NULL); goto end; } /* * The eofchar is \32 (^Z). This is the usual on Windows, but we * effect this cross-platform to allow for scripted documents. * [Bug: 2040] */ Tcl_SetChannelOption(interp, chan, "-eofchar", "\32"); if (Tcl_ReadChars(chan, objPtr, -1, 0) < 0) { Tcl_Close(interp, chan); Tcl_AppendResult(interp, "couldn't read file \"", Tcl_GetString(pathPtr), "\": ", Tcl_PosixError(interp), (char *) NULL); goto end; } if (Tcl_Close(interp, chan) != TCL_OK) { goto end; } iPtr = (Interp *) interp; oldScriptFile = iPtr->scriptFile; iPtr->scriptFile = pathPtr; Tcl_IncrRefCount(iPtr->scriptFile); string = Tcl_GetStringFromObj(objPtr, &length); #ifdef TCL_TIP280 /* TIP #280 Force the evaluator to open a frame for a sourced * file. */ iPtr->evalFlags |= TCL_EVAL_FILE; #endif result = Tcl_EvalEx(interp, string, length, 0); /* * Now we have to be careful; the script may have changed the * iPtr->scriptFile value, so we must reset it without * assuming it still points to 'pathPtr'. */ if (iPtr->scriptFile != NULL) { Tcl_DecrRefCount(iPtr->scriptFile); } iPtr->scriptFile = oldScriptFile; if (result == TCL_RETURN) { result = TclUpdateReturnInfo(iPtr); } else if (result == TCL_ERROR) { char msg[200 + TCL_INTEGER_SPACE]; /* * Record information telling where the error occurred. */ sprintf(msg, "\n (file \"%.150s\" line %d)", Tcl_GetString(pathPtr), interp->errorLine); Tcl_AddErrorInfo(interp, msg); } end: Tcl_DecrRefCount(objPtr); return result; } /* *---------------------------------------------------------------------- * * Tcl_GetErrno -- * * Gets the current value of the Tcl error code variable. This is * currently the global variable "errno" but could in the future * change to something else. * * Results: * The value of the Tcl error code variable. * * Side effects: * None. Note that the value of the Tcl error code variable is * UNDEFINED if a call to Tcl_SetErrno did not precede this call. * *---------------------------------------------------------------------- */ int Tcl_GetErrno() { return errno; } /* *---------------------------------------------------------------------- * * Tcl_SetErrno -- * * Sets the Tcl error code variable to the supplied value. * * Results: * None. * * Side effects: * Modifies the value of the Tcl error code variable. * *---------------------------------------------------------------------- */ void Tcl_SetErrno(err) int err; /* The new value. */ { errno = err; } /* *---------------------------------------------------------------------- * * Tcl_PosixError -- * * This procedure is typically called after UNIX kernel calls * return errors. It stores machine-readable information about * the error in $errorCode returns an information string for * the caller's use. * * Results: * The return value is a human-readable string describing the * error. * * Side effects: * The global variable $errorCode is reset. * *---------------------------------------------------------------------- */ CONST char * Tcl_PosixError(interp) Tcl_Interp *interp; /* Interpreter whose $errorCode variable * is to be changed. */ { CONST char *id, *msg; msg = Tcl_ErrnoMsg(errno); id = Tcl_ErrnoId(); if (interp) { Tcl_SetErrorCode(interp, "POSIX", id, msg, (char *) NULL); } return msg; } /* *---------------------------------------------------------------------- * * Tcl_FSStat -- * * This procedure replaces the library version of stat and lsat. * * The appropriate function for the filesystem to which pathPtr * belongs will be called. * * Results: * See stat documentation. * * Side effects: * See stat documentation. * *---------------------------------------------------------------------- */ int Tcl_FSStat(pathPtr, buf) Tcl_Obj *pathPtr; /* Path of file to stat (in current CP). */ Tcl_StatBuf *buf; /* Filled with results of stat call. */ { Tcl_Filesystem *fsPtr; #ifdef USE_OBSOLETE_FS_HOOKS struct stat oldStyleStatBuffer; int retVal = -1; /* * Call each of the "stat" function in succession. A non-return * value of -1 indicates the particular function has succeeded. */ Tcl_MutexLock(&obsoleteFsHookMutex); if (statProcList != NULL) { StatProc *statProcPtr; char *path; Tcl_Obj *transPtr = Tcl_FSGetTranslatedPath(NULL, pathPtr); if (transPtr == NULL) { path = NULL; } else { path = Tcl_GetString(transPtr); } statProcPtr = statProcList; while ((retVal == -1) && (statProcPtr != NULL)) { retVal = (*statProcPtr->proc)(path, &oldStyleStatBuffer); statProcPtr = statProcPtr->nextPtr; } if (transPtr != NULL) { Tcl_DecrRefCount(transPtr); } } Tcl_MutexUnlock(&obsoleteFsHookMutex); if (retVal != -1) { /* * Note that EOVERFLOW is not a problem here, and these * assignments should all be widening (if not identity.) */ buf->st_mode = oldStyleStatBuffer.st_mode; buf->st_ino = oldStyleStatBuffer.st_ino; buf->st_dev = oldStyleStatBuffer.st_dev; buf->st_rdev = oldStyleStatBuffer.st_rdev; buf->st_nlink = oldStyleStatBuffer.st_nlink; buf->st_uid = oldStyleStatBuffer.st_uid; buf->st_gid = oldStyleStatBuffer.st_gid; buf->st_size = Tcl_LongAsWide(oldStyleStatBuffer.st_size); buf->st_atime = oldStyleStatBuffer.st_atime; buf->st_mtime = oldStyleStatBuffer.st_mtime; buf->st_ctime = oldStyleStatBuffer.st_ctime; #ifdef HAVE_ST_BLOCKS buf->st_blksize = oldStyleStatBuffer.st_blksize; buf->st_blocks = Tcl_LongAsWide(oldStyleStatBuffer.st_blocks); #endif return retVal; } #endif /* USE_OBSOLETE_FS_HOOKS */ fsPtr = Tcl_FSGetFileSystemForPath(pathPtr); if (fsPtr != NULL) { Tcl_FSStatProc *proc = fsPtr->statProc; if (proc != NULL) { return (*proc)(pathPtr, buf); } } Tcl_SetErrno(ENOENT); return -1; } /* *---------------------------------------------------------------------- * * Tcl_FSLstat -- * * This procedure replaces the library version of lstat. * The appropriate function for the filesystem to which pathPtr * belongs will be called. If no 'lstat' function is listed, * but a 'stat' function is, then Tcl will fall back on the * stat function. * * Results: * See lstat documentation. * * Side effects: * See lstat documentation. * *---------------------------------------------------------------------- */ int Tcl_FSLstat(pathPtr, buf) Tcl_Obj *pathPtr; /* Path of file to stat (in current CP). */ Tcl_StatBuf *buf; /* Filled with results of stat call. */ { Tcl_Filesystem *fsPtr = Tcl_FSGetFileSystemForPath(pathPtr); if (fsPtr != NULL) { Tcl_FSLstatProc *proc = fsPtr->lstatProc; if (proc != NULL) { return (*proc)(pathPtr, buf); } else { Tcl_FSStatProc *sproc = fsPtr->statProc; if (sproc != NULL) { return (*sproc)(pathPtr, buf); } } } Tcl_SetErrno(ENOENT); return -1; } /* *---------------------------------------------------------------------- * * Tcl_FSAccess -- * * This procedure replaces the library version of access. * The appropriate function for the filesystem to which pathPtr * belongs will be called. * * Results: * See access documentation. * * Side effects: * See access documentation. * *---------------------------------------------------------------------- */ int Tcl_FSAccess(pathPtr, mode) Tcl_Obj *pathPtr; /* Path of file to access (in current CP). */ int mode; /* Permission setting. */ { Tcl_Filesystem *fsPtr; #ifdef USE_OBSOLETE_FS_HOOKS int retVal = -1; /* * Call each of the "access" function in succession. A non-return * value of -1 indicates the particular function has succeeded. */ Tcl_MutexLock(&obsoleteFsHookMutex); if (accessProcList != NULL) { AccessProc *accessProcPtr; char *path; Tcl_Obj *transPtr = Tcl_FSGetTranslatedPath(NULL, pathPtr); if (transPtr == NULL) { path = NULL; } else { path = Tcl_GetString(transPtr); } accessProcPtr = accessProcList; while ((retVal == -1) && (accessProcPtr != NULL)) { retVal = (*accessProcPtr->proc)(path, mode); accessProcPtr = accessProcPtr->nextPtr; } if (transPtr != NULL) { Tcl_DecrRefCount(transPtr); } } Tcl_MutexUnlock(&obsoleteFsHookMutex); if (retVal != -1) { return retVal; } #endif /* USE_OBSOLETE_FS_HOOKS */ fsPtr = Tcl_FSGetFileSystemForPath(pathPtr); if (fsPtr != NULL) { Tcl_FSAccessProc *proc = fsPtr->accessProc; if (proc != NULL) { return (*proc)(pathPtr, mode); } } Tcl_SetErrno(ENOENT); return -1; } /* *---------------------------------------------------------------------- * * Tcl_FSOpenFileChannel -- * * The appropriate function for the filesystem to which pathPtr * belongs will be called. * * Results: * The new channel or NULL, if the named file could not be opened. * * Side effects: * May open the channel and may cause creation of a file on the * file system. * *---------------------------------------------------------------------- */ Tcl_Channel Tcl_FSOpenFileChannel(interp, pathPtr, modeString, permissions) Tcl_Interp *interp; /* Interpreter for error reporting; * can be NULL. */ Tcl_Obj *pathPtr; /* Name of file to open. */ CONST char *modeString; /* A list of POSIX open modes or * a string such as "rw". */ int permissions; /* If the open involves creating a * file, with what modes to create * it? */ { Tcl_Filesystem *fsPtr; #ifdef USE_OBSOLETE_FS_HOOKS Tcl_Channel retVal = NULL; /* * Call each of the "Tcl_OpenFileChannel" functions in succession. * A non-NULL return value indicates the particular function has * succeeded. */ Tcl_MutexLock(&obsoleteFsHookMutex); if (openFileChannelProcList != NULL) { OpenFileChannelProc *openFileChannelProcPtr; char *path; Tcl_Obj *transPtr = Tcl_FSGetTranslatedPath(interp, pathPtr); if (transPtr == NULL) { path = NULL; } else { path = Tcl_GetString(transPtr); } openFileChannelProcPtr = openFileChannelProcList; while ((retVal == NULL) && (openFileChannelProcPtr != NULL)) { retVal = (*openFileChannelProcPtr->proc)(interp, path, modeString, permissions); openFileChannelProcPtr = openFileChannelProcPtr->nextPtr; } if (transPtr != NULL) { Tcl_DecrRefCount(transPtr); } } Tcl_MutexUnlock(&obsoleteFsHookMutex); if (retVal != NULL) { return retVal; } #endif /* USE_OBSOLETE_FS_HOOKS */ /* * We need this just to ensure we return the correct error messages * under some circumstances. */ if (Tcl_FSGetNormalizedPath(interp, pathPtr) == NULL) { return NULL; } fsPtr = Tcl_FSGetFileSystemForPath(pathPtr); if (fsPtr != NULL) { Tcl_FSOpenFileChannelProc *proc = fsPtr->openFileChannelProc; if (proc != NULL) { int mode, seekFlag; mode = TclGetOpenMode(interp, modeString, &seekFlag); if (mode == -1) { return NULL; } retVal = (*proc)(interp, pathPtr, mode, permissions); if (retVal != NULL) { if (seekFlag) { if (Tcl_Seek(retVal, (Tcl_WideInt)0, SEEK_END) < (Tcl_WideInt)0) { if (interp != (Tcl_Interp *) NULL) { Tcl_AppendResult(interp, "could not seek to end of file while opening \"", Tcl_GetString(pathPtr), "\": ", Tcl_PosixError(interp), (char *) NULL); } Tcl_Close(NULL, retVal); return NULL; } } } return retVal; } } /* File doesn't belong to any filesystem that can open it */ Tcl_SetErrno(ENOENT); if (interp != NULL) { Tcl_AppendResult(interp, "couldn't open \"", Tcl_GetString(pathPtr), "\": ", Tcl_PosixError(interp), (char *) NULL); } return NULL; } /* *---------------------------------------------------------------------- * * Tcl_FSUtime -- * * This procedure replaces the library version of utime. * The appropriate function for the filesystem to which pathPtr * belongs will be called. * * Results: * See utime documentation. * * Side effects: * See utime documentation. * *---------------------------------------------------------------------- */ int Tcl_FSUtime (pathPtr, tval) Tcl_Obj *pathPtr; /* File to change access/modification times */ struct utimbuf *tval; /* Structure containing access/modification * times to use. Should not be modified. */ { Tcl_Filesystem *fsPtr = Tcl_FSGetFileSystemForPath(pathPtr); if (fsPtr != NULL) { Tcl_FSUtimeProc *proc = fsPtr->utimeProc; if (proc != NULL) { return (*proc)(pathPtr, tval); } } return -1; } /* *---------------------------------------------------------------------- * * NativeFileAttrStrings -- * * This procedure implements the platform dependent 'file * attributes' subcommand, for the native filesystem, for listing * the set of possible attribute strings. This function is part * of Tcl's native filesystem support, and is placed here because * it is shared by Unix, MacOS and Windows code. * * Results: * An array of strings * * Side effects: * None. * *---------------------------------------------------------------------- */ static CONST char** NativeFileAttrStrings(pathPtr, objPtrRef) Tcl_Obj *pathPtr; Tcl_Obj** objPtrRef; { return tclpFileAttrStrings; } /* *---------------------------------------------------------------------- * * NativeFileAttrsGet -- * * This procedure implements the platform dependent * 'file attributes' subcommand, for the native * filesystem, for 'get' operations. This function is part * of Tcl's native filesystem support, and is placed here * because it is shared by Unix, MacOS and Windows code. * * Results: * Standard Tcl return code. The object placed in objPtrRef * (if TCL_OK was returned) is likely to have a refCount of zero. * Either way we must either store it somewhere (e.g. the Tcl * result), or Incr/Decr its refCount to ensure it is properly * freed. * * Side effects: * None. * *---------------------------------------------------------------------- */ static int NativeFileAttrsGet(interp, index, pathPtr, objPtrRef) Tcl_Interp *interp; /* The interpreter for error reporting. */ int index; /* index of the attribute command. */ Tcl_Obj *pathPtr; /* path of file we are operating on. */ Tcl_Obj **objPtrRef; /* for output. */ { return (*tclpFileAttrProcs[index].getProc)(interp, index, pathPtr, objPtrRef); } /* *---------------------------------------------------------------------- * * NativeFileAttrsSet -- * * This procedure implements the platform dependent * 'file attributes' subcommand, for the native * filesystem, for 'set' operations. This function is part * of Tcl's native filesystem support, and is placed here * because it is shared by Unix, MacOS and Windows code. * * Results: * Standard Tcl return code. * * Side effects: * None. * *---------------------------------------------------------------------- */ static int NativeFileAttrsSet(interp, index, pathPtr, objPtr) Tcl_Interp *interp; /* The interpreter for error reporting. */ int index; /* index of the attribute command. */ Tcl_Obj *pathPtr; /* path of file we are operating on. */ Tcl_Obj *objPtr; /* set to this value. */ { return (*tclpFileAttrProcs[index].setProc)(interp, index, pathPtr, objPtr); } /* *---------------------------------------------------------------------- * * Tcl_FSFileAttrStrings -- * * This procedure implements part of the hookable 'file * attributes' subcommand. The appropriate function for the * filesystem to which pathPtr belongs will be called. * * Results: * The called procedure may either return an array of strings, * or may instead return NULL and place a Tcl list into the * given objPtrRef. Tcl will take that list and first increment * its refCount before using it. On completion of that use, Tcl * will decrement its refCount. Hence if the list should be * disposed of by Tcl when done, it should have a refCount of zero, * and if the list should not be disposed of, the filesystem * should ensure it retains a refCount on the object. * * Side effects: * None. * *---------------------------------------------------------------------- */ CONST char ** Tcl_FSFileAttrStrings(pathPtr, objPtrRef) Tcl_Obj* pathPtr; Tcl_Obj** objPtrRef; { Tcl_Filesystem *fsPtr = Tcl_FSGetFileSystemForPath(pathPtr); if (fsPtr != NULL) { Tcl_FSFileAttrStringsProc *proc = fsPtr->fileAttrStringsProc; if (proc != NULL) { return (*proc)(pathPtr, objPtrRef); } } Tcl_SetErrno(ENOENT); return NULL; } /* *---------------------------------------------------------------------- * * Tcl_FSFileAttrsGet -- * * This procedure implements read access for the hookable 'file * attributes' subcommand. The appropriate function for the * filesystem to which pathPtr belongs will be called. * * Results: * Standard Tcl return code. The object placed in objPtrRef * (if TCL_OK was returned) is likely to have a refCount of zero. * Either way we must either store it somewhere (e.g. the Tcl * result), or Incr/Decr its refCount to ensure it is properly * freed. * * Side effects: * None. * *---------------------------------------------------------------------- */ int Tcl_FSFileAttrsGet(interp, index, pathPtr, objPtrRef) Tcl_Interp *interp; /* The interpreter for error reporting. */ int index; /* index of the attribute command. */ Tcl_Obj *pathPtr; /* filename we are operating on. */ Tcl_Obj **objPtrRef; /* for output. */ { Tcl_Filesystem *fsPtr = Tcl_FSGetFileSystemForPath(pathPtr); if (fsPtr != NULL) { Tcl_FSFileAttrsGetProc *proc = fsPtr->fileAttrsGetProc; if (proc != NULL) { return (*proc)(interp, index, pathPtr, objPtrRef); } } Tcl_SetErrno(ENOENT); return -1; } /* *---------------------------------------------------------------------- * * Tcl_FSFileAttrsSet -- * * This procedure implements write access for the hookable 'file * attributes' subcommand. The appropriate function for the * filesystem to which pathPtr belongs will be called. * * Results: * Standard Tcl return code. * * Side effects: * None. * *---------------------------------------------------------------------- */ int Tcl_FSFileAttrsSet(interp, index, pathPtr, objPtr) Tcl_Interp *interp; /* The interpreter for error reporting. */ int index; /* index of the attribute command. */ Tcl_Obj *pathPtr; /* filename we are operating on. */ Tcl_Obj *objPtr; /* Input value. */ { Tcl_Filesystem *fsPtr = Tcl_FSGetFileSystemForPath(pathPtr); if (fsPtr != NULL) { Tcl_FSFileAttrsSetProc *proc = fsPtr->fileAttrsSetProc; if (proc != NULL) { return (*proc)(interp, index, pathPtr, objPtr); } } Tcl_SetErrno(ENOENT); return -1; } /* *---------------------------------------------------------------------- * * Tcl_FSGetCwd -- * * This function replaces the library version of getcwd(). * * Most VFS's will *not* implement a 'cwdProc'. Tcl now maintains * its own record (in a Tcl_Obj) of the cwd, and an attempt * is made to synchronise this with the cwd's containing filesystem, * if that filesystem provides a cwdProc (e.g. the native filesystem). * * Note that if Tcl's cwd is not in the native filesystem, then of * course Tcl's cwd and the native cwd are different: extensions * should therefore ensure they only access the cwd through this * function to avoid confusion. * * If a global cwdPathPtr already exists, it is cached in the thread's * private data structures and reference to the cached copy is returned, * subject to a synchronisation attempt in that cwdPathPtr's fs. * * Otherwise, the chain of functions that have been "inserted" * into the filesystem will be called in succession until either a * value other than NULL is returned, or the entire list is * visited. * * Results: * The result is a pointer to a Tcl_Obj specifying the current * directory, or NULL if the current directory could not be * determined. If NULL is returned, an error message is left in the * interp's result. * * The result already has its refCount incremented for the caller. * When it is no longer needed, that refCount should be decremented. * * Side effects: * Various objects may be freed and allocated. * *---------------------------------------------------------------------- */ Tcl_Obj* Tcl_FSGetCwd(interp) Tcl_Interp *interp; { ThreadSpecificData *tsdPtr = TCL_TSD_INIT(&dataKey); if (TclFSCwdPointerEquals(NULL)) { FilesystemRecord *fsRecPtr; Tcl_Obj *retVal = NULL; /* * We've never been called before, try to find a cwd. Call * each of the "Tcl_GetCwd" function in succession. A non-NULL * return value indicates the particular function has * succeeded. */ fsRecPtr = FsGetFirstFilesystem(); while ((retVal == NULL) && (fsRecPtr != NULL)) { Tcl_FSGetCwdProc *proc = fsRecPtr->fsPtr->getCwdProc; if (proc != NULL) { retVal = (*proc)(interp); } fsRecPtr = fsRecPtr->nextPtr; } /* * Now the 'cwd' may NOT be normalized, at least on some * platforms. For the sake of efficiency, we want a completely * normalized cwd at all times. * * Finally, if retVal is NULL, we do not have a cwd, which * could be problematic. */ if (retVal != NULL) { Tcl_Obj *norm = TclFSNormalizeAbsolutePath(interp, retVal, NULL); if (norm != NULL) { /* * We found a cwd, which is now in our global storage. * We must make a copy. Norm already has a refCount of 1. * * Threading issue: note that multiple threads at system * startup could in principle call this procedure * simultaneously. They will therefore each set the * cwdPathPtr independently. That behaviour is a bit * peculiar, but should be fine. Once we have a cwd, * we'll always be in the 'else' branch below which * is simpler. */ FsUpdateCwd(norm); Tcl_DecrRefCount(norm); } Tcl_DecrRefCount(retVal); } } else { /* * We already have a cwd cached, but we want to give the * filesystem it is in a chance to check whether that cwd * has changed, or is perhaps no longer accessible. This * allows an error to be thrown if, say, the permissions on * that directory have changed. */ Tcl_Filesystem *fsPtr = Tcl_FSGetFileSystemForPath(tsdPtr->cwdPathPtr); /* * If the filesystem couldn't be found, or if no cwd function * exists for this filesystem, then we simply assume the cached * cwd is ok. If we do call a cwd, we must watch for errors * (if the cwd returns NULL). This ensures that, say, on Unix * if the permissions of the cwd change, 'pwd' does actually * throw the correct error in Tcl. (This is tested for in the * test suite on unix). */ if (fsPtr != NULL) { Tcl_FSGetCwdProc *proc = fsPtr->getCwdProc; if (proc != NULL) { Tcl_Obj *retVal = (*proc)(interp); if (retVal != NULL) { Tcl_Obj *norm = TclFSNormalizeAbsolutePath(interp, retVal, NULL); /* * Check whether cwd has changed from the value * previously stored in cwdPathPtr. Really 'norm' * shouldn't be null, but we are careful. */ if (norm == NULL) { /* Do nothing */ } else if (Tcl_FSEqualPaths(tsdPtr->cwdPathPtr, norm)) { /* * If the paths were equal, we can be more * efficient and retain the old path object * which will probably already be shared. In * this case we can simply free the normalized * path we just calculated. */ Tcl_DecrRefCount(norm); } else { FsUpdateCwd(norm); Tcl_DecrRefCount(norm); } Tcl_DecrRefCount(retVal); } else { /* The 'cwd' function returned an error; reset the cwd */ FsUpdateCwd(NULL); } } } } if (tsdPtr->cwdPathPtr != NULL) { Tcl_IncrRefCount(tsdPtr->cwdPathPtr); } return tsdPtr->cwdPathPtr; } /* *---------------------------------------------------------------------- * * Tcl_FSChdir -- * * This function replaces the library version of chdir(). * * The path is normalized and then passed to the filesystem * which claims it. * * Results: * See chdir() documentation. If successful, we keep a * record of the successful path in cwdPathPtr for subsequent * calls to getcwd. * * Side effects: * See chdir() documentation. The global cwdPathPtr may * change value. * *---------------------------------------------------------------------- */ int Tcl_FSChdir(pathPtr) Tcl_Obj *pathPtr; { Tcl_Filesystem *fsPtr; int retVal = -1; #ifdef WIN32 /* * This complete hack addresses the bug tested in winFCmd-16.12, * where having your HOME as "C:" (IOW, a seemingly path relative * dir) would cause a crash when you cd'd to it and requested 'pwd'. * The work-around is to force such a dir into an absolute path by * tacking on '/'. * * We check for '~' specifically because that's what Tcl_CdObjCmd * passes in that triggers the bug. A direct 'cd C:' call will not * because that gets the volumerelative pwd. * * This is not an issue for 8.5 as that has a more elaborate change * that requires the use of TCL_FILESYSTEM_VERSION_2. */ Tcl_Obj *objPtr = NULL; if (pathPtr->bytes && pathPtr->length == 1 && pathPtr->bytes[0] == '~') { int len; char *str; objPtr = Tcl_FSGetTranslatedPath(NULL, pathPtr); if (objPtr == NULL) { Tcl_SetErrno(ENOENT); return -1; } Tcl_IncrRefCount(objPtr); str = Tcl_GetStringFromObj(objPtr, &len); if (len == 2 && str[1] == ':') { pathPtr = Tcl_NewStringObj(str, len); Tcl_AppendToObj(pathPtr, "/", 1); Tcl_IncrRefCount(pathPtr); Tcl_DecrRefCount(objPtr); objPtr = pathPtr; } else { Tcl_DecrRefCount(objPtr); objPtr = NULL; } } #endif if (Tcl_FSGetNormalizedPath(NULL, pathPtr) == NULL) { #ifdef WIN32 if (objPtr) { Tcl_DecrRefCount(objPtr); } #endif Tcl_SetErrno(ENOENT); return -1; } fsPtr = Tcl_FSGetFileSystemForPath(pathPtr); if (fsPtr != NULL) { Tcl_FSChdirProc *proc = fsPtr->chdirProc; if (proc != NULL) { retVal = (*proc)(pathPtr); } else { /* Fallback on stat-based implementation */ Tcl_StatBuf buf; /* If the file can be stat'ed and is a directory and * is readable, then we can chdir. */ if ((Tcl_FSStat(pathPtr, &buf) == 0) && (S_ISDIR(buf.st_mode)) && (Tcl_FSAccess(pathPtr, R_OK) == 0)) { /* We allow the chdir */ retVal = 0; } } } if (retVal != -1) { /* * The cwd changed, or an error was thrown. If an error was * thrown, we can just continue (and that will report the error * to the user). If there was no error we must assume that the * cwd was actually changed to the normalized value we * calculated above, and we must therefore cache that * information. */ if (retVal == 0) { /* * Note that this normalized path may be different to what * we found above (or at least a different object), if the * filesystem epoch changed recently. This can actually * happen with scripted documents very easily. Therefore * we ask for the normalized path again (the correct value * will have been cached as a result of the * Tcl_FSGetFileSystemForPath call above anyway). */ Tcl_Obj *normDirName = Tcl_FSGetNormalizedPath(NULL, pathPtr); if (normDirName == NULL) { #ifdef WIN32 if (objPtr) { Tcl_DecrRefCount(objPtr); } #endif Tcl_SetErrno(ENOENT); return -1; } FsUpdateCwd(normDirName); } } else { Tcl_SetErrno(ENOENT); } #ifdef WIN32 if (objPtr) { Tcl_DecrRefCount(objPtr); } #endif return (retVal); } /* *---------------------------------------------------------------------- * * Tcl_FSLoadFile -- * * Dynamically loads a binary code file into memory and returns * the addresses of two procedures within that file, if they are * defined. The appropriate function for the filesystem to which * pathPtr belongs will be called. * * Note that the native filesystem doesn't actually assume * 'pathPtr' is a path. Rather it assumes filename is either * a path or just the name of a file which can be found somewhere * in the environment's loadable path. This behaviour is not * very compatible with virtual filesystems (and has other problems * documented in the load man-page), so it is advised that full * paths are always used. * * Results: * A standard Tcl completion code. If an error occurs, an error * message is left in the interp's result. * * Side effects: * New code suddenly appears in memory. This may later be * unloaded by passing the clientData to the unloadProc. * *---------------------------------------------------------------------- */ int Tcl_FSLoadFile(interp, pathPtr, sym1, sym2, proc1Ptr, proc2Ptr, handlePtr, unloadProcPtr) Tcl_Interp *interp; /* Used for error reporting. */ Tcl_Obj *pathPtr; /* Name of the file containing the desired * code. */ CONST char *sym1, *sym2; /* Names of two procedures to look up in * the file's symbol table. */ Tcl_PackageInitProc **proc1Ptr, **proc2Ptr; /* Where to return the addresses corresponding * to sym1 and sym2. */ Tcl_LoadHandle *handlePtr; /* Filled with token for dynamically loaded * file which will be passed back to * (*unloadProcPtr)() to unload the file. */ Tcl_FSUnloadFileProc **unloadProcPtr; /* Filled with address of Tcl_FSUnloadFileProc * function which should be used for * this file. */ { Tcl_Filesystem *fsPtr = Tcl_FSGetFileSystemForPath(pathPtr); if (fsPtr != NULL) { Tcl_FSLoadFileProc *proc = fsPtr->loadFileProc; if (proc != NULL) { int retVal = (*proc)(interp, pathPtr, handlePtr, unloadProcPtr); if (retVal != TCL_OK) { return retVal; } if (*handlePtr == NULL) { return TCL_ERROR; } if (sym1 != NULL) { *proc1Ptr = TclpFindSymbol(interp, *handlePtr, sym1); } if (sym2 != NULL) { *proc2Ptr = TclpFindSymbol(interp, *handlePtr, sym2); } return retVal; } else { Tcl_Filesystem *copyFsPtr; Tcl_Obj *copyToPtr; /* First check if it is readable -- and exists! */ if (Tcl_FSAccess(pathPtr, R_OK) != 0) { Tcl_AppendResult(interp, "couldn't load library \"", Tcl_GetString(pathPtr), "\": ", Tcl_PosixError(interp), (char *) NULL); return TCL_ERROR; } #ifdef TCL_LOAD_FROM_MEMORY /* * The platform supports loading code from memory, so ask for a * buffer of the appropriate size, read the file into it and * load the code from the buffer: */ do { int ret, size; void *buffer; Tcl_StatBuf statBuf; Tcl_Channel data; ret = Tcl_FSStat(pathPtr, &statBuf); if (ret < 0) { break; } size = (int) statBuf.st_size; /* Tcl_Read takes an int: check that file size isn't wide */ if (size != (Tcl_WideInt)statBuf.st_size) { break; } data = Tcl_FSOpenFileChannel(interp, pathPtr, "r", 0666); if (!data) { break; } buffer = TclpLoadMemoryGetBuffer(interp, size); if (!buffer) { Tcl_Close(interp, data); break; } Tcl_SetChannelOption(interp, data, "-translation", "binary"); ret = Tcl_Read(data, buffer, size); Tcl_Close(interp, data); ret = TclpLoadMemory(interp, buffer, size, ret, handlePtr, unloadProcPtr); if (ret == TCL_OK) { if (*handlePtr == NULL) { break; } if (sym1 != NULL) { *proc1Ptr = TclpFindSymbol(interp, *handlePtr, sym1); } if (sym2 != NULL) { *proc2Ptr = TclpFindSymbol(interp, *handlePtr, sym2); } return TCL_OK; } } while (0); Tcl_ResetResult(interp); #endif /* * Get a temporary filename to use, first to * copy the file into, and then to load. */ copyToPtr = TclpTempFileName(); if (copyToPtr == NULL) { return -1; } Tcl_IncrRefCount(copyToPtr); copyFsPtr = Tcl_FSGetFileSystemForPath(copyToPtr); if ((copyFsPtr == NULL) || (copyFsPtr == fsPtr)) { /* * We already know we can't use Tcl_FSLoadFile from * this filesystem, and we must avoid a possible * infinite loop. Try to delete the file we * probably created, and then exit. */ Tcl_FSDeleteFile(copyToPtr); Tcl_DecrRefCount(copyToPtr); return -1; } if (TclCrossFilesystemCopy(interp, pathPtr, copyToPtr) == TCL_OK) { Tcl_LoadHandle newLoadHandle = NULL; Tcl_FSUnloadFileProc *newUnloadProcPtr = NULL; FsDivertLoad *tvdlPtr; int retVal; #if !defined(__WIN32__) && !defined(MAC_TCL) /* * Do we need to set appropriate permissions * on the file? This may be required on some * systems. On Unix we could loop over * the file attributes, and set any that are * called "-permissions" to 0700. However, * we just do this directly, like this: */ Tcl_Obj* perm = Tcl_NewStringObj("0700",-1); Tcl_IncrRefCount(perm); Tcl_FSFileAttrsSet(NULL, 2, copyToPtr, perm); Tcl_DecrRefCount(perm); #endif /* * We need to reset the result now, because the cross- * filesystem copy may have stored the number of bytes * in the result */ Tcl_ResetResult(interp); retVal = Tcl_FSLoadFile(interp, copyToPtr, sym1, sym2, proc1Ptr, proc2Ptr, &newLoadHandle, &newUnloadProcPtr); if (retVal != TCL_OK) { /* The file didn't load successfully */ Tcl_FSDeleteFile(copyToPtr); Tcl_DecrRefCount(copyToPtr); return retVal; } /* * Try to delete the file immediately -- this is * possible in some OSes, and avoids any worries * about leaving the copy laying around on exit. */ if (Tcl_FSDeleteFile(copyToPtr) == TCL_OK) { Tcl_DecrRefCount(copyToPtr); /* * We tell our caller about the real shared * library which was loaded. Note that this * does mean that the package list maintained * by 'load' will store the original (vfs) * path alongside the temporary load handle * and unload proc ptr. */ (*handlePtr) = newLoadHandle; (*unloadProcPtr) = newUnloadProcPtr; return TCL_OK; } /* * When we unload this file, we need to divert the * unloading so we can unload and cleanup the * temporary file correctly. */ tvdlPtr = (FsDivertLoad*) ckalloc(sizeof(FsDivertLoad)); /* * Remember three pieces of information. This allows * us to cleanup the diverted load completely, on * platforms which allow proper unloading of code. */ tvdlPtr->loadHandle = newLoadHandle; tvdlPtr->unloadProcPtr = newUnloadProcPtr; if (copyFsPtr != &tclNativeFilesystem) { /* copyToPtr is already incremented for this reference */ tvdlPtr->divertedFile = copyToPtr; /* * This is the filesystem we loaded it into. Since * we have a reference to 'copyToPtr', we already * have a refCount on this filesystem, so we don't * need to worry about it disappearing on us. */ tvdlPtr->divertedFilesystem = copyFsPtr; tvdlPtr->divertedFileNativeRep = NULL; } else { /* We need the native rep */ tvdlPtr->divertedFileNativeRep = TclNativeDupInternalRep(Tcl_FSGetInternalRep(copyToPtr, copyFsPtr)); /* * We don't need or want references to the copied * Tcl_Obj or the filesystem if it is the native * one. */ tvdlPtr->divertedFile = NULL; tvdlPtr->divertedFilesystem = NULL; Tcl_DecrRefCount(copyToPtr); } copyToPtr = NULL; (*handlePtr) = (Tcl_LoadHandle) tvdlPtr; (*unloadProcPtr) = &FSUnloadTempFile; return retVal; } else { /* Cross-platform copy failed */ Tcl_FSDeleteFile(copyToPtr); Tcl_DecrRefCount(copyToPtr); return TCL_ERROR; } } } Tcl_SetErrno(ENOENT); return -1; } /* * This function used to be in the platform specific directories, but it * has now been made to work cross-platform */ int TclpLoadFile(interp, pathPtr, sym1, sym2, proc1Ptr, proc2Ptr, clientDataPtr, unloadProcPtr) Tcl_Interp *interp; /* Used for error reporting. */ Tcl_Obj *pathPtr; /* Name of the file containing the desired * code (UTF-8). */ CONST char *sym1, *sym2; /* Names of two procedures to look up in * the file's symbol table. */ Tcl_PackageInitProc **proc1Ptr, **proc2Ptr; /* Where to return the addresses corresponding * to sym1 and sym2. */ ClientData *clientDataPtr; /* Filled with token for dynamically loaded * file which will be passed back to * (*unloadProcPtr)() to unload the file. */ Tcl_FSUnloadFileProc **unloadProcPtr; /* Filled with address of Tcl_FSUnloadFileProc * function which should be used for * this file. */ { Tcl_LoadHandle handle = NULL; int res; res = TclpDlopen(interp, pathPtr, &handle, unloadProcPtr); if (res != TCL_OK) { return res; } if (handle == NULL) { return TCL_ERROR; } *clientDataPtr = (ClientData)handle; *proc1Ptr = TclpFindSymbol(interp, handle, sym1); *proc2Ptr = TclpFindSymbol(interp, handle, sym2); return TCL_OK; } /* *--------------------------------------------------------------------------- * * FSUnloadTempFile -- * * This function is called when we loaded a library of code via * an intermediate temporary file. This function ensures * the library is correctly unloaded and the temporary file * is correctly deleted. * * Results: * None. * * Side effects: * The effects of the 'unload' function called, and of course * the temporary file will be deleted. * *--------------------------------------------------------------------------- */ static void FSUnloadTempFile(loadHandle) Tcl_LoadHandle loadHandle; /* loadHandle returned by a previous call * to Tcl_FSLoadFile(). The loadHandle is * a token that represents the loaded * file. */ { FsDivertLoad *tvdlPtr = (FsDivertLoad*)loadHandle; /* * This test should never trigger, since we give * the client data in the function above. */ if (tvdlPtr == NULL) { return; } /* * Call the real 'unloadfile' proc we actually used. It is very * important that we call this first, so that the shared library * is actually unloaded by the OS. Otherwise, the following * 'delete' may well fail because the shared library is still in * use. */ if (tvdlPtr->unloadProcPtr != NULL) { (*tvdlPtr->unloadProcPtr)(tvdlPtr->loadHandle); } if (tvdlPtr->divertedFilesystem == NULL) { /* * It was the native filesystem, and we have a special * function available just for this purpose, which we * know works even at this late stage. */ TclpDeleteFile(tvdlPtr->divertedFileNativeRep); NativeFreeInternalRep(tvdlPtr->divertedFileNativeRep); } else { /* * Remove the temporary file we created. Note, we may crash * here because encodings have been taken down already. */ if (tvdlPtr->divertedFilesystem->deleteFileProc(tvdlPtr->divertedFile) != TCL_OK) { /* * The above may have failed because the filesystem, or something * it depends upon (e.g. encodings) have been taken down because * Tcl is exiting. * * We may need to work out how to delete this file more * robustly (or give the filesystem the information it needs * to delete the file more robustly). * * In particular, one problem might be that the filesystem * cannot extract the information it needs from the above * path object because Tcl's entire filesystem apparatus * (the code in this file) has been finalized, and it * refuses to pass the internal representation to the * filesystem. */ } /* * And free up the allocations. This will also of course remove * a refCount from the Tcl_Filesystem to which this file belongs, * which could then free up the filesystem if we are exiting. */ Tcl_DecrRefCount(tvdlPtr->divertedFile); } ckfree((char*)tvdlPtr); } /* *--------------------------------------------------------------------------- * * Tcl_FSLink -- * * This function replaces the library version of readlink() and * can also be used to make links. The appropriate function for * the filesystem to which pathPtr belongs will be called. * * Results: * If toPtr is NULL, then the result is a Tcl_Obj specifying the * contents of the symbolic link given by 'pathPtr', or NULL if * the symbolic link could not be read. The result is owned by * the caller, which should call Tcl_DecrRefCount when the result * is no longer needed. * * If toPtr is non-NULL, then the result is toPtr if the link action * was successful, or NULL if not. In this case the result has no * additional reference count, and need not be freed. The actual * action to perform is given by the 'linkAction' flags, which is * an or'd combination of: * * TCL_CREATE_SYMBOLIC_LINK * TCL_CREATE_HARD_LINK * * Note that most filesystems will not support linking across * to different filesystems, so this function will usually * fail unless toPtr is in the same FS as pathPtr. * * Side effects: * See readlink() documentation. A new filesystem link * object may appear * *--------------------------------------------------------------------------- */ Tcl_Obj * Tcl_FSLink(pathPtr, toPtr, linkAction) Tcl_Obj *pathPtr; /* Path of file to readlink or link */ Tcl_Obj *toPtr; /* NULL or path to be linked to */ int linkAction; /* Action to perform */ { Tcl_Filesystem *fsPtr = Tcl_FSGetFileSystemForPath(pathPtr); if (fsPtr != NULL) { Tcl_FSLinkProc *proc = fsPtr->linkProc; if (proc != NULL) { return (*proc)(pathPtr, toPtr, linkAction); } } /* * If S_IFLNK isn't defined it means that the machine doesn't * support symbolic links, so the file can't possibly be a * symbolic link. Generate an EINVAL error, which is what * happens on machines that do support symbolic links when * you invoke readlink on a file that isn't a symbolic link. */ #ifndef S_IFLNK errno = EINVAL; #else Tcl_SetErrno(ENOENT); #endif /* S_IFLNK */ return NULL; } /* *--------------------------------------------------------------------------- * * Tcl_FSListVolumes -- * * Lists the currently mounted volumes. The chain of functions * that have been "inserted" into the filesystem will be called in * succession; each may return a list of volumes, all of which are * added to the result until all mounted file systems are listed. * * Notice that we assume the lists returned by each filesystem * (if non NULL) have been given a refCount for us already. * However, we are NOT allowed to hang on to the list itself * (it belongs to the filesystem we called). Therefore we * quite naturally add its contents to the result we are * building, and then decrement the refCount. * * Results: * The list of volumes, in an object which has refCount 0. * * Side effects: * None * *--------------------------------------------------------------------------- */ Tcl_Obj* Tcl_FSListVolumes(void) { FilesystemRecord *fsRecPtr; Tcl_Obj *resultPtr = Tcl_NewObj(); /* * Call each of the "listVolumes" function in succession. * A non-NULL return value indicates the particular function has * succeeded. We call all the functions registered, since we want * a list of all drives from all filesystems. */ fsRecPtr = FsGetFirstFilesystem(); while (fsRecPtr != NULL) { Tcl_FSListVolumesProc *proc = fsRecPtr->fsPtr->listVolumesProc; if (proc != NULL) { Tcl_Obj *thisFsVolumes = (*proc)(); if (thisFsVolumes != NULL) { Tcl_ListObjAppendList(NULL, resultPtr, thisFsVolumes); Tcl_DecrRefCount(thisFsVolumes); } } fsRecPtr = fsRecPtr->nextPtr; } return resultPtr; } /* *--------------------------------------------------------------------------- * * FsListMounts -- * * List all mounts within the given directory, which match the * given pattern. * * Results: * The list of mounts, in a list object which has refCount 0, or * NULL if we didn't even find any filesystems to try to list * mounts. * * Side effects: * None * *--------------------------------------------------------------------------- */ static Tcl_Obj* FsListMounts(pathPtr, pattern) Tcl_Obj *pathPtr; /* Contains path to directory to search. */ CONST char *pattern; /* Pattern to match against. */ { FilesystemRecord *fsRecPtr; Tcl_GlobTypeData mountsOnly = { TCL_GLOB_TYPE_MOUNT, 0, NULL, NULL }; Tcl_Obj *resultPtr = NULL; /* * Call each of the "listMounts" functions in succession. * A non-NULL return value indicates the particular function has * succeeded. We call all the functions registered, since we want * a list from each filesystems. */ fsRecPtr = FsGetFirstFilesystem(); while (fsRecPtr != NULL) { if (fsRecPtr->fsPtr != &tclNativeFilesystem) { Tcl_FSMatchInDirectoryProc *proc = fsRecPtr->fsPtr->matchInDirectoryProc; if (proc != NULL) { if (resultPtr == NULL) { resultPtr = Tcl_NewObj(); } (*proc)(NULL, resultPtr, pathPtr, pattern, &mountsOnly); } } fsRecPtr = fsRecPtr->nextPtr; } return resultPtr; } /* *--------------------------------------------------------------------------- * * Tcl_FSSplitPath -- * * This function takes the given Tcl_Obj, which should be a valid * path, and returns a Tcl List object containing each segment of * that path as an element. * * Results: * Returns list object with refCount of zero. If the passed in * lenPtr is non-NULL, we use it to return the number of elements * in the returned list. * * Side effects: * None. * *--------------------------------------------------------------------------- */ Tcl_Obj* Tcl_FSSplitPath(pathPtr, lenPtr) Tcl_Obj *pathPtr; /* Path to split. */ int *lenPtr; /* int to store number of path elements. */ { Tcl_Obj *result = NULL; /* Needed only to prevent gcc warnings. */ Tcl_Filesystem *fsPtr; char separator = '/'; int driveNameLength; char *p; /* * Perform platform specific splitting. */ if (FSGetPathType(pathPtr, &fsPtr, &driveNameLength) == TCL_PATH_ABSOLUTE) { if (fsPtr == &tclNativeFilesystem) { return TclpNativeSplitPath(pathPtr, lenPtr); } } else { return TclpNativeSplitPath(pathPtr, lenPtr); } /* We assume separators are single characters */ if (fsPtr->filesystemSeparatorProc != NULL) { Tcl_Obj *sep = (*fsPtr->filesystemSeparatorProc)(pathPtr); if (sep != NULL) { separator = Tcl_GetString(sep)[0]; } } /* * Place the drive name as first element of the * result list. The drive name may contain strange * characters, like colons and multiple forward slashes * (for example 'ftp://' is a valid vfs drive name) */ result = Tcl_NewObj(); p = Tcl_GetString(pathPtr); Tcl_ListObjAppendElement(NULL, result, Tcl_NewStringObj(p, driveNameLength)); p+= driveNameLength; /* Add the remaining path elements to the list */ for (;;) { char *elementStart = p; int length; while ((*p != '\0') && (*p != separator)) { p++; } length = p - elementStart; if (length > 0) { Tcl_Obj *nextElt; if (elementStart[0] == '~') { nextElt = Tcl_NewStringObj("./",2); Tcl_AppendToObj(nextElt, elementStart, length); } else { nextElt = Tcl_NewStringObj(elementStart, length); } Tcl_ListObjAppendElement(NULL, result, nextElt); } if (*p++ == '\0') { break; } } /* * Compute the number of elements in the result. */ if (lenPtr != NULL) { Tcl_ListObjLength(NULL, result, lenPtr); } return result; } /* Simple helper function */ Tcl_Obj* TclFSInternalToNormalized(fromFilesystem, clientData, fsRecPtrPtr) Tcl_Filesystem *fromFilesystem; ClientData clientData; FilesystemRecord **fsRecPtrPtr; { FilesystemRecord *fsRecPtr = FsGetFirstFilesystem(); while (fsRecPtr != NULL) { if (fsRecPtr->fsPtr == fromFilesystem) { *fsRecPtrPtr = fsRecPtr; break; } fsRecPtr = fsRecPtr->nextPtr; } if ((fsRecPtr != NULL) && (fromFilesystem->internalToNormalizedProc != NULL)) { return (*fromFilesystem->internalToNormalizedProc)(clientData); } else { return NULL; } } /* *---------------------------------------------------------------------- * * GetPathType -- * * Helper function used by FSGetPathType. * * Results: * Returns one of TCL_PATH_ABSOLUTE, TCL_PATH_RELATIVE, or * TCL_PATH_VOLUME_RELATIVE. The filesystem reference will * be set if and only if it is non-NULL and the function's * return value is TCL_PATH_ABSOLUTE. * * Side effects: * None. * *---------------------------------------------------------------------- */ static Tcl_PathType GetPathType(pathObjPtr, filesystemPtrPtr, driveNameLengthPtr, driveNameRef) Tcl_Obj *pathObjPtr; Tcl_Filesystem **filesystemPtrPtr; int *driveNameLengthPtr; Tcl_Obj **driveNameRef; { FilesystemRecord *fsRecPtr; int pathLen; char *path; Tcl_PathType type = TCL_PATH_RELATIVE; path = Tcl_GetStringFromObj(pathObjPtr, &pathLen); /* * Call each of the "listVolumes" function in succession, checking * whether the given path is an absolute path on any of the volumes * returned (this is done by checking whether the path's prefix * matches). */ fsRecPtr = FsGetFirstFilesystem(); while (fsRecPtr != NULL) { Tcl_FSListVolumesProc *proc = fsRecPtr->fsPtr->listVolumesProc; /* * We want to skip the native filesystem in this loop because * otherwise we won't necessarily pass all the Tcl testsuite -- * this is because some of the tests artificially change the * current platform (between mac, win, unix) but the list * of volumes we get by calling (*proc) will reflect the current * (real) platform only and this may cause some tests to fail. * In particular, on unix '/' will match the beginning of * certain absolute Windows paths starting '//' and those tests * will go wrong. * * Besides these test-suite issues, there is one other reason * to skip the native filesystem --- since the tclFilename.c * code has nice fast 'absolute path' checkers, we don't want * to waste time repeating that effort here, and this * function is actually called quite often, so if we can * save the overhead of the native filesystem returning us * a list of volumes all the time, it is better. */ if ((fsRecPtr->fsPtr != &tclNativeFilesystem) && (proc != NULL)) { int numVolumes; Tcl_Obj *thisFsVolumes = (*proc)(); if (thisFsVolumes != NULL) { if (Tcl_ListObjLength(NULL, thisFsVolumes, &numVolumes) != TCL_OK) { /* * This is VERY bad; the Tcl_FSListVolumesProc * didn't return a valid list. Set numVolumes to * -1 so that we skip the while loop below and just * return with the current value of 'type'. * * It would be better if we could signal an error * here (but panic seems a bit excessive). */ numVolumes = -1; } while (numVolumes > 0) { Tcl_Obj *vol; int len; char *strVol; numVolumes--; Tcl_ListObjIndex(NULL, thisFsVolumes, numVolumes, &vol); strVol = Tcl_GetStringFromObj(vol,&len); if (pathLen < len) { continue; } if (strncmp(strVol, path, (size_t) len) == 0) { type = TCL_PATH_ABSOLUTE; if (filesystemPtrPtr != NULL) { *filesystemPtrPtr = fsRecPtr->fsPtr; } if (driveNameLengthPtr != NULL) { *driveNameLengthPtr = len; } if (driveNameRef != NULL) { *driveNameRef = vol; Tcl_IncrRefCount(vol); } break; } } Tcl_DecrRefCount(thisFsVolumes); if (type == TCL_PATH_ABSOLUTE) { /* We don't need to examine any more filesystems */ break; } } } fsRecPtr = fsRecPtr->nextPtr; } if (type != TCL_PATH_ABSOLUTE) { type = TclpGetNativePathType(pathObjPtr, driveNameLengthPtr, driveNameRef); if ((type == TCL_PATH_ABSOLUTE) && (filesystemPtrPtr != NULL)) { *filesystemPtrPtr = &tclNativeFilesystem; } } return type; } /* *--------------------------------------------------------------------------- * * Tcl_FSRenameFile -- * * If the two paths given belong to the same filesystem, we call * that filesystems rename function. Otherwise we simply * return the posix error 'EXDEV', and -1. * * Results: * Standard Tcl error code if a function was called. * * Side effects: * A file may be renamed. * *--------------------------------------------------------------------------- */ int Tcl_FSRenameFile(srcPathPtr, destPathPtr) Tcl_Obj* srcPathPtr; /* Pathname of file or dir to be renamed * (UTF-8). */ Tcl_Obj *destPathPtr; /* New pathname of file or directory * (UTF-8). */ { int retVal = -1; Tcl_Filesystem *fsPtr, *fsPtr2; fsPtr = Tcl_FSGetFileSystemForPath(srcPathPtr); fsPtr2 = Tcl_FSGetFileSystemForPath(destPathPtr); if (fsPtr == fsPtr2 && fsPtr != NULL) { Tcl_FSRenameFileProc *proc = fsPtr->renameFileProc; if (proc != NULL) { retVal = (*proc)(srcPathPtr, destPathPtr); } } if (retVal == -1) { Tcl_SetErrno(EXDEV); } return retVal; } /* *--------------------------------------------------------------------------- * * Tcl_FSCopyFile -- * * If the two paths given belong to the same filesystem, we call * that filesystem's copy function. Otherwise we simply * return the posix error 'EXDEV', and -1. * * Note that in the native filesystems, 'copyFileProc' is defined * to copy soft links (i.e. it copies the links themselves, not * the things they point to). * * Results: * Standard Tcl error code if a function was called. * * Side effects: * A file may be copied. * *--------------------------------------------------------------------------- */ int Tcl_FSCopyFile(srcPathPtr, destPathPtr) Tcl_Obj* srcPathPtr; /* Pathname of file to be copied (UTF-8). */ Tcl_Obj *destPathPtr; /* Pathname of file to copy to (UTF-8). */ { int retVal = -1; Tcl_Filesystem *fsPtr, *fsPtr2; fsPtr = Tcl_FSGetFileSystemForPath(srcPathPtr); fsPtr2 = Tcl_FSGetFileSystemForPath(destPathPtr); if (fsPtr == fsPtr2 && fsPtr != NULL) { Tcl_FSCopyFileProc *proc = fsPtr->copyFileProc; if (proc != NULL) { retVal = (*proc)(srcPathPtr, destPathPtr); } } if (retVal == -1) { Tcl_SetErrno(EXDEV); } return retVal; } /* *--------------------------------------------------------------------------- * * TclCrossFilesystemCopy -- * * Helper for above function, and for Tcl_FSLoadFile, to copy * files from one filesystem to another. This function will * overwrite the target file if it already exists. * * Results: * Standard Tcl error code. * * Side effects: * A file may be created. * *--------------------------------------------------------------------------- */ int TclCrossFilesystemCopy(interp, source, target) Tcl_Interp *interp; /* For error messages */ Tcl_Obj *source; /* Pathname of file to be copied (UTF-8). */ Tcl_Obj *target; /* Pathname of file to copy to (UTF-8). */ { int result = TCL_ERROR; int prot = 0666; Tcl_Channel out = Tcl_FSOpenFileChannel(interp, target, "w", prot); if (out != NULL) { /* It looks like we can copy it over */ Tcl_Channel in = Tcl_FSOpenFileChannel(interp, source, "r", prot); if (in == NULL) { /* This is very strange, we checked this above */ Tcl_Close(interp, out); } else { Tcl_StatBuf sourceStatBuf; struct utimbuf tval; /* * Copy it synchronously. We might wish to add an * asynchronous option to support vfs's which are * slow (e.g. network sockets). */ Tcl_SetChannelOption(interp, in, "-translation", "binary"); Tcl_SetChannelOption(interp, out, "-translation", "binary"); if (TclCopyChannel(interp, in, out, -1, NULL) == TCL_OK) { result = TCL_OK; } /* * If the copy failed, assume that copy channel left * a good error message. */ Tcl_Close(interp, in); Tcl_Close(interp, out); /* Set modification date of copied file */ if (Tcl_FSLstat(source, &sourceStatBuf) == 0) { tval.actime = sourceStatBuf.st_atime; tval.modtime = sourceStatBuf.st_mtime; Tcl_FSUtime(target, &tval); } } } return result; } /* *--------------------------------------------------------------------------- * * Tcl_FSDeleteFile -- * * The appropriate function for the filesystem to which pathPtr * belongs will be called. * * Results: * Standard Tcl error code. * * Side effects: * A file may be deleted. * *--------------------------------------------------------------------------- */ int Tcl_FSDeleteFile(pathPtr) Tcl_Obj *pathPtr; /* Pathname of file to be removed (UTF-8). */ { Tcl_Filesystem *fsPtr = Tcl_FSGetFileSystemForPath(pathPtr); if (fsPtr != NULL) { Tcl_FSDeleteFileProc *proc = fsPtr->deleteFileProc; if (proc != NULL) { return (*proc)(pathPtr); } } Tcl_SetErrno(ENOENT); return -1; } /* *--------------------------------------------------------------------------- * * Tcl_FSCreateDirectory -- * * The appropriate function for the filesystem to which pathPtr * belongs will be called. * * Results: * Standard Tcl error code. * * Side effects: * A directory may be created. * *--------------------------------------------------------------------------- */ int Tcl_FSCreateDirectory(pathPtr) Tcl_Obj *pathPtr; /* Pathname of directory to create (UTF-8). */ { Tcl_Filesystem *fsPtr = Tcl_FSGetFileSystemForPath(pathPtr); if (fsPtr != NULL) { Tcl_FSCreateDirectoryProc *proc = fsPtr->createDirectoryProc; if (proc != NULL) { return (*proc)(pathPtr); } } Tcl_SetErrno(ENOENT); return -1; } /* *--------------------------------------------------------------------------- * * Tcl_FSCopyDirectory -- * * If the two paths given belong to the same filesystem, we call * that filesystems copy-directory function. Otherwise we simply * return the posix error 'EXDEV', and -1. * * Results: * Standard Tcl error code if a function was called. * * Side effects: * A directory may be copied. * *--------------------------------------------------------------------------- */ int Tcl_FSCopyDirectory(srcPathPtr, destPathPtr, errorPtr) Tcl_Obj* srcPathPtr; /* Pathname of directory to be copied * (UTF-8). */ Tcl_Obj *destPathPtr; /* Pathname of target directory (UTF-8). */ Tcl_Obj **errorPtr; /* If non-NULL, then will be set to a * new object containing name of file * causing error, with refCount 1. */ { int retVal = -1; Tcl_Filesystem *fsPtr, *fsPtr2; fsPtr = Tcl_FSGetFileSystemForPath(srcPathPtr); fsPtr2 = Tcl_FSGetFileSystemForPath(destPathPtr); if (fsPtr == fsPtr2 && fsPtr != NULL) { Tcl_FSCopyDirectoryProc *proc = fsPtr->copyDirectoryProc; if (proc != NULL) { retVal = (*proc)(srcPathPtr, destPathPtr, errorPtr); } } if (retVal == -1) { Tcl_SetErrno(EXDEV); } return retVal; } /* *--------------------------------------------------------------------------- * * Tcl_FSRemoveDirectory -- * * The appropriate function for the filesystem to which pathPtr * belongs will be called. * * Results: * Standard Tcl error code. * * Side effects: * A directory may be deleted. * *--------------------------------------------------------------------------- */ int Tcl_FSRemoveDirectory(pathPtr, recursive, errorPtr) Tcl_Obj *pathPtr; /* Pathname of directory to be removed * (UTF-8). */ int recursive; /* If non-zero, removes directories that * are nonempty. Otherwise, will only remove * empty directories. */ Tcl_Obj **errorPtr; /* If non-NULL, then will be set to a * new object containing name of file * causing error, with refCount 1. */ { Tcl_Filesystem *fsPtr = Tcl_FSGetFileSystemForPath(pathPtr); if (fsPtr != NULL) { Tcl_FSRemoveDirectoryProc *proc = fsPtr->removeDirectoryProc; if (proc != NULL) { if (recursive) { /* * We check whether the cwd lies inside this directory * and move it if it does. */ Tcl_Obj *cwdPtr = Tcl_FSGetCwd(NULL); if (cwdPtr != NULL) { char *cwdStr, *normPathStr; int cwdLen, normLen; Tcl_Obj *normPath = Tcl_FSGetNormalizedPath(NULL, pathPtr); if (normPath != NULL) { normPathStr = Tcl_GetStringFromObj(normPath, &normLen); cwdStr = Tcl_GetStringFromObj(cwdPtr, &cwdLen); if ((cwdLen >= normLen) && (strncmp(normPathStr, cwdStr, (size_t) normLen) == 0)) { /* * the cwd is inside the directory, so we * perform a 'cd [file dirname $path]' */ Tcl_Obj *dirPtr = TclFileDirname(NULL, pathPtr); Tcl_FSChdir(dirPtr); Tcl_DecrRefCount(dirPtr); } } Tcl_DecrRefCount(cwdPtr); } } return (*proc)(pathPtr, recursive, errorPtr); } } Tcl_SetErrno(ENOENT); return -1; } /* *--------------------------------------------------------------------------- * * Tcl_FSGetFileSystemForPath -- * * This function determines which filesystem to use for a * particular path object, and returns the filesystem which * accepts this file. If no filesystem will accept this object * as a valid file path, then NULL is returned. * * Results: .* NULL or a filesystem which will accept this path. * * Side effects: * The object may be converted to a path type. * *--------------------------------------------------------------------------- */ Tcl_Filesystem* Tcl_FSGetFileSystemForPath(pathObjPtr) Tcl_Obj* pathObjPtr; { FilesystemRecord *fsRecPtr; Tcl_Filesystem* retVal = NULL; /* * If the object has a refCount of zero, we reject it. This * is to avoid possible segfaults or nondeterministic memory * leaks (i.e. the user doesn't know if they should decrement * the ref count on return or not). */ if (pathObjPtr->refCount == 0) { panic("Tcl_FSGetFileSystemForPath called with object with refCount == 0"); return NULL; } /* * Check if the filesystem has changed in some way since * this object's internal representation was calculated. * Before doing that, assure we have the most up-to-date * copy of the master filesystem. This is accomplished * by the FsGetFirstFilesystem() call. */ fsRecPtr = FsGetFirstFilesystem(); if (TclFSEnsureEpochOk(pathObjPtr, &retVal) != TCL_OK) { return NULL; } /* * Call each of the "pathInFilesystem" functions in succession. A * non-return value of -1 indicates the particular function has * succeeded. */ while ((retVal == NULL) && (fsRecPtr != NULL)) { Tcl_FSPathInFilesystemProc *proc = fsRecPtr->fsPtr->pathInFilesystemProc; if (proc != NULL) { ClientData clientData = NULL; int ret = (*proc)(pathObjPtr, &clientData); if (ret != -1) { /* * We assume the type of pathObjPtr hasn't been changed * by the above call to the pathInFilesystemProc. */ TclFSSetPathDetails(pathObjPtr, fsRecPtr, clientData); retVal = fsRecPtr->fsPtr; } } fsRecPtr = fsRecPtr->nextPtr; } return retVal; } /* *--------------------------------------------------------------------------- * * Tcl_FSGetNativePath -- * * This function is for use by the Win/Unix/MacOS native filesystems, * so that they can easily retrieve the native (char* or TCHAR*) * representation of a path. Other filesystems will probably * want to implement similar functions. They basically act as a * safety net around Tcl_FSGetInternalRep. Normally your file- * system procedures will always be called with path objects * already converted to the correct filesystem, but if for * some reason they are called directly (i.e. by procedures * not in this file), then one cannot necessarily guarantee that * the path object pointer is from the correct filesystem. * * Note: in the future it might be desireable to have separate * versions of this function with different signatures, for * example Tcl_FSGetNativeMacPath, Tcl_FSGetNativeUnixPath etc. * Right now, since native paths are all string based, we use just * one function. On MacOS we could possibly use an FSSpec or * FSRef as the native representation. * * Results: * NULL or a valid native path. * * Side effects: * See Tcl_FSGetInternalRep. * *--------------------------------------------------------------------------- */ CONST char * Tcl_FSGetNativePath(pathObjPtr) Tcl_Obj *pathObjPtr; { return (CONST char *)Tcl_FSGetInternalRep(pathObjPtr, &tclNativeFilesystem); } /* *--------------------------------------------------------------------------- * * NativeCreateNativeRep -- * * Create a native representation for the given path. * * Results: * None. * * Side effects: * None. * *--------------------------------------------------------------------------- */ static ClientData NativeCreateNativeRep(pathObjPtr) Tcl_Obj* pathObjPtr; { char *nativePathPtr; Tcl_DString ds; Tcl_Obj* validPathObjPtr; int len; char *str; /* Make sure the normalized path is set */ validPathObjPtr = Tcl_FSGetNormalizedPath(NULL, pathObjPtr); if (validPathObjPtr == NULL) { return NULL; } str = Tcl_GetStringFromObj(validPathObjPtr, &len); #ifdef __WIN32__ Tcl_WinUtfToTChar(str, len, &ds); if (tclWinProcs->useWide) { len = Tcl_DStringLength(&ds) + sizeof(WCHAR); } else { len = Tcl_DStringLength(&ds) + sizeof(char); } #else Tcl_UtfToExternalDString(NULL, str, len, &ds); len = Tcl_DStringLength(&ds) + sizeof(char); #endif nativePathPtr = ckalloc((unsigned) len); memcpy((VOID*)nativePathPtr, (VOID*)Tcl_DStringValue(&ds), (size_t) len); Tcl_DStringFree(&ds); return (ClientData)nativePathPtr; } /* *--------------------------------------------------------------------------- * * TclpNativeToNormalized -- * * Convert native format to a normalized path object, with refCount * of zero. * * Results: * A valid normalized path. * * Side effects: * None. * *--------------------------------------------------------------------------- */ Tcl_Obj* TclpNativeToNormalized(clientData) ClientData clientData; { Tcl_DString ds; Tcl_Obj *objPtr; CONST char *copy; int len; #ifdef __WIN32__ Tcl_WinTCharToUtf((CONST char*)clientData, -1, &ds); #else Tcl_ExternalToUtfDString(NULL, (CONST char*)clientData, -1, &ds); #endif copy = Tcl_DStringValue(&ds); len = Tcl_DStringLength(&ds); #ifdef __WIN32__ /* * Certain native path representations on Windows have this special * prefix to indicate that they are to be treated specially. For * example extremely long paths, or symlinks */ if (*copy == '\\') { if (0 == strncmp(copy,"\\??\\",4)) { copy += 4; len -= 4; } else if (0 == strncmp(copy,"\\\\?\\",4)) { copy += 4; len -= 4; } } #endif objPtr = Tcl_NewStringObj(copy,len); Tcl_DStringFree(&ds); return objPtr; } /* *--------------------------------------------------------------------------- * * TclNativeDupInternalRep -- * * Duplicate the native representation. * * Results: * The copied native representation, or NULL if it is not possible * to copy the representation. * * Side effects: * None. * *--------------------------------------------------------------------------- */ ClientData TclNativeDupInternalRep(clientData) ClientData clientData; { ClientData copy; size_t len; if (clientData == NULL) { return NULL; } #ifdef __WIN32__ if (tclWinProcs->useWide) { /* unicode representation when running on NT/2K/XP */ len = sizeof(WCHAR) + (wcslen((CONST WCHAR*)clientData) * sizeof(WCHAR)); } else { /* ansi representation when running on 95/98/ME */ len = sizeof(char) + (strlen((CONST char*)clientData) * sizeof(char)); } #else /* ansi representation when running on Unix/MacOS */ len = sizeof(char) + (strlen((CONST char*)clientData) * sizeof(char)); #endif copy = (ClientData) ckalloc(len); memcpy((VOID*)copy, (VOID*)clientData, len); return copy; } /* *--------------------------------------------------------------------------- * * NativeFreeInternalRep -- * * Free a native internal representation, which will be non-NULL. * * Results: * None. * * Side effects: * Memory is released. * *--------------------------------------------------------------------------- */ static void NativeFreeInternalRep(clientData) ClientData clientData; { ckfree((char*)clientData); } /* *--------------------------------------------------------------------------- * * Tcl_FSFileSystemInfo -- * * This function returns a list of two elements. The first * element is the name of the filesystem (e.g. "native" or "vfs"), * and the second is the particular type of the given path within * that filesystem. * * Results: * A list of two elements. * * Side effects: * The object may be converted to a path type. * *--------------------------------------------------------------------------- */ Tcl_Obj* Tcl_FSFileSystemInfo(pathObjPtr) Tcl_Obj* pathObjPtr; { Tcl_Obj *resPtr; Tcl_FSFilesystemPathTypeProc *proc; Tcl_Filesystem *fsPtr = Tcl_FSGetFileSystemForPath(pathObjPtr); if (fsPtr == NULL) { return NULL; } resPtr = Tcl_NewListObj(0,NULL); Tcl_ListObjAppendElement(NULL, resPtr, Tcl_NewStringObj(fsPtr->typeName,-1)); proc = fsPtr->filesystemPathTypeProc; if (proc != NULL) { Tcl_Obj *typePtr = (*proc)(pathObjPtr); if (typePtr != NULL) { Tcl_ListObjAppendElement(NULL, resPtr, typePtr); } } return resPtr; } /* *--------------------------------------------------------------------------- * * Tcl_FSPathSeparator -- * * This function returns the separator to be used for a given * path. The object returned should have a refCount of zero * * Results: * A Tcl object, with a refCount of zero. If the caller * needs to retain a reference to the object, it should * call Tcl_IncrRefCount. * * Side effects: * The path object may be converted to a path type. * *--------------------------------------------------------------------------- */ Tcl_Obj* Tcl_FSPathSeparator(pathObjPtr) Tcl_Obj* pathObjPtr; { Tcl_Filesystem *fsPtr = Tcl_FSGetFileSystemForPath(pathObjPtr); if (fsPtr == NULL) { return NULL; } if (fsPtr->filesystemSeparatorProc != NULL) { return (*fsPtr->filesystemSeparatorProc)(pathObjPtr); } return NULL; } /* *--------------------------------------------------------------------------- * * NativeFilesystemSeparator -- * * This function is part of the native filesystem support, and * returns the separator for the given path. * * Results: * String object containing the separator character. * * Side effects: * None. * *--------------------------------------------------------------------------- */ static Tcl_Obj* NativeFilesystemSeparator(pathObjPtr) Tcl_Obj* pathObjPtr; { char *separator = NULL; /* lint */ switch (tclPlatform) { case TCL_PLATFORM_UNIX: separator = "/"; break; case TCL_PLATFORM_WINDOWS: separator = "\\"; break; case TCL_PLATFORM_MAC: separator = ":"; break; } return Tcl_NewStringObj(separator,1); } /* Everything from here on is contained in this obsolete ifdef */ #ifdef USE_OBSOLETE_FS_HOOKS /* *---------------------------------------------------------------------- * * TclStatInsertProc -- * * Insert the passed procedure pointer at the head of the list of * functions which are used during a call to 'TclStat(...)'. The * passed function should behave exactly like 'TclStat' when called * during that time (see 'TclStat(...)' for more information). * The function will be added even if it already in the list. * * Results: * Normally TCL_OK; TCL_ERROR if memory for a new node in the list * could not be allocated. * * Side effects: * Memory allocated and modifies the link list for 'TclStat' * functions. * *---------------------------------------------------------------------- */ int TclStatInsertProc (proc) TclStatProc_ *proc; { int retVal = TCL_ERROR; if (proc != NULL) { StatProc *newStatProcPtr; newStatProcPtr = (StatProc *)ckalloc(sizeof(StatProc)); if (newStatProcPtr != NULL) { newStatProcPtr->proc = proc; Tcl_MutexLock(&obsoleteFsHookMutex); newStatProcPtr->nextPtr = statProcList; statProcList = newStatProcPtr; Tcl_MutexUnlock(&obsoleteFsHookMutex); retVal = TCL_OK; } } return retVal; } /* *---------------------------------------------------------------------- * * TclStatDeleteProc -- * * Removed the passed function pointer from the list of 'TclStat' * functions. Ensures that the built-in stat function is not * removvable. * * Results: * TCL_OK if the procedure pointer was successfully removed, * TCL_ERROR otherwise. * * Side effects: * Memory is deallocated and the respective list updated. * *---------------------------------------------------------------------- */ int TclStatDeleteProc (proc) TclStatProc_ *proc; { int retVal = TCL_ERROR; StatProc *tmpStatProcPtr; StatProc *prevStatProcPtr = NULL; Tcl_MutexLock(&obsoleteFsHookMutex); tmpStatProcPtr = statProcList; /* * Traverse the 'statProcList' looking for the particular node * whose 'proc' member matches 'proc' and remove that one from * the list. Ensure that the "default" node cannot be removed. */ while ((retVal == TCL_ERROR) && (tmpStatProcPtr != NULL)) { if (tmpStatProcPtr->proc == proc) { if (prevStatProcPtr == NULL) { statProcList = tmpStatProcPtr->nextPtr; } else { prevStatProcPtr->nextPtr = tmpStatProcPtr->nextPtr; } ckfree((char *)tmpStatProcPtr); retVal = TCL_OK; } else { prevStatProcPtr = tmpStatProcPtr; tmpStatProcPtr = tmpStatProcPtr->nextPtr; } } Tcl_MutexUnlock(&obsoleteFsHookMutex); return retVal; } /* *---------------------------------------------------------------------- * * TclAccessInsertProc -- * * Insert the passed procedure pointer at the head of the list of * functions which are used during a call to 'TclAccess(...)'. * The passed function should behave exactly like 'TclAccess' when * called during that time (see 'TclAccess(...)' for more * information). The function will be added even if it already in * the list. * * Results: * Normally TCL_OK; TCL_ERROR if memory for a new node in the list * could not be allocated. * * Side effects: * Memory allocated and modifies the link list for 'TclAccess' * functions. * *---------------------------------------------------------------------- */ int TclAccessInsertProc(proc) TclAccessProc_ *proc; { int retVal = TCL_ERROR; if (proc != NULL) { AccessProc *newAccessProcPtr; newAccessProcPtr = (AccessProc *)ckalloc(sizeof(AccessProc)); if (newAccessProcPtr != NULL) { newAccessProcPtr->proc = proc; Tcl_MutexLock(&obsoleteFsHookMutex); newAccessProcPtr->nextPtr = accessProcList; accessProcList = newAccessProcPtr; Tcl_MutexUnlock(&obsoleteFsHookMutex); retVal = TCL_OK; } } return retVal; } /* *---------------------------------------------------------------------- * * TclAccessDeleteProc -- * * Removed the passed function pointer from the list of 'TclAccess' * functions. Ensures that the built-in access function is not * removvable. * * Results: * TCL_OK if the procedure pointer was successfully removed, * TCL_ERROR otherwise. * * Side effects: * Memory is deallocated and the respective list updated. * *---------------------------------------------------------------------- */ int TclAccessDeleteProc(proc) TclAccessProc_ *proc; { int retVal = TCL_ERROR; AccessProc *tmpAccessProcPtr; AccessProc *prevAccessProcPtr = NULL; /* * Traverse the 'accessProcList' looking for the particular node * whose 'proc' member matches 'proc' and remove that one from * the list. Ensure that the "default" node cannot be removed. */ Tcl_MutexLock(&obsoleteFsHookMutex); tmpAccessProcPtr = accessProcList; while ((retVal == TCL_ERROR) && (tmpAccessProcPtr != NULL)) { if (tmpAccessProcPtr->proc == proc) { if (prevAccessProcPtr == NULL) { accessProcList = tmpAccessProcPtr->nextPtr; } else { prevAccessProcPtr->nextPtr = tmpAccessProcPtr->nextPtr; } ckfree((char *)tmpAccessProcPtr); retVal = TCL_OK; } else { prevAccessProcPtr = tmpAccessProcPtr; tmpAccessProcPtr = tmpAccessProcPtr->nextPtr; } } Tcl_MutexUnlock(&obsoleteFsHookMutex); return retVal; } /* *---------------------------------------------------------------------- * * TclOpenFileChannelInsertProc -- * * Insert the passed procedure pointer at the head of the list of * functions which are used during a call to * 'Tcl_OpenFileChannel(...)'. The passed function should behave * exactly like 'Tcl_OpenFileChannel' when called during that time * (see 'Tcl_OpenFileChannel(...)' for more information). The * function will be added even if it already in the list. * * Results: * Normally TCL_OK; TCL_ERROR if memory for a new node in the list * could not be allocated. * * Side effects: * Memory allocated and modifies the link list for * 'Tcl_OpenFileChannel' functions. * *---------------------------------------------------------------------- */ int TclOpenFileChannelInsertProc(proc) TclOpenFileChannelProc_ *proc; { int retVal = TCL_ERROR; if (proc != NULL) { OpenFileChannelProc *newOpenFileChannelProcPtr; newOpenFileChannelProcPtr = (OpenFileChannelProc *)ckalloc(sizeof(OpenFileChannelProc)); if (newOpenFileChannelProcPtr != NULL) { newOpenFileChannelProcPtr->proc = proc; Tcl_MutexLock(&obsoleteFsHookMutex); newOpenFileChannelProcPtr->nextPtr = openFileChannelProcList; openFileChannelProcList = newOpenFileChannelProcPtr; Tcl_MutexUnlock(&obsoleteFsHookMutex); retVal = TCL_OK; } } return retVal; } /* *---------------------------------------------------------------------- * * TclOpenFileChannelDeleteProc -- * * Removed the passed function pointer from the list of * 'Tcl_OpenFileChannel' functions. Ensures that the built-in * open file channel function is not removable. * * Results: * TCL_OK if the procedure pointer was successfully removed, * TCL_ERROR otherwise. * * Side effects: * Memory is deallocated and the respective list updated. * *---------------------------------------------------------------------- */ int TclOpenFileChannelDeleteProc(proc) TclOpenFileChannelProc_ *proc; { int retVal = TCL_ERROR; OpenFileChannelProc *tmpOpenFileChannelProcPtr = openFileChannelProcList; OpenFileChannelProc *prevOpenFileChannelProcPtr = NULL; /* * Traverse the 'openFileChannelProcList' looking for the particular * node whose 'proc' member matches 'proc' and remove that one from * the list. */ Tcl_MutexLock(&obsoleteFsHookMutex); tmpOpenFileChannelProcPtr = openFileChannelProcList; while ((retVal == TCL_ERROR) && (tmpOpenFileChannelProcPtr != NULL)) { if (tmpOpenFileChannelProcPtr->proc == proc) { if (prevOpenFileChannelProcPtr == NULL) { openFileChannelProcList = tmpOpenFileChannelProcPtr->nextPtr; } else { prevOpenFileChannelProcPtr->nextPtr = tmpOpenFileChannelProcPtr->nextPtr; } ckfree((char *)tmpOpenFileChannelProcPtr); retVal = TCL_OK; } else { prevOpenFileChannelProcPtr = tmpOpenFileChannelProcPtr; tmpOpenFileChannelProcPtr = tmpOpenFileChannelProcPtr->nextPtr; } } Tcl_MutexUnlock(&obsoleteFsHookMutex); return retVal; } #endif /* USE_OBSOLETE_FS_HOOKS */ /* * Prototypes for procedures defined later in this file. */ static void DupFsPathInternalRep _ANSI_ARGS_((Tcl_Obj *srcPtr, Tcl_Obj *copyPtr)); static void FreeFsPathInternalRep _ANSI_ARGS_((Tcl_Obj *listPtr)); static void UpdateStringOfFsPath _ANSI_ARGS_((Tcl_Obj *objPtr)); static int SetFsPathFromAny _ANSI_ARGS_((Tcl_Interp *interp, Tcl_Obj *objPtr)); static int FindSplitPos _ANSI_ARGS_((char *path, char *separator)); /* * Define the 'path' object type, which Tcl uses to represent * file paths internally. */ static Tcl_ObjType tclFsPathType = { "path", /* name */ FreeFsPathInternalRep, /* freeIntRepProc */ DupFsPathInternalRep, /* dupIntRepProc */ UpdateStringOfFsPath, /* updateStringProc */ SetFsPathFromAny /* setFromAnyProc */ }; /* * struct FsPath -- * * Internal representation of a Tcl_Obj of "path" type. This * can be used to represent relative or absolute paths, and has * certain optimisations when used to represent paths which are * already normalized and absolute. * * Note that 'normPathPtr' can be a circular reference to the * container Tcl_Obj of this FsPath. */ typedef struct FsPath { Tcl_Obj *translatedPathPtr; /* Name without any ~user sequences. * If this is NULL, then this is a * pure normalized, absolute path * object, in which the parent Tcl_Obj's * string rep is already both translated * and normalized. */ Tcl_Obj *normPathPtr; /* Normalized absolute path, without * ., .. or ~user sequences. If the * Tcl_Obj containing * this FsPath is already normalized, * this may be a circular reference back * to the container. If that is NOT the * case, we have a refCount on the object. */ Tcl_Obj *cwdPtr; /* If null, path is absolute, else * this points to the cwd object used * for this path. We have a refCount * on the object. */ int flags; /* Flags to describe interpretation */ ClientData nativePathPtr; /* Native representation of this path, * which is filesystem dependent. */ int filesystemEpoch; /* Used to ensure the path representation * was generated during the correct * filesystem epoch. The epoch changes * when filesystem-mounts are changed. */ struct FilesystemRecord *fsRecPtr; /* Pointer to the filesystem record * entry to use for this path. */ } FsPath; /* * Define some macros to give us convenient access to path-object * specific fields. */ #define PATHOBJ(objPtr) (objPtr->internalRep.otherValuePtr) #define PATHFLAGS(objPtr) \ (((FsPath*)(objPtr->internalRep.otherValuePtr))->flags) #define TCLPATH_APPENDED 1 #define TCLPATH_RELATIVE 2 /* *---------------------------------------------------------------------- * * Tcl_FSGetPathType -- * * Determines whether a given path is relative to the current * directory, relative to the current volume, or absolute. * * Results: * Returns one of TCL_PATH_ABSOLUTE, TCL_PATH_RELATIVE, or * TCL_PATH_VOLUME_RELATIVE. * * Side effects: * None. * *---------------------------------------------------------------------- */ Tcl_PathType Tcl_FSGetPathType(pathObjPtr) Tcl_Obj *pathObjPtr; { return FSGetPathType(pathObjPtr, NULL, NULL); } /* *---------------------------------------------------------------------- * * FSGetPathType -- * * Determines whether a given path is relative to the current * directory, relative to the current volume, or absolute. If the * caller wishes to know which filesystem claimed the path (in the * case for which the path is absolute), then a reference to a * filesystem pointer can be passed in (but passing NULL is * acceptable). * * Results: * Returns one of TCL_PATH_ABSOLUTE, TCL_PATH_RELATIVE, or * TCL_PATH_VOLUME_RELATIVE. The filesystem reference will * be set if and only if it is non-NULL and the function's * return value is TCL_PATH_ABSOLUTE. * * Side effects: * None. * *---------------------------------------------------------------------- */ static Tcl_PathType FSGetPathType(pathObjPtr, filesystemPtrPtr, driveNameLengthPtr) Tcl_Obj *pathObjPtr; Tcl_Filesystem **filesystemPtrPtr; int *driveNameLengthPtr; { if (Tcl_FSConvertToPathType(NULL, pathObjPtr) != TCL_OK) { return GetPathType(pathObjPtr, filesystemPtrPtr, driveNameLengthPtr, NULL); } else { FsPath *fsPathPtr = (FsPath*) PATHOBJ(pathObjPtr); if (fsPathPtr->cwdPtr != NULL) { if (PATHFLAGS(pathObjPtr) == 0) { return TCL_PATH_RELATIVE; } return FSGetPathType(fsPathPtr->cwdPtr, filesystemPtrPtr, driveNameLengthPtr); } else { return GetPathType(pathObjPtr, filesystemPtrPtr, driveNameLengthPtr, NULL); } } } /* *--------------------------------------------------------------------------- * * Tcl_FSJoinPath -- * * This function takes the given Tcl_Obj, which should be a valid * list, and returns the path object given by considering the * first 'elements' elements as valid path segments. If elements < 0, * we use the entire list. * * Results: * Returns object with refCount of zero, (or if non-zero, it has * references elsewhere in Tcl). Either way, the caller must * increment its refCount before use. * * Side effects: * None. * *--------------------------------------------------------------------------- */ Tcl_Obj* Tcl_FSJoinPath(listObj, elements) Tcl_Obj *listObj; int elements; { Tcl_Obj *res; int i; Tcl_Filesystem *fsPtr = NULL; if (elements < 0) { if (Tcl_ListObjLength(NULL, listObj, &elements) != TCL_OK) { return NULL; } } else { /* Just make sure it is a valid list */ int listTest; if (Tcl_ListObjLength(NULL, listObj, &listTest) != TCL_OK) { return NULL; } /* * Correct this if it is too large, otherwise we will * waste our time joining null elements to the path */ if (elements > listTest) { elements = listTest; } } res = Tcl_NewObj(); for (i = 0; i < elements; i++) { Tcl_Obj *elt; int driveNameLength; Tcl_PathType type; char *strElt; int strEltLen; int length; char *ptr; Tcl_Obj *driveName = NULL; Tcl_ListObjIndex(NULL, listObj, i, &elt); /* * This is a special case where we can be much more * efficient, where we are joining a single relative path * onto an object that is already of path type. The * 'TclNewFSPathObj' call below creates an object which * can be normalized more efficiently. Currently we only * use the special case when we have exactly two elements, * but we could expand that in the future. */ if ((i == (elements-2)) && (i == 0) && (elt->typePtr == &tclFsPathType) && !(elt->bytes != NULL && (elt->bytes[0] == '\0'))) { Tcl_Obj *tail; Tcl_PathType type; Tcl_ListObjIndex(NULL, listObj, i+1, &tail); type = GetPathType(tail, NULL, NULL, NULL); if (type == TCL_PATH_RELATIVE) { CONST char *str; int len; str = Tcl_GetStringFromObj(tail,&len); if (len == 0) { /* * This happens if we try to handle the root volume * '/'. There's no need to return a special path * object, when the base itself is just fine! */ Tcl_DecrRefCount(res); return elt; } /* * If it doesn't begin with '.' and is a mac or unix * path or it a windows path without backslashes, then we * can be very efficient here. (In fact even a windows * path with backslashes can be joined efficiently, but * the path object would not have forward slashes only, * and this would therefore contradict our 'file join' * documentation). */ if (str[0] != '.' && ((tclPlatform != TCL_PLATFORM_WINDOWS) || (strchr(str, '\\') == NULL))) { /* * Finally, on Windows, 'file join' is defined to * convert all backslashes to forward slashes, * so the base part cannot have backslashes either. */ if ((tclPlatform != TCL_PLATFORM_WINDOWS) || (strchr(Tcl_GetString(elt), '\\') == NULL)) { if (res != NULL) { TclDecrRefCount(res); } return TclNewFSPathObj(elt, str, len); } } /* * Otherwise we don't have an easy join, and * we must let the more general code below handle * things */ } else { if (tclPlatform == TCL_PLATFORM_UNIX) { Tcl_DecrRefCount(res); return tail; } else { CONST char *str; int len; str = Tcl_GetStringFromObj(tail,&len); if (tclPlatform == TCL_PLATFORM_WINDOWS) { if (strchr(str, '\\') == NULL) { Tcl_DecrRefCount(res); return tail; } } else if (tclPlatform == TCL_PLATFORM_MAC) { if (strchr(str, '/') == NULL) { Tcl_DecrRefCount(res); return tail; } } } } } strElt = Tcl_GetStringFromObj(elt, &strEltLen); type = GetPathType(elt, &fsPtr, &driveNameLength, &driveName); if (type != TCL_PATH_RELATIVE) { /* Zero out the current result */ Tcl_DecrRefCount(res); if (driveName != NULL) { res = Tcl_DuplicateObj(driveName); Tcl_DecrRefCount(driveName); } else { res = Tcl_NewStringObj(strElt, driveNameLength); } strElt += driveNameLength; } ptr = Tcl_GetStringFromObj(res, &length); /* * Strip off any './' before a tilde, unless this is the * beginning of the path. */ if (length > 0 && strEltLen > 0) { if ((strElt[0] == '.') && (strElt[1] == '/') && (strElt[2] == '~')) { strElt += 2; } } /* * A NULL value for fsPtr at this stage basically means * we're trying to join a relative path onto something * which is also relative (or empty). There's nothing * particularly wrong with that. */ if (*strElt == '\0') continue; if (fsPtr == &tclNativeFilesystem || fsPtr == NULL) { TclpNativeJoinPath(res, strElt); } else { char separator = '/'; int needsSep = 0; if (fsPtr->filesystemSeparatorProc != NULL) { Tcl_Obj *sep = (*fsPtr->filesystemSeparatorProc)(res); if (sep != NULL) { separator = Tcl_GetString(sep)[0]; } } if (length > 0 && ptr[length -1] != '/') { Tcl_AppendToObj(res, &separator, 1); length++; } Tcl_SetObjLength(res, length + (int) strlen(strElt)); ptr = Tcl_GetString(res) + length; for (; *strElt != '\0'; strElt++) { if (*strElt == separator) { while (strElt[1] == separator) { strElt++; } if (strElt[1] != '\0') { if (needsSep) { *ptr++ = separator; } } } else { *ptr++ = *strElt; needsSep = 1; } } length = ptr - Tcl_GetString(res); Tcl_SetObjLength(res, length); } } return res; } /* *--------------------------------------------------------------------------- * * Tcl_FSConvertToPathType -- * * This function tries to convert the given Tcl_Obj to a valid * Tcl path type, taking account of the fact that the cwd may * have changed even if this object is already supposedly of * the correct type. * * The filename may begin with "~" (to indicate current user's * home directory) or "~" (to indicate any user's home * directory). * * Results: * Standard Tcl error code. * * Side effects: * The old representation may be freed, and new memory allocated. * *--------------------------------------------------------------------------- */ int Tcl_FSConvertToPathType(interp, objPtr) Tcl_Interp *interp; /* Interpreter in which to store error * message (if necessary). */ Tcl_Obj *objPtr; /* Object to convert to a valid, current * path type. */ { ThreadSpecificData *tsdPtr = TCL_TSD_INIT(&dataKey); /* * While it is bad practice to examine an object's type directly, * this is actually the best thing to do here. The reason is that * if we are converting this object to FsPath type for the first * time, we don't need to worry whether the 'cwd' has changed. * On the other hand, if this object is already of FsPath type, * and is a relative path, we do have to worry about the cwd. * If the cwd has changed, we must recompute the path. */ if (objPtr->typePtr == &tclFsPathType) { FsPath *fsPathPtr = (FsPath*) PATHOBJ(objPtr); if (fsPathPtr->filesystemEpoch != tsdPtr->filesystemEpoch) { if (objPtr->bytes == NULL) { UpdateStringOfFsPath(objPtr); } FreeFsPathInternalRep(objPtr); objPtr->typePtr = NULL; return Tcl_ConvertToType(interp, objPtr, &tclFsPathType); } return TCL_OK; } else { return Tcl_ConvertToType(interp, objPtr, &tclFsPathType); } } /* * Helper function for SetFsPathFromAny. Returns position of first * directory delimiter in the path. */ static int FindSplitPos(path, separator) char *path; char *separator; { int count = 0; switch (tclPlatform) { case TCL_PLATFORM_UNIX: case TCL_PLATFORM_MAC: while (path[count] != 0) { if (path[count] == *separator) { return count; } count++; } break; case TCL_PLATFORM_WINDOWS: while (path[count] != 0) { if (path[count] == *separator || path[count] == '\\') { return count; } count++; } break; } return count; } /* *--------------------------------------------------------------------------- * * TclNewFSPathObj -- * * Creates a path object whose string representation is * '[file join dirPtr addStrRep]', but does so in a way that * allows for more efficient caching of normalized paths. * * Assumptions: * 'dirPtr' must be an absolute path. * 'len' may not be zero. * * Results: * The new Tcl object, with refCount zero. * * Side effects: * Memory is allocated. 'dirPtr' gets an additional refCount. * *--------------------------------------------------------------------------- */ Tcl_Obj* TclNewFSPathObj(Tcl_Obj *dirPtr, CONST char *addStrRep, int len) { FsPath *fsPathPtr; Tcl_Obj *objPtr; ThreadSpecificData *tsdPtr = TCL_TSD_INIT(&dataKey); objPtr = Tcl_NewObj(); fsPathPtr = (FsPath*)ckalloc((unsigned)sizeof(FsPath)); if (tclPlatform == TCL_PLATFORM_MAC) { /* * Mac relative paths may begin with a directory separator ':'. * If present, we need to skip this ':' because we assume that * we can join dirPtr and addStrRep by concatenating them as * strings (and we ensure that dirPtr is terminated by a ':'). */ if (addStrRep[0] == ':') { addStrRep++; len--; } } /* Setup the path */ fsPathPtr->translatedPathPtr = NULL; fsPathPtr->normPathPtr = Tcl_NewStringObj(addStrRep, len); Tcl_IncrRefCount(fsPathPtr->normPathPtr); fsPathPtr->cwdPtr = dirPtr; Tcl_IncrRefCount(dirPtr); fsPathPtr->nativePathPtr = NULL; fsPathPtr->fsRecPtr = NULL; fsPathPtr->filesystemEpoch = tsdPtr->filesystemEpoch; PATHOBJ(objPtr) = (VOID *) fsPathPtr; PATHFLAGS(objPtr) = TCLPATH_RELATIVE | TCLPATH_APPENDED; objPtr->typePtr = &tclFsPathType; objPtr->bytes = NULL; objPtr->length = 0; return objPtr; } /* *--------------------------------------------------------------------------- * * TclFSMakePathRelative -- * * Only for internal use. * * Takes a path and a directory, where we _assume_ both path and * directory are absolute, normalized and that the path lies * inside the directory. Returns a Tcl_Obj representing filename * of the path relative to the directory. * * In the case where the resulting path would start with a '~', we * take special care to return an ordinary string. This means to * use that path (and not have it interpreted as a user name), * one must prepend './'. This may seem strange, but that is how * 'glob' is currently defined. * * Results: * NULL on error, otherwise a valid object, typically with * refCount of zero, which it is assumed the caller will * increment. * * Side effects: * The old representation may be freed, and new memory allocated. * *--------------------------------------------------------------------------- */ Tcl_Obj* TclFSMakePathRelative(interp, objPtr, cwdPtr) Tcl_Interp *interp; /* Used for error reporting if not NULL. */ Tcl_Obj *objPtr; /* The object we have. */ Tcl_Obj *cwdPtr; /* Make it relative to this. */ { int cwdLen, len; CONST char *tempStr; ThreadSpecificData *tsdPtr = TCL_TSD_INIT(&dataKey); if (objPtr->typePtr == &tclFsPathType) { FsPath *fsPathPtr = (FsPath*) PATHOBJ(objPtr); if (PATHFLAGS(objPtr) != 0 && fsPathPtr->cwdPtr == cwdPtr) { objPtr = fsPathPtr->normPathPtr; /* Free old representation */ if (objPtr->typePtr != NULL) { if (objPtr->bytes == NULL) { if (objPtr->typePtr->updateStringProc == NULL) { if (interp != NULL) { Tcl_ResetResult(interp); Tcl_AppendResult(interp, "can't find object", "string representation", (char *) NULL); } return NULL; } objPtr->typePtr->updateStringProc(objPtr); } if ((objPtr->typePtr->freeIntRepProc) != NULL) { (*objPtr->typePtr->freeIntRepProc)(objPtr); } } /* Now objPtr is a string object */ if (Tcl_GetString(objPtr)[0] == '~') { /* * If the first character of the path is a tilde, * we must just return the path as is, to agree * with the defined behaviour of 'glob'. */ return objPtr; } fsPathPtr = (FsPath*)ckalloc((unsigned)sizeof(FsPath)); /* Circular reference, by design */ fsPathPtr->translatedPathPtr = objPtr; fsPathPtr->normPathPtr = NULL; fsPathPtr->cwdPtr = cwdPtr; Tcl_IncrRefCount(cwdPtr); fsPathPtr->nativePathPtr = NULL; fsPathPtr->fsRecPtr = NULL; fsPathPtr->filesystemEpoch = tsdPtr->filesystemEpoch; PATHOBJ(objPtr) = (VOID *) fsPathPtr; PATHFLAGS(objPtr) = 0; objPtr->typePtr = &tclFsPathType; return objPtr; } } /* * We know the cwd is a normalised object which does * not end in a directory delimiter, unless the cwd * is the name of a volume, in which case it will * end in a delimiter! We handle this situation here. * A better test than the '!= sep' might be to simply * check if 'cwd' is a root volume. * * Note that if we get this wrong, we will strip off * either too much or too little below, leading to * wrong answers returned by glob. */ tempStr = Tcl_GetStringFromObj(cwdPtr, &cwdLen); /* * Should we perhaps use 'Tcl_FSPathSeparator'? * But then what about the Windows special case? * Perhaps we should just check if cwd is a root * volume. */ switch (tclPlatform) { case TCL_PLATFORM_UNIX: if (tempStr[cwdLen-1] != '/') { cwdLen++; } break; case TCL_PLATFORM_WINDOWS: if (tempStr[cwdLen-1] != '/' && tempStr[cwdLen-1] != '\\') { cwdLen++; } break; case TCL_PLATFORM_MAC: if (tempStr[cwdLen-1] != ':') { cwdLen++; } break; } tempStr = Tcl_GetStringFromObj(objPtr, &len); return Tcl_NewStringObj(tempStr + cwdLen, len - cwdLen); } /* *--------------------------------------------------------------------------- * * TclFSMakePathFromNormalized -- * * Like SetFsPathFromAny, but assumes the given object is an * absolute normalized path. Only for internal use. * * Results: * Standard Tcl error code. * * Side effects: * The old representation may be freed, and new memory allocated. * *--------------------------------------------------------------------------- */ int TclFSMakePathFromNormalized(interp, objPtr, nativeRep) Tcl_Interp *interp; /* Used for error reporting if not NULL. */ Tcl_Obj *objPtr; /* The object to convert. */ ClientData nativeRep; /* The native rep for the object, if known * else NULL. */ { FsPath *fsPathPtr; ThreadSpecificData *tsdPtr = TCL_TSD_INIT(&dataKey); if (objPtr->typePtr == &tclFsPathType) { return TCL_OK; } /* Free old representation */ if (objPtr->typePtr != NULL) { if (objPtr->bytes == NULL) { if (objPtr->typePtr->updateStringProc == NULL) { if (interp != NULL) { Tcl_ResetResult(interp); Tcl_AppendResult(interp, "can't find object", "string representation", (char *) NULL); } return TCL_ERROR; } objPtr->typePtr->updateStringProc(objPtr); } if ((objPtr->typePtr->freeIntRepProc) != NULL) { (*objPtr->typePtr->freeIntRepProc)(objPtr); } } fsPathPtr = (FsPath*)ckalloc((unsigned)sizeof(FsPath)); /* It's a pure normalized absolute path */ fsPathPtr->translatedPathPtr = NULL; fsPathPtr->normPathPtr = objPtr; fsPathPtr->cwdPtr = NULL; fsPathPtr->nativePathPtr = nativeRep; fsPathPtr->fsRecPtr = NULL; fsPathPtr->filesystemEpoch = tsdPtr->filesystemEpoch; PATHOBJ(objPtr) = (VOID *) fsPathPtr; PATHFLAGS(objPtr) = 0; objPtr->typePtr = &tclFsPathType; return TCL_OK; } /* *--------------------------------------------------------------------------- * * Tcl_FSNewNativePath -- * * This function performs the something like that reverse of the * usual obj->path->nativerep conversions. If some code retrieves * a path in native form (from, e.g. readlink or a native dialog), * and that path is to be used at the Tcl level, then calling * this function is an efficient way of creating the appropriate * path object type. * * Any memory which is allocated for 'clientData' should be retained * until clientData is passed to the filesystem's freeInternalRepProc * when it can be freed. The built in platform-specific filesystems * use 'ckalloc' to allocate clientData, and ckfree to free it. * * Results: * NULL or a valid path object pointer, with refCount zero. * * Side effects: * New memory may be allocated. * *--------------------------------------------------------------------------- */ Tcl_Obj * Tcl_FSNewNativePath(fromFilesystem, clientData) Tcl_Filesystem* fromFilesystem; ClientData clientData; { Tcl_Obj *objPtr; FsPath *fsPathPtr; FilesystemRecord *fsFromPtr; ThreadSpecificData *tsdPtr = TCL_TSD_INIT(&dataKey); objPtr = TclFSInternalToNormalized(fromFilesystem, clientData, &fsFromPtr); if (objPtr == NULL) { return NULL; } /* * Free old representation; shouldn't normally be any, * but best to be safe. */ if (objPtr->typePtr != NULL) { if (objPtr->bytes == NULL) { if (objPtr->typePtr->updateStringProc == NULL) { return NULL; } objPtr->typePtr->updateStringProc(objPtr); } if ((objPtr->typePtr->freeIntRepProc) != NULL) { (*objPtr->typePtr->freeIntRepProc)(objPtr); } } fsPathPtr = (FsPath*)ckalloc((unsigned)sizeof(FsPath)); fsPathPtr->translatedPathPtr = NULL; /* Circular reference, by design */ fsPathPtr->normPathPtr = objPtr; fsPathPtr->cwdPtr = NULL; fsPathPtr->nativePathPtr = clientData; fsPathPtr->fsRecPtr = fsFromPtr; fsPathPtr->fsRecPtr->fileRefCount++; fsPathPtr->filesystemEpoch = tsdPtr->filesystemEpoch; PATHOBJ(objPtr) = (VOID *) fsPathPtr; PATHFLAGS(objPtr) = 0; objPtr->typePtr = &tclFsPathType; return objPtr; } /* *--------------------------------------------------------------------------- * * Tcl_FSGetTranslatedPath -- * * This function attempts to extract the translated path * from the given Tcl_Obj. If the translation succeeds (i.e. the * object is a valid path), then it is returned. Otherwise NULL * will be returned, and an error message may be left in the * interpreter (if it is non-NULL) * * Results: * NULL or a valid Tcl_Obj pointer. * * Side effects: * Only those of 'Tcl_FSConvertToPathType' * *--------------------------------------------------------------------------- */ Tcl_Obj* Tcl_FSGetTranslatedPath(interp, pathPtr) Tcl_Interp *interp; Tcl_Obj* pathPtr; { Tcl_Obj *retObj = NULL; FsPath *srcFsPathPtr; if (Tcl_FSConvertToPathType(interp, pathPtr) != TCL_OK) { return NULL; } srcFsPathPtr = (FsPath*) PATHOBJ(pathPtr); if (srcFsPathPtr->translatedPathPtr == NULL) { if (PATHFLAGS(pathPtr) != 0) { retObj = Tcl_FSGetNormalizedPath(interp, pathPtr); } else { /* * It is a pure absolute, normalized path object. * This is something like being a 'pure list'. The * object's string, translatedPath and normalizedPath * are all identical. */ retObj = srcFsPathPtr->normPathPtr; } } else { /* It is an ordinary path object */ retObj = srcFsPathPtr->translatedPathPtr; } if (retObj) { Tcl_IncrRefCount(retObj); } return retObj; } /* *--------------------------------------------------------------------------- * * Tcl_FSGetTranslatedStringPath -- * * This function attempts to extract the translated path * from the given Tcl_Obj. If the translation succeeds (i.e. the * object is a valid path), then the path is returned. Otherwise NULL * will be returned, and an error message may be left in the * interpreter (if it is non-NULL) * * Results: * NULL or a valid string. * * Side effects: * Only those of 'Tcl_FSConvertToPathType' * *--------------------------------------------------------------------------- */ CONST char* Tcl_FSGetTranslatedStringPath(interp, pathPtr) Tcl_Interp *interp; Tcl_Obj* pathPtr; { Tcl_Obj *transPtr = Tcl_FSGetTranslatedPath(interp, pathPtr); if (transPtr != NULL) { int len; CONST char *result, *orig; orig = Tcl_GetStringFromObj(transPtr, &len); result = (char*) ckalloc((unsigned)(len+1)); memcpy((VOID*) result, (VOID*) orig, (size_t) (len+1)); Tcl_DecrRefCount(transPtr); return result; } return NULL; } /* *--------------------------------------------------------------------------- * * Tcl_FSGetNormalizedPath -- * * This important function attempts to extract from the given Tcl_Obj * a unique normalised path representation, whose string value can * be used as a unique identifier for the file. * * Results: * NULL or a valid path object pointer. * * Side effects: * New memory may be allocated. The Tcl 'errno' may be modified * in the process of trying to examine various path possibilities. * *--------------------------------------------------------------------------- */ Tcl_Obj* Tcl_FSGetNormalizedPath(interp, pathObjPtr) Tcl_Interp *interp; Tcl_Obj* pathObjPtr; { FsPath *fsPathPtr; if (Tcl_FSConvertToPathType(interp, pathObjPtr) != TCL_OK) { return NULL; } fsPathPtr = (FsPath*) PATHOBJ(pathObjPtr); if (PATHFLAGS(pathObjPtr) != 0) { /* * This is a special path object which is the result of * something like 'file join' */ Tcl_Obj *dir, *copy; int cwdLen; int pathType; CONST char *cwdStr; ClientData clientData = NULL; pathType = Tcl_FSGetPathType(fsPathPtr->cwdPtr); dir = Tcl_FSGetNormalizedPath(interp, fsPathPtr->cwdPtr); if (dir == NULL) { return NULL; } if (pathObjPtr->bytes == NULL) { UpdateStringOfFsPath(pathObjPtr); } copy = Tcl_DuplicateObj(dir); Tcl_IncrRefCount(copy); Tcl_IncrRefCount(dir); /* We now own a reference on both 'dir' and 'copy' */ cwdStr = Tcl_GetStringFromObj(copy, &cwdLen); /* * Should we perhaps use 'Tcl_FSPathSeparator'? * But then what about the Windows special case? * Perhaps we should just check if cwd is a root volume. * We should never get cwdLen == 0 in this code path. */ switch (tclPlatform) { case TCL_PLATFORM_UNIX: if (cwdStr[cwdLen-1] != '/') { Tcl_AppendToObj(copy, "/", 1); cwdLen++; } break; case TCL_PLATFORM_WINDOWS: if (cwdStr[cwdLen-1] != '/' && cwdStr[cwdLen-1] != '\\') { Tcl_AppendToObj(copy, "/", 1); cwdLen++; } break; case TCL_PLATFORM_MAC: if (cwdStr[cwdLen-1] != ':') { Tcl_AppendToObj(copy, ":", 1); cwdLen++; } break; } Tcl_AppendObjToObj(copy, fsPathPtr->normPathPtr); /* * Normalize the combined string, but only starting after * the end of the previously normalized 'dir'. This should * be much faster! We use 'cwdLen-1' so that we are * already pointing at the dir-separator that we know about. * The normalization code will actually start off directly * after that separator. */ TclFSNormalizeToUniquePath(interp, copy, cwdLen-1, (fsPathPtr->nativePathPtr == NULL ? &clientData : NULL)); /* Now we need to construct the new path object */ if (pathType == TCL_PATH_RELATIVE) { FsPath* origDirFsPathPtr; Tcl_Obj *origDir = fsPathPtr->cwdPtr; origDirFsPathPtr = (FsPath*) PATHOBJ(origDir); fsPathPtr->cwdPtr = origDirFsPathPtr->cwdPtr; Tcl_IncrRefCount(fsPathPtr->cwdPtr); Tcl_DecrRefCount(fsPathPtr->normPathPtr); fsPathPtr->normPathPtr = copy; /* That's our reference to copy used */ Tcl_DecrRefCount(dir); Tcl_DecrRefCount(origDir); } else { Tcl_DecrRefCount(fsPathPtr->cwdPtr); fsPathPtr->cwdPtr = NULL; Tcl_DecrRefCount(fsPathPtr->normPathPtr); fsPathPtr->normPathPtr = copy; /* That's our reference to copy used */ Tcl_DecrRefCount(dir); } if (clientData != NULL) { fsPathPtr->nativePathPtr = clientData; } PATHFLAGS(pathObjPtr) = 0; } /* Ensure cwd hasn't changed */ if (fsPathPtr->cwdPtr != NULL) { if (!TclFSCwdPointerEquals(fsPathPtr->cwdPtr)) { if (pathObjPtr->bytes == NULL) { UpdateStringOfFsPath(pathObjPtr); } FreeFsPathInternalRep(pathObjPtr); pathObjPtr->typePtr = NULL; if (Tcl_ConvertToType(interp, pathObjPtr, &tclFsPathType) != TCL_OK) { return NULL; } fsPathPtr = (FsPath*) PATHOBJ(pathObjPtr); } else if (fsPathPtr->normPathPtr == NULL) { int cwdLen; Tcl_Obj *copy; CONST char *cwdStr; ClientData clientData = NULL; copy = Tcl_DuplicateObj(fsPathPtr->cwdPtr); Tcl_IncrRefCount(copy); cwdStr = Tcl_GetStringFromObj(copy, &cwdLen); /* * Should we perhaps use 'Tcl_FSPathSeparator'? * But then what about the Windows special case? * Perhaps we should just check if cwd is a root volume. * We should never get cwdLen == 0 in this code path. */ switch (tclPlatform) { case TCL_PLATFORM_UNIX: if (cwdStr[cwdLen-1] != '/') { Tcl_AppendToObj(copy, "/", 1); cwdLen++; } break; case TCL_PLATFORM_WINDOWS: if (cwdStr[cwdLen-1] != '/' && cwdStr[cwdLen-1] != '\\') { Tcl_AppendToObj(copy, "/", 1); cwdLen++; } break; case TCL_PLATFORM_MAC: if (cwdStr[cwdLen-1] != ':') { Tcl_AppendToObj(copy, ":", 1); cwdLen++; } break; } Tcl_AppendObjToObj(copy, pathObjPtr); /* * Normalize the combined string, but only starting after * the end of the previously normalized 'dir'. This should * be much faster! */ TclFSNormalizeToUniquePath(interp, copy, cwdLen-1, (fsPathPtr->nativePathPtr == NULL ? &clientData : NULL)); fsPathPtr->normPathPtr = copy; if (clientData != NULL) { fsPathPtr->nativePathPtr = clientData; } } } if (fsPathPtr->normPathPtr == NULL) { ClientData clientData = NULL; Tcl_Obj *useThisCwd = NULL; /* * Since normPathPtr is NULL, but this is a valid path * object, we know that the translatedPathPtr cannot be NULL. */ Tcl_Obj *absolutePath = fsPathPtr->translatedPathPtr; char *path = Tcl_GetString(absolutePath); /* * We have to be a little bit careful here to avoid infinite loops * we're asking Tcl_FSGetPathType to return the path's type, but * that call can actually result in a lot of other filesystem * action, which might loop back through here. */ if (path[0] != '\0') { Tcl_PathType type = Tcl_FSGetPathType(pathObjPtr); if (type == TCL_PATH_RELATIVE) { useThisCwd = Tcl_FSGetCwd(interp); if (useThisCwd == NULL) return NULL; absolutePath = Tcl_FSJoinToPath(useThisCwd, 1, &absolutePath); Tcl_IncrRefCount(absolutePath); /* We have a refCount on the cwd */ #ifdef __WIN32__ } else if (type == TCL_PATH_VOLUME_RELATIVE) { /* * Only Windows has volume-relative paths. These * paths are rather rare, but is is nice if Tcl can * handle them. It is much better if we can * handle them here, rather than in the native fs code, * because we really need to have a real absolute path * just below. * * We do not let this block compile on non-Windows * platforms because the test suite's manual forcing * of tclPlatform can otherwise cause this code path * to be executed, causing various errors because * volume-relative paths really do not exist. */ useThisCwd = Tcl_FSGetCwd(interp); if (useThisCwd == NULL) return NULL; if (path[0] == '/') { /* * Path of form /foo/bar which is a path in the * root directory of the current volume. */ CONST char *drive = Tcl_GetString(useThisCwd); absolutePath = Tcl_NewStringObj(drive,2); Tcl_AppendToObj(absolutePath, path, -1); Tcl_IncrRefCount(absolutePath); /* We have a refCount on the cwd */ } else { /* * Path of form C:foo/bar, but this only makes * sense if the cwd is also on drive C. */ CONST char *drive = Tcl_GetString(useThisCwd); char drive_c = path[0]; if (drive_c >= 'a') { drive_c -= ('a' - 'A'); } if (drive[0] == drive_c) { absolutePath = Tcl_DuplicateObj(useThisCwd); /* We have a refCount on the cwd */ } else { Tcl_DecrRefCount(useThisCwd); useThisCwd = NULL; /* * The path is not in the current drive, but * is volume-relative. The way Tcl 8.3 handles * this is that it treats such a path as * relative to the root of the drive. We * therefore behave the same here. */ absolutePath = Tcl_NewStringObj(path, 2); } Tcl_IncrRefCount(absolutePath); Tcl_AppendToObj(absolutePath, "/", 1); Tcl_AppendToObj(absolutePath, path+2, -1); } #endif /* __WIN32__ */ } } /* Already has refCount incremented */ fsPathPtr->normPathPtr = TclFSNormalizeAbsolutePath(interp, absolutePath, (fsPathPtr->nativePathPtr == NULL ? &clientData : NULL)); if (0 && (clientData != NULL)) { fsPathPtr->nativePathPtr = (*fsPathPtr->fsRecPtr->fsPtr->dupInternalRepProc)(clientData); } if (!strcmp(Tcl_GetString(fsPathPtr->normPathPtr), Tcl_GetString(pathObjPtr))) { /* * The path was already normalized. * Get rid of the duplicate. */ Tcl_DecrRefCount(fsPathPtr->normPathPtr); /* * We do *not* increment the refCount for * this circular reference */ fsPathPtr->normPathPtr = pathObjPtr; } if (useThisCwd != NULL) { /* This was returned by Tcl_FSJoinToPath above */ Tcl_DecrRefCount(absolutePath); fsPathPtr->cwdPtr = useThisCwd; } } return fsPathPtr->normPathPtr; } /* *--------------------------------------------------------------------------- * * Tcl_FSGetInternalRep -- * * Extract the internal representation of a given path object, * in the given filesystem. If the path object belongs to a * different filesystem, we return NULL. * * If the internal representation is currently NULL, we attempt * to generate it, by calling the filesystem's * 'Tcl_FSCreateInternalRepProc'. * * Results: * NULL or a valid internal representation. * * Side effects: * An attempt may be made to convert the object. * *--------------------------------------------------------------------------- */ ClientData Tcl_FSGetInternalRep(pathObjPtr, fsPtr) Tcl_Obj* pathObjPtr; Tcl_Filesystem *fsPtr; { FsPath *srcFsPathPtr; if (Tcl_FSConvertToPathType(NULL, pathObjPtr) != TCL_OK) { return NULL; } srcFsPathPtr = (FsPath*) PATHOBJ(pathObjPtr); /* * We will only return the native representation for the caller's * filesystem. Otherwise we will simply return NULL. This means * that there must be a unique bi-directional mapping between paths * and filesystems, and that this mapping will not allow 'remapped' * files -- files which are in one filesystem but mapped into * another. Another way of putting this is that 'stacked' * filesystems are not allowed. We recognise that this is a * potentially useful feature for the future. * * Even something simple like a 'pass through' filesystem which * logs all activity and passes the calls onto the native system * would be nice, but not easily achievable with the current * implementation. */ if (srcFsPathPtr->fsRecPtr == NULL) { /* * This only usually happens in wrappers like TclpStat which * create a string object and pass it to TclpObjStat. Code * which calls the Tcl_FS.. functions should always have a * filesystem already set. Whether this code path is legal or * not depends on whether we decide to allow external code to * call the native filesystem directly. It is at least safer * to allow this sub-optimal routing. */ Tcl_FSGetFileSystemForPath(pathObjPtr); /* * If we fail through here, then the path is probably not a * valid path in the filesystsem, and is most likely to be a * use of the empty path "" via a direct call to one of the * objectified interfaces (e.g. from the Tcl testsuite). */ srcFsPathPtr = (FsPath*) PATHOBJ(pathObjPtr); if (srcFsPathPtr->fsRecPtr == NULL) { return NULL; } } if (fsPtr != srcFsPathPtr->fsRecPtr->fsPtr) { /* * There is still one possibility we should consider; if the * file belongs to a different filesystem, perhaps it is * actually linked through to a file in our own filesystem * which we do care about. The way we can check for this * is we ask what filesystem this path belongs to. */ Tcl_Filesystem *actualFs = Tcl_FSGetFileSystemForPath(pathObjPtr); if (actualFs == fsPtr) { return Tcl_FSGetInternalRep(pathObjPtr, fsPtr); } return NULL; } if (srcFsPathPtr->nativePathPtr == NULL) { Tcl_FSCreateInternalRepProc *proc; char *nativePathPtr; proc = srcFsPathPtr->fsRecPtr->fsPtr->createInternalRepProc; if (proc == NULL) { return NULL; } nativePathPtr = (*proc)(pathObjPtr); srcFsPathPtr = (FsPath*) PATHOBJ(pathObjPtr); srcFsPathPtr->nativePathPtr = nativePathPtr; } return srcFsPathPtr->nativePathPtr; } /* *--------------------------------------------------------------------------- * * TclFSEnsureEpochOk -- * * This will ensure the pathObjPtr is up to date and can be * converted into a "path" type, and that we are able to generate a * complete normalized path which is used to determine the * filesystem match. * * Results: * Standard Tcl return code. * * Side effects: * An attempt may be made to convert the object. * *--------------------------------------------------------------------------- */ int TclFSEnsureEpochOk(pathObjPtr, fsPtrPtr) Tcl_Obj* pathObjPtr; Tcl_Filesystem **fsPtrPtr; { FsPath *srcFsPathPtr; ThreadSpecificData *tsdPtr = TCL_TSD_INIT(&dataKey); /* * SHOULD BE ABLE TO IMPROVE EFFICIENCY HERE. */ if (Tcl_FSGetNormalizedPath(NULL, pathObjPtr) == NULL) { return TCL_ERROR; } srcFsPathPtr = (FsPath*) PATHOBJ(pathObjPtr); /* * Check if the filesystem has changed in some way since * this object's internal representation was calculated. */ if (srcFsPathPtr->filesystemEpoch != tsdPtr->filesystemEpoch) { /* * We have to discard the stale representation and * recalculate it */ if (pathObjPtr->bytes == NULL) { UpdateStringOfFsPath(pathObjPtr); } FreeFsPathInternalRep(pathObjPtr); pathObjPtr->typePtr = NULL; if (SetFsPathFromAny(NULL, pathObjPtr) != TCL_OK) { return TCL_ERROR; } srcFsPathPtr = (FsPath*) PATHOBJ(pathObjPtr); } /* Check whether the object is already assigned to a fs */ if (srcFsPathPtr->fsRecPtr != NULL) { *fsPtrPtr = srcFsPathPtr->fsRecPtr->fsPtr; } return TCL_OK; } void TclFSSetPathDetails(pathObjPtr, fsRecPtr, clientData) Tcl_Obj *pathObjPtr; FilesystemRecord *fsRecPtr; ClientData clientData; { ThreadSpecificData *tsdPtr = TCL_TSD_INIT(&dataKey); /* We assume pathObjPtr is already of the correct type */ FsPath *srcFsPathPtr; srcFsPathPtr = (FsPath*) PATHOBJ(pathObjPtr); srcFsPathPtr->fsRecPtr = fsRecPtr; srcFsPathPtr->nativePathPtr = clientData; srcFsPathPtr->filesystemEpoch = tsdPtr->filesystemEpoch; fsRecPtr->fileRefCount++; } /* *--------------------------------------------------------------------------- * * Tcl_FSEqualPaths -- * * This function tests whether the two paths given are equal path * objects. If either or both is NULL, 0 is always returned. * * Results: * 1 or 0. * * Side effects: * None. * *--------------------------------------------------------------------------- */ int Tcl_FSEqualPaths(firstPtr, secondPtr) Tcl_Obj* firstPtr; Tcl_Obj* secondPtr; { if (firstPtr == secondPtr) { return 1; } else { char *firstStr, *secondStr; int firstLen, secondLen, tempErrno; if (firstPtr == NULL || secondPtr == NULL) { return 0; } firstStr = Tcl_GetStringFromObj(firstPtr, &firstLen); secondStr = Tcl_GetStringFromObj(secondPtr, &secondLen); if ((firstLen == secondLen) && (strcmp(firstStr, secondStr) == 0)) { return 1; } /* * Try the most thorough, correct method of comparing fully * normalized paths */ tempErrno = Tcl_GetErrno(); firstPtr = Tcl_FSGetNormalizedPath(NULL, firstPtr); secondPtr = Tcl_FSGetNormalizedPath(NULL, secondPtr); Tcl_SetErrno(tempErrno); if (firstPtr == NULL || secondPtr == NULL) { return 0; } firstStr = Tcl_GetStringFromObj(firstPtr, &firstLen); secondStr = Tcl_GetStringFromObj(secondPtr, &secondLen); if ((firstLen == secondLen) && (strcmp(firstStr, secondStr) == 0)) { return 1; } } return 0; } /* *--------------------------------------------------------------------------- * * SetFsPathFromAny -- * * This function tries to convert the given Tcl_Obj to a valid * Tcl path type. * * The filename may begin with "~" (to indicate current user's * home directory) or "~" (to indicate any user's home * directory). * * Results: * Standard Tcl error code. * * Side effects: * The old representation may be freed, and new memory allocated. * *--------------------------------------------------------------------------- */ static int SetFsPathFromAny(interp, objPtr) Tcl_Interp *interp; /* Used for error reporting if not NULL. */ Tcl_Obj *objPtr; /* The object to convert. */ { int len; FsPath *fsPathPtr; Tcl_Obj *transPtr; char *name; ThreadSpecificData *tsdPtr = TCL_TSD_INIT(&dataKey); if (objPtr->typePtr == &tclFsPathType) { return TCL_OK; } /* * First step is to translate the filename. This is similar to * Tcl_TranslateFilename, but shouldn't convert everything to * windows backslashes on that platform. The current * implementation of this piece is a slightly optimised version * of the various Tilde/Split/Join stuff to avoid multiple * split/join operations. * * We remove any trailing directory separator. * * However, the split/join routines are quite complex, and * one has to make sure not to break anything on Unix, Win * or MacOS (fCmd.test, fileName.test and cmdAH.test exercise * most of the code). */ name = Tcl_GetStringFromObj(objPtr,&len); /* * Handle tilde substitutions, if needed. */ if (name[0] == '~') { char *expandedUser; Tcl_DString temp; int split; char separator='/'; if (tclPlatform==TCL_PLATFORM_MAC) { if (strchr(name, ':') != NULL) separator = ':'; } split = FindSplitPos(name, &separator); if (split != len) { /* We have multiple pieces '~user/foo/bar...' */ name[split] = '\0'; } /* Do some tilde substitution */ if (name[1] == '\0') { /* We have just '~' */ CONST char *dir; Tcl_DString dirString; if (split != len) { name[split] = separator; } dir = TclGetEnv("HOME", &dirString); if (dir == NULL) { if (interp) { Tcl_ResetResult(interp); Tcl_AppendResult(interp, "couldn't find HOME environment ", "variable to expand path", (char *) NULL); } return TCL_ERROR; } Tcl_DStringInit(&temp); Tcl_JoinPath(1, &dir, &temp); Tcl_DStringFree(&dirString); } else { /* We have a user name '~user' */ Tcl_DStringInit(&temp); if (TclpGetUserHome(name+1, &temp) == NULL) { if (interp != NULL) { Tcl_ResetResult(interp); Tcl_AppendResult(interp, "user \"", (name+1), "\" doesn't exist", (char *) NULL); } Tcl_DStringFree(&temp); if (split != len) { name[split] = separator; } return TCL_ERROR; } if (split != len) { name[split] = separator; } } expandedUser = Tcl_DStringValue(&temp); transPtr = Tcl_NewStringObj(expandedUser, Tcl_DStringLength(&temp)); if (split != len) { /* Join up the tilde substitution with the rest */ if (name[split+1] == separator) { /* * Somewhat tricky case like ~//foo/bar. * Make use of Split/Join machinery to get it right. * Assumes all paths beginning with ~ are part of the * native filesystem. */ int objc; Tcl_Obj **objv; Tcl_Obj *parts = TclpNativeSplitPath(objPtr, NULL); Tcl_ListObjGetElements(NULL, parts, &objc, &objv); /* Skip '~'. It's replaced by its expansion */ objc--; objv++; while (objc--) { TclpNativeJoinPath(transPtr, Tcl_GetString(*objv++)); } Tcl_DecrRefCount(parts); } else { /* Simple case. "rest" is relative path. Just join it. */ Tcl_Obj *rest = Tcl_NewStringObj(name+split+1,-1); transPtr = Tcl_FSJoinToPath(transPtr, 1, &rest); } } Tcl_DStringFree(&temp); } else { transPtr = Tcl_FSJoinToPath(objPtr,0,NULL); } #if defined(__CYGWIN__) && defined(__WIN32__) { extern int cygwin_conv_to_win32_path _ANSI_ARGS_((CONST char *, char *)); char winbuf[MAX_PATH+1]; /* * In the Cygwin world, call conv_to_win32_path in order to use the * mount table to translate the file name into something Windows will * understand. Take care when converting empty strings! */ name = Tcl_GetStringFromObj(transPtr, &len); if (len > 0) { cygwin_conv_to_win32_path(name, winbuf); TclWinNoBackslash(winbuf); Tcl_SetStringObj(transPtr, winbuf, -1); } } #endif /* __CYGWIN__ && __WIN32__ */ /* * Now we have a translated filename in 'transPtr'. This will have * forward slashes on Windows, and will not contain any ~user * sequences. */ fsPathPtr = (FsPath*)ckalloc((unsigned)sizeof(FsPath)); fsPathPtr->translatedPathPtr = transPtr; Tcl_IncrRefCount(fsPathPtr->translatedPathPtr); fsPathPtr->normPathPtr = NULL; fsPathPtr->cwdPtr = NULL; fsPathPtr->nativePathPtr = NULL; fsPathPtr->fsRecPtr = NULL; fsPathPtr->filesystemEpoch = tsdPtr->filesystemEpoch; /* * Free old representation before installing our new one. */ if (objPtr->typePtr != NULL && objPtr->typePtr->freeIntRepProc != NULL) { (objPtr->typePtr->freeIntRepProc)(objPtr); } PATHOBJ(objPtr) = (VOID *) fsPathPtr; PATHFLAGS(objPtr) = 0; objPtr->typePtr = &tclFsPathType; return TCL_OK; } static void FreeFsPathInternalRep(pathObjPtr) Tcl_Obj *pathObjPtr; /* Path object with internal rep to free. */ { FsPath *fsPathPtr = (FsPath*) PATHOBJ(pathObjPtr); if (fsPathPtr->translatedPathPtr != NULL) { if (fsPathPtr->translatedPathPtr != pathObjPtr) { Tcl_DecrRefCount(fsPathPtr->translatedPathPtr); } } if (fsPathPtr->normPathPtr != NULL) { if (fsPathPtr->normPathPtr != pathObjPtr) { Tcl_DecrRefCount(fsPathPtr->normPathPtr); } fsPathPtr->normPathPtr = NULL; } if (fsPathPtr->cwdPtr != NULL) { Tcl_DecrRefCount(fsPathPtr->cwdPtr); } if (fsPathPtr->nativePathPtr != NULL) { if (fsPathPtr->fsRecPtr != NULL) { if (fsPathPtr->fsRecPtr->fsPtr->freeInternalRepProc != NULL) { (*fsPathPtr->fsRecPtr->fsPtr ->freeInternalRepProc)(fsPathPtr->nativePathPtr); fsPathPtr->nativePathPtr = NULL; } } } if (fsPathPtr->fsRecPtr != NULL) { fsPathPtr->fsRecPtr->fileRefCount--; if (fsPathPtr->fsRecPtr->fileRefCount <= 0) { /* It has been unregistered already, so simply free it */ ckfree((char *)fsPathPtr->fsRecPtr); } } ckfree((char*) fsPathPtr); } static void DupFsPathInternalRep(srcPtr, copyPtr) Tcl_Obj *srcPtr; /* Path obj with internal rep to copy. */ Tcl_Obj *copyPtr; /* Path obj with internal rep to set. */ { FsPath *srcFsPathPtr = (FsPath*) PATHOBJ(srcPtr); FsPath *copyFsPathPtr = (FsPath*) ckalloc((unsigned)sizeof(FsPath)); Tcl_FSDupInternalRepProc *dupProc; PATHOBJ(copyPtr) = (VOID *) copyFsPathPtr; if (srcFsPathPtr->translatedPathPtr != NULL) { copyFsPathPtr->translatedPathPtr = srcFsPathPtr->translatedPathPtr; if (copyFsPathPtr->translatedPathPtr != copyPtr) { Tcl_IncrRefCount(copyFsPathPtr->translatedPathPtr); } } else { copyFsPathPtr->translatedPathPtr = NULL; } if (srcFsPathPtr->normPathPtr != NULL) { copyFsPathPtr->normPathPtr = srcFsPathPtr->normPathPtr; if (copyFsPathPtr->normPathPtr != copyPtr) { Tcl_IncrRefCount(copyFsPathPtr->normPathPtr); } } else { copyFsPathPtr->normPathPtr = NULL; } if (srcFsPathPtr->cwdPtr != NULL) { copyFsPathPtr->cwdPtr = srcFsPathPtr->cwdPtr; Tcl_IncrRefCount(copyFsPathPtr->cwdPtr); } else { copyFsPathPtr->cwdPtr = NULL; } copyFsPathPtr->flags = srcFsPathPtr->flags; if (srcFsPathPtr->fsRecPtr != NULL && srcFsPathPtr->nativePathPtr != NULL) { dupProc = srcFsPathPtr->fsRecPtr->fsPtr->dupInternalRepProc; if (dupProc != NULL) { copyFsPathPtr->nativePathPtr = (*dupProc)(srcFsPathPtr->nativePathPtr); } else { copyFsPathPtr->nativePathPtr = NULL; } } else { copyFsPathPtr->nativePathPtr = NULL; } copyFsPathPtr->fsRecPtr = srcFsPathPtr->fsRecPtr; copyFsPathPtr->filesystemEpoch = srcFsPathPtr->filesystemEpoch; if (copyFsPathPtr->fsRecPtr != NULL) { copyFsPathPtr->fsRecPtr->fileRefCount++; } copyPtr->typePtr = &tclFsPathType; } /* *--------------------------------------------------------------------------- * * UpdateStringOfFsPath -- * * Gives an object a valid string rep. * * Results: * None. * * Side effects: * Memory may be allocated. * *--------------------------------------------------------------------------- */ static void UpdateStringOfFsPath(objPtr) register Tcl_Obj *objPtr; /* path obj with string rep to update. */ { FsPath *fsPathPtr = (FsPath*) PATHOBJ(objPtr); CONST char *cwdStr; int cwdLen; Tcl_Obj *copy; if (PATHFLAGS(objPtr) == 0 || fsPathPtr->cwdPtr == NULL) { panic("Called UpdateStringOfFsPath with invalid object"); } copy = Tcl_DuplicateObj(fsPathPtr->cwdPtr); Tcl_IncrRefCount(copy); cwdStr = Tcl_GetStringFromObj(copy, &cwdLen); /* * Should we perhaps use 'Tcl_FSPathSeparator'? * But then what about the Windows special case? * Perhaps we should just check if cwd is a root volume. * We should never get cwdLen == 0 in this code path. */ switch (tclPlatform) { case TCL_PLATFORM_UNIX: if (cwdStr[cwdLen-1] != '/') { Tcl_AppendToObj(copy, "/", 1); cwdLen++; } break; case TCL_PLATFORM_WINDOWS: /* * We need the extra 'cwdLen != 2', and ':' checks because * a volume relative path doesn't get a '/'. For example * 'glob C:*cat*.exe' will return 'C:cat32.exe' */ if (cwdStr[cwdLen-1] != '/' && cwdStr[cwdLen-1] != '\\') { if (cwdLen != 2 || cwdStr[1] != ':') { Tcl_AppendToObj(copy, "/", 1); cwdLen++; } } break; case TCL_PLATFORM_MAC: if (cwdStr[cwdLen-1] != ':') { Tcl_AppendToObj(copy, ":", 1); cwdLen++; } break; } Tcl_AppendObjToObj(copy, fsPathPtr->normPathPtr); objPtr->bytes = Tcl_GetStringFromObj(copy, &cwdLen); objPtr->length = cwdLen; copy->bytes = tclEmptyStringRep; copy->length = 0; Tcl_DecrRefCount(copy); } /* *--------------------------------------------------------------------------- * * NativePathInFilesystem -- * * Any path object is acceptable to the native filesystem, by * default (we will throw errors when illegal paths are actually * tried to be used). * * However, this behavior means the native filesystem must be * the last filesystem in the lookup list (otherwise it will * claim all files belong to it, and other filesystems will * never get a look in). * * Results: * TCL_OK, to indicate 'yes', -1 to indicate no. * * Side effects: * None. * *--------------------------------------------------------------------------- */ static int NativePathInFilesystem(pathPtr, clientDataPtr) Tcl_Obj *pathPtr; ClientData *clientDataPtr; { /* * A special case is required to handle the empty path "". * This is a valid path (i.e. the user should be able * to do 'file exists ""' without throwing an error), but * equally the path doesn't exist. Those are the semantics * of Tcl (at present anyway), so we have to abide by them * here. */ if (pathPtr->typePtr == &tclFsPathType) { if (pathPtr->bytes != NULL && pathPtr->bytes[0] == '\0') { /* We reject the empty path "" */ return -1; } /* Otherwise there is no way this path can be empty */ } else { /* * It is somewhat unusual to reach this code path without * the object being of tclFsPathType. However, we do * our best to deal with the situation. */ int len; Tcl_GetStringFromObj(pathPtr,&len); if (len == 0) { /* We reject the empty path "" */ return -1; } } /* * Path is of correct type, or is of non-zero length, * so we accept it. */ return TCL_OK; }