/* * tclPathObj.c -- * * This file contains the implementation of Tcl's "path" object type used * to represent and manipulate a general (virtual) filesystem entity in * an efficient manner. * * Copyright © 2003 Vince Darley. * * See the file "license.terms" for information on usage and redistribution of * this file, and for a DISCLAIMER OF ALL WARRANTIES. */ #include "tclInt.h" #include "tclFileSystem.h" #include /* * Prototypes for functions defined later in this file. */ static Tcl_Obj * AppendPath(Tcl_Obj *head, Tcl_Obj *tail); static void DupFsPathInternalRep(Tcl_Obj *srcPtr, Tcl_Obj *copyPtr); static void FreeFsPathInternalRep(Tcl_Obj *pathPtr); static void UpdateStringOfFsPath(Tcl_Obj *pathPtr); static int SetFsPathFromAny(Tcl_Interp *interp, Tcl_Obj *pathPtr); static int FindSplitPos(const char *path, int separator); static int IsSeparatorOrNull(int ch); static Tcl_Obj * GetExtension(Tcl_Obj *pathPtr); static int MakePathFromNormalized(Tcl_Interp *interp, Tcl_Obj *pathPtr); /* * Define the 'path' object type, which Tcl uses to represent file paths * internally. */ static const Tcl_ObjType fsPathType = { "path", /* name */ FreeFsPathInternalRep, /* freeIntRepProc */ DupFsPathInternalRep, /* dupIntRepProc */ UpdateStringOfFsPath, /* updateStringProc */ SetFsPathFromAny /* setFromAnyProc */ }; /* * struct FsPath -- * * Internal representation of a Tcl_Obj of fsPathType */ typedef struct FsPath { Tcl_Obj *translatedPathPtr; /* If the path has been normalized (flags == * 0), this is NULL. Otherwise it is a path * in which any ~user sequences have been * translated away. */ Tcl_Obj *normPathPtr; /* If the path has been normalized (flags == * 0), this is an absolute path without ., .. * or ~user components. Otherwise it is a * path, possibly absolute, to normalize * relative to cwdPtr. */ Tcl_Obj *cwdPtr; /* If NULL, either translatedPtr exists or * normPathPtr exists and is absolute. */ int flags; /* Flags to describe interpretation - see * below. */ 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. */ const Tcl_Filesystem *fsPtr;/* The Tcl_Filesystem that claims this path */ } FsPath; /* * Flag values for FsPath->flags. */ #define TCLPATH_APPENDED 1 #define TCLPATH_NEEDNORM 4 /* * Define some macros to give us convenient access to path-object specific * fields. */ #define PATHOBJ(pathPtr) ((FsPath *) (TclFetchInternalRep((pathPtr), &fsPathType)->twoPtrValue.ptr1)) #define SETPATHOBJ(pathPtr,fsPathPtr) \ do { \ Tcl_ObjInternalRep ir; \ ir.twoPtrValue.ptr1 = (void *) (fsPathPtr); \ ir.twoPtrValue.ptr2 = NULL; \ Tcl_StoreInternalRep((pathPtr), &fsPathType, &ir); \ } while (0) #define PATHFLAGS(pathPtr) (PATHOBJ(pathPtr)->flags) /* *--------------------------------------------------------------------------- * * TclFSNormalizeAbsolutePath -- * * 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 * 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. * * pathPtr may have a refCount of zero, or may be a shared object. * * Results: * The result is returned in a Tcl_Obj with a refCount already * incremented, which gives the caller ownership of it. The caller must * arrange for Tcl_DecRefCount to be called when the object is no-longer * needed. * * Side effects: * None (beyond the memory allocation for the result). * * Special note: * Originally based on code from Matt Newman and Jean-Claude Wippler. * Totally rewritten later by Vince Darley to handle symbolic links. * *--------------------------------------------------------------------------- */ Tcl_Obj * TclFSNormalizeAbsolutePath( Tcl_Interp *interp, /* Interpreter to use */ Tcl_Obj *pathPtr) /* Absolute path to normalize */ { const char *dirSep, *oldDirSep; int first = 1; /* Set to zero once we've passed the first * directory separator - we can't use '..' to * remove the volume in a path. */ Tcl_Obj *retVal = NULL; dirSep = TclGetString(pathPtr); if (tclPlatform == TCL_PLATFORM_WINDOWS) { if ( (dirSep[0] == '/' || dirSep[0] == '\\') && (dirSep[1] == '/' || dirSep[1] == '\\') && (dirSep[2] == '?') && (dirSep[3] == '/' || dirSep[3] == '\\')) { /* NT extended path */ dirSep += 4; if ( (dirSep[0] == 'U' || dirSep[0] == 'u') && (dirSep[1] == 'N' || dirSep[1] == 'n') && (dirSep[2] == 'C' || dirSep[2] == 'c') && (dirSep[3] == '/' || dirSep[3] == '\\')) { /* NT extended UNC path */ dirSep += 4; } } if (dirSep[0] != 0 && dirSep[1] == ':' && (dirSep[2] == '/' || dirSep[2] == '\\')) { /* Do nothing */ } else if ((dirSep[0] == '/' || dirSep[0] == '\\') && (dirSep[1] == '/' || dirSep[1] == '\\')) { /* * UNC style path, where we must skip over the first separator, * since the first two segments are actually inseparable. */ dirSep += 2; dirSep += FindSplitPos(dirSep, '/'); if (*dirSep != 0) { dirSep++; } } } /* * Scan forward from one directory separator to the next, checking for * '..' and '.' sequences which must be handled specially. In particular * handling of '..' can be complicated if the directory before is a link, * since we will have to expand the link to be able to back up one level. */ while (*dirSep != 0) { oldDirSep = dirSep; if (!first) { dirSep++; } dirSep += FindSplitPos(dirSep, '/'); if (dirSep[0] == 0 || dirSep[1] == 0) { if (retVal != NULL) { Tcl_AppendToObj(retVal, oldDirSep, dirSep - oldDirSep); } break; } if (dirSep[1] == '.') { if (retVal != NULL) { Tcl_AppendToObj(retVal, oldDirSep, dirSep - oldDirSep); oldDirSep = dirSep; } again: if (IsSeparatorOrNull(dirSep[2])) { /* * Need to skip '.' in the path. */ int curLen; if (retVal == NULL) { const char *path = TclGetString(pathPtr); retVal = Tcl_NewStringObj(path, dirSep - path); Tcl_IncrRefCount(retVal); } TclGetStringFromObj(retVal, &curLen); if (curLen == 0) { Tcl_AppendToObj(retVal, dirSep, 1); } dirSep += 2; oldDirSep = dirSep; if (dirSep[0] != 0 && dirSep[1] == '.') { goto again; } continue; } if (dirSep[2] == '.' && IsSeparatorOrNull(dirSep[3])) { Tcl_Obj *linkObj; int curLen; char *linkStr; /* * Have '..' so need to skip previous directory. */ if (retVal == NULL) { const char *path = TclGetString(pathPtr); retVal = Tcl_NewStringObj(path, dirSep - path); Tcl_IncrRefCount(retVal); } TclGetStringFromObj(retVal, &curLen); if (curLen == 0) { Tcl_AppendToObj(retVal, dirSep, 1); } if (!first || (tclPlatform == TCL_PLATFORM_UNIX)) { linkObj = Tcl_FSLink(retVal, NULL, 0); /* Safety check in case driver caused sharing */ if (Tcl_IsShared(retVal)) { TclDecrRefCount(retVal); retVal = Tcl_DuplicateObj(retVal); Tcl_IncrRefCount(retVal); } if (linkObj != NULL) { /* * Got a link. Need to check if the link is relative * or absolute, for those platforms where relative * links exist. */ if (tclPlatform != TCL_PLATFORM_WINDOWS && Tcl_FSGetPathType(linkObj) == TCL_PATH_RELATIVE) { /* * We need to follow this link which is relative * to retVal's directory. This means concatenating * the link onto the directory of the path so far. */ const char *path = TclGetStringFromObj(retVal, &curLen); while (--curLen >= 0) { if (IsSeparatorOrNull(path[curLen])) { break; } } /* * We want the trailing slash. */ Tcl_SetObjLength(retVal, curLen+1); Tcl_AppendObjToObj(retVal, linkObj); TclDecrRefCount(linkObj); linkStr = TclGetStringFromObj(retVal, &curLen); } else { /* * Absolute link. */ TclDecrRefCount(retVal); if (Tcl_IsShared(linkObj)) { retVal = Tcl_DuplicateObj(linkObj); TclDecrRefCount(linkObj); } else { retVal = linkObj; } linkStr = TclGetStringFromObj(retVal, &curLen); /* * Convert to forward-slashes on windows. */ if (tclPlatform == TCL_PLATFORM_WINDOWS) { int i; for (i = 0; i < curLen; i++) { if (linkStr[i] == '\\') { linkStr[i] = '/'; } } } } } else { linkStr = TclGetStringFromObj(retVal, &curLen); } /* * Either way, we now remove the last path element (but * not the first character of the path). */ while (--curLen >= 0) { if (IsSeparatorOrNull(linkStr[curLen])) { if (curLen) { Tcl_SetObjLength(retVal, curLen); } else { Tcl_SetObjLength(retVal, 1); } break; } } } dirSep += 3; oldDirSep = dirSep; if ((curLen == 0) && (dirSep[0] != 0)) { Tcl_SetObjLength(retVal, 0); } if (dirSep[0] != 0 && dirSep[1] == '.') { goto again; } continue; } } first = 0; if (retVal != NULL) { Tcl_AppendToObj(retVal, oldDirSep, dirSep - oldDirSep); } } /* * If we didn't make any changes, just use the input path. */ if (retVal == NULL) { retVal = pathPtr; Tcl_IncrRefCount(retVal); if (Tcl_IsShared(retVal)) { /* * Unfortunately, the platform-specific normalization code which * will be called below has no way of dealing with the case where * an object is shared. It is expecting to modify an object in * place. So, we must duplicate this here to ensure an object with * a single ref-count. * * If that changes in the future (e.g. the normalize proc is given * one object and is able to return a different one), then we * could remove this code. */ TclDecrRefCount(retVal); retVal = Tcl_DuplicateObj(pathPtr); Tcl_IncrRefCount(retVal); } } /* * Ensure a windows drive like C:/ has a trailing separator. */ if (tclPlatform == TCL_PLATFORM_WINDOWS) { int len; const char *path = TclGetStringFromObj(retVal, &len); if (len == 2 && path[0] != 0 && path[1] == ':') { if (Tcl_IsShared(retVal)) { TclDecrRefCount(retVal); retVal = Tcl_DuplicateObj(retVal); Tcl_IncrRefCount(retVal); } Tcl_AppendToObj(retVal, "/", 1); } } /* * 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). * * Virtual file systems which may be registered may have other criteria * for normalizing a path. */ TclFSNormalizeToUniquePath(interp, retVal, 0); /* * Since we know it is a normalized path, we can actually convert this * object into an FsPath for greater efficiency */ MakePathFromNormalized(interp, retVal); /* * This has a refCount of 1 for the caller, unlike many Tcl_Obj APIs. */ return retVal; } /* *---------------------------------------------------------------------- * * 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( Tcl_Obj *pathPtr) { return TclFSGetPathType(pathPtr, NULL, NULL); } /* *---------------------------------------------------------------------- * * TclFSGetPathType -- * * 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. * *---------------------------------------------------------------------- */ Tcl_PathType TclFSGetPathType( Tcl_Obj *pathPtr, const Tcl_Filesystem **filesystemPtrPtr, int *driveNameLengthPtr) { FsPath *fsPathPtr; if (Tcl_FSConvertToPathType(NULL, pathPtr) != TCL_OK) { return TclGetPathType(pathPtr, filesystemPtrPtr, driveNameLengthPtr, NULL); } fsPathPtr = PATHOBJ(pathPtr); if (fsPathPtr->cwdPtr == NULL) { return TclGetPathType(pathPtr, filesystemPtrPtr, driveNameLengthPtr, NULL); } if (PATHFLAGS(pathPtr) == 0) { /* The path is not absolute... */ #ifdef _WIN32 /* ... on Windows we must make another call to determine whether * it's relative or volumerelative [Bug 2571597]. */ return TclGetPathType(pathPtr, filesystemPtrPtr, driveNameLengthPtr, NULL); #else /* On other systems, quickly deduce !absolute -> relative */ return TCL_PATH_RELATIVE; #endif } return TclFSGetPathType(fsPathPtr->cwdPtr, filesystemPtrPtr, driveNameLengthPtr); } /* *--------------------------------------------------------------------------- * * TclPathPart * * This function calculates the requested part of the given path, which * can be: * * - the directory above ('file dirname') * - the tail ('file tail') * - the extension ('file extension') * - the root ('file root') * * The 'portion' parameter dictates which of these to calculate. There * are a number of special cases both to be more efficient, and because * the behaviour when given a path with only a single element is defined * to require the expansion of that single element, where possible. * * Should look into integrating 'FileBasename' in tclFCmd.c into this * function. * * Results: * NULL if an error occurred, otherwise a Tcl_Obj owned by the caller * (i.e. most likely with refCount 1). * * Side effects: * None. * *--------------------------------------------------------------------------- */ Tcl_Obj * TclPathPart( Tcl_Interp *interp, /* Used for error reporting */ Tcl_Obj *pathPtr, /* Path to take dirname of */ Tcl_PathPart portion) /* Requested portion of name */ { if (TclHasInternalRep(pathPtr, &fsPathType)) { FsPath *fsPathPtr = PATHOBJ(pathPtr); if (PATHFLAGS(pathPtr) != 0) { switch (portion) { case TCL_PATH_DIRNAME: { /* * Check if the joined-on bit has any directory delimiters in * it. If so, the 'dirname' would be a joining of the main * part with the dirname of the joined-on bit. We could handle * that special case here, but we don't, and instead just use * the standardPath code. */ int numBytes; const char *rest = TclGetStringFromObj(fsPathPtr->normPathPtr, &numBytes); if (strchr(rest, '/') != NULL) { goto standardPath; } /* * If the joined-on bit is empty, then [file dirname] is * documented to return all but the last non-empty element * of the path, so we need to split apart the main part to * get the right answer. We could do that here, but it's * simpler to fall back to the standardPath code. * [Bug 2710920] */ if (numBytes == 0) { goto standardPath; } if (tclPlatform == TCL_PLATFORM_WINDOWS && strchr(rest, '\\') != NULL) { goto standardPath; } /* * The joined-on path is simple, so we can just return here. */ Tcl_IncrRefCount(fsPathPtr->cwdPtr); return fsPathPtr->cwdPtr; } case TCL_PATH_TAIL: { /* * Check if the joined-on bit has any directory delimiters in * it. If so, the 'tail' would be only the part following the * last delimiter. We could handle that special case here, but * we don't, and instead just use the standardPath code. */ int numBytes; const char *rest = TclGetStringFromObj(fsPathPtr->normPathPtr, &numBytes); if (strchr(rest, '/') != NULL) { goto standardPath; } /* * If the joined-on bit is empty, then [file tail] is * documented to return the last non-empty element * of the path, so we need to split off the last element * of the main part to get the right answer. We could do * that here, but it's simpler to fall back to the * standardPath code. [Bug 2710920] */ if (numBytes == 0) { goto standardPath; } if (tclPlatform == TCL_PLATFORM_WINDOWS && strchr(rest, '\\') != NULL) { goto standardPath; } Tcl_IncrRefCount(fsPathPtr->normPathPtr); return fsPathPtr->normPathPtr; } case TCL_PATH_EXTENSION: return GetExtension(fsPathPtr->normPathPtr); case TCL_PATH_ROOT: { const char *fileName, *extension; int length; fileName = TclGetStringFromObj(fsPathPtr->normPathPtr, &length); extension = TclGetExtension(fileName); if (extension == NULL) { /* * There is no extension so the root is the same as the * path we were given. */ Tcl_IncrRefCount(pathPtr); return pathPtr; } else { /* * Need to return the whole path with the extension * suffix removed. Do that by joining our "head" to * our "tail" with the extension suffix removed from * the tail. */ Tcl_Obj *resultPtr = TclNewFSPathObj(fsPathPtr->cwdPtr, fileName, (int)(length - strlen(extension))); Tcl_IncrRefCount(resultPtr); return resultPtr; } } default: /* We should never get here */ Tcl_Panic("Bad portion to TclPathPart"); /* For less clever compilers */ return NULL; } } else if (fsPathPtr->cwdPtr != NULL) { /* Relative path */ goto standardPath; } else { /* Absolute path */ goto standardPath; } } else { int splitElements; Tcl_Obj *splitPtr, *resultPtr; standardPath: resultPtr = NULL; if (portion == TCL_PATH_EXTENSION) { return GetExtension(pathPtr); } else if (portion == TCL_PATH_ROOT) { int length; const char *fileName, *extension; fileName = TclGetStringFromObj(pathPtr, &length); extension = TclGetExtension(fileName); if (extension == NULL) { Tcl_IncrRefCount(pathPtr); return pathPtr; } else { Tcl_Obj *root = Tcl_NewStringObj(fileName, (int) (length - strlen(extension))); Tcl_IncrRefCount(root); return root; } } /* * Tcl_FSSplitPath in the handling of home directories; * Tcl_FSSplitPath preserves the "~", but this code computes the * actual full path name, if we had just a single component. */ splitPtr = Tcl_FSSplitPath(pathPtr, &splitElements); Tcl_IncrRefCount(splitPtr); if (splitElements == 1 && TclGetString(pathPtr)[0] == '~') { Tcl_Obj *norm; TclDecrRefCount(splitPtr); norm = Tcl_FSGetNormalizedPath(interp, pathPtr); if (norm == NULL) { return NULL; } splitPtr = Tcl_FSSplitPath(norm, &splitElements); Tcl_IncrRefCount(splitPtr); } if (portion == TCL_PATH_TAIL) { /* * Return the last component, unless it is the only component, and * it is the root of an absolute path. */ if ((splitElements > 0) && ((splitElements > 1) || (Tcl_FSGetPathType(pathPtr) == TCL_PATH_RELATIVE))) { Tcl_ListObjIndex(NULL, splitPtr, splitElements-1, &resultPtr); } else { TclNewObj(resultPtr); } } else { /* * Return all but the last component. If there is only one * component, return it if the path was non-relative, otherwise * return the current directory. */ if (splitElements > 1) { resultPtr = Tcl_FSJoinPath(splitPtr, splitElements - 1); } else if (splitElements == 0 || (Tcl_FSGetPathType(pathPtr) == TCL_PATH_RELATIVE)) { TclNewLiteralStringObj(resultPtr, "."); } else { Tcl_ListObjIndex(NULL, splitPtr, 0, &resultPtr); } } Tcl_IncrRefCount(resultPtr); TclDecrRefCount(splitPtr); return resultPtr; } } /* * Simple helper function */ static Tcl_Obj * GetExtension( Tcl_Obj *pathPtr) { const char *tail, *extension; Tcl_Obj *ret; tail = TclGetString(pathPtr); extension = TclGetExtension(tail); if (extension == NULL) { TclNewObj(ret); } else { ret = Tcl_NewStringObj(extension, -1); } Tcl_IncrRefCount(ret); return ret; } /* *--------------------------------------------------------------------------- * * 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 (each path segment may be a complete * path, a partial path or just a single possible directory or file * name). If any path segment is actually an absolute path, then all * prior path segments are discarded. * * If elements < 0, we use the entire list that was given. * * It is possible that the returned object is actually an element of the * given list, so the caller should be careful to store a refCount to it * before freeing the 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. Note that in the case where the caller has * asked to join zero elements of the list, the return value will be an * empty-string Tcl_Obj. * * If the given listObj was invalid, then the calling routine has a bug, * and this function will just return NULL. * * Side effects: * None. * *--------------------------------------------------------------------------- */ Tcl_Obj * Tcl_FSJoinPath( Tcl_Obj *listObj, /* Path elements to join, may have a zero * reference count. */ int elements) /* Number of elements to use (-1 = all) */ { Tcl_Obj *res; int objc; Tcl_Obj **objv; if (TclListObjLengthM(NULL, listObj, &objc) != TCL_OK) { return NULL; } elements = ((elements >= 0) && (elements <= objc)) ? elements : objc; TclListObjGetElementsM(NULL, listObj, &objc, &objv); res = TclJoinPath(elements, objv, 0); return res; } Tcl_Obj * TclJoinPath( int elements, /* Number of elements to use (-1 = all) */ Tcl_Obj * const objv[], /* Path elements to join */ int forceRelative) /* If non-zero, assume all more paths are * relative (e. g. simple normalization) */ { Tcl_Obj *res = NULL; int i; const Tcl_Filesystem *fsPtr = NULL; assert ( elements >= 0 ); if (elements == 0) { TclNewObj(res); return res; } assert ( elements > 0 ); if (elements == 2) { Tcl_Obj *elt = objv[0]; Tcl_ObjInternalRep *eltIr = TclFetchInternalRep(elt, &fsPathType); /* * 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. * * Bugfix [a47641a0]. TclNewFSPathObj requires first argument * to be an absolute path. Added a check to ensure that elt is absolute. */ if ((eltIr) && !((elt->bytes != NULL) && (elt->bytes[0] == '\0')) && TclGetPathType(elt, NULL, NULL, NULL) == TCL_PATH_ABSOLUTE) { Tcl_Obj *tailObj = objv[1]; Tcl_PathType type; /* if forceRelative - second path is relative */ type = forceRelative ? TCL_PATH_RELATIVE : TclGetPathType(tailObj, NULL, NULL, NULL); if (type == TCL_PATH_RELATIVE) { const char *str; int len; str = TclGetStringFromObj(tailObj, &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! */ return elt; } /* * If it doesn't begin with '.' and is a 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 (PATHFLAGS(elt)) { return TclNewFSPathObj(elt, str, len); } if (TCL_PATH_ABSOLUTE != Tcl_FSGetPathType(elt)) { return TclNewFSPathObj(elt, str, len); } (void) Tcl_FSGetNormalizedPath(NULL, elt); if (elt == PATHOBJ(elt)->normPathPtr) { 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) { return tailObj; } else { const char *str = TclGetString(tailObj); if (tclPlatform == TCL_PLATFORM_WINDOWS) { if (strchr(str, '\\') == NULL) { return tailObj; } } } } } assert ( res == NULL ); for (i = 0; i < elements; i++) { int driveNameLength, strEltLen, length; Tcl_PathType type; char *strElt, *ptr; Tcl_Obj *driveName = NULL; Tcl_Obj *elt = objv[i]; strElt = TclGetStringFromObj(elt, &strEltLen); driveNameLength = 0; /* if forceRelative - all paths excepting first one are relative */ type = (forceRelative && (i > 0)) ? TCL_PATH_RELATIVE : TclGetPathType(elt, &fsPtr, &driveNameLength, &driveName); if (type != TCL_PATH_RELATIVE) { /* * Zero out the current result. */ if (res != NULL) { TclDecrRefCount(res); } if (driveName != NULL) { /* * We've been given a separate drive-name object, because the * prefix in 'elt' is not in a suitable format for us (e.g. it * may contain irrelevant multiple separators, like * C://///foo). */ res = Tcl_DuplicateObj(driveName); TclDecrRefCount(driveName); /* * Do not set driveName to NULL, because we will check its * value below (but we won't access the contents, since those * have been cleaned-up). */ } else { res = Tcl_NewStringObj(strElt, driveNameLength); } strElt += driveNameLength; } else if (driveName != NULL) { Tcl_DecrRefCount(driveName); } /* * Optimisation block: if this is the last element to be examined, and * it is absolute or the only element, and the drive-prefix was ok (if * there is one), it might be that the path is already in a suitable * form to be returned. Then we can short-cut the rest of this * function. */ if ((driveName == NULL) && (i == (elements - 1)) && (type != TCL_PATH_RELATIVE || res == NULL)) { /* * It's the last path segment. Perform a quick check if the path * is already in a suitable form. */ if (tclPlatform == TCL_PLATFORM_WINDOWS) { if (strchr(strElt, '\\') != NULL) { goto noQuickReturn; } } ptr = strElt; /* [Bug f34cf83dd0] */ if (driveNameLength > 0) { if (ptr[0] == '/' && ptr[-1] == '/') { goto noQuickReturn; } } while (*ptr != '\0') { if (*ptr == '/' && (ptr[1] == '/' || ptr[1] == '\0')) { /* * We have a repeated file separator, which means the path * is not in normalized form */ goto noQuickReturn; } ptr++; } if (res != NULL) { TclDecrRefCount(res); } /* * This element is just what we want to return already; no further * manipulation is requred. */ return elt; } /* * The path element was not of a suitable form to be returned as is. * We need to perform a more complex operation here. */ noQuickReturn: if (res == NULL) { TclNewObj(res); } ptr = TclGetStringFromObj(res, &length); /* * Strip off any './' before a tilde, unless this is the beginning of * the path. */ if (length > 0 && strEltLen > 0 && (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 = TclGetString(sep)[0]; TclDecrRefCount(sep); } /* Safety check in case the VFS driver caused sharing */ if (Tcl_IsShared(res)) { TclDecrRefCount(res); res = Tcl_DuplicateObj(res); Tcl_IncrRefCount(res); } } if (length > 0 && ptr[length -1] != '/') { Tcl_AppendToObj(res, &separator, 1); TclGetStringFromObj(res, &length); } Tcl_SetObjLength(res, length + (int) strlen(strElt)); ptr = TclGetString(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 - TclGetString(res); Tcl_SetObjLength(res, length); } } assert ( res != NULL ); 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( Tcl_Interp *interp, /* Interpreter in which to store error message * (if necessary). */ Tcl_Obj *pathPtr) /* Object to convert to a valid, current path * type. */ { /* * 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 (TclHasInternalRep(pathPtr, &fsPathType)) { if (TclFSEpochOk(PATHOBJ(pathPtr)->filesystemEpoch)) { return TCL_OK; } TclGetString(pathPtr); Tcl_StoreInternalRep(pathPtr, &fsPathType, NULL); } return SetFsPathFromAny(interp, pathPtr); } /* * Helper function for normalization. */ static int IsSeparatorOrNull( int ch) { if (ch == 0) { return 1; } switch (tclPlatform) { case TCL_PLATFORM_UNIX: return (ch == '/' ? 1 : 0); case TCL_PLATFORM_WINDOWS: return ((ch == '/' || ch == '\\') ? 1 : 0); } return 0; } /* * Helper function for SetFsPathFromAny. Returns position of first directory * delimiter in the path. If no separator is found, then returns the position * of the end of the string. */ static int FindSplitPos( const char *path, int separator) { int count = 0; switch (tclPlatform) { case TCL_PLATFORM_UNIX: 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 creation and caching of normalized paths, and more efficient * 'file dirname', 'file tail', etc. * * 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 *pathPtr; const char *p; int state = 0, count = 0; /* [Bug 2806250] - this is only a partial solution of the problem. * The PATHFLAGS != 0 representation assumes in many places that * the "tail" part stored in the normPathPtr field is itself a * relative path. Strings that begin with "~" are not relative paths, * so we must prevent their storage in the normPathPtr field. * * More generally we ought to be testing "addStrRep" for any value * that is not a relative path, but in an unconstrained VFS world * that could be just about anything, and testing could be expensive. * Since this routine plays a big role in [glob], anything that slows * it down would be unwelcome. For now, continue the risk of further * bugs when some Tcl_Filesystem uses otherwise relative path strings * as absolute path strings. Sensible Tcl_Filesystems will avoid * that by mounting on path prefixes like foo:// which cannot be the * name of a file or directory read from a native [glob] operation. */ if (addStrRep[0] == '~') { Tcl_Obj *tail = Tcl_NewStringObj(addStrRep, len); pathPtr = AppendPath(dirPtr, tail); Tcl_DecrRefCount(tail); return pathPtr; } TclNewObj(pathPtr); fsPathPtr = (FsPath *)ckalloc(sizeof(FsPath)); /* * Set up 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->fsPtr = NULL; fsPathPtr->filesystemEpoch = 0; SETPATHOBJ(pathPtr, fsPathPtr); PATHFLAGS(pathPtr) = TCLPATH_APPENDED; TclInvalidateStringRep(pathPtr); /* * Look for path components made up of only "." * This is overly conservative analysis to keep simple. It may mark some * things as needing more aggressive normalization that don't actually * need it. No harm done. */ for (p = addStrRep; len > 0; p++, len--) { switch (state) { case 0: /* So far only "." since last dirsep or start */ switch (*p) { case '.': count++; break; case '/': case '\\': case ':': if (count) { PATHFLAGS(pathPtr) |= TCLPATH_NEEDNORM; len = 0; } break; default: count = 0; state = 1; } break; case 1: /* Scanning for next dirsep */ switch (*p) { case '/': case '\\': case ':': state = 0; break; } } } if (len == 0 && count) { PATHFLAGS(pathPtr) |= TCLPATH_NEEDNORM; } return pathPtr; } static Tcl_Obj * AppendPath( Tcl_Obj *head, Tcl_Obj *tail) { int numBytes; const char *bytes; Tcl_Obj *copy = Tcl_DuplicateObj(head); /* * This is likely buggy when dealing with virtual filesystem drivers * that use some character other than "/" as a path separator. I know * of no evidence that such a foolish thing exists. This solution was * chosen so that "JoinPath" operations that pass through either path * internalrep produce the same results; that is, bugward compatibility. If * we need to fix that bug here, it needs fixing in TclJoinPath() too. */ bytes = TclGetStringFromObj(tail, &numBytes); if (numBytes == 0) { Tcl_AppendToObj(copy, "/", 1); } else { TclpNativeJoinPath(copy, bytes); } return copy; } /* *--------------------------------------------------------------------------- * * 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. * * 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( TCL_UNUSED(Tcl_Interp *), Tcl_Obj *pathPtr, /* The path we have. */ Tcl_Obj *cwdPtr) /* Make it relative to this. */ { int cwdLen, len; const char *tempStr; Tcl_ObjInternalRep *irPtr = TclFetchInternalRep(pathPtr, &fsPathType); if (irPtr) { FsPath *fsPathPtr = PATHOBJ(pathPtr); if (PATHFLAGS(pathPtr) != 0 && fsPathPtr->cwdPtr == cwdPtr) { return fsPathPtr->normPathPtr; } } /* * 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 = TclGetStringFromObj(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; } tempStr = TclGetStringFromObj(pathPtr, &len); return Tcl_NewStringObj(tempStr + cwdLen, len - cwdLen); } /* *--------------------------------------------------------------------------- * * MakePathFromNormalized -- * * 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. * *--------------------------------------------------------------------------- */ static int MakePathFromNormalized( TCL_UNUSED(Tcl_Interp *), Tcl_Obj *pathPtr) /* The object to convert. */ { FsPath *fsPathPtr; if (TclHasInternalRep(pathPtr, &fsPathType)) { return TCL_OK; } fsPathPtr = (FsPath *)ckalloc(sizeof(FsPath)); /* * It's a pure normalized absolute path. */ fsPathPtr->translatedPathPtr = NULL; Tcl_IncrRefCount(fsPathPtr->normPathPtr = Tcl_DuplicateObj(pathPtr)); fsPathPtr->cwdPtr = NULL; fsPathPtr->nativePathPtr = NULL; fsPathPtr->fsPtr = NULL; /* Remember the epoch under which we decided pathPtr was normalized */ fsPathPtr->filesystemEpoch = TclFSEpoch(); SETPATHOBJ(pathPtr, fsPathPtr); PATHFLAGS(pathPtr) = 0; return TCL_OK; } /* *--------------------------------------------------------------------------- * * Tcl_FSNewNativePath -- * * Performs the something like the 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( const Tcl_Filesystem *fromFilesystem, ClientData clientData) { Tcl_Obj *pathPtr = NULL; FsPath *fsPathPtr; if (fromFilesystem->internalToNormalizedProc != NULL) { pathPtr = (*fromFilesystem->internalToNormalizedProc)(clientData); } if (pathPtr == NULL) { return NULL; } /* * Free old representation; shouldn't normally be any, but best to be * safe. */ Tcl_StoreInternalRep(pathPtr, &fsPathType, NULL); fsPathPtr = (FsPath *)ckalloc(sizeof(FsPath)); fsPathPtr->translatedPathPtr = NULL; Tcl_IncrRefCount(fsPathPtr->normPathPtr = Tcl_DuplicateObj(pathPtr)); fsPathPtr->cwdPtr = NULL; fsPathPtr->nativePathPtr = clientData; fsPathPtr->fsPtr = fromFilesystem; fsPathPtr->filesystemEpoch = TclFSEpoch(); SETPATHOBJ(pathPtr, fsPathPtr); PATHFLAGS(pathPtr) = 0; return pathPtr; } /* *--------------------------------------------------------------------------- * * Tcl_FSGetTranslatedPath -- * * 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 is returned and an * error message may be left in the interpreter if it is not NULL. * * Results: * A Tcl_Obj pointer or NULL. * * Side effects: * pathPtr is converted to fsPathType if necessary. * * FsPath members are modified as needed. * *--------------------------------------------------------------------------- */ Tcl_Obj * Tcl_FSGetTranslatedPath( Tcl_Interp *interp, Tcl_Obj *pathPtr) { Tcl_Obj *retObj = NULL; FsPath *srcFsPathPtr; if (Tcl_FSConvertToPathType(interp, pathPtr) != TCL_OK) { return NULL; } srcFsPathPtr = PATHOBJ(pathPtr); if (srcFsPathPtr->translatedPathPtr == NULL) { if (PATHFLAGS(pathPtr) == 0) { /* * Path is already normalized */ retObj = srcFsPathPtr->normPathPtr; } else { /* * We lack a translated path result, but we have a directory * (cwdPtr) and a tail (normPathPtr), and if we join the * translated version of cwdPtr to normPathPtr, we'll get the * translated result we need, and can store it for future use. */ Tcl_Obj *translatedCwdPtr = Tcl_FSGetTranslatedPath(interp, srcFsPathPtr->cwdPtr); Tcl_ObjInternalRep *translatedCwdIrPtr; if (translatedCwdPtr == NULL) { return NULL; } retObj = Tcl_FSJoinToPath(translatedCwdPtr, 1, &srcFsPathPtr->normPathPtr); Tcl_IncrRefCount(srcFsPathPtr->translatedPathPtr = retObj); translatedCwdIrPtr = TclFetchInternalRep(translatedCwdPtr, &fsPathType); if (translatedCwdIrPtr) { srcFsPathPtr->filesystemEpoch = PATHOBJ(translatedCwdPtr)->filesystemEpoch; } else { srcFsPathPtr->filesystemEpoch = 0; } Tcl_DecrRefCount(translatedCwdPtr); } } else { /* * It is an ordinary path object. */ retObj = srcFsPathPtr->translatedPathPtr; } if (retObj != NULL) { 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( Tcl_Interp *interp, Tcl_Obj *pathPtr) { Tcl_Obj *transPtr = Tcl_FSGetTranslatedPath(interp, pathPtr); if (transPtr != NULL) { int len; const char *orig = TclGetStringFromObj(transPtr, &len); char *result = (char *)ckalloc(len+1); memcpy(result, orig, len+1); TclDecrRefCount(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( Tcl_Interp *interp, Tcl_Obj *pathPtr) { FsPath *fsPathPtr; if (Tcl_FSConvertToPathType(interp, pathPtr) != TCL_OK) { return NULL; } fsPathPtr = PATHOBJ(pathPtr); if (PATHFLAGS(pathPtr) != 0) { /* * This is a special path object which is the result of something like * 'file join' */ Tcl_Obj *dir, *copy; int tailLen, cwdLen, pathType; pathType = Tcl_FSGetPathType(fsPathPtr->cwdPtr); dir = Tcl_FSGetNormalizedPath(interp, fsPathPtr->cwdPtr); if (dir == NULL) { return NULL; } /* TODO: Figure out why this is needed. */ TclGetString(pathPtr); TclGetStringFromObj(fsPathPtr->normPathPtr, &tailLen); if (tailLen) { copy = AppendPath(dir, fsPathPtr->normPathPtr); } else { copy = Tcl_DuplicateObj(dir); } Tcl_IncrRefCount(dir); Tcl_IncrRefCount(copy); /* * We now own a reference on both 'dir' and 'copy' */ (void) TclGetStringFromObj(dir, &cwdLen); /* Normalize the combined string. */ if (PATHFLAGS(pathPtr) & TCLPATH_NEEDNORM) { /* * If the "tail" part has components (like /../) that cause the * combined path to need more complete normalizing, call on the * more powerful routine to accomplish that so we avoid [Bug * 2385549] ... */ Tcl_Obj *newCopy = TclFSNormalizeAbsolutePath(interp, copy); Tcl_DecrRefCount(copy); copy = newCopy; } else { /* * ... but in most cases where we join a trouble free tail to a * normalized head, we can more efficiently normalize the combined * path by passing over only the unnormalized tail portion. When * this is sufficient, prior developers claim this should be much * faster. We use 'cwdLen' 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); } /* Now we need to construct the new path object. */ if (pathType == TCL_PATH_RELATIVE) { Tcl_Obj *origDir = fsPathPtr->cwdPtr; /* * NOTE: here we are (dangerously?) assuming that origDir points * to a Tcl_Obj with Tcl_ObjType == &fsPathType. The * pathType = Tcl_FSGetPathType(fsPathPtr->cwdPtr); * above that set the pathType value should have established that, * but it's far less clear on what basis we know there's been no * shimmering since then. */ FsPath *origDirFsPathPtr = PATHOBJ(origDir); fsPathPtr->cwdPtr = origDirFsPathPtr->cwdPtr; Tcl_IncrRefCount(fsPathPtr->cwdPtr); TclDecrRefCount(fsPathPtr->normPathPtr); fsPathPtr->normPathPtr = copy; TclDecrRefCount(dir); TclDecrRefCount(origDir); } else { TclDecrRefCount(fsPathPtr->cwdPtr); fsPathPtr->cwdPtr = NULL; TclDecrRefCount(fsPathPtr->normPathPtr); fsPathPtr->normPathPtr = copy; TclDecrRefCount(dir); } PATHFLAGS(pathPtr) = 0; } /* * Ensure cwd hasn't changed. */ if (fsPathPtr->cwdPtr != NULL) { if (!TclFSCwdPointerEquals(&fsPathPtr->cwdPtr)) { TclGetString(pathPtr); Tcl_StoreInternalRep(pathPtr, &fsPathType, NULL); if (SetFsPathFromAny(interp, pathPtr) != TCL_OK) { return NULL; } fsPathPtr = PATHOBJ(pathPtr); } else if (fsPathPtr->normPathPtr == NULL) { int cwdLen; Tcl_Obj *copy; copy = AppendPath(fsPathPtr->cwdPtr, pathPtr); (void) TclGetStringFromObj(fsPathPtr->cwdPtr, &cwdLen); cwdLen += (Tcl_GetString(copy)[cwdLen] == '/'); /* * 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->normPathPtr = copy; Tcl_IncrRefCount(fsPathPtr->normPathPtr); } } if (fsPathPtr->normPathPtr == 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; const char *path = TclGetString(absolutePath); Tcl_IncrRefCount(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') { /* * Special handling for the empty string value. This one is very * weird with [file normalize {}] => {}. (The reasoning supporting * this is unknown to DGP, but he fears changing it.) Attempt here * to keep the expectations of other parts of Tcl_Filesystem code * about state of the FsPath fields satisfied. * * In particular, capture the cwd value and save so it can be * stored in the cwdPtr field below. */ useThisCwd = Tcl_FSGetCwd(interp); } else { /* * We don't ask for the type of 'pathPtr' here, because that is * not correct for our purposes when we have a path like '~'. Tcl * has a bit of a contradiction in that '~' paths are defined as * 'absolute', but in reality can be just about anything, * depending on how env(HOME) is set. */ Tcl_PathType type = Tcl_FSGetPathType(absolutePath); if (type == TCL_PATH_RELATIVE) { useThisCwd = Tcl_FSGetCwd(interp); if (useThisCwd == NULL) { return NULL; } Tcl_DecrRefCount(absolutePath); 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. */ Tcl_DecrRefCount(absolutePath); absolutePath = TclWinVolumeRelativeNormalize(interp, path, &useThisCwd); if (absolutePath == NULL) { return NULL; } #endif /* _WIN32 */ } } /* * Already has refCount incremented. */ if (fsPathPtr->normPathPtr) { Tcl_DecrRefCount(fsPathPtr->normPathPtr); } fsPathPtr->normPathPtr = TclFSNormalizeAbsolutePath(interp, absolutePath); if (useThisCwd != NULL) { /* * We just need to free an object we allocated above for relative * paths (this was returned by Tcl_FSJoinToPath above), and then * of course store the cwd. */ fsPathPtr->cwdPtr = useThisCwd; } TclDecrRefCount(absolutePath); } return fsPathPtr->normPathPtr; } /* *--------------------------------------------------------------------------- * * Tcl_FSGetInternalRep -- * * Produces a native representation of a given path object in the given * filesystem. * * In the future it might be desirable to have separate versions * of this function with different signatures, for example * Tcl_FSGetNativeWinPath, Tcl_FSGetNativeUnixPath etc. Right now, since * native paths are all string based, we use just one function. * * Results: * * The native handle for the path, or NULL if the path is not handled by * the given filesystem * * Side effects: * * Tcl_FSCreateInternalRepProc if needed to produce the native * handle, which is then stored in the internal representation of pathPtr. * *--------------------------------------------------------------------------- */ ClientData Tcl_FSGetInternalRep( Tcl_Obj *pathPtr, const Tcl_Filesystem *fsPtr) { FsPath *srcFsPathPtr; if (Tcl_FSConvertToPathType(NULL, pathPtr) != TCL_OK) { return NULL; } srcFsPathPtr = PATHOBJ(pathPtr); /* * Currently there must be a unique bi-directional mapping between a path * and a filesystem, and therefore there is no way to "remap" a file, i.e., * to map a file in one filesystem into another. Another way of putting * this is that 'stacked' filesystems are not allowed. It could be useful * in the future to redesign the system to allow that. * * 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 currently easily achievable. */ if (srcFsPathPtr->fsPtr == NULL) { Tcl_FSGetFileSystemForPath(pathPtr); srcFsPathPtr = PATHOBJ(pathPtr); if (srcFsPathPtr->fsPtr == NULL) { /* * 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). */ return NULL; } } /* * If the file belongs to a different filesystem, perhaps it is actually * linked through to a file in the given filesystem. Check this by * inspecting the filesystem associated with the given path. */ if (fsPtr != srcFsPathPtr->fsPtr) { const Tcl_Filesystem *actualFs = Tcl_FSGetFileSystemForPath(pathPtr); if (actualFs == fsPtr) { return Tcl_FSGetInternalRep(pathPtr, fsPtr); } return NULL; } if (srcFsPathPtr->nativePathPtr == NULL) { Tcl_FSCreateInternalRepProc *proc; char *nativePathPtr; proc = srcFsPathPtr->fsPtr->createInternalRepProc; if (proc == NULL) { return NULL; } nativePathPtr = (char *)proc(pathPtr); srcFsPathPtr = PATHOBJ(pathPtr); srcFsPathPtr->nativePathPtr = nativePathPtr; srcFsPathPtr->filesystemEpoch = TclFSEpoch(); } return srcFsPathPtr->nativePathPtr; } /* *--------------------------------------------------------------------------- * * TclFSEnsureEpochOk -- * * Ensure that the path is a valid path, and that it has a * fsPathType internal representation that is not stale. * * Results: * A standard Tcl return code. * * Side effects: * The internal representation of fsPtrPtr is converted to fsPathType if * possible. * *--------------------------------------------------------------------------- */ int TclFSEnsureEpochOk( Tcl_Obj *pathPtr, const Tcl_Filesystem **fsPtrPtr) { FsPath *srcFsPathPtr; if (!TclHasInternalRep(pathPtr, &fsPathType)) { return TCL_OK; } srcFsPathPtr = PATHOBJ(pathPtr); if (!TclFSEpochOk(srcFsPathPtr->filesystemEpoch)) { /* * The filesystem has changed in some way since the internal * representation for this object was calculated. Discard the stale * representation and recalculate it. */ TclGetString(pathPtr); Tcl_StoreInternalRep(pathPtr, &fsPathType, NULL); if (SetFsPathFromAny(NULL, pathPtr) != TCL_OK) { return TCL_ERROR; } srcFsPathPtr = PATHOBJ(pathPtr); } if (srcFsPathPtr->fsPtr != NULL) { /* * There is already a filesystem assigned to this path. */ *fsPtrPtr = srcFsPathPtr->fsPtr; } return TCL_OK; } /* *--------------------------------------------------------------------------- * * TclFSSetPathDetails -- * * ??? * * Results: * None * * Side effects: * ??? * *--------------------------------------------------------------------------- */ void TclFSSetPathDetails( Tcl_Obj *pathPtr, const Tcl_Filesystem *fsPtr, ClientData clientData) { FsPath *srcFsPathPtr; /* * Make sure pathPtr is of the correct type. */ if (!TclHasInternalRep(pathPtr, &fsPathType)) { if (SetFsPathFromAny(NULL, pathPtr) != TCL_OK) { return; } } srcFsPathPtr = PATHOBJ(pathPtr); srcFsPathPtr->fsPtr = fsPtr; srcFsPathPtr->nativePathPtr = clientData; srcFsPathPtr->filesystemEpoch = TclFSEpoch(); } /* *--------------------------------------------------------------------------- * * 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( Tcl_Obj *firstPtr, Tcl_Obj *secondPtr) { const char *firstStr, *secondStr; int firstLen, secondLen, tempErrno; if (firstPtr == secondPtr) { return 1; } if (firstPtr == NULL || secondPtr == NULL) { return 0; } firstStr = TclGetStringFromObj(firstPtr, &firstLen); secondStr = TclGetStringFromObj(secondPtr, &secondLen); if ((firstLen == secondLen) && !memcmp(firstStr, secondStr, firstLen)) { 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 = TclGetStringFromObj(firstPtr, &firstLen); secondStr = TclGetStringFromObj(secondPtr, &secondLen); return ((firstLen == secondLen) && !memcmp(firstStr, secondStr, firstLen)); } /* *--------------------------------------------------------------------------- * * SetFsPathFromAny -- * * Attempt to convert the internal representation of pathPtr to * fsPathType. * * A tilde ("~") character at the beginnig of the filename indicates the * current user's home directory, and "~" indicates a particular * user's directory. * * Results: * Standard Tcl error code. * * Side effects: * The old representation may be freed, and new memory allocated. * *--------------------------------------------------------------------------- */ static int SetFsPathFromAny( Tcl_Interp *interp, /* Used for error reporting if not NULL. */ Tcl_Obj *pathPtr) /* The object to convert. */ { int len; FsPath *fsPathPtr; Tcl_Obj *transPtr; const char *name; if (TclHasInternalRep(pathPtr, &fsPathType)) { 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 or Win (fCmd.test, fileName.test and * cmdAH.test exercise most of the code). */ name = TclGetStringFromObj(pathPtr, &len); /* * Handle tilde substitutions, if needed. */ if (len && name[0] == '~') { Tcl_DString temp; int split; char separator = '/'; /* * We have multiple cases '~/foo/bar...', '~user/foo/bar...', etc. * split becomes value 1 for '~/...' as well as for '~'. */ split = FindSplitPos(name, separator); /* * Do some tilde substitution. */ if (split == 1) { /* * We have just '~' (or '~/...') */ const char *dir; Tcl_DString dirString; dir = TclGetEnv("HOME", &dirString); if (dir == NULL) { if (interp) { Tcl_SetObjResult(interp, Tcl_NewStringObj( "couldn't find HOME environment variable to" " expand path", -1)); Tcl_SetErrorCode(interp, "TCL", "VALUE", "PATH", "HOMELESS", NULL); } return TCL_ERROR; } Tcl_DStringInit(&temp); Tcl_JoinPath(1, &dir, &temp); Tcl_DStringFree(&dirString); } else { /* * There is a '~user' */ const char *expandedUser; Tcl_DString userName; Tcl_DStringInit(&userName); Tcl_DStringAppend(&userName, name+1, split-1); expandedUser = Tcl_DStringValue(&userName); Tcl_DStringInit(&temp); if (TclpGetUserHome(expandedUser, &temp) == NULL) { if (interp != NULL) { Tcl_SetObjResult(interp, Tcl_ObjPrintf( "user \"%s\" doesn't exist", expandedUser)); Tcl_SetErrorCode(interp, "TCL", "VALUE", "PATH", "NOUSER", NULL); } Tcl_DStringFree(&userName); Tcl_DStringFree(&temp); return TCL_ERROR; } Tcl_DStringFree(&userName); } transPtr = Tcl_DStringToObj(&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(pathPtr, NULL); TclListObjGetElementsM(NULL, parts, &objc, &objv); /* * Skip '~'. It's replaced by its expansion. */ objc--; objv++; while (objc--) { TclpNativeJoinPath(transPtr, Tcl_GetString(*objv++)); } TclDecrRefCount(parts); } else { Tcl_Obj *pair[2]; pair[0] = transPtr; pair[1] = Tcl_NewStringObj(name+split+1, -1); transPtr = TclJoinPath(2, pair, 1); if (transPtr != pair[0]) { Tcl_DecrRefCount(pair[0]); } if (transPtr != pair[1]) { Tcl_DecrRefCount(pair[1]); } } } } else { transPtr = TclJoinPath(1, &pathPtr, 1); } /* * 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(sizeof(FsPath)); if (transPtr == pathPtr) { transPtr = Tcl_DuplicateObj(pathPtr); fsPathPtr->filesystemEpoch = 0; } else { fsPathPtr->filesystemEpoch = TclFSEpoch(); } Tcl_IncrRefCount(transPtr); fsPathPtr->translatedPathPtr = transPtr; fsPathPtr->normPathPtr = NULL; fsPathPtr->cwdPtr = NULL; fsPathPtr->nativePathPtr = NULL; fsPathPtr->fsPtr = NULL; SETPATHOBJ(pathPtr, fsPathPtr); PATHFLAGS(pathPtr) = 0; return TCL_OK; } static void FreeFsPathInternalRep( Tcl_Obj *pathPtr) /* Path object with internal rep to free. */ { FsPath *fsPathPtr = PATHOBJ(pathPtr); if (fsPathPtr->translatedPathPtr != NULL) { if (fsPathPtr->translatedPathPtr != pathPtr) { TclDecrRefCount(fsPathPtr->translatedPathPtr); } } if (fsPathPtr->normPathPtr != NULL) { if (fsPathPtr->normPathPtr != pathPtr) { TclDecrRefCount(fsPathPtr->normPathPtr); } fsPathPtr->normPathPtr = NULL; } if (fsPathPtr->cwdPtr != NULL) { TclDecrRefCount(fsPathPtr->cwdPtr); fsPathPtr->cwdPtr = NULL; } if (fsPathPtr->nativePathPtr != NULL && fsPathPtr->fsPtr != NULL) { Tcl_FSFreeInternalRepProc *freeProc = fsPathPtr->fsPtr->freeInternalRepProc; if (freeProc != NULL) { freeProc(fsPathPtr->nativePathPtr); fsPathPtr->nativePathPtr = NULL; } } ckfree(fsPathPtr); } static void DupFsPathInternalRep( Tcl_Obj *srcPtr, /* Path obj with internal rep to copy. */ Tcl_Obj *copyPtr) /* Path obj with internal rep to set. */ { FsPath *srcFsPathPtr = PATHOBJ(srcPtr); FsPath *copyFsPathPtr = (FsPath *)ckalloc(sizeof(FsPath)); SETPATHOBJ(copyPtr, copyFsPathPtr); copyFsPathPtr->translatedPathPtr = srcFsPathPtr->translatedPathPtr; if (copyFsPathPtr->translatedPathPtr != NULL) { Tcl_IncrRefCount(copyFsPathPtr->translatedPathPtr); } copyFsPathPtr->normPathPtr = srcFsPathPtr->normPathPtr; if (copyFsPathPtr->normPathPtr != NULL) { Tcl_IncrRefCount(copyFsPathPtr->normPathPtr); } copyFsPathPtr->cwdPtr = srcFsPathPtr->cwdPtr; if (copyFsPathPtr->cwdPtr != NULL) { Tcl_IncrRefCount(copyFsPathPtr->cwdPtr); } copyFsPathPtr->flags = srcFsPathPtr->flags; if (srcFsPathPtr->fsPtr != NULL && srcFsPathPtr->nativePathPtr != NULL) { Tcl_FSDupInternalRepProc *dupProc = srcFsPathPtr->fsPtr->dupInternalRepProc; if (dupProc != NULL) { copyFsPathPtr->nativePathPtr = dupProc(srcFsPathPtr->nativePathPtr); } else { copyFsPathPtr->nativePathPtr = NULL; } } else { copyFsPathPtr->nativePathPtr = NULL; } copyFsPathPtr->fsPtr = srcFsPathPtr->fsPtr; copyFsPathPtr->filesystemEpoch = srcFsPathPtr->filesystemEpoch; } /* *--------------------------------------------------------------------------- * * UpdateStringOfFsPath -- * * Gives an object a valid string rep. * * Results: * None. * * Side effects: * Memory may be allocated. * *--------------------------------------------------------------------------- */ static void UpdateStringOfFsPath( Tcl_Obj *pathPtr) /* path obj with string rep to update. */ { FsPath *fsPathPtr = PATHOBJ(pathPtr); int cwdLen; Tcl_Obj *copy; if (PATHFLAGS(pathPtr) == 0 || fsPathPtr->cwdPtr == NULL) { Tcl_Panic("Called UpdateStringOfFsPath with invalid object"); } copy = AppendPath(fsPathPtr->cwdPtr, fsPathPtr->normPathPtr); if (Tcl_IsShared(copy)) { copy = Tcl_DuplicateObj(copy); } Tcl_IncrRefCount(copy); /* Steal copy's string rep */ pathPtr->bytes = TclGetStringFromObj(copy, &cwdLen); pathPtr->length = cwdLen; TclInitStringRep(copy, NULL, 0); TclDecrRefCount(copy); } /* *--------------------------------------------------------------------------- * * TclNativePathInFilesystem -- * * 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. * *--------------------------------------------------------------------------- */ int TclNativePathInFilesystem( Tcl_Obj *pathPtr, TCL_UNUSED(ClientData *)) { /* * 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 (TclHasInternalRep(pathPtr, &fsPathType)) { 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 fsPathType. However, we do our best to deal with the * situation. */ int len; (void) TclGetStringFromObj(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; } /* *---------------------------------------------------------------------- * * MakeTildeRelativePath -- * * Returns a path relative to the home directory of a user. * Note there is a difference between not specifying a user and * explicitly specifying the current user. This mimics Tcl8's tilde * expansion. * * The subPath argument is joined to the expanded home directory * as in Tcl_JoinPath. This means if it is not relative, it will * returned as the result with the home directory only checked * for user name validity. * * Results: * Returns TCL_OK on success with home directory path in *dsPtr * and TCL_ERROR on failure with error message in interp if non-NULL. * *---------------------------------------------------------------------- */ int MakeTildeRelativePath( Tcl_Interp *interp, /* May be NULL. Only used for error messages */ const char *user, /* User name. NULL -> current user */ const char *subPath, /* Rest of path. May be NULL */ Tcl_DString *dsPtr) /* Output. Is initialized by the function. Must be freed on success */ { const char *dir; Tcl_DString dirString; Tcl_DStringInit(dsPtr); Tcl_DStringInit(&dirString); if (user == NULL || user[0] == 0) { /* No user name specified -> current user */ dir = TclGetEnv("HOME", &dirString); if (dir == NULL) { if (interp) { Tcl_SetObjResult(interp, Tcl_NewStringObj( "couldn't find HOME environment variable to" " expand path", -1)); Tcl_SetErrorCode(interp, "TCL", "VALUE", "PATH", "HOMELESS", NULL); } return TCL_ERROR; } } else { /* User name specified - ~user */ dir = TclpGetUserHome(user, &dirString); if (dir == NULL) { if (interp != NULL) { Tcl_SetObjResult(interp, Tcl_ObjPrintf( "user \"%s\" doesn't exist", user)); Tcl_SetErrorCode(interp, "TCL", "VALUE", "PATH", "NOUSER", NULL); } return TCL_ERROR; } } if (subPath) { const char *parts[2]; parts[0] = dir; parts[1] = subPath; Tcl_JoinPath(2, parts, dsPtr); } else { Tcl_JoinPath(1, &dir, dsPtr); } Tcl_DStringFree(&dirString); return TCL_OK; } /* *---------------------------------------------------------------------- * * TclGetHomeDirObj -- * * Wrapper around MakeTildeRelativePath. See that function. * * Results: * Returns a Tcl_Obj containing the home directory of a user * or NULL on failure with error message in interp if non-NULL. * *---------------------------------------------------------------------- */ Tcl_Obj * TclGetHomeDirObj( Tcl_Interp *interp, /* May be NULL. Only used for error messages */ const char *user) /* User name. NULL -> current user */ { Tcl_DString dirString; if (MakeTildeRelativePath(interp, user, NULL, &dirString) != TCL_OK) { return NULL; } return Tcl_DStringToObj(&dirString); } /* *---------------------------------------------------------------------- * * TclResolveTildePath -- * * If the passed path is begins with a tilde, does tilde resolution * and returns a Tcl_Obj containing the resolved path. If the tilde * component cannot be resolved, returns NULL. If the path does not * begin with a tilde, returns as is. * * Results: * Returns a Tcl_Obj with resolved path. This may be a new Tcl_Obj * with ref count 0 or that pathObj that was passed in without its * ref count modified. * Returns NULL if the path begins with a ~ that cannot be resolved * and stores an error message in interp if non-NULL. * *---------------------------------------------------------------------- */ Tcl_Obj * TclResolveTildePath( Tcl_Interp *interp, /* May be NULL. Only used for error messages */ Tcl_Obj *pathObj) { const char *path; int len; int split; Tcl_DString resolvedPath; path = Tcl_GetStringFromObj(pathObj, &len); if (path[0] != '~') { return pathObj; } /* * We have multiple cases '~/foo/bar...', '~user/foo/bar...', etc. * split becomes value 1 for '~/...' as well as for '~'. Note on * Windows FindSplitPos will implicitly check for '\' as separator * in addition to what is passed. */ split = FindSplitPos(path, '/'); if (split == 1) { /* No user name specified -> current user */ if (MakeTildeRelativePath( interp, NULL, path[1] ? 2 + path : NULL, &resolvedPath) != TCL_OK) { return NULL; } } else { /* User name specified - ~user */ const char *expandedUser; Tcl_DString userName; Tcl_DStringInit(&userName); Tcl_DStringAppend(&userName, path+1, split-1); expandedUser = Tcl_DStringValue(&userName); /* path[split] is / or \0 */ if (MakeTildeRelativePath(interp, expandedUser, path[split] ? &path[split+1] : NULL, &resolvedPath) != TCL_OK) { Tcl_DStringFree(&userName); return NULL; } Tcl_DStringFree(&userName); } return Tcl_DStringToObj(&resolvedPath); } /* *---------------------------------------------------------------------- * * TclResolveTildePathList -- * * Given a Tcl_Obj that is a list of paths, returns a Tcl_Obj containing * the paths with any ~-prefixed paths resolved. * * Empty strings and ~-prefixed paths that cannot be resolved are * removed from the returned list. * * The trailing components of the path are returned verbatim. No * processing is done on them. Moreover, no assumptions should be * made about the separators in the returned path. They may be / * or native. Appropriate path manipulations functions should be * used by caller if desired. * * Results: * Returns a Tcl_Obj with resolved paths. This may be a new Tcl_Obj with * reference count 0 or the original passed-in Tcl_Obj if no paths needed * resolution. A NULL is returned if the passed in value is not a list * or was NULL. * *---------------------------------------------------------------------- */ Tcl_Obj * TclResolveTildePathList( Tcl_Obj *pathsObj) { Tcl_Obj **objv; int objc; int i; Tcl_Obj *resolvedPaths; const char *path; if (pathsObj == NULL) { return NULL; } if (Tcl_ListObjGetElements(NULL, pathsObj, &objc, &objv) != TCL_OK) { return NULL; /* Not a list */ } /* * Figure out if any paths need resolving to avoid unnecessary allocations. */ for (i = 0; i < objc; ++i) { path = Tcl_GetString(objv[i]); if (path[0] == '~') { break; /* At least one path needs resolution */ } } if (i == objc) { return pathsObj; /* No paths needed to be resolved */ } resolvedPaths = Tcl_NewListObj(objc, NULL); for (i = 0; i < objc; ++i) { Tcl_Obj *resolvedPath; path = Tcl_GetString(objv[i]); if (path[0] == 0) { continue; /* Skip empty strings */ } resolvedPath = TclResolveTildePath(NULL, objv[i]); if (resolvedPath) { /* Paths that cannot be resolved are skipped */ Tcl_ListObjAppendElement(NULL, resolvedPaths, resolvedPath); } } return resolvedPaths; } /* * Local Variables: * mode: c * c-basic-offset: 4 * fill-column: 78 * End: */