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1.1 ! root 1: /* ! 2: * ftw - file tree walk ! 3: * ! 4: * int ftw (path, fn, depth) char *path; int (*fn)(); int depth; ! 5: * ! 6: * Given a path name, ftw starts from the file given by that path ! 7: * name and visits each file and directory in the tree beneath ! 8: * that file. If a single file has multiple links within the ! 9: * structure, it will be visited once for each such link. ! 10: * For each object visited, fn is called with four arguments. ! 11: * The fourth can often be ignored; it is a pointer, say S, ! 12: * declared "struct FTW *S", discussed in more detail below. ! 13: * The first contains the path name of the object, the second ! 14: * contains a pointer to a stat buffer which will usually hold ! 15: * appropriate information for the object and the third contains ! 16: * an integer value giving additional information about the ! 17: * object, as follows: ! 18: * ! 19: * FTW_F The object is a file for which stat was ! 20: * successful. It does not guarantee that the ! 21: * file can actually be read. ! 22: * ! 23: * FTW_D The object is a directory for which stat and ! 24: * open for read were both successful. This is ! 25: * a preorder visit -- objects in the directory ! 26: * are yet to be visited. ! 27: * ! 28: * FTW_DNR The object is a directory for which stat ! 29: * succeeded, but which cannot be read. Because ! 30: * the directory cannot be read, fn will not be ! 31: * called for any descendants of this directory. ! 32: * ! 33: * FTW_DP The object is a directory for which stat and ! 34: * open for read were both successful. This is ! 35: * a postorder visit -- everything in the directory ! 36: * has already been visited. ! 37: * ! 38: * FTW_NS Lstat failed on the object. If errno is EACCES, ! 39: * then the failure stems from lack of ! 40: * appropriate permission. This indication will ! 41: * be given, for example, for each file in a directory ! 42: * with read but no execute permission. Whenever ! 43: * stat fails, it is not possible to determine ! 44: * whether this object is a file or a directory. ! 45: * The stat buffer passed to fn will contain garbage. ! 46: * ! 47: * FTW_SL The object is a symbolic link. Set S->quit ! 48: * (a component of the structure pointed to by ! 49: * the fourth parameter to fn) to FTW_FOLLOW to ! 50: * have the link followed and the object to which ! 51: * it points visited. ! 52: * ! 53: * FTW_NSL Lstat succeeded, but stat failed on the object. ! 54: * This is only possible when following a symbolic ! 55: * link. ! 56: * ! 57: * Among the components of the structure to which the fourth ! 58: * parameter, S, to fn points is S->quit. If the caller sets ! 59: * S->quit to FTW_SKR, then no more files in the current directory ! 60: * will be visited. (The current directory is the one containing ! 61: * the object being visited.) If the third parameter to fn is ! 62: * FTW_D and the caller sets S->quit to FTW_SKD, then this directory ! 63: * (the one named in the first parameter to fn) will be skipped. ! 64: * ! 65: * Other components pointed to by the fourth parameter S are ! 66: * the current recursion level S->level (top level = 0) and ! 67: * the offset S->base in the pathname of the current object ! 68: * (the first parameter to fn) of the object's base name. ! 69: * By expanding the definition of struct FTW given below and ! 70: * including the files included below, one can arrange for ! 71: * S to point to a larger structure, components of which can ! 72: * be initialized (for example) on calls to fn with third ! 73: * parameter FTW_D. ! 74: * ! 75: * If fn returns nonzero, ftw stops and returns the same value ! 76: * to its caller. Ftw only initiates a nonzero return if malloc ! 77: * fails; in this case ftw sets errno to ENOMEM and returns -1. ! 78: * ! 79: * The third argument to ftw does not limit the depth to which ! 80: * ftw will go. Rather, it limits the depth to which ftw will ! 81: * go before it starts recycling file descriptors. In general, ! 82: * it is necessary to use a file descriptor for each level of the ! 83: * tree, but they can be recycled for deep trees by saving the position, ! 84: * closing, re-opening, and seeking. It is possible to start ! 85: * recycling file descriptors by sensing when we have run out, but ! 86: * in general this will not be terribly useful if fn expects to be ! 87: * able to open files. We could also figure out how many file descriptors ! 88: * are available and guarantee a certain number to fn, but we would not ! 89: * know how many to guarantee, and we do not want to impose the extra ! 90: * overhead on a caller who knows how many are available without ! 91: * having to figure it out. ! 92: * ! 93: * It is possible for ftw to die with a memory fault in the event ! 94: * of a file system so deeply nested that the stack overflows. ! 95: */ ! 96: ! 97: #include <sys/types.h> ! 98: #include <sys/stat.h> ! 99: #include <ftw.h> ! 100: /* ! 101: * Struct FTW (whose definition starts at the end of ftw.h) must ! 102: * must include at least the integers quit, base, and level. ! 103: */ ! 104: ! 105: #define FTW_PATHLEN0 1000 ! 106: #define FTW_PATHINC 1000 ! 107: #ifndef S_IFLNK ! 108: #define lstat stat ! 109: #endif ! 110: #ifdef S_IFSOCK ! 111: #include <sys/dir.h> ! 112: #else ! 113: #include "ndir.h" ! 114: #endif ! 115: #ifndef ENOMEM ! 116: #include <errno.h> ! 117: #endif ! 118: ! 119: extern int errno; ! 120: ! 121: /* ! 122: * Each generation of ftw1 (the real ftw) allocates one copy, R, of the ! 123: * following structure; it passes a pointer to this structure when it ! 124: * recursively invokes itself. These structures are chained together, ! 125: * so that if it becomes necessary to recycle file descriptors, then ! 126: * the oldest descriptor (the one at the shallowest depth still open) ! 127: * can be recycled. ! 128: */ ! 129: ! 130: struct FTW_rec { ! 131: struct FTW_rec *prev; ! 132: long here; /* seek to here when reopening at this level */ ! 133: DIR *fd; /* file descriptor at this level */ ! 134: }; ! 135: ! 136: /* ! 137: * One instance, T, of the following structure is allocated by ftw; a ! 138: * pointer to it is passed to all generations of ftw1 (the real ftw). ! 139: * T could often be a global variable, but this way the parameter fn ! 140: * can invoke ftw for an independent tree walk. ! 141: * Component T->path points to storage for the object path-names; ! 142: * this storage may be relocated by realloc if T->path needs to be ! 143: * more than T->pathlast characters long. ! 144: * T->path[T->pathnext] is the next free character in the pathnames. ! 145: * T->depth = parameter depth to ftw. T->lastout is the deepest level at ! 146: * which a file descriptor has been recycled. ! 147: */ ! 148: ! 149: struct FTW_top { ! 150: int (*fn)(); ! 151: char *path; ! 152: unsigned pathlast, pathnext; ! 153: int lastout; ! 154: int depth; ! 155: }; ! 156: ! 157: static ftw_1_(); ! 158: ! 159: int ! 160: ftw (path, fn, depth) ! 161: char *path; ! 162: int (*fn)(); ! 163: int depth; ! 164: { ! 165: struct FTW_top T; ! 166: struct FTW_rec R; ! 167: struct FTW S; ! 168: int rc; ! 169: char *malloc(), *strcpy(); ! 170: ! 171: T.depth = depth; ! 172: T.lastout = -1; ! 173: T.fn = fn; ! 174: S.quit = 0; ! 175: S.level = -1; ! 176: ! 177: /* initialize S.base, T.pathnext... */ ! 178: { ! 179: register char c, *p, *q; ! 180: for (p = q = path; c = *p; p++) if (c == '/') q = p + 1; ! 181: S.base = q - path; ! 182: T.pathnext = p - path; ! 183: } ! 184: ! 185: T.pathlast = T.pathnext + FTW_PATHLEN0; ! 186: T.path = malloc(T.pathlast); ! 187: if (!T.path) { errno = ENOMEM; return -1; } ! 188: strcpy(T.path, path); ! 189: rc = ftw_1_(&R, &T, 0, &S); ! 190: free(T.path); ! 191: return rc; ! 192: } ! 193: ! 194: int ! 195: static ! 196: ftw_1_ (R, T, level, S1) ! 197: register struct FTW_rec *R; ! 198: register struct FTW_top *T; ! 199: int level; ! 200: struct FTW *S1; ! 201: { ! 202: int rc, n; ! 203: DIR *fd; ! 204: struct direct *dirp; ! 205: char *component, *path; ! 206: struct stat sb; ! 207: struct FTW_rec mr; ! 208: unsigned nextsave; ! 209: struct FTW S; ! 210: char *realloc(); ! 211: long lseek(); ! 212: ! 213: mr.prev = R; ! 214: path = T->path; ! 215: S.level = level; ! 216: S.quit = 0; ! 217: S.base = S1->base; ! 218: ! 219: /* Try to get file status. If unsuccessful, errno will say why. */ ! 220: if (lstat(path, &sb) < 0) { ! 221: rc = (*T->fn) (path, &sb, FTW_NS, &S); ! 222: S1->quit = S.quit; ! 223: return rc; ! 224: }; ! 225: ! 226: /* ! 227: * The stat succeeded, so we know the object exists. ! 228: * If not a directory, call the user function and return. ! 229: */ ! 230: #ifdef S_IFLNK ! 231: if ((sb.st_mode & S_IFMT) == S_IFLNK) { ! 232: rc = (*T->fn) (path, &sb, FTW_SL, &S); ! 233: S1->quit = S.quit; ! 234: if (rc || S.quit == FTW_SKR) return rc; ! 235: if (S.quit != FTW_FOLLOW) return 0; ! 236: S1->quit = S.quit = 0; ! 237: if (stat(path, &sb) < 0) { ! 238: rc = (*T->fn) (path, &sb, FTW_NSL, &S); ! 239: S1->quit = S.quit; ! 240: return rc; ! 241: }; ! 242: } ! 243: #endif ! 244: ! 245: if ((sb.st_mode & S_IFMT) != S_IFDIR) { ! 246: rc = (*T->fn) (path, &sb, FTW_F, &S); ! 247: S1->quit = S.quit; ! 248: return rc; ! 249: } ! 250: ! 251: /* ! 252: * The object was a directory. ! 253: * ! 254: * Open a file to read the directory ! 255: */ ! 256: mr.fd = fd = opendir(path); ! 257: ! 258: /* ! 259: * Call the user function, telling it whether ! 260: * the directory can be read. If it can't be read ! 261: * call the user function or indicate an error, ! 262: * depending on the reason it couldn't be read. ! 263: */ ! 264: if (!fd) { ! 265: rc = (*T->fn) (path, &sb, FTW_DNR, &S); ! 266: S1->quit = S.quit; ! 267: return rc; ! 268: } ! 269: ! 270: /* We could read the directory. Call user function. */ ! 271: rc = (*T->fn) (path, &sb, FTW_D, &S); ! 272: if (rc != 0) ! 273: goto rtrn; ! 274: if (S.quit == FTW_SKD) goto rtrn; ! 275: if (S.quit == FTW_SKR) {S1->quit = FTW_SKR; goto rtrn;} ! 276: ! 277: /* Make sure path is big enough to hold generated pathnames. */ ! 278: ! 279: n = nextsave = T->pathnext; ! 280: if (n + MAXNAMLEN + 1 >= T->pathlast) { ! 281: T->pathlast += FTW_PATHINC; ! 282: path = T->path = realloc(T->path, T->pathlast); ! 283: if (!path) { ! 284: errno = ENOMEM; ! 285: rc = -1; ! 286: goto rtrn; ! 287: } ! 288: } ! 289: ! 290: /* Create a prefix to which we will append component names */ ! 291: ! 292: if (n > 0 && path[n-1] != '/') path[n++] = '/'; ! 293: component = path + n; ! 294: ! 295: /* ! 296: * Read the directory one component at a time. ! 297: * We must ignore "." and "..", but other than that, ! 298: * just create a path name and call self to check it out. ! 299: */ ! 300: while (dirp = readdir(fd)) { ! 301: if (dirp->d_ino != 0 ! 302: && strcmp (dirp->d_name, ".") != 0 ! 303: && strcmp (dirp->d_name, "..") != 0) { ! 304: int i; ! 305: struct FTW_rec *pr; ! 306: ! 307: /* Append the component name to the working path */ ! 308: strcpy(component, dirp->d_name); ! 309: T->pathnext = n + strlen(dirp->d_name); ! 310: ! 311: /* ! 312: * If we are about to exceed our depth, ! 313: * remember where we are and close the file. ! 314: */ ! 315: if (level - T->lastout >= T->depth) { ! 316: pr = &mr; ! 317: i = T->lastout++; ! 318: while (++i < level) pr = pr->prev; ! 319: pr->here = telldir(pr->fd); ! 320: closedir(pr->fd); ! 321: } ! 322: ! 323: /* ! 324: * Do a recursive call to process the file. ! 325: */ ! 326: S.quit = 0; ! 327: S.base = n; ! 328: rc = ftw_1_(&mr, T, level+1, &S); ! 329: if (rc != 0 || S.quit == FTW_SKR) { ! 330: if (level > T->lastout) closedir(fd); ! 331: T->pathnext = nextsave; ! 332: return rc; ! 333: } ! 334: ! 335: /* ! 336: * If we closed the file, try to reopen it. ! 337: */ ! 338: if (level <= T->lastout) { ! 339: char c = path[nextsave]; ! 340: path[nextsave] = 0; ! 341: T->lastout = level - 1; ! 342: mr.fd = fd = opendir(path); ! 343: if (!fd) { ! 344: rc = (*T->fn) (path, &sb, FTW_DNR, &S); ! 345: S1->quit = S.quit; ! 346: T->pathnext = nextsave; ! 347: return rc; ! 348: } ! 349: path[nextsave] = c; ! 350: seekdir(fd, mr.here); ! 351: } ! 352: } ! 353: } ! 354: T->pathnext = nextsave; ! 355: path[nextsave] = 0; ! 356: ! 357: /* ! 358: * We got out of the subdirectory loop. Call the user ! 359: * function again at the end and clean up. ! 360: */ ! 361: ! 362: rc = (*T->fn) (path, &sb, FTW_DP, &S); ! 363: S1->quit = S.quit; ! 364: rtrn: ! 365: closedir(fd); ! 366: return rc; ! 367: }
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