int fstatvfs(int fd, struct statvfs *result) { struct statfs sfs; int rv; long pcval; rv = _fstatfs(fd, &sfs); if (rv != 0) return (rv); rv = sfs2svfs(&sfs, result); if (rv != 0) return (rv); /* * Whether pathconf's -1 return means error or unlimited does not * make any difference in this best-effort implementation. */ pcval = _fpathconf(fd, _PC_NAME_MAX); if (pcval == -1) result->f_namemax = ~0UL; else result->f_namemax = (unsigned long)pcval; return (0); }
/* * Common routine for opendir(3), __opendir2(3) and fdopendir(3). */ static DIR * __opendir_common(int fd, const char *name, int flags) { DIR *dirp; int incr; int saved_errno; int unionstack; struct stat statb; dirp = NULL; /* _fstat() the open handler because the file may have changed. */ if (_fstat(fd, &statb) != 0) goto fail; if (!S_ISDIR(statb.st_mode)) { errno = ENOTDIR; goto fail; } if (_fcntl(fd, F_SETFD, FD_CLOEXEC) == -1 || (dirp = malloc(sizeof(DIR) + sizeof(struct _telldir))) == NULL) goto fail; dirp->dd_td = (struct _telldir *)((char *)dirp + sizeof(DIR)); LIST_INIT(&dirp->dd_td->td_locq); dirp->dd_td->td_loccnt = 0; /* * Use the system page size if that is a multiple of DIRBLKSIZ. * Hopefully this can be a big win someday by allowing page * trades to user space to be done by _getdirentries(). */ incr = getpagesize(); if ((incr % DIRBLKSIZ) != 0) incr = DIRBLKSIZ; /* * Determine whether this directory is the top of a union stack. */ if (flags & DTF_NODUP) { struct statfs sfb; if (_fstatfs(fd, &sfb) < 0) goto fail; unionstack = !strcmp(sfb.f_fstypename, "unionfs") || (sfb.f_flags & MNT_UNION); } else { unionstack = 0; } if (unionstack) { int len = 0; int space = 0; char *buf = 0; char *ddptr = 0; char *ddeptr; int n; struct dirent **dpv; /* * The strategy here is to read all the directory * entries into a buffer, sort the buffer, and * remove duplicate entries by setting the inode * number to zero. */ do { /* * Always make at least DIRBLKSIZ bytes * available to _getdirentries */ if (space < DIRBLKSIZ) { space += incr; len += incr; buf = reallocf(buf, len); if (buf == NULL) goto fail; ddptr = buf + (len - space); } n = _getdirentries(fd, ddptr, space, &dirp->dd_seek); if (n > 0) { ddptr += n; space -= n; } } while (n > 0); ddeptr = ddptr; flags |= __DTF_READALL; /* * Re-open the directory. * This has the effect of rewinding back to the * top of the union stack and is needed by * programs which plan to fchdir to a descriptor * which has also been read -- see fts.c. */ if (flags & DTF_REWIND) { (void)_close(fd); if ((fd = _open(name, O_RDONLY | O_DIRECTORY)) == -1) { saved_errno = errno; free(buf); free(dirp); errno = saved_errno; return (NULL); } } /* * There is now a buffer full of (possibly) duplicate * names. */ dirp->dd_buf = buf; /* * Go round this loop twice... * * Scan through the buffer, counting entries. * On the second pass, save pointers to each one. * Then sort the pointers and remove duplicate names. */ for (dpv = 0;;) { n = 0; ddptr = buf; while (ddptr < ddeptr) { struct dirent *dp; dp = (struct dirent *) ddptr; if ((long)dp & 03L) break; if ((dp->d_reclen <= 0) || (dp->d_reclen > (ddeptr + 1 - ddptr))) break; ddptr += dp->d_reclen; if (dp->d_fileno) { if (dpv) dpv[n] = dp; n++; } } if (dpv) { struct dirent *xp; /* * This sort must be stable. */ mergesort(dpv, n, sizeof(*dpv), opendir_compar); dpv[n] = NULL; xp = NULL; /* * Scan through the buffer in sort order, * zapping the inode number of any * duplicate names. */ for (n = 0; dpv[n]; n++) { struct dirent *dp = dpv[n]; if ((xp == NULL) || strcmp(dp->d_name, xp->d_name)) { xp = dp; } else { dp->d_fileno = 0; } if (dp->d_type == DT_WHT && (flags & DTF_HIDEW)) dp->d_fileno = 0; } free(dpv); break; } else { dpv = malloc((n+1) * sizeof(struct dirent *)); if (dpv == NULL) break; } } dirp->dd_len = len; dirp->dd_size = ddptr - dirp->dd_buf; } else { dirp->dd_len = incr; dirp->dd_size = 0; dirp->dd_buf = malloc(dirp->dd_len); if (dirp->dd_buf == NULL) goto fail; dirp->dd_seek = 0; flags &= ~DTF_REWIND; } dirp->dd_loc = 0; dirp->dd_fd = fd; dirp->dd_flags = flags; dirp->dd_lock = NULL; /* * Set up seek point for rewinddir. */ dirp->dd_rewind = telldir(dirp); return (dirp); fail: saved_errno = errno; free(dirp); (void)_close(fd); errno = saved_errno; return (NULL); }
/* * Common routine for opendir(3), __opendir2(3) and fdopendir(3). */ static DIR * __opendir_common(int fd, int flags, bool use_current_pos) { DIR *dirp; int incr; int saved_errno; int unionstack; if ((dirp = malloc(sizeof(DIR) + sizeof(struct _telldir))) == NULL) return (NULL); dirp->dd_buf = NULL; dirp->dd_fd = fd; dirp->dd_flags = flags; dirp->dd_loc = 0; dirp->dd_lock = NULL; dirp->dd_td = (struct _telldir *)((char *)dirp + sizeof(DIR)); LIST_INIT(&dirp->dd_td->td_locq); dirp->dd_td->td_loccnt = 0; /* * Use the system page size if that is a multiple of DIRBLKSIZ. * Hopefully this can be a big win someday by allowing page * trades to user space to be done by _getdirentries(). */ incr = getpagesize(); if ((incr % DIRBLKSIZ) != 0) incr = DIRBLKSIZ; /* * Determine whether this directory is the top of a union stack. */ if (flags & DTF_NODUP) { struct statfs sfb; if (_fstatfs(fd, &sfb) < 0) goto fail; unionstack = !strcmp(sfb.f_fstypename, "unionfs") || (sfb.f_flags & MNT_UNION); } else { unionstack = 0; } if (unionstack) { if (!_filldir(dirp, use_current_pos)) goto fail; dirp->dd_flags |= __DTF_READALL; } else { dirp->dd_len = incr; dirp->dd_buf = malloc(dirp->dd_len); if (dirp->dd_buf == NULL) goto fail; if (use_current_pos) { /* * Read the first batch of directory entries * to prime dd_seek. This also checks if the * fd passed to fdopendir() is a directory. */ dirp->dd_size = _getdirentries(dirp->dd_fd, dirp->dd_buf, dirp->dd_len, &dirp->dd_seek); if (dirp->dd_size < 0) { if (errno == EINVAL) errno = ENOTDIR; goto fail; } dirp->dd_flags |= __DTF_SKIPREAD; } else { dirp->dd_size = 0; dirp->dd_seek = 0; } } return (dirp); fail: saved_errno = errno; free(dirp->dd_buf); free(dirp); errno = saved_errno; return (NULL); }