/* * Copyright 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ /* * Copyright (c) 1983 Regents of the University of California. * All rights reserved. The Berkeley software License Agreement * specifies the terms and conditions for redistribution. */ #include "restore.h" #include #include #include #include /* * Symbol table of directories read from tape. */ #define HASHSIZE 1000 #define INOHASH(val) (val % HASHSIZE) struct inotab { struct inotab *t_next; ino_t t_ino; offset_t t_seekpt; offset_t t_size; struct inotab *t_xattr; }; static struct inotab *inotab[HASHSIZE]; static struct inotab *xattrlist = NULL; /* * Information retained about directories. */ static struct modeinfo { ino_t ino; time_t timep[2]; mode_t mode; uid_t uid; gid_t gid; size_t metasize; } node; /* * Global variables for this file. */ static off64_t g_seekpt; /* some people have a local seekpt */ static FILE *df, *mf; static char dirfile[MAXPATHLEN] = "#"; /* No file */ static char modefile[MAXPATHLEN] = "#"; /* No file */ static RST_DIR *dirp; #define INIT_TEMPFILE(name, type) \ if (name[0] == '#') { \ if (tmpdir == (char *)NULL) /* can't happen; be paranoid */ \ tmpdir = "/tmp"; \ (void) snprintf(name, sizeof (name), \ "%s/rst" type "%ld.XXXXXX", tmpdir, dumpdate); \ (void) mktemp(name); \ } #define INIT_DIRFILE() INIT_TEMPFILE(dirfile, "dir") #define INIT_MODEFILE() INIT_TEMPFILE(modefile, "mode") /* * Format of old style directories. */ #define ODIRSIZ 14 struct odirect { ushort_t d_ino; char d_name[ODIRSIZ]; }; static ino_t search(ino_t, char *); static void putdir(char *, size_t); static void putent(struct direct *); static void skipmetadata(FILE *, size_t); static void flushent(void); static void dcvt(struct odirect *, struct direct *); static RST_DIR *rst_initdirfile(char *); static offset_t rst_telldir(RST_DIR *); static void rst_seekdir(RST_DIR *, offset_t, offset_t); static struct inotab *allocinotab(ino_t, struct dinode *, off64_t); static void nodeflush(void); static struct inotab *inotablookup(ino_t); /* * Extract directory contents, building up a directory structure * on disk for extraction by name. * If genmode is requested, save mode, owner, and times for all * directories on the tape. */ void extractdirs(int genmode) { int ts; struct dinode *ip; int saverr; struct inotab *itp; struct direct nulldir; static char dotname[] = "."; /* dirlookup/psearch writes to its arg */ vprintf(stdout, gettext("Extract directories from tape\n")); INIT_DIRFILE(); if ((df = safe_fopen(dirfile, "w", 0600)) == (FILE *)NULL) { saverr = errno; (void) fprintf(stderr, gettext("%s: %s - cannot create directory temporary\n"), progname, dirfile); errno = saverr; perror("fopen"); done(1); } if (genmode != 0) { INIT_MODEFILE(); if ((mf = safe_fopen(modefile, "w", 0600)) == (FILE *)NULL) { saverr = errno; (void) fprintf(stderr, gettext("%s: %s - cannot create modefile \n"), progname, modefile); errno = saverr; perror("fopen"); done(1); } } nulldir.d_ino = 0; nulldir.d_namlen = 1; (void) strcpy(nulldir.d_name, "/"); /* LINTED DIRSIZ will always fit into a ushort_t */ nulldir.d_reclen = (ushort_t)DIRSIZ(&nulldir); /* LINTED sign extension ok in assert */ assert(DIRSIZ(&nulldir) == (ulong_t)nulldir.d_reclen); for (;;) { curfile.name = gettext(""); curfile.action = USING; ip = curfile.dip; ts = curfile.ts; if (ts != TS_END && ts != TS_INODE) { getfile(null, null); continue; } if (ts == TS_INODE && ip == NULL) { (void) fprintf(stderr, gettext( "%s: extractdirs: Failed internal consistency check, curfile.dip is NULL\n"), progname); done(1); } if ((ts == TS_INODE && (ip->di_mode & IFMT) != IFDIR && (ip->di_mode & IFMT) != IFATTRDIR) || (ts == TS_END)) { (void) fflush(df); /* XXX Legitimate error, bad complaint string */ if (ferror(df)) panic("%s: %s\n", dirfile, strerror(errno)); (void) fclose(df); rst_closedir(dirp); dirp = rst_initdirfile(dirfile); if (dirp == NULL) perror("initdirfile"); if (mf != NULL) { (void) fflush(mf); /* XXX Legitimate error, bad complaint string */ if (ferror(mf)) panic("%s: %s\n", modefile, strerror(errno)); (void) fclose(mf); } if (dirlookup(dotname) == 0) { (void) fprintf(stderr, gettext( "Root directory is not on tape\n")); done(1); } return; } itp = allocinotab(curfile.ino, ip, g_seekpt); getfile(putdir, null); if (mf != NULL) nodeflush(); putent(&nulldir); flushent(); itp->t_size = g_seekpt - itp->t_seekpt; } } /* * skip over all the directories on the tape */ void skipdirs() { while (curfile.dip != NULL && ((curfile.dip->di_mode & IFMT) == IFDIR || (curfile.dip->di_mode & IFMT) == IFATTRDIR)) { skipfile(); } } /* * Recursively find names and inumbers of all files in subtree * pname and pass them off to be processed. */ void treescan(char *pname, ino_t ino, long (*todo)()) { struct inotab *itp; struct direct *dp; uint_t loclen; offset_t bpt; char locname[MAXCOMPLEXLEN]; itp = inotablookup(ino); if (itp == NULL) { /* * Pname is name of a simple file or an unchanged directory. */ (void) (*todo)(pname, ino, LEAF); return; } /* * Pname is a dumped directory name. */ if ((*todo)(pname, ino, NODE) == FAIL) return; /* * begin search through the directory * skipping over "." and ".." */ loclen = complexcpy(locname, pname, MAXCOMPLEXLEN); locname[loclen-1] = '/'; rst_seekdir(dirp, itp->t_seekpt, itp->t_seekpt); dp = rst_readdir(dirp); /* "." */ if (dp != NULL && strcmp(dp->d_name, ".") == 0) dp = rst_readdir(dirp); /* ".." */ else (void) fprintf(stderr, gettext("Warning: `.' missing from directory %s\n"), pname); if (dp != NULL && strcmp(dp->d_name, "..") == 0) dp = rst_readdir(dirp); /* first real entry */ else (void) fprintf(stderr, gettext("Warning: `..' missing from directory %s\n"), pname); bpt = rst_telldir(dirp); /* * a zero inode signals end of directory */ while (dp != NULL && dp->d_ino != 0) { locname[loclen] = '\0'; if ((loclen + dp->d_namlen) >= (sizeof (locname) - 2)) { (void) fprintf(stderr, gettext( "%s%s: ignoring name that exceeds %d char\n"), locname, dp->d_name, MAXCOMPLEXLEN); } else { /* Always fits by if() condition */ (void) strcpy(locname + loclen, dp->d_name); /* put a double null on string for lookupname() */ locname[loclen+dp->d_namlen+1] = '\0'; treescan(locname, dp->d_ino, todo); rst_seekdir(dirp, bpt, itp->t_seekpt); } dp = rst_readdir(dirp); bpt = rst_telldir(dirp); } if (dp == NULL) (void) fprintf(stderr, gettext("corrupted directory: %s.\n"), locname); } /* * Scan the directory table looking for extended attribute trees. * Recursively find names and inumbers in each tree and pass them * off to be processed. If the always parameter is not set, only * process the attribute tree if the attribute tree parent is to * be extracted. */ void attrscan(int always, long (*todo)()) { struct inotab *itp; struct entry *ep, *parent; struct direct *dp; char name[MAXCOMPLEXLEN]; int len; for (itp = xattrlist; itp != NULL; itp = itp->t_xattr) { rst_seekdir(dirp, itp->t_seekpt, itp->t_seekpt); if ((dp = rst_readdir(dirp)) != NULL && /* "." */ (dp = rst_readdir(dirp)) != NULL && /* ".." */ strcmp(dp->d_name, "..") == 0) { if ((parent = lookupino(dp->d_ino)) != NULL) { if (!always && (parent->e_flags & (NEW|EXTRACT)) == 0) continue; len = complexcpy(name, myname(parent), MAXCOMPLEXLEN - 3); name[len] = '.'; name[len+1] = '\0'; name[len+2] = '\0'; inattrspace = 1; if ((ep = lookupino(itp->t_ino)) == NULL) { ep = addentry(name, itp->t_ino, NODE|ROOT); } ep->e_flags |= XATTRROOT; treescan(name, itp->t_ino, todo); inattrspace = 0; } else { (void) fprintf(stderr, gettext("Warning: orphaned attribute " "directory\n")); } } else { (void) fprintf(stderr, gettext("Warning: `..' missing " "from attribute directory\n")); } } } /* * Search the directory tree rooted at inode ROOTINO * for the path pointed at by n. Note that n must be * modifiable, although it is returned in the same * condition it was given to us in. */ ino_t psearch(char *n) { char *cp, *cp1; ino_t ino; char c; ino = ROOTINO; if (*(cp = n) == '/') cp++; next: cp1 = cp + 1; while (*cp1 != '/' && *cp1) cp1++; c = *cp1; *cp1 = 0; ino = search(ino, cp); if (ino == 0) { *cp1 = c; return (0); } *cp1 = c; if (c == '/') { cp = cp1+1; goto next; } return (ino); } /* * search the directory inode ino * looking for entry cp */ static ino_t search(ino_t inum, char *cp) { struct direct *dp; struct inotab *itp; uint_t len; itp = inotablookup(inum); if (itp == NULL) return (0); rst_seekdir(dirp, itp->t_seekpt, itp->t_seekpt); len = strlen(cp); do { dp = rst_readdir(dirp); if (dp == NULL || dp->d_ino == 0) return (0); } while (dp->d_namlen != len || strncmp(dp->d_name, cp, len) != 0); return (dp->d_ino); } /* * Put the directory entries in the directory file */ static void putdir(char *buf, size_t size) { struct direct cvtbuf; struct odirect *odp; struct odirect *eodp; struct direct *dp; size_t loc, i; if (cvtflag) { /*LINTED [buf is char[] in getfile, size % fs_fsize == 0]*/ eodp = (struct odirect *)&buf[size]; /*LINTED [buf is char[] in getfile]*/ for (odp = (struct odirect *)buf; odp < eodp; odp++) if (odp->d_ino != 0) { dcvt(odp, &cvtbuf); putent(&cvtbuf); } } else { loc = 0; while (loc < size) { /*LINTED [buf is char[] in getfile, loc % 4 == 0]*/ dp = (struct direct *)(buf + loc); normdirect(byteorder, dp); i = DIRBLKSIZ - (loc & (DIRBLKSIZ - 1)); if (dp->d_reclen == 0 || (long)dp->d_reclen > i) { loc += i; continue; } loc += dp->d_reclen; if (dp->d_ino != 0) { putent(dp); } } } } /* * These variables are "local" to the following two functions. */ static char dirbuf[DIRBLKSIZ]; static int32_t dirloc = 0; static int32_t prev = 0; /* * add a new directory entry to a file. */ static void putent(struct direct *dp) { /* LINTED DIRSIZ will always fit in a ushort_t */ dp->d_reclen = (ushort_t)DIRSIZ(dp); /* LINTED sign extension ok in assert */ assert(DIRSIZ(dp) == (ulong_t)dp->d_reclen); if (dirloc + (long)dp->d_reclen > DIRBLKSIZ) { /*LINTED [prev += dp->d_reclen, prev % 4 == 0]*/ ((struct direct *)(dirbuf + prev))->d_reclen = DIRBLKSIZ - prev; (void) fwrite(dirbuf, 1, DIRBLKSIZ, df); if (ferror(df)) panic("%s: %s\n", dirfile, strerror(errno)); dirloc = 0; } bcopy((char *)dp, dirbuf + dirloc, (size_t)dp->d_reclen); prev = dirloc; dirloc += dp->d_reclen; } /* * flush out a directory that is finished. */ static void flushent(void) { /* LINTED prev += dp->d_reclen, prev % 4 == 0 */ ((struct direct *)(dirbuf + prev))->d_reclen = DIRBLKSIZ - prev; (void) fwrite(dirbuf, (size_t)dirloc, 1, df); if (ferror(df)) panic("%s: %s\n", dirfile, strerror(errno)); g_seekpt = ftello64(df); dirloc = 0; } static void dcvt(struct odirect *odp, struct direct *ndp) { (void) bzero((char *)ndp, sizeof (*ndp)); ndp->d_ino = odp->d_ino; /* Note that odp->d_name may not be null-terminated */ /* LINTED assertion always true */ assert(sizeof (ndp->d_name) > sizeof (odp->d_name)); (void) strncpy(ndp->d_name, odp->d_name, sizeof (odp->d_name)); ndp->d_name[sizeof (odp->d_name)] = '\0'; /* LINTED: strlen will fit into d_namlen */ ndp->d_namlen = strlen(ndp->d_name); /* LINTED sign extension ok in assert */ assert(DIRSIZ(ndp) == (ulong_t)ndp->d_reclen); /* LINTED DIRSIZ always fits in ushort_t */ ndp->d_reclen = (ushort_t)DIRSIZ(ndp); } /* * Initialize the directory file */ static RST_DIR * rst_initdirfile(char *name) { RST_DIR *dp; int fd; if ((fd = open(name, O_RDONLY | O_LARGEFILE)) == -1) return ((RST_DIR *)0); if ((dp = (RST_DIR *)malloc(sizeof (*dp))) == NULL) { (void) close(fd); return ((RST_DIR *)0); } dp->dd_fd = fd; dp->dd_loc = 0; dp->dd_refcnt = 1; return (dp); } /* * Simulate the opening of a directory */ RST_DIR * rst_opendir(char *name) { struct inotab *itp; ino_t ino; if ((ino = dirlookup(name)) > 0 && (itp = inotablookup(ino)) != NULL) { rst_seekdir(dirp, itp->t_seekpt, itp->t_seekpt); dirp->dd_refcnt++; return (dirp); } return ((RST_DIR *)0); } /* * Releases the hidden state created by rst_opendir(). * Specifically, the dirp it provided to the caller is malloc'd. */ void rst_closedir(RST_DIR *cdirp) { if ((cdirp != NULL) && (--(cdirp->dd_refcnt) < 1)) free(cdirp); } /* * return a pointer into a directory */ static offset_t rst_telldir(RST_DIR *tdirp) { offset_t pos = llseek(tdirp->dd_fd, (offset_t)0, SEEK_CUR); if (pos == (offset_t)-1) { perror("Could not determine position in directory file"); done(1); } return ((pos - tdirp->dd_size) + tdirp->dd_loc); } /* * Seek to an entry in a directory. * Only values returned by ``rst_telldir'' should be passed to rst_seekdir. * This routine handles many directories in a single file. * It takes the base of the directory in the file, plus * the desired seek offset into it. */ static void rst_seekdir(RST_DIR *sdirp, offset_t loc, offset_t base) { if (loc == rst_telldir(sdirp)) return; loc -= base; if (loc < 0) (void) fprintf(stderr, gettext("bad seek pointer to rst_seekdir %d\n"), loc); (void) llseek(sdirp->dd_fd, base + (loc & ~(DIRBLKSIZ - 1)), 0); sdirp->dd_loc = loc & (DIRBLKSIZ - 1); if (sdirp->dd_loc != 0) sdirp->dd_size = read(sdirp->dd_fd, sdirp->dd_buf, DIRBLKSIZ); } /* * get next entry in a directory. */ struct direct * rst_readdir(RST_DIR *rdirp) { struct direct *dp; for (;;) { if (rdirp->dd_loc == 0) { rdirp->dd_size = read(rdirp->dd_fd, rdirp->dd_buf, DIRBLKSIZ); if (rdirp->dd_size <= 0) { dprintf(stderr, gettext("error reading directory\n")); return ((struct direct *)0); } } if (rdirp->dd_loc >= rdirp->dd_size) { rdirp->dd_loc = 0; continue; } /*LINTED [rvalue will be aligned on int boundary]*/ dp = (struct direct *)(rdirp->dd_buf + rdirp->dd_loc); if (dp->d_reclen == 0 || (long)dp->d_reclen > (DIRBLKSIZ + 1 - rdirp->dd_loc)) { dprintf(stderr, gettext("corrupted directory: bad reclen %d\n"), dp->d_reclen); return ((struct direct *)0); } rdirp->dd_loc += dp->d_reclen; if (dp->d_ino == 0 && strcmp(dp->d_name, "/") != 0) continue; if ((ino_t)(dp->d_ino) >= maxino) { dprintf(stderr, gettext("corrupted directory: bad inum %lu\n"), dp->d_ino); continue; } return (dp); } } /* * Set the mode, owner, and times for all new or changed directories */ void setdirmodes(void) { FILE *smf; struct entry *ep; char *cp, *metadata = NULL; size_t metasize = 0; int override = -1; int saverr; static int complained_chown = 0; static int complained_chmod = 0; int dfd; vprintf(stdout, gettext("Set directory mode, owner, and times.\n")); /* XXX if modefile[0] == '#', shouldn't we just bail here? */ /* XXX why isn't it set already? */ INIT_MODEFILE(); smf = fopen64(modefile, "r"); if (smf == NULL) { perror("fopen"); (void) fprintf(stderr, gettext("cannot open mode file %s\n"), modefile); (void) fprintf(stderr, gettext("directory mode, owner, and times not set\n")); return; } clearerr(smf); for (;;) { (void) fread((char *)&node, 1, sizeof (node), smf); if (feof(smf)) break; ep = lookupino(node.ino); if (command == 'i' || command == 'x') { if (ep == NIL) { skipmetadata(smf, node.metasize); continue; } if (ep->e_flags & EXISTED) { if (override < 0) { if (reply(gettext( "Directories already exist, set modes anyway")) == FAIL) override = 0; else override = 1; } if (override == 0) { /* LINTED: result fits into short */ ep->e_flags &= ~NEW; skipmetadata(smf, node.metasize); continue; } } if (node.ino == ROOTINO && reply(gettext("set owner/mode for '.'")) == FAIL) { skipmetadata(smf, node.metasize); continue; } } if (ep == NIL) { panic(gettext("cannot find directory inode %d\n"), node.ino); skipmetadata(smf, node.metasize); continue; } cp = myname(ep); resolve(myname(ep), &dfd, &cp); if (dfd != AT_FDCWD) { if (fchdir(dfd) < 0) { saverr = errno; (void) fprintf(stderr, gettext("Can not set attribute context: %s\n"), strerror(saverr)); (void) close(dfd); continue; } } if (chmod(cp, node.mode) < 0 && !complained_chmod) { saverr = errno; (void) fprintf(stderr, gettext("Can not set directory permissions: %s\n"), strerror(saverr)); complained_chmod = 1; } if (node.metasize != 0) { if (node.metasize > metasize) metadata = realloc(metadata, metasize = node.metasize); if (metadata == NULL) { (void) fprintf(stderr, gettext("Cannot malloc metadata\n")); done(1); } (void) fread(metadata, 1, node.metasize, smf); metaproc(cp, metadata, node.metasize); } /* * BUG 4302943 * Since the ACLs must be set before fixing the ownership, * chown should be called only after metaproc */ if (chown(cp, node.uid, node.gid) < 0 && !complained_chown) { saverr = errno; (void) fprintf(stderr, gettext("Can not set directory ownership: %s\n"), strerror(saverr)); complained_chown = 1; } utime(cp, (struct utimbuf *)node.timep); /* LINTED: result fits into short */ ep->e_flags &= ~NEW; if (dfd != AT_FDCWD) { fchdir(savepwd); (void) close(dfd); } } if (ferror(smf)) panic(gettext("error setting directory modes\n")); if (metadata != NULL) (void) free(metadata); (void) fclose(smf); } void skipmetadata(FILE *f, size_t size) { /* XXX should we bail if this doesn't work? */ /* LINTED unsigned -> signed conversion ok here */ (void) fseeko(f, (off_t)size, SEEK_CUR); } /* * Generate a literal copy of a directory. */ int genliteraldir(char *name, ino_t ino) { struct inotab *itp; int ofile, dp; off64_t i; size_t size; char buf[BUFSIZ]; itp = inotablookup(ino); if (itp == NULL) { (void) fprintf(stderr, gettext("Cannot find directory inode %d named %s\n"), ino, name); return (FAIL); } if ((ofile = creat(name, 0666)) < 0) { (void) fprintf(stderr, "%s: ", name); (void) fflush(stderr); perror(gettext("cannot create file")); return (FAIL); } rst_seekdir(dirp, itp->t_seekpt, itp->t_seekpt); dp = dup(dirp->dd_fd); if (dp < 0) { perror(gettext("dup(2) failed")); (void) close(ofile); (void) unlink(name); return (FAIL); } for (i = itp->t_size; i != 0; i -= size) { /* LINTED cast is safe due to comparison */ size = i < BUFSIZ ? (size_t)i : BUFSIZ; /* XXX instead of done(), clean up and return FAIL? */ if (read(dp, buf, size) == -1) { (void) fprintf(stderr, gettext( "read error extracting inode %d, name %s\n"), curfile.ino, curfile.name); perror("read"); done(1); } if (write(ofile, buf, size) == -1) { (void) fprintf(stderr, gettext( "write error extracting inode %d, name %s\n"), curfile.ino, curfile.name); perror("write"); done(1); } } (void) close(dp); (void) close(ofile); return (GOOD); } /* * Determine the type of an inode */ int inodetype(ino_t ino) { struct inotab *itp; itp = inotablookup(ino); if (itp == NULL) return (LEAF); return (NODE); } /* * Allocate and initialize a directory inode entry. * If requested, save its pertinent mode, owner, and time info. */ static struct inotab * allocinotab(ino_t ino, struct dinode *dip, off64_t seekpt) { struct inotab *itp; itp = (struct inotab *)calloc(1, sizeof (*itp)); if (itp == 0) { (void) fprintf(stderr, gettext("no memory for directory table\n")); done(1); } itp->t_next = inotab[INOHASH(ino)]; inotab[INOHASH(ino)] = itp; itp->t_ino = ino; itp->t_seekpt = seekpt; if ((dip->di_mode & IFMT) == IFATTRDIR) { itp->t_xattr = xattrlist; xattrlist = itp; } if (mf == NULL) return (itp); node.ino = ino; node.timep[0] = dip->di_atime; node.timep[1] = dip->di_mtime; node.mode = dip->di_mode; node.uid = dip->di_suid == UID_LONG ? dip->di_uid : (uid_t)dip->di_suid; node.gid = dip->di_sgid == GID_LONG ? dip->di_gid : (gid_t)dip->di_sgid; return (itp); } void nodeflush() { char *metadata; if (mf == NULL) { (void) fprintf(stderr, gettext( "Inconsistency detected: modefile pointer is NULL\n")); done(1); } metaget(&metadata, &(node.metasize)); (void) fwrite((char *)&node, 1, sizeof (node), mf); if (node.metasize != 0) (void) fwrite(metadata, 1, node.metasize, mf); if (ferror(mf)) panic("%s: %s\n", modefile, strerror(errno)); } /* * Look up an inode in the table of directories */ static struct inotab * inotablookup(ino_t ino) { struct inotab *itp; for (itp = inotab[INOHASH(ino)]; itp != NULL; itp = itp->t_next) if (itp->t_ino == ino) return (itp); return ((struct inotab *)0); } /* * Clean up and exit */ void done(int exitcode) { closemt(ALLOW_OFFLINE); /* don't force offline on exit */ if (modefile[0] != '#') (void) unlink(modefile); if (dirfile[0] != '#') (void) unlink(dirfile); exit(exitcode); }