Current Path : /usr/src/sbin/restore/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //usr/src/sbin/restore/tape.c |
/* * Copyright (c) 1983, 1993 * The Regents of the University of California. All rights reserved. * (c) UNIX System Laboratories, Inc. * All or some portions of this file are derived from material licensed * to the University of California by American Telephone and Telegraph * Co. or Unix System Laboratories, Inc. and are reproduced herein with * the permission of UNIX System Laboratories, Inc. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #ifndef lint #if 0 static char sccsid[] = "@(#)tape.c 8.9 (Berkeley) 5/1/95"; #endif #endif /* not lint */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sbin/restore/tape.c 203816 2010-02-13 10:22:07Z jh $"); #include <sys/param.h> #include <sys/file.h> #include <sys/mtio.h> #include <sys/stat.h> #include <sys/time.h> #include <sys/extattr.h> #include <sys/acl.h> #include <ufs/ufs/extattr.h> #include <ufs/ufs/dinode.h> #include <protocols/dumprestore.h> #include <errno.h> #include <limits.h> #include <paths.h> #include <setjmp.h> #include <stdint.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <time.h> #include <timeconv.h> #include <unistd.h> #include "restore.h" #include "extern.h" static long fssize = MAXBSIZE; static int mt = -1; static int pipein = 0; static int pipecmdin = 0; static FILE *popenfp = NULL; static char *magtape; static int blkcnt; static int numtrec; static char *tapebuf; static union u_spcl endoftapemark; static long byteslide = 0; static long blksread; /* blocks read since last header */ static int64_t tapeaddr = 0; /* current TP_BSIZE tape record */ static long tapesread; static jmp_buf restart; static int gettingfile = 0; /* restart has a valid frame */ static char *host = NULL; static int readmapflag; static int ofile; static char *map; static char lnkbuf[MAXPATHLEN + 1]; static int pathlen; int Bcvt; /* Swap Bytes */ int oldinofmt; /* FreeBSD 1 inode format needs cvt */ #define FLUSHTAPEBUF() blkcnt = ntrec + 1 char *namespace_names[] = EXTATTR_NAMESPACE_NAMES; static void accthdr(struct s_spcl *); static int checksum(int *); static void findinode(struct s_spcl *); static void findtapeblksize(void); static char *setupextattr(int); static void xtrattr(char *, long); static void set_extattr_link(char *, void *, int); static void set_extattr_fd(int, char *, void *, int); static int gethead(struct s_spcl *); static void readtape(char *); static void setdumpnum(void); static u_long swabl(u_long); static u_char *swablong(u_char *, int); static u_char *swabshort(u_char *, int); static void terminateinput(void); static void xtrfile(char *, long); static void xtrlnkfile(char *, long); static void xtrlnkskip(char *, long); static void xtrmap(char *, long); static void xtrmapskip(char *, long); static void xtrskip(char *, long); /* * Set up an input source */ void setinput(char *source, int ispipecommand) { FLUSHTAPEBUF(); if (bflag) newtapebuf(ntrec); else newtapebuf(NTREC > HIGHDENSITYTREC ? NTREC : HIGHDENSITYTREC); terminal = stdin; if (ispipecommand) pipecmdin++; else #ifdef RRESTORE if (strchr(source, ':')) { host = source; source = strchr(host, ':'); *source++ = '\0'; if (rmthost(host) == 0) done(1); } else #endif if (strcmp(source, "-") == 0) { /* * Since input is coming from a pipe we must establish * our own connection to the terminal. */ terminal = fopen(_PATH_TTY, "r"); if (terminal == NULL) { (void)fprintf(stderr, "cannot open %s: %s\n", _PATH_TTY, strerror(errno)); terminal = fopen(_PATH_DEVNULL, "r"); if (terminal == NULL) { (void)fprintf(stderr, "cannot open %s: %s\n", _PATH_DEVNULL, strerror(errno)); done(1); } } pipein++; } setuid(getuid()); /* no longer need or want root privileges */ magtape = strdup(source); if (magtape == NULL) { fprintf(stderr, "Cannot allocate space for magtape buffer\n"); done(1); } } void newtapebuf(long size) { static int tapebufsize = -1; ntrec = size; if (size <= tapebufsize) return; if (tapebuf != NULL) free(tapebuf - TP_BSIZE); tapebuf = malloc((size+1) * TP_BSIZE); if (tapebuf == NULL) { fprintf(stderr, "Cannot allocate space for tape buffer\n"); done(1); } tapebuf += TP_BSIZE; tapebufsize = size; } /* * Verify that the tape drive can be accessed and * that it actually is a dump tape. */ void setup(void) { int i, j, *ip; struct stat stbuf; vprintf(stdout, "Verify tape and initialize maps\n"); if (pipecmdin) { if (setenv("RESTORE_VOLUME", "1", 1) == -1) { fprintf(stderr, "Cannot set $RESTORE_VOLUME: %s\n", strerror(errno)); done(1); } popenfp = popen(magtape, "r"); mt = popenfp ? fileno(popenfp) : -1; } else #ifdef RRESTORE if (host) mt = rmtopen(magtape, 0); else #endif if (pipein) mt = 0; else mt = open(magtape, O_RDONLY, 0); if (mt < 0) { fprintf(stderr, "%s: %s\n", magtape, strerror(errno)); done(1); } volno = 1; setdumpnum(); FLUSHTAPEBUF(); if (!pipein && !pipecmdin && !bflag) findtapeblksize(); if (gethead(&spcl) == FAIL) { fprintf(stderr, "Tape is not a dump tape\n"); done(1); } if (pipein) { endoftapemark.s_spcl.c_magic = FS_UFS2_MAGIC; endoftapemark.s_spcl.c_type = TS_END; ip = (int *)&endoftapemark; j = sizeof(union u_spcl) / sizeof(int); i = 0; do i += *ip++; while (--j); endoftapemark.s_spcl.c_checksum = CHECKSUM - i; } if (vflag || command == 't') printdumpinfo(); dumptime = _time64_to_time(spcl.c_ddate); dumpdate = _time64_to_time(spcl.c_date); if (stat(".", &stbuf) < 0) { fprintf(stderr, "cannot stat .: %s\n", strerror(errno)); done(1); } if (stbuf.st_blksize > 0 && stbuf.st_blksize < TP_BSIZE ) fssize = TP_BSIZE; if (stbuf.st_blksize >= TP_BSIZE && stbuf.st_blksize <= MAXBSIZE) fssize = stbuf.st_blksize; if (((fssize - 1) & fssize) != 0) { fprintf(stderr, "bad block size %ld\n", fssize); done(1); } if (spcl.c_volume != 1) { fprintf(stderr, "Tape is not volume 1 of the dump\n"); done(1); } if (gethead(&spcl) == FAIL) { dprintf(stdout, "header read failed at %ld blocks\n", blksread); panic("no header after volume mark!\n"); } findinode(&spcl); if (spcl.c_type != TS_CLRI) { fprintf(stderr, "Cannot find file removal list\n"); done(1); } maxino = (spcl.c_count * TP_BSIZE * NBBY) + 1; dprintf(stdout, "maxino = %d\n", maxino); map = calloc((unsigned)1, (unsigned)howmany(maxino, NBBY)); if (map == NULL) panic("no memory for active inode map\n"); usedinomap = map; curfile.action = USING; getfile(xtrmap, xtrmapskip, xtrmapskip); if (spcl.c_type != TS_BITS) { fprintf(stderr, "Cannot find file dump list\n"); done(1); } map = calloc((unsigned)1, (unsigned)howmany(maxino, NBBY)); if (map == (char *)NULL) panic("no memory for file dump list\n"); dumpmap = map; curfile.action = USING; getfile(xtrmap, xtrmapskip, xtrmapskip); /* * If there may be whiteout entries on the tape, pretend that the * whiteout inode exists, so that the whiteout entries can be * extracted. */ SETINO(WINO, dumpmap); /* 'r' restores don't call getvol() for tape 1, so mark it as read. */ if (command == 'r') tapesread = 1; } /* * Prompt user to load a new dump volume. * "Nextvol" is the next suggested volume to use. * This suggested volume is enforced when doing full * or incremental restores, but can be overridden by * the user when only extracting a subset of the files. */ void getvol(long nextvol) { int64_t prevtapea; long i, newvol, savecnt; union u_spcl tmpspcl; # define tmpbuf tmpspcl.s_spcl char buf[TP_BSIZE]; if (nextvol == 1) { tapesread = 0; gettingfile = 0; } prevtapea = tapeaddr; savecnt = blksread; if (pipein) { if (nextvol != 1) { panic("Changing volumes on pipe input?\n"); /* Avoid looping if we couldn't ask the user. */ if (yflag || ferror(terminal) || feof(terminal)) done(1); } if (volno == 1) return; goto gethdr; } again: if (pipein) done(1); /* pipes do not get a second chance */ if (command == 'R' || command == 'r' || curfile.action != SKIP) newvol = nextvol; else newvol = 0; while (newvol <= 0) { if (tapesread == 0) { fprintf(stderr, "%s%s%s%s%s%s%s", "You have not read any tapes yet.\n", "If you are extracting just a few files,", " start with the last volume\n", "and work towards the first; restore", " can quickly skip tapes that\n", "have no further files to extract.", " Otherwise, begin with volume 1.\n"); } else { fprintf(stderr, "You have read volumes"); strcpy(buf, ": "); for (i = 0; i < 32; i++) if (tapesread & (1 << i)) { fprintf(stderr, "%s%ld", buf, i + 1); strcpy(buf, ", "); } fprintf(stderr, "\n"); } do { fprintf(stderr, "Specify next volume #: "); (void) fflush(stderr); if (fgets(buf, BUFSIZ, terminal) == NULL) done(1); } while (buf[0] == '\n'); newvol = atoi(buf); if (newvol <= 0) { fprintf(stderr, "Volume numbers are positive numerics\n"); } } if (newvol == volno) { tapesread |= 1 << (volno - 1); return; } closemt(); fprintf(stderr, "Mount tape volume %ld\n", newvol); fprintf(stderr, "Enter ``none'' if there are no more tapes\n"); fprintf(stderr, "otherwise enter tape name (default: %s) ", magtape); (void) fflush(stderr); if (fgets(buf, BUFSIZ, terminal) == NULL) done(1); if (!strcmp(buf, "none\n")) { terminateinput(); return; } if (buf[0] != '\n') { (void) strcpy(magtape, buf); magtape[strlen(magtape) - 1] = '\0'; } if (pipecmdin) { char volno[sizeof("2147483647")]; (void)sprintf(volno, "%ld", newvol); if (setenv("RESTORE_VOLUME", volno, 1) == -1) { fprintf(stderr, "Cannot set $RESTORE_VOLUME: %s\n", strerror(errno)); done(1); } popenfp = popen(magtape, "r"); mt = popenfp ? fileno(popenfp) : -1; } else #ifdef RRESTORE if (host) mt = rmtopen(magtape, 0); else #endif mt = open(magtape, O_RDONLY, 0); if (mt == -1) { fprintf(stderr, "Cannot open %s\n", magtape); volno = -1; goto again; } gethdr: volno = newvol; setdumpnum(); FLUSHTAPEBUF(); if (gethead(&tmpbuf) == FAIL) { dprintf(stdout, "header read failed at %ld blocks\n", blksread); fprintf(stderr, "tape is not dump tape\n"); volno = 0; goto again; } if (tmpbuf.c_volume != volno) { fprintf(stderr, "Wrong volume (%jd)\n", (intmax_t)tmpbuf.c_volume); volno = 0; goto again; } if (_time64_to_time(tmpbuf.c_date) != dumpdate || _time64_to_time(tmpbuf.c_ddate) != dumptime) { time_t t = _time64_to_time(tmpbuf.c_date); fprintf(stderr, "Wrong dump date\n\tgot: %s", ctime(&t)); fprintf(stderr, "\twanted: %s", ctime(&dumpdate)); volno = 0; goto again; } tapesread |= 1 << (volno - 1); blksread = savecnt; /* * If continuing from the previous volume, skip over any * blocks read already at the end of the previous volume. * * If coming to this volume at random, skip to the beginning * of the next record. */ dprintf(stdout, "last rec %jd, tape starts with %jd\n", (intmax_t)prevtapea, (intmax_t)tmpbuf.c_tapea); if (tmpbuf.c_type == TS_TAPE) { if (curfile.action != USING) { /* * XXX Dump incorrectly sets c_count to 1 in the * volume header of the first tape, so ignore * c_count when volno == 1. */ if (volno != 1) for (i = tmpbuf.c_count; i > 0; i--) readtape(buf); } else if (tmpbuf.c_tapea <= prevtapea) { /* * Normally the value of c_tapea in the volume * header is the record number of the header itself. * However in the volume header following an EOT- * terminated tape, it is the record number of the * first continuation data block (dump bug?). * * The next record we want is `prevtapea + 1'. */ i = prevtapea + 1 - tmpbuf.c_tapea; dprintf(stderr, "Skipping %ld duplicate record%s.\n", i, i > 1 ? "s" : ""); while (--i >= 0) readtape(buf); } } if (curfile.action == USING) { if (volno == 1) panic("active file into volume 1\n"); return; } (void) gethead(&spcl); findinode(&spcl); if (gettingfile) { gettingfile = 0; longjmp(restart, 1); } } /* * Handle unexpected EOF. */ static void terminateinput(void) { if (gettingfile && curfile.action == USING) { printf("Warning: %s %s\n", "End-of-input encountered while extracting", curfile.name); } curfile.name = "<name unknown>"; curfile.action = UNKNOWN; curfile.mode = 0; curfile.ino = maxino; if (gettingfile) { gettingfile = 0; longjmp(restart, 1); } } /* * handle multiple dumps per tape by skipping forward to the * appropriate one. */ static void setdumpnum(void) { struct mtop tcom; if (dumpnum == 1 || volno != 1) return; if (pipein) { fprintf(stderr, "Cannot have multiple dumps on pipe input\n"); done(1); } tcom.mt_op = MTFSF; tcom.mt_count = dumpnum - 1; #ifdef RRESTORE if (host) rmtioctl(MTFSF, dumpnum - 1); else #endif if (!pipecmdin && ioctl(mt, MTIOCTOP, (char *)&tcom) < 0) fprintf(stderr, "ioctl MTFSF: %s\n", strerror(errno)); } void printdumpinfo(void) { time_t t; t = _time64_to_time(spcl.c_date); fprintf(stdout, "Dump date: %s", ctime(&t)); t = _time64_to_time(spcl.c_ddate); fprintf(stdout, "Dumped from: %s", (spcl.c_ddate == 0) ? "the epoch\n" : ctime(&t)); if (spcl.c_host[0] == '\0') return; fprintf(stderr, "Level %jd dump of %s on %s:%s\n", (intmax_t)spcl.c_level, spcl.c_filesys, spcl.c_host, spcl.c_dev); fprintf(stderr, "Label: %s\n", spcl.c_label); } int extractfile(char *name) { int flags; uid_t uid; gid_t gid; mode_t mode; int extsize; struct timeval mtimep[2], ctimep[2]; struct entry *ep; char *buf; curfile.name = name; curfile.action = USING; mtimep[0].tv_sec = curfile.atime_sec; mtimep[0].tv_usec = curfile.atime_nsec / 1000; mtimep[1].tv_sec = curfile.mtime_sec; mtimep[1].tv_usec = curfile.mtime_nsec / 1000; ctimep[0].tv_sec = curfile.atime_sec; ctimep[0].tv_usec = curfile.atime_nsec / 1000; ctimep[1].tv_sec = curfile.birthtime_sec; ctimep[1].tv_usec = curfile.birthtime_nsec / 1000; extsize = curfile.extsize; uid = getuid(); if (uid == 0) uid = curfile.uid; gid = curfile.gid; mode = curfile.mode; flags = curfile.file_flags; switch (mode & IFMT) { default: fprintf(stderr, "%s: unknown file mode 0%o\n", name, mode); skipfile(); return (FAIL); case IFSOCK: vprintf(stdout, "skipped socket %s\n", name); skipfile(); return (GOOD); case IFDIR: if (mflag) { ep = lookupname(name); if (ep == NULL || ep->e_flags & EXTRACT) panic("unextracted directory %s\n", name); skipfile(); return (GOOD); } vprintf(stdout, "extract file %s\n", name); return (genliteraldir(name, curfile.ino)); case IFLNK: lnkbuf[0] = '\0'; pathlen = 0; buf = setupextattr(extsize); getfile(xtrlnkfile, xtrattr, xtrlnkskip); if (pathlen == 0) { vprintf(stdout, "%s: zero length symbolic link (ignored)\n", name); return (GOOD); } if (linkit(lnkbuf, name, SYMLINK) == GOOD) { if (extsize > 0) set_extattr_link(name, buf, extsize); (void) lchown(name, uid, gid); (void) lchmod(name, mode); (void) lutimes(name, ctimep); (void) lutimes(name, mtimep); (void) lchflags(name, flags); return (GOOD); } return (FAIL); case IFIFO: vprintf(stdout, "extract fifo %s\n", name); if (Nflag) { skipfile(); return (GOOD); } if (uflag) (void) unlink(name); if (mkfifo(name, 0600) < 0) { fprintf(stderr, "%s: cannot create fifo: %s\n", name, strerror(errno)); skipfile(); return (FAIL); } if (extsize == 0) { skipfile(); } else { buf = setupextattr(extsize); getfile(xtrnull, xtrattr, xtrnull); set_extattr_file(name, buf, extsize); } (void) chown(name, uid, gid); (void) chmod(name, mode); (void) utimes(name, ctimep); (void) utimes(name, mtimep); (void) chflags(name, flags); return (GOOD); case IFCHR: case IFBLK: vprintf(stdout, "extract special file %s\n", name); if (Nflag) { skipfile(); return (GOOD); } if (uflag) (void) unlink(name); if (mknod(name, (mode & (IFCHR | IFBLK)) | 0600, (int)curfile.rdev) < 0) { fprintf(stderr, "%s: cannot create special file: %s\n", name, strerror(errno)); skipfile(); return (FAIL); } if (extsize == 0) { skipfile(); } else { buf = setupextattr(extsize); getfile(xtrnull, xtrattr, xtrnull); set_extattr_file(name, buf, extsize); } (void) chown(name, uid, gid); (void) chmod(name, mode); (void) utimes(name, ctimep); (void) utimes(name, mtimep); (void) chflags(name, flags); return (GOOD); case IFREG: vprintf(stdout, "extract file %s\n", name); if (Nflag) { skipfile(); return (GOOD); } if (uflag) (void) unlink(name); if ((ofile = open(name, O_WRONLY | O_CREAT | O_TRUNC, 0600)) < 0) { fprintf(stderr, "%s: cannot create file: %s\n", name, strerror(errno)); skipfile(); return (FAIL); } buf = setupextattr(extsize); getfile(xtrfile, xtrattr, xtrskip); if (extsize > 0) set_extattr_fd(ofile, name, buf, extsize); (void) fchown(ofile, uid, gid); (void) fchmod(ofile, mode); (void) futimes(ofile, ctimep); (void) futimes(ofile, mtimep); (void) fchflags(ofile, flags); (void) close(ofile); return (GOOD); } /* NOTREACHED */ } /* * Set attributes for a file. */ void set_extattr_file(char *name, void *buf, int size) { struct extattr *eap, *eaend; vprintf(stdout, "Set attributes for %s:", name); eaend = buf + size; for (eap = buf; eap < eaend; eap = EXTATTR_NEXT(eap)) { /* * Make sure this entry is complete. */ if (EXTATTR_NEXT(eap) > eaend || eap->ea_length <= 0) { dprintf(stdout, "\n\t%scorrupted", eap == buf ? "" : "remainder "); break; } if (eap->ea_namespace == EXTATTR_NAMESPACE_EMPTY) continue; vprintf(stdout, "\n\t%s, (%d bytes), %*s", namespace_names[eap->ea_namespace], eap->ea_length, eap->ea_namelength, eap->ea_name); /* * First we try the general attribute setting interface. * However, some attributes can only be set by root or * by using special interfaces (for example, ACLs). */ if (extattr_set_file(name, eap->ea_namespace, eap->ea_name, EXTATTR_CONTENT(eap), EXTATTR_CONTENT_SIZE(eap)) != -1) { dprintf(stdout, " (set using extattr_set_file)"); continue; } /* * If the general interface refuses to set the attribute, * then we try all the specialized interfaces that we * know about. */ if (eap->ea_namespace == EXTATTR_NAMESPACE_SYSTEM && !strcmp(eap->ea_name, POSIX1E_ACL_ACCESS_EXTATTR_NAME)) { if (acl_set_file(name, ACL_TYPE_ACCESS, EXTATTR_CONTENT(eap)) != -1) { dprintf(stdout, " (set using acl_set_file)"); continue; } } if (eap->ea_namespace == EXTATTR_NAMESPACE_SYSTEM && !strcmp(eap->ea_name, POSIX1E_ACL_DEFAULT_EXTATTR_NAME)) { if (acl_set_file(name, ACL_TYPE_DEFAULT, EXTATTR_CONTENT(eap)) != -1) { dprintf(stdout, " (set using acl_set_file)"); continue; } } vprintf(stdout, " (unable to set)"); } vprintf(stdout, "\n"); } /* * Set attributes for a symbolic link. */ static void set_extattr_link(char *name, void *buf, int size) { struct extattr *eap, *eaend; vprintf(stdout, "Set attributes for %s:", name); eaend = buf + size; for (eap = buf; eap < eaend; eap = EXTATTR_NEXT(eap)) { /* * Make sure this entry is complete. */ if (EXTATTR_NEXT(eap) > eaend || eap->ea_length <= 0) { dprintf(stdout, "\n\t%scorrupted", eap == buf ? "" : "remainder "); break; } if (eap->ea_namespace == EXTATTR_NAMESPACE_EMPTY) continue; vprintf(stdout, "\n\t%s, (%d bytes), %*s", namespace_names[eap->ea_namespace], eap->ea_length, eap->ea_namelength, eap->ea_name); /* * First we try the general attribute setting interface. * However, some attributes can only be set by root or * by using special interfaces (for example, ACLs). */ if (extattr_set_link(name, eap->ea_namespace, eap->ea_name, EXTATTR_CONTENT(eap), EXTATTR_CONTENT_SIZE(eap)) != -1) { dprintf(stdout, " (set using extattr_set_link)"); continue; } /* * If the general interface refuses to set the attribute, * then we try all the specialized interfaces that we * know about. */ if (eap->ea_namespace == EXTATTR_NAMESPACE_SYSTEM && !strcmp(eap->ea_name, POSIX1E_ACL_ACCESS_EXTATTR_NAME)) { if (acl_set_link_np(name, ACL_TYPE_ACCESS, EXTATTR_CONTENT(eap)) != -1) { dprintf(stdout, " (set using acl_set_link_np)"); continue; } } if (eap->ea_namespace == EXTATTR_NAMESPACE_SYSTEM && !strcmp(eap->ea_name, POSIX1E_ACL_DEFAULT_EXTATTR_NAME)) { if (acl_set_link_np(name, ACL_TYPE_DEFAULT, EXTATTR_CONTENT(eap)) != -1) { dprintf(stdout, " (set using acl_set_link_np)"); continue; } } vprintf(stdout, " (unable to set)"); } vprintf(stdout, "\n"); } /* * Set attributes on a file descriptor. */ static void set_extattr_fd(int fd, char *name, void *buf, int size) { struct extattr *eap, *eaend; vprintf(stdout, "Set attributes for %s:", name); eaend = buf + size; for (eap = buf; eap < eaend; eap = EXTATTR_NEXT(eap)) { /* * Make sure this entry is complete. */ if (EXTATTR_NEXT(eap) > eaend || eap->ea_length <= 0) { dprintf(stdout, "\n\t%scorrupted", eap == buf ? "" : "remainder "); break; } if (eap->ea_namespace == EXTATTR_NAMESPACE_EMPTY) continue; vprintf(stdout, "\n\t%s, (%d bytes), %*s", namespace_names[eap->ea_namespace], eap->ea_length, eap->ea_namelength, eap->ea_name); /* * First we try the general attribute setting interface. * However, some attributes can only be set by root or * by using special interfaces (for example, ACLs). */ if (extattr_set_fd(fd, eap->ea_namespace, eap->ea_name, EXTATTR_CONTENT(eap), EXTATTR_CONTENT_SIZE(eap)) != -1) { dprintf(stdout, " (set using extattr_set_fd)"); continue; } /* * If the general interface refuses to set the attribute, * then we try all the specialized interfaces that we * know about. */ if (eap->ea_namespace == EXTATTR_NAMESPACE_SYSTEM && !strcmp(eap->ea_name, POSIX1E_ACL_ACCESS_EXTATTR_NAME)) { if (acl_set_fd(fd, EXTATTR_CONTENT(eap)) != -1) { dprintf(stdout, " (set using acl_set_fd)"); continue; } } if (eap->ea_namespace == EXTATTR_NAMESPACE_SYSTEM && !strcmp(eap->ea_name, POSIX1E_ACL_DEFAULT_EXTATTR_NAME)) { if (acl_set_file(name, ACL_TYPE_DEFAULT, EXTATTR_CONTENT(eap)) != -1) { dprintf(stdout, " (set using acl_set_file)"); continue; } } vprintf(stdout, " (unable to set)"); } vprintf(stdout, "\n"); } /* * skip over bit maps on the tape */ void skipmaps(void) { while (spcl.c_type == TS_BITS || spcl.c_type == TS_CLRI) skipfile(); } /* * skip over a file on the tape */ void skipfile(void) { curfile.action = SKIP; getfile(xtrnull, xtrnull, xtrnull); } /* * Extract a file from the tape. * When an allocated block is found it is passed to the fill function; * when an unallocated block (hole) is found, a zeroed buffer is passed * to the skip function. */ void getfile(void (*datafill)(char *, long), void (*attrfill)(char *, long), void (*skip)(char *, long)) { int i; off_t size; int curblk, attrsize; void (*fillit)(char *, long); static char clearedbuf[MAXBSIZE]; char buf[MAXBSIZE / TP_BSIZE][TP_BSIZE]; char junk[TP_BSIZE]; curblk = 0; size = spcl.c_size; attrsize = spcl.c_extsize; if (spcl.c_type == TS_END) panic("ran off end of tape\n"); if (spcl.c_magic != FS_UFS2_MAGIC) panic("not at beginning of a file\n"); if (!gettingfile && setjmp(restart) != 0) return; gettingfile++; fillit = datafill; if (size == 0 && attrsize > 0) { fillit = attrfill; size = attrsize; attrsize = 0; } loop: for (i = 0; i < spcl.c_count; i++) { if (!readmapflag && i > TP_NINDIR) { if (Dflag) { fprintf(stderr, "spcl.c_count = %jd\n", (intmax_t)spcl.c_count); break; } else panic("spcl.c_count = %jd\n", (intmax_t)spcl.c_count); } if (readmapflag || spcl.c_addr[i]) { readtape(&buf[curblk++][0]); if (curblk == fssize / TP_BSIZE) { (*fillit)((char *)buf, (long)(size > TP_BSIZE ? fssize : (curblk - 1) * TP_BSIZE + size)); curblk = 0; } } else { if (curblk > 0) { (*fillit)((char *)buf, (long)(size > TP_BSIZE ? curblk * TP_BSIZE : (curblk - 1) * TP_BSIZE + size)); curblk = 0; } (*skip)(clearedbuf, (long)(size > TP_BSIZE ? TP_BSIZE : size)); } if ((size -= TP_BSIZE) <= 0) { if (size > -TP_BSIZE && curblk > 0) { (*fillit)((char *)buf, (long)((curblk * TP_BSIZE) + size)); curblk = 0; } if (attrsize > 0) { fillit = attrfill; size = attrsize; attrsize = 0; continue; } if (spcl.c_count - i > 1) dprintf(stdout, "skipping %d junk block(s)\n", spcl.c_count - i - 1); for (i++; i < spcl.c_count; i++) { if (!readmapflag && i > TP_NINDIR) { if (Dflag) { fprintf(stderr, "spcl.c_count = %jd\n", (intmax_t)spcl.c_count); break; } else panic("spcl.c_count = %jd\n", (intmax_t)spcl.c_count); } if (readmapflag || spcl.c_addr[i]) readtape(junk); } break; } } if (gethead(&spcl) == GOOD && size > 0) { if (spcl.c_type == TS_ADDR) goto loop; dprintf(stdout, "Missing address (header) block for %s at %ld blocks\n", curfile.name, blksread); } if (curblk > 0) panic("getfile: lost data\n"); findinode(&spcl); gettingfile = 0; } /* * These variables are shared between the next two functions. */ static int extbufsize = 0; static char *extbuf; static int extloc; /* * Allocate a buffer into which to extract extended attributes. */ static char * setupextattr(int extsize) { extloc = 0; if (extsize <= extbufsize) return (extbuf); if (extbufsize > 0) free(extbuf); if ((extbuf = malloc(extsize)) != NULL) { extbufsize = extsize; return (extbuf); } extbufsize = 0; extbuf = NULL; fprintf(stderr, "Cannot extract %d bytes %s for inode %d, name %s\n", extsize, "of extended attributes", curfile.ino, curfile.name); return (NULL); } /* * Extract the next block of extended attributes. */ static void xtrattr(char *buf, long size) { if (extloc + size > extbufsize) panic("overrun attribute buffer\n"); memmove(&extbuf[extloc], buf, size); extloc += size; } /* * Write out the next block of a file. */ static void xtrfile(char *buf, long size) { if (Nflag) return; if (write(ofile, buf, (int) size) == -1) { fprintf(stderr, "write error extracting inode %d, name %s\nwrite: %s\n", curfile.ino, curfile.name, strerror(errno)); } } /* * Skip over a hole in a file. */ /* ARGSUSED */ static void xtrskip(char *buf, long size) { if (lseek(ofile, size, SEEK_CUR) == -1) { fprintf(stderr, "seek error extracting inode %d, name %s\nlseek: %s\n", curfile.ino, curfile.name, strerror(errno)); done(1); } } /* * Collect the next block of a symbolic link. */ static void xtrlnkfile(char *buf, long size) { pathlen += size; if (pathlen > MAXPATHLEN) { fprintf(stderr, "symbolic link name: %s->%s%s; too long %d\n", curfile.name, lnkbuf, buf, pathlen); done(1); } (void) strcat(lnkbuf, buf); } /* * Skip over a hole in a symbolic link (should never happen). */ /* ARGSUSED */ static void xtrlnkskip(char *buf, long size) { fprintf(stderr, "unallocated block in symbolic link %s\n", curfile.name); done(1); } /* * Collect the next block of a bit map. */ static void xtrmap(char *buf, long size) { memmove(map, buf, size); map += size; } /* * Skip over a hole in a bit map (should never happen). */ /* ARGSUSED */ static void xtrmapskip(char *buf, long size) { panic("hole in map\n"); map += size; } /* * Noop, when an extraction function is not needed. */ /* ARGSUSED */ void xtrnull(char *buf, long size) { return; } /* * Read TP_BSIZE blocks from the input. * Handle read errors, and end of media. */ static void readtape(char *buf) { long rd, newvol, i, oldnumtrec; int cnt, seek_failed; if (blkcnt + (byteslide > 0) < numtrec) { memmove(buf, &tapebuf[(blkcnt++ * TP_BSIZE) + byteslide], (long)TP_BSIZE); blksread++; tapeaddr++; return; } if (numtrec > 0) memmove(&tapebuf[-TP_BSIZE], &tapebuf[(numtrec-1) * TP_BSIZE], (long)TP_BSIZE); oldnumtrec = numtrec; for (i = 0; i < ntrec; i++) ((struct s_spcl *)&tapebuf[i * TP_BSIZE])->c_magic = 0; if (numtrec == 0) numtrec = ntrec; cnt = ntrec * TP_BSIZE; rd = 0; getmore: #ifdef RRESTORE if (host) i = rmtread(&tapebuf[rd], cnt); else #endif i = read(mt, &tapebuf[rd], cnt); /* * Check for mid-tape short read error. * If found, skip rest of buffer and start with the next. */ if (!pipein && !pipecmdin && numtrec < ntrec && i > 0) { dprintf(stdout, "mid-media short read error.\n"); numtrec = ntrec; } /* * Handle partial block read. */ if ((pipein || pipecmdin) && i == 0 && rd > 0) i = rd; else if (i > 0 && i != ntrec * TP_BSIZE) { if (pipein || pipecmdin) { rd += i; cnt -= i; if (cnt > 0) goto getmore; i = rd; } else { /* * Short read. Process the blocks read. */ if (i % TP_BSIZE != 0) vprintf(stdout, "partial block read: %ld should be %ld\n", i, ntrec * TP_BSIZE); numtrec = i / TP_BSIZE; } } /* * Handle read error. */ if (i < 0) { fprintf(stderr, "Tape read error while "); switch (curfile.action) { default: fprintf(stderr, "trying to set up tape\n"); break; case UNKNOWN: fprintf(stderr, "trying to resynchronize\n"); break; case USING: fprintf(stderr, "restoring %s\n", curfile.name); break; case SKIP: fprintf(stderr, "skipping over inode %d\n", curfile.ino); break; } if (!yflag && !reply("continue")) done(1); i = ntrec * TP_BSIZE; memset(tapebuf, 0, i); #ifdef RRESTORE if (host) seek_failed = (rmtseek(i, 1) < 0); else #endif seek_failed = (lseek(mt, i, SEEK_CUR) == (off_t)-1); if (seek_failed) { fprintf(stderr, "continuation failed: %s\n", strerror(errno)); done(1); } } /* * Handle end of tape. */ if (i == 0) { vprintf(stdout, "End-of-tape encountered\n"); if (!pipein) { newvol = volno + 1; volno = 0; numtrec = 0; getvol(newvol); readtape(buf); return; } if (rd % TP_BSIZE != 0) panic("partial block read: %ld should be %ld\n", rd, ntrec * TP_BSIZE); terminateinput(); memmove(&tapebuf[rd], &endoftapemark, (long)TP_BSIZE); } if (oldnumtrec == 0) blkcnt = 0; else blkcnt -= oldnumtrec; memmove(buf, &tapebuf[(blkcnt++ * TP_BSIZE) + byteslide], (long)TP_BSIZE); blksread++; tapeaddr++; } static void findtapeblksize(void) { long i; for (i = 0; i < ntrec; i++) ((struct s_spcl *)&tapebuf[i * TP_BSIZE])->c_magic = 0; blkcnt = 0; #ifdef RRESTORE if (host) i = rmtread(tapebuf, ntrec * TP_BSIZE); else #endif i = read(mt, tapebuf, ntrec * TP_BSIZE); if (i <= 0) { fprintf(stderr, "tape read error: %s\n", strerror(errno)); done(1); } if (i % TP_BSIZE != 0) { fprintf(stderr, "Tape block size (%ld) %s (%d)\n", i, "is not a multiple of dump block size", TP_BSIZE); done(1); } ntrec = i / TP_BSIZE; numtrec = ntrec; vprintf(stdout, "Tape block size is %ld\n", ntrec); } void closemt(void) { if (mt < 0) return; if (pipecmdin) { pclose(popenfp); popenfp = NULL; } else #ifdef RRESTORE if (host) rmtclose(); else #endif (void) close(mt); } /* * Read the next block from the tape. * If it is not any valid header, return an error. */ static int gethead(struct s_spcl *buf) { long i; readtape((char *)buf); if (buf->c_magic != FS_UFS2_MAGIC && buf->c_magic != NFS_MAGIC) { if (buf->c_magic == OFS_MAGIC) { fprintf(stderr, "Format of dump tape is too old. Must use\n"); fprintf(stderr, "a version of restore from before 2002.\n"); return (FAIL); } if (swabl(buf->c_magic) != FS_UFS2_MAGIC && buf->c_magic != NFS_MAGIC) { if (buf->c_magic == OFS_MAGIC) { fprintf(stderr, "Format of dump tape is too old. Must use\n"); fprintf(stderr, "a version of restore from before 2002.\n"); } return (FAIL); } if (!Bcvt) { vprintf(stdout, "Note: Doing Byte swapping\n"); Bcvt = 1; } } if (checksum((int *)buf) == FAIL) return (FAIL); if (Bcvt) { swabst((u_char *)"8l4s1q8l2q17l", (u_char *)buf); swabst((u_char *)"l",(u_char *) &buf->c_level); swabst((u_char *)"2l4q",(u_char *) &buf->c_flags); } readmapflag = 0; switch (buf->c_type) { case TS_CLRI: case TS_BITS: /* * Have to patch up missing information in bit map headers */ buf->c_size = buf->c_count * TP_BSIZE; if (buf->c_count > TP_NINDIR) readmapflag = 1; else for (i = 0; i < buf->c_count; i++) buf->c_addr[i]++; /* FALL THROUGH */ case TS_TAPE: if (buf->c_magic == NFS_MAGIC && (buf->c_flags & NFS_DR_NEWINODEFMT) == 0) oldinofmt = 1; /* FALL THROUGH */ case TS_END: buf->c_inumber = 0; /* FALL THROUGH */ case TS_ADDR: case TS_INODE: /* * For old dump tapes, have to copy up old fields to * new locations. */ if (buf->c_magic == NFS_MAGIC) { buf->c_tapea = buf->c_old_tapea; buf->c_firstrec = buf->c_old_firstrec; buf->c_date = _time32_to_time(buf->c_old_date); buf->c_ddate = _time32_to_time(buf->c_old_ddate); buf->c_atime = _time32_to_time(buf->c_old_atime); buf->c_mtime = _time32_to_time(buf->c_old_mtime); buf->c_birthtime = 0; buf->c_birthtimensec = 0; buf->c_extsize = 0; } break; default: panic("gethead: unknown inode type %d\n", buf->c_type); break; } if (dumpdate != 0 && _time64_to_time(buf->c_date) != dumpdate) fprintf(stderr, "Header with wrong dumpdate.\n"); /* * If we're restoring a filesystem with the old (FreeBSD 1) * format inodes, copy the uid/gid to the new location */ if (oldinofmt) { buf->c_uid = buf->c_spare1[1]; buf->c_gid = buf->c_spare1[2]; } buf->c_magic = FS_UFS2_MAGIC; tapeaddr = buf->c_tapea; if (dflag) accthdr(buf); return(GOOD); } /* * Check that a header is where it belongs and predict the next header */ static void accthdr(struct s_spcl *header) { static ino_t previno = 0x7fffffff; static int prevtype; static long predict; long blks, i; if (header->c_type == TS_TAPE) { fprintf(stderr, "Volume header "); if (header->c_firstrec) fprintf(stderr, "begins with record %jd", (intmax_t)header->c_firstrec); fprintf(stderr, "\n"); previno = 0x7fffffff; return; } if (previno == 0x7fffffff) goto newcalc; switch (prevtype) { case TS_BITS: fprintf(stderr, "Dumped inodes map header"); break; case TS_CLRI: fprintf(stderr, "Used inodes map header"); break; case TS_INODE: fprintf(stderr, "File header, ino %d", previno); break; case TS_ADDR: fprintf(stderr, "File continuation header, ino %d", previno); break; case TS_END: fprintf(stderr, "End of tape header"); break; } if (predict != blksread - 1) fprintf(stderr, "; predicted %ld blocks, got %ld blocks", predict, blksread - 1); fprintf(stderr, "\n"); newcalc: blks = 0; if (header->c_type != TS_END) for (i = 0; i < header->c_count; i++) if (readmapflag || header->c_addr[i] != 0) blks++; predict = blks; blksread = 0; prevtype = header->c_type; previno = header->c_inumber; } /* * Find an inode header. * Complain if had to skip. */ static void findinode(struct s_spcl *header) { static long skipcnt = 0; long i; char buf[TP_BSIZE]; int htype; curfile.name = "<name unknown>"; curfile.action = UNKNOWN; curfile.mode = 0; curfile.ino = 0; do { htype = header->c_type; switch (htype) { case TS_ADDR: /* * Skip up to the beginning of the next record */ for (i = 0; i < header->c_count; i++) if (header->c_addr[i]) readtape(buf); while (gethead(header) == FAIL || _time64_to_time(header->c_date) != dumpdate) { skipcnt++; if (Dflag) { byteslide++; if (byteslide < TP_BSIZE) { blkcnt--; blksread--; } else byteslide = 0; } } break; case TS_INODE: curfile.mode = header->c_mode; curfile.uid = header->c_uid; curfile.gid = header->c_gid; curfile.file_flags = header->c_file_flags; curfile.rdev = header->c_rdev; curfile.atime_sec = header->c_atime; curfile.atime_nsec = header->c_atimensec; curfile.mtime_sec = header->c_mtime; curfile.mtime_nsec = header->c_mtimensec; curfile.birthtime_sec = header->c_birthtime; curfile.birthtime_nsec = header->c_birthtimensec; curfile.extsize = header->c_extsize; curfile.size = header->c_size; curfile.ino = header->c_inumber; break; case TS_END: /* If we missed some tapes, get another volume. */ if (tapesread & (tapesread + 1)) { getvol(0); continue; } curfile.ino = maxino; break; case TS_CLRI: curfile.name = "<file removal list>"; break; case TS_BITS: curfile.name = "<file dump list>"; break; case TS_TAPE: if (Dflag) fprintf(stderr, "unexpected tape header\n"); else panic("unexpected tape header\n"); default: if (Dflag) fprintf(stderr, "unknown tape header type %d\n", spcl.c_type); else panic("unknown tape header type %d\n", spcl.c_type); while (gethead(header) == FAIL || _time64_to_time(header->c_date) != dumpdate) { skipcnt++; if (Dflag) { byteslide++; if (byteslide < TP_BSIZE) { blkcnt--; blksread--; } else byteslide = 0; } } } } while (htype == TS_ADDR); if (skipcnt > 0) fprintf(stderr, "resync restore, skipped %ld %s\n", skipcnt, Dflag ? "bytes" : "blocks"); skipcnt = 0; } static int checksum(int *buf) { int i, j; j = sizeof(union u_spcl) / sizeof(int); i = 0; if (!Bcvt) { do i += *buf++; while (--j); } else { /* What happens if we want to read restore tapes for a 16bit int machine??? */ do i += swabl(*buf++); while (--j); } if (i != CHECKSUM) { fprintf(stderr, "Checksum error %o, inode %d file %s\n", i, curfile.ino, curfile.name); return(FAIL); } return(GOOD); } #ifdef RRESTORE #include <stdarg.h> void msg(const char *fmt, ...) { va_list ap; va_start(ap, fmt); (void)vfprintf(stderr, fmt, ap); va_end(ap); } #endif /* RRESTORE */ static u_char * swabshort(u_char *sp, int n) { char c; while (--n >= 0) { c = sp[0]; sp[0] = sp[1]; sp[1] = c; sp += 2; } return (sp); } static u_char * swablong(u_char *sp, int n) { char c; while (--n >= 0) { c = sp[0]; sp[0] = sp[3]; sp[3] = c; c = sp[2]; sp[2] = sp[1]; sp[1] = c; sp += 4; } return (sp); } static u_char * swabquad(u_char *sp, int n) { char c; while (--n >= 0) { c = sp[0]; sp[0] = sp[7]; sp[7] = c; c = sp[1]; sp[1] = sp[6]; sp[6] = c; c = sp[2]; sp[2] = sp[5]; sp[5] = c; c = sp[3]; sp[3] = sp[4]; sp[4] = c; sp += 8; } return (sp); } void swabst(u_char *cp, u_char *sp) { int n = 0; while (*cp) { switch (*cp) { case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': n = (n * 10) + (*cp++ - '0'); continue; case 's': case 'w': case 'h': if (n == 0) n = 1; sp = swabshort(sp, n); break; case 'l': if (n == 0) n = 1; sp = swablong(sp, n); break; case 'q': if (n == 0) n = 1; sp = swabquad(sp, n); break; case 'b': if (n == 0) n = 1; sp += n; break; default: fprintf(stderr, "Unknown conversion character: %c\n", *cp); done(0); break; } cp++; n = 0; } } static u_long swabl(u_long x) { swabst((u_char *)"l", (u_char *)&x); return (x); }