/* Diff files from a tar archive. Copyright (C) 1988, 92, 93, 94, 96, 97 Free Software Foundation, Inc. Written by John Gilmore, on 1987-04-30. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "system.h" #if HAVE_LINUX_FD_H # include #endif #include "common.h" #include "rmt.h" /* Spare space for messages, hopefully safe even after gettext. */ #define MESSAGE_BUFFER_SIZE 100 /* Nonzero if we are verifying at the moment. */ int now_verifying = 0; /* File descriptor for the file we are diffing. */ static int diff_handle; /* Area for reading file contents into. */ static char *diff_buffer = NULL; /*--------------------------------. | Initialize for a diff operation | `--------------------------------*/ void diff_init (void) { diff_buffer = (char *) valloc ((unsigned) record_size); if (!diff_buffer) FATAL_ERROR ((0, 0, _("Could not allocate memory for diff buffer of %d bytes"), record_size)); } /*------------------------------------------------------------------------. | Sigh about something that differs by writing a MESSAGE to stdlis, given | | MESSAGE is not NULL. Also set the exit status if not already. | `------------------------------------------------------------------------*/ static void report_difference (const char *message) { if (message) fprintf (stdlis, "%s: %s\n", current_file_name, message); if (exit_status == TAREXIT_SUCCESS) exit_status = TAREXIT_DIFFERS; } /*-----------------------------------------------------------------------. | Takes a buffer returned by read_and_process and does nothing with it. | `-----------------------------------------------------------------------*/ /* Yes, I know. SIZE and DATA are unused in this function. Some compilers may even report it. That's OK, just relax! */ static int process_noop (long size, char *data) { return 1; } /*---. | ? | `---*/ static int process_rawdata (long bytes, char *buffer) { int status = read (diff_handle, diff_buffer, (size_t) bytes); char message[MESSAGE_BUFFER_SIZE]; if (status != bytes) { if (status < 0) { WARN ((0, errno, _("Cannot read %s"), current_file_name)); report_difference (NULL); } else { sprintf (message, _("Could only read %d of %ld bytes"), status, bytes); report_difference (message); } return 0; } if (memcmp (buffer, diff_buffer, (size_t) bytes)) { report_difference (_("Data differs")); return 0; } return 1; } /*---. | ? | `---*/ /* Directory contents, only for GNUTYPE_DUMPDIR. */ static char *dumpdir_cursor; static int process_dumpdir (long bytes, char *buffer) { if (memcmp (buffer, dumpdir_cursor, (size_t) bytes)) { report_difference (_("Data differs")); return 0; } dumpdir_cursor += bytes; return 1; } /*------------------------------------------------------------------------. | Some other routine wants SIZE bytes in the archive. For each chunk of | | the archive, call PROCESSOR with the size of the chunk, and the address | | of the chunk it can work with. The PROCESSOR should return nonzero for | | success. It it return error once, continue skipping without calling | | PROCESSOR anymore. | `------------------------------------------------------------------------*/ static void read_and_process (long size, int (*processor) (long, char *)) { union block *data_block; long data_size; if (multi_volume_option) save_sizeleft = size; while (size) { data_block = find_next_block (); if (data_block == NULL) { ERROR ((0, 0, _("Unexpected EOF on archive file"))); return; } data_size = available_space_after (data_block); if (data_size > size) data_size = size; if (!(*processor) (data_size, data_block->buffer)) processor = process_noop; set_next_block_after ((union block *) (data_block->buffer + data_size - 1)); size -= data_size; if (multi_volume_option) save_sizeleft -= data_size; } } /*---. | ? | `---*/ /* JK This routine should be used more often than it is ... look into that. Anyhow, what it does is translate the sparse information on the header, and in any subsequent extended headers, into an array of structures with true numbers, as opposed to character strings. It simply makes our life much easier, doing so many comparisong and such. */ static void fill_in_sparse_array (void) { int counter; /* Allocate space for our scratch space; it's initially 10 elements long, but can change in this routine if necessary. */ sp_array_size = 10; sparsearray = (struct sp_array *) xmalloc (sp_array_size * sizeof (struct sp_array)); /* There are at most five of these structures in the header itself; read these in first. */ for (counter = 0; counter < SPARSES_IN_OLDGNU_HEADER; counter++) { /* Compare to 0, or use !(int)..., for Pyramid's dumb compiler. */ if (current_header->oldgnu_header.sp[counter].numbytes == 0) break; sparsearray[counter].offset = from_oct (1 + 12, current_header->oldgnu_header.sp[counter].offset); sparsearray[counter].numbytes = from_oct (1 + 12, current_header->oldgnu_header.sp[counter].numbytes); } /* If the header's extended, we gotta read in exhdr's till we're done. */ if (current_header->oldgnu_header.isextended) { /* How far into the sparsearray we are `so far'. */ static int so_far_ind = SPARSES_IN_OLDGNU_HEADER; union block *exhdr; while (1) { exhdr = find_next_block (); for (counter = 0; counter < SPARSES_IN_SPARSE_HEADER; counter++) { if (counter + so_far_ind > sp_array_size - 1) { /* We just ran out of room in our scratch area - realloc it. */ sp_array_size *= 2; sparsearray = (struct sp_array *) xrealloc (sparsearray, sp_array_size * sizeof (struct sp_array)); } /* Convert the character strings into longs. */ sparsearray[counter + so_far_ind].offset = from_oct (1 + 12, exhdr->sparse_header.sp[counter].offset); sparsearray[counter + so_far_ind].numbytes = from_oct (1 + 12, exhdr->sparse_header.sp[counter].numbytes); } /* If this is the last extended header for this file, we can stop. */ if (!exhdr->sparse_header.isextended) break; so_far_ind += SPARSES_IN_SPARSE_HEADER; set_next_block_after (exhdr); } /* Be sure to skip past the last one. */ set_next_block_after (exhdr); } } /*---. | ? | `---*/ /* JK Diff'ing a sparse file with its counterpart on the tar file is a bit of a different story than a normal file. First, we must know what areas of the file to skip through, i.e., we need to contruct a sparsearray, which will hold all the information we need. We must compare small amounts of data at a time as we find it. */ /* FIXME: This does not look very solid to me, at first glance. Zero areas are not checked, spurious sparse entries seemingly goes undetected, and I'm not sure overall identical sparsity is verified. */ static void diff_sparse_files (int size_of_file) { int remaining_size = size_of_file; char *buffer = (char *) xmalloc (BLOCKSIZE * sizeof (char)); int buffer_size = BLOCKSIZE; union block *data_block = NULL; int counter = 0; int different = 0; fill_in_sparse_array (); while (remaining_size > 0) { int status; long chunk_size; #if 0 int amount_read = 0; #endif data_block = find_next_block (); chunk_size = sparsearray[counter].numbytes; if (!chunk_size) break; lseek (diff_handle, sparsearray[counter].offset, 0); /* Take care to not run out of room in our buffer. */ while (buffer_size < chunk_size) { buffer_size *= 2; buffer = (char *) xrealloc (buffer, buffer_size * sizeof (char)); } while (chunk_size > BLOCKSIZE) { if (status = read (diff_handle, buffer, BLOCKSIZE), status != BLOCKSIZE) { if (status < 0) { WARN ((0, errno, _("Cannot read %s"), current_file_name)); report_difference (NULL); } else { char message[MESSAGE_BUFFER_SIZE]; sprintf (message, _("Could only read %d of %ld bytes"), status, chunk_size); report_difference (message); } break; } if (memcmp (buffer, data_block->buffer, BLOCKSIZE)) { different = 1; break; } chunk_size -= status; remaining_size -= status; set_next_block_after (data_block); data_block = find_next_block (); } if (status = read (diff_handle, buffer, (size_t) chunk_size), status != chunk_size) { if (status < 0) { WARN ((0, errno, _("Cannot read %s"), current_file_name)); report_difference (NULL); } else { char message[MESSAGE_BUFFER_SIZE]; sprintf (message, _("Could only read %d of %ld bytes"), status, chunk_size); report_difference (message); } break; } if (memcmp (buffer, data_block->buffer, (size_t) chunk_size)) { different = 1; break; } #if 0 amount_read += chunk_size; if (amount_read >= BLOCKSIZE) { amount_read = 0; set_next_block_after (data_block); data_block = find_next_block (); } #endif set_next_block_after (data_block); counter++; remaining_size -= chunk_size; } #if 0 /* If the number of bytes read isn't the number of bytes supposedly in the file, they're different. */ if (amount_read != size_of_file) different = 1; #endif set_next_block_after (data_block); free (sparsearray); if (different) report_difference (_("Data differs")); } /*---------------------------------------------------------------------. | Call either stat or lstat over STAT_DATA, depending on --dereference | | (-h), for a file which should exist. Diagnose any problem. Return | | nonzero for success, zero otherwise. | `---------------------------------------------------------------------*/ static int get_stat_data (struct stat *stat_data) { int status = (dereference_option ? stat (current_file_name, stat_data) : lstat (current_file_name, stat_data)); if (status < 0) { if (errno == ENOENT) report_difference (_("File does not exist")); else { ERROR ((0, errno, _("Cannot stat file %s"), current_file_name)); report_difference (NULL); } #if 0 skip_file ((long) current_stat.st_size); #endif return 0; } return 1; } /*----------------------------------. | Diff a file against the archive. | `----------------------------------*/ void diff_archive (void) { struct stat stat_data; int name_length; int status; errno = EPIPE; /* FIXME: errno should be read-only */ /* FIXME: remove perrors */ set_next_block_after (current_header); decode_header (current_header, ¤t_stat, ¤t_format, 1); /* Print the block from `current_header' and `current_stat'. */ if (verbose_option) { if (now_verifying) fprintf (stdlis, _("Verify ")); print_header (); } switch (current_header->header.typeflag) { default: WARN ((0, 0, _("Unknown file type '%c' for %s, diffed as normal file"), current_header->header.typeflag, current_file_name)); /* Fall through. */ case AREGTYPE: case REGTYPE: case GNUTYPE_SPARSE: case CONTTYPE: /* Appears to be a file. See if it's really a directory. */ name_length = strlen (current_file_name) - 1; if (current_file_name[name_length] == '/') goto really_dir; if (!get_stat_data (&stat_data)) { if (current_header->oldgnu_header.isextended) skip_extended_headers (); skip_file ((long) current_stat.st_size); goto quit; } if (!S_ISREG (stat_data.st_mode)) { report_difference (_("Not a regular file")); skip_file ((long) current_stat.st_size); goto quit; } stat_data.st_mode &= 07777; if (stat_data.st_mode != current_stat.st_mode) report_difference (_("Mode differs")); #if !MSDOS /* stat() in djgpp's C library gives a constant number of 42 as the uid and gid of a file. So, comparing an FTP'ed archive just after unpack would fail on MSDOS. */ if (stat_data.st_uid != current_stat.st_uid) report_difference (_("Uid differs")); if (stat_data.st_gid != current_stat.st_gid) report_difference (_("Gid differs")); #endif if (stat_data.st_mtime != current_stat.st_mtime) report_difference (_("Mod time differs")); if (current_header->header.typeflag != GNUTYPE_SPARSE && stat_data.st_size != current_stat.st_size) { report_difference (_("Size differs")); skip_file ((long) current_stat.st_size); goto quit; } diff_handle = open (current_file_name, O_NDELAY | O_RDONLY | O_BINARY); if (diff_handle < 0 && !absolute_names_option) { char *tmpbuf = xmalloc (strlen (current_file_name) + 2); *tmpbuf = '/'; strcpy (tmpbuf + 1, current_file_name); diff_handle = open (tmpbuf, O_NDELAY | O_RDONLY); free (tmpbuf); } if (diff_handle < 0) { ERROR ((0, errno, _("Cannot open %s"), current_file_name)); if (current_header->oldgnu_header.isextended) skip_extended_headers (); skip_file ((long) current_stat.st_size); report_difference (NULL); goto quit; } /* Need to treat sparse files completely differently here. */ if (current_header->header.typeflag == GNUTYPE_SPARSE) diff_sparse_files (current_stat.st_size); else { if (multi_volume_option) { assign_string (&save_name, current_file_name); save_totsize = current_stat.st_size; /* save_sizeleft is set in read_and_process. */ } read_and_process ((long) (current_stat.st_size), process_rawdata); if (multi_volume_option) assign_string (&save_name, NULL); } status = close (diff_handle); if (status < 0) ERROR ((0, errno, _("Error while closing %s"), current_file_name)); quit: break; #if !MSDOS case LNKTYPE: { dev_t dev; ino_t ino; if (!get_stat_data (&stat_data)) break; dev = stat_data.st_dev; ino = stat_data.st_ino; status = stat (current_link_name, &stat_data); if (status < 0) { if (errno == ENOENT) report_difference (_("Does not exist")); else { WARN ((0, errno, _("Cannot stat file %s"), current_file_name)); report_difference (NULL); } break; } if (stat_data.st_dev != dev || stat_data.st_ino != ino) { char *message = (char *) xmalloc (MESSAGE_BUFFER_SIZE + strlen (current_link_name)); sprintf (message, _("Not linked to %s"), current_link_name); report_difference (message); free (message); break; } break; } #endif /* not MSDOS */ #ifdef S_ISLNK case SYMTYPE: { char linkbuf[NAME_FIELD_SIZE + 3]; /* FIXME: may be too short. */ status = readlink (current_file_name, linkbuf, (sizeof linkbuf) - 1); if (status < 0) { if (errno == ENOENT) report_difference (_("No such file or directory")); else { WARN ((0, errno, _("Cannot read link %s"), current_file_name)); report_difference (NULL); } break; } linkbuf[status] = '\0'; /* null-terminate it */ if (strncmp (current_link_name, linkbuf, (size_t) status) != 0) report_difference (_("Symlink differs")); break; } #endif /* not S_ISLNK */ #ifdef S_IFCHR case CHRTYPE: current_stat.st_mode |= S_IFCHR; goto check_node; #endif /* not S_IFCHR */ #ifdef S_IFBLK /* If local system doesn't support block devices, use default case. */ case BLKTYPE: current_stat.st_mode |= S_IFBLK; goto check_node; #endif /* not S_IFBLK */ #ifdef S_ISFIFO /* If local system doesn't support FIFOs, use default case. */ case FIFOTYPE: # ifdef S_IFIFO current_stat.st_mode |= S_IFIFO; # endif current_stat.st_rdev = 0; /* FIXME: do we need this? */ goto check_node; #endif /* S_ISFIFO */ check_node: /* FIXME: deal with umask. */ if (!get_stat_data (&stat_data)) break; if (current_stat.st_rdev != stat_data.st_rdev) { report_difference (_("Device numbers changed")); break; } if ( #ifdef S_IFMT current_stat.st_mode != stat_data.st_mode #else /* POSIX lossage. */ (current_stat.st_mode & 07777) != (stat_data.st_mode & 07777) #endif ) { report_difference (_("Mode or device-type changed")); break; } break; case GNUTYPE_DUMPDIR: { char *dumpdir_buffer = get_directory_contents (current_file_name, 0); if (multi_volume_option) { assign_string (&save_name, current_file_name); save_totsize = current_stat.st_size; /* save_sizeleft is set in read_and_process. */ } if (dumpdir_buffer) { dumpdir_cursor = dumpdir_buffer; read_and_process ((long) (current_stat.st_size), process_dumpdir); free (dumpdir_buffer); } else read_and_process ((long) (current_stat.st_size), process_noop); if (multi_volume_option) assign_string (&save_name, NULL); /* Fall through. */ } case DIRTYPE: /* Check for trailing /. */ name_length = strlen (current_file_name) - 1; really_dir: while (name_length && current_file_name[name_length] == '/') current_file_name[name_length--] = '\0'; /* zap / */ if (!get_stat_data (&stat_data)) break; if (!S_ISDIR (stat_data.st_mode)) { report_difference (_("No longer a directory")); break; } if ((stat_data.st_mode & 07777) != (current_stat.st_mode & 07777)) report_difference (_("Mode differs")); break; case GNUTYPE_VOLHDR: break; case GNUTYPE_MULTIVOL: { off_t offset; name_length = strlen (current_file_name) - 1; if (current_file_name[name_length] == '/') goto really_dir; if (!get_stat_data (&stat_data)) break; if (!S_ISREG (stat_data.st_mode)) { report_difference (_("Not a regular file")); skip_file ((long) current_stat.st_size); break; } stat_data.st_mode &= 07777; offset = from_oct (1 + 12, current_header->oldgnu_header.offset); if (stat_data.st_size != current_stat.st_size + offset) { report_difference (_("Size differs")); skip_file ((long) current_stat.st_size); break; } diff_handle = open (current_file_name, O_NDELAY | O_RDONLY | O_BINARY); if (diff_handle < 0) { WARN ((0, errno, _("Cannot open file %s"), current_file_name)); report_difference (NULL); skip_file ((long) current_stat.st_size); break; } status = lseek (diff_handle, offset, 0); if (status != offset) { WARN ((0, errno, _("Cannot seek to %ld in file %s"), offset, current_file_name)); report_difference (NULL); break; } if (multi_volume_option) { assign_string (&save_name, current_file_name); save_totsize = stat_data.st_size; /* save_sizeleft is set in read_and_process. */ } read_and_process ((long) (current_stat.st_size), process_rawdata); if (multi_volume_option) assign_string (&save_name, NULL); status = close (diff_handle); if (status < 0) ERROR ((0, errno, _("Error while closing %s"), current_file_name)); break; } } } /*---. | ? | `---*/ void verify_volume (void) { if (!diff_buffer) diff_init (); /* Verifying an archive is meant to check if the physical media got it correctly, so try to defeat clever in-memory buffering pertaining to this particular media. On Linux, for example, the floppy drive would not even be accessed for the whole verification. The code was using fsync only when the ioctl is unavailable, but Marty Leisner says that the ioctl does not work when not preceded by fsync. So, until we know better, or maybe to please Marty, let's do it the unbelievable way :-). */ #if HAVE_FSYNC fsync (archive); #endif #ifdef FDFLUSH ioctl (archive, FDFLUSH); #endif #ifdef MTIOCTOP { struct mtop operation; int status; operation.mt_op = MTBSF; operation.mt_count = 1; if (status = rmtioctl (archive, MTIOCTOP, (char *) &operation), status < 0) { if (errno != EIO || (status = rmtioctl (archive, MTIOCTOP, (char *) &operation), status < 0)) { #endif if (rmtlseek (archive, 0L, 0) != 0) { /* Lseek failed. Try a different method. */ WARN ((0, errno, _("Could not rewind archive file for verify"))); return; } #ifdef MTIOCTOP } } } #endif access_mode = ACCESS_READ; now_verifying = 1; flush_read (); while (1) { enum read_header status = read_header (); if (status == HEADER_FAILURE) { int counter = 0; while (status == HEADER_FAILURE); { counter++; status = read_header (); } ERROR ((0, 0, _("VERIFY FAILURE: %d invalid header(s) detected"), counter)); } if (status == HEADER_ZERO_BLOCK || status == HEADER_END_OF_FILE) break; diff_archive (); } access_mode = ACCESS_WRITE; now_verifying = 0; }