/* Buffer management for tar. Copyright (C) 1988, 1992, 1993, 1994, 1996, 1997, 1999, 2000, 2001, 2003, 2004, 2005, 2006 Free Software Foundation, Inc. Written by John Gilmore, on 1985-08-25. 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include <system.h> #include <system-ioctl.h> #include <signal.h> #include <closeout.h> #include <fnmatch.h> #include <getline.h> #include <human.h> #include <quotearg.h> #include "common.h" #include <rmt.h> /* Number of retries before giving up on read. */ #define READ_ERROR_MAX 10 /* Globbing pattern to append to volume label if initial match failed. */ #define VOLUME_LABEL_APPEND " Volume [1-9]*" /* Variables. */ static tarlong prev_written; /* bytes written on previous volumes */ static tarlong bytes_written; /* bytes written on this volume */ static void *record_buffer[2]; /* allocated memory */ union block *record_buffer_aligned[2]; static int record_index; /* FIXME: The following variables should ideally be static to this module. However, this cannot be done yet. The cleanup continues! */ union block *record_start; /* start of record of archive */ union block *record_end; /* last+1 block of archive record */ union block *current_block; /* current block of archive */ enum access_mode access_mode; /* how do we handle the archive */ off_t records_read; /* number of records read from this archive */ off_t records_written; /* likewise, for records written */ extern off_t records_skipped; /* number of records skipped at the start of the archive, defined in delete.c */ static off_t record_start_block; /* block ordinal at record_start */ /* Where we write list messages (not errors, not interactions) to. */ FILE *stdlis; static void backspace_output (void); /* PID of child program, if compress_option or remote archive access. */ static pid_t child_pid; /* Error recovery stuff */ static int read_error_count; /* Have we hit EOF yet? */ static bool hit_eof; /* Checkpointing counter */ static unsigned checkpoint; static bool read_full_records = false; /* We're reading, but we just read the last block and it's time to update. Declared in update.c As least EXTERN like this one as possible. (?? --gray) FIXME: Either eliminate it or move it to common.h. */ extern bool time_to_start_writing; bool write_archive_to_stdout; void (*flush_write_ptr) (size_t); void (*flush_read_ptr) (void); char *volume_label; char *continued_file_name; uintmax_t continued_file_size; uintmax_t continued_file_offset; static int volno = 1; /* which volume of a multi-volume tape we're on */ static int global_volno = 1; /* volume number to print in external messages */ bool write_archive_to_stdout; /* Used by flush_read and flush_write to store the real info about saved names. */ static char *real_s_name; static off_t real_s_totsize; static off_t real_s_sizeleft; /* Multi-volume tracking support */ static char *save_name; /* name of the file we are currently writing */ static off_t save_totsize; /* total size of file we are writing, only valid if save_name is nonzero */ static off_t save_sizeleft; /* where we are in the file we are writing, only valid if save_name is nonzero */ static struct tar_stat_info dummy; void buffer_write_global_xheader () { xheader_write_global (&dummy.xhdr); } void mv_begin (struct tar_stat_info *st) { if (multi_volume_option) { assign_string (&save_name, st->orig_file_name); save_totsize = save_sizeleft = st->stat.st_size; } } void mv_end () { if (multi_volume_option) assign_string (&save_name, 0); } void mv_total_size (off_t size) { save_totsize = size; } void mv_size_left (off_t size) { save_sizeleft = size; } /* Functions. */ void clear_read_error_count (void) { read_error_count = 0; } /* Time-related functions */ double duration; void set_start_time () { gettime (&start_time); volume_start_time = start_time; last_stat_time = start_time; } void set_volume_start_time () { gettime (&volume_start_time); last_stat_time = volume_start_time; } void compute_duration () { struct timespec now; gettime (&now); duration += ((now.tv_sec - last_stat_time.tv_sec) + (now.tv_nsec - last_stat_time.tv_nsec) / 1e9); gettime (&last_stat_time); } /* Compression detection */ enum compress_type { ct_none, ct_compress, ct_gzip, ct_bzip2 }; struct zip_magic { enum compress_type type; size_t length; char *magic; char *program; char *option; }; static struct zip_magic const magic[] = { { ct_none, }, { ct_compress, 2, "\037\235", "compress", "-Z" }, { ct_gzip, 2, "\037\213", "gzip", "-z" }, { ct_bzip2, 3, "BZh", "bzip2", "-j" }, }; #define NMAGIC (sizeof(magic)/sizeof(magic[0])) #define compress_option(t) magic[t].option #define compress_program(t) magic[t].program /* Check if the file ARCHIVE is a compressed archive. */ enum compress_type check_compressed_archive () { struct zip_magic const *p; bool sfr; /* Prepare global data needed for find_next_block: */ record_end = record_start; /* set up for 1st record = # 0 */ sfr = read_full_records; read_full_records = true; /* Suppress fatal error on reading a partial record */ find_next_block (); /* Restore global values */ read_full_records = sfr; if (tar_checksum (record_start, true) == HEADER_SUCCESS) /* Probably a valid header */ return ct_none; for (p = magic + 1; p < magic + NMAGIC; p++) if (memcmp (record_start->buffer, p->magic, p->length) == 0) return p->type; return ct_none; } /* Open an archive named archive_name_array[0]. Detect if it is a compressed archive of known type and use corresponding decompression program if so */ int open_compressed_archive () { archive = rmtopen (archive_name_array[0], O_RDONLY | O_BINARY, MODE_RW, rsh_command_option); if (archive == -1) return archive; if (!multi_volume_option) { enum compress_type type = check_compressed_archive (); if (type == ct_none) return archive; /* FD is not needed any more */ rmtclose (archive); hit_eof = false; /* It might have been set by find_next_block in check_compressed_archive */ /* Open compressed archive */ use_compress_program_option = compress_program (type); child_pid = sys_child_open_for_uncompress (); read_full_records = true; } records_read = 0; record_end = record_start; /* set up for 1st record = # 0 */ return archive; } static void print_stats (FILE *fp, const char *text, tarlong numbytes) { char bytes[sizeof (tarlong) * CHAR_BIT]; char abbr[LONGEST_HUMAN_READABLE + 1]; char rate[LONGEST_HUMAN_READABLE + 1]; int human_opts = human_autoscale | human_base_1024 | human_SI | human_B; sprintf (bytes, TARLONG_FORMAT, numbytes); fprintf (fp, "%s: %s (%s, %s/s)\n", text, bytes, human_readable (numbytes, abbr, human_opts, 1, 1), (0 < duration && numbytes / duration < (uintmax_t) -1 ? human_readable (numbytes / duration, rate, human_opts, 1, 1) : "?")); } void print_total_stats () { switch (subcommand_option) { case CREATE_SUBCOMMAND: case CAT_SUBCOMMAND: case UPDATE_SUBCOMMAND: case APPEND_SUBCOMMAND: /* Amanda 2.4.1p1 looks for "Total bytes written: [0-9][0-9]*". */ print_stats (stderr, _("Total bytes written"), prev_written + bytes_written); break; case DELETE_SUBCOMMAND: { char buf[UINTMAX_STRSIZE_BOUND]; print_stats (stderr, _("Total bytes read"), records_read * record_size); print_stats (stderr, _("Total bytes written"), prev_written + bytes_written); fprintf (stderr, _("Total bytes deleted: %s\n"), STRINGIFY_BIGINT ((records_read - records_skipped) * record_size - (prev_written + bytes_written), buf)); } break; case EXTRACT_SUBCOMMAND: case LIST_SUBCOMMAND: case DIFF_SUBCOMMAND: print_stats (stderr, _("Total bytes read"), records_read * record_size); break; default: abort (); } } /* Compute and return the block ordinal at current_block. */ off_t current_block_ordinal (void) { return record_start_block + (current_block - record_start); } /* If the EOF flag is set, reset it, as well as current_block, etc. */ void reset_eof (void) { if (hit_eof) { hit_eof = false; current_block = record_start; record_end = record_start + blocking_factor; access_mode = ACCESS_WRITE; } } /* Return the location of the next available input or output block. Return zero for EOF. Once we have returned zero, we just keep returning it, to avoid accidentally going on to the next file on the tape. */ union block * find_next_block (void) { if (current_block == record_end) { if (hit_eof) return 0; flush_archive (); if (current_block == record_end) { hit_eof = true; return 0; } } return current_block; } /* Indicate that we have used all blocks up thru BLOCK. */ void set_next_block_after (union block *block) { while (block >= current_block) current_block++; /* Do *not* flush the archive here. If we do, the same argument to set_next_block_after could mean the next block (if the input record is exactly one block long), which is not what is intended. */ if (current_block > record_end) abort (); } /* Return the number of bytes comprising the space between POINTER through the end of the current buffer of blocks. This space is available for filling with data, or taking data from. POINTER is usually (but not always) the result of previous find_next_block call. */ size_t available_space_after (union block *pointer) { return record_end->buffer - pointer->buffer; } /* Close file having descriptor FD, and abort if close unsuccessful. */ void xclose (int fd) { if (close (fd) != 0) close_error (_("(pipe)")); } static void init_buffer () { if (! record_buffer_aligned[record_index]) record_buffer_aligned[record_index] = page_aligned_alloc (&record_buffer[record_index], record_size); record_start = record_buffer_aligned[record_index]; current_block = record_start; record_end = record_start + blocking_factor; } #if HAVE_QUARANTINE void init_qtn(const char *file_name) { int fd; if (strcmp(file_name, "-") == 0) return; if ((fd = open(file_name, O_RDONLY)) < 0) return; if ((archive_qtn_file = qtn_file_alloc()) != NULL) { if (qtn_file_init_with_fd(archive_qtn_file, fd) != 0) { qtn_file_free(archive_qtn_file); archive_qtn_file = NULL; } } close(fd); } void finish_qtn(void) { if (archive_qtn_file != NULL) { qtn_file_free(archive_qtn_file); archive_qtn_file = NULL; } } #else void init_qtn(const char *file_name) {} void finish_qtn(void) {} #endif /* Open an archive file. The argument specifies whether we are reading or writing, or both. */ static void _open_archive (enum access_mode wanted_access) { int backed_up_flag = 0; if (record_size == 0) FATAL_ERROR ((0, 0, _("Invalid value for record_size"))); if (archive_names == 0) FATAL_ERROR ((0, 0, _("No archive name given"))); tar_stat_destroy (¤t_stat_info); save_name = 0; real_s_name = 0; record_index = 0; init_buffer (); /* When updating the archive, we start with reading. */ access_mode = wanted_access == ACCESS_UPDATE ? ACCESS_READ : wanted_access; read_full_records = read_full_records_option; records_read = 0; if (use_compress_program_option) { switch (wanted_access) { case ACCESS_READ: child_pid = sys_child_open_for_uncompress (); read_full_records = true; record_end = record_start; /* set up for 1st record = # 0 */ break; case ACCESS_WRITE: child_pid = sys_child_open_for_compress (); break; case ACCESS_UPDATE: abort (); /* Should not happen */ break; } if (!index_file_name && wanted_access == ACCESS_WRITE && strcmp (archive_name_array[0], "-") == 0) stdlis = stderr; } else if (strcmp (archive_name_array[0], "-") == 0) { read_full_records = true; /* could be a pipe, be safe */ if (verify_option) FATAL_ERROR ((0, 0, _("Cannot verify stdin/stdout archive"))); switch (wanted_access) { case ACCESS_READ: { enum compress_type type; archive = STDIN_FILENO; type = check_compressed_archive (); if (type != ct_none) FATAL_ERROR ((0, 0, _("Archive is compressed. Use %s option"), compress_option (type))); } break; case ACCESS_WRITE: archive = STDOUT_FILENO; if (!index_file_name) stdlis = stderr; break; case ACCESS_UPDATE: archive = STDIN_FILENO; write_archive_to_stdout = true; record_end = record_start; /* set up for 1st record = # 0 */ if (!index_file_name) stdlis = stderr; break; } } else if (verify_option) archive = rmtopen (archive_name_array[0], O_RDWR | O_CREAT | O_BINARY, MODE_RW, rsh_command_option); else switch (wanted_access) { case ACCESS_READ: archive = open_compressed_archive (); break; case ACCESS_WRITE: if (backup_option) { maybe_backup_file (archive_name_array[0], 1); backed_up_flag = 1; } archive = rmtcreat (archive_name_array[0], MODE_RW, rsh_command_option); break; case ACCESS_UPDATE: archive = rmtopen (archive_name_array[0], O_RDWR | O_CREAT | O_BINARY, MODE_RW, rsh_command_option); if (check_compressed_archive () != ct_none) FATAL_ERROR ((0, 0, _("Cannot update compressed archives"))); break; } if (archive < 0 || (! _isrmt (archive) && !sys_get_archive_stat ())) { int saved_errno = errno; if (backed_up_flag) undo_last_backup (); errno = saved_errno; open_fatal (archive_name_array[0]); } sys_detect_dev_null_output (); sys_save_archive_dev_ino (); SET_BINARY_MODE (archive); init_qtn(archive_name_array[0]); switch (wanted_access) { case ACCESS_READ: find_next_block (); /* read it in, check for EOF */ break; case ACCESS_UPDATE: case ACCESS_WRITE: records_written = 0; break; } } static void do_checkpoint (bool write) { if (checkpoint_option && !(++checkpoint % checkpoint_option)) { switch (checkpoint_style) { case checkpoint_dot: fputc ('.', stdlis); fflush (stdlis); break; case checkpoint_text: if (write) /* TRANSLATORS: This is a ``checkpoint of write operation'', *not* ``Writing a checkpoint''. E.g. in Spanish ``Punto de comprobaci@'on de escritura'', *not* ``Escribiendo un punto de comprobaci@'on'' */ WARN ((0, 0, _("Write checkpoint %u"), checkpoint)); else /* TRANSLATORS: This is a ``checkpoint of read operation'', *not* ``Reading a checkpoint''. E.g. in Spanish ``Punto de comprobaci@'on de lectura'', *not* ``Leyendo un punto de comprobaci@'on'' */ WARN ((0, 0, _("Read checkpoint %u"), checkpoint)); break; } } } /* Perform a write to flush the buffer. */ ssize_t _flush_write (void) { ssize_t status; do_checkpoint (true); if (tape_length_option && tape_length_option <= bytes_written) { errno = ENOSPC; status = 0; } else if (dev_null_output) status = record_size; else status = sys_write_archive_buffer (); return status; } /* Handle write errors on the archive. Write errors are always fatal. Hitting the end of a volume does not cause a write error unless the write was the first record of the volume. */ void archive_write_error (ssize_t status) { /* It might be useful to know how much was written before the error occurred. */ if (totals_option) { int e = errno; print_total_stats (); errno = e; } write_fatal_details (*archive_name_cursor, status, record_size); } /* Handle read errors on the archive. If the read should be retried, return to the caller. */ void archive_read_error (void) { read_error (*archive_name_cursor); if (record_start_block == 0) FATAL_ERROR ((0, 0, _("At beginning of tape, quitting now"))); /* Read error in mid archive. We retry up to READ_ERROR_MAX times and then give up on reading the archive. */ if (read_error_count++ > READ_ERROR_MAX) FATAL_ERROR ((0, 0, _("Too many errors, quitting"))); return; } static void short_read (size_t status) { size_t left; /* bytes left */ char *more; /* pointer to next byte to read */ more = record_start->buffer + status; left = record_size - status; while (left % BLOCKSIZE != 0 || (left && status && read_full_records)) { if (status) while ((status = rmtread (archive, more, left)) == SAFE_READ_ERROR) archive_read_error (); if (status == 0) break; if (! read_full_records) { unsigned long rest = record_size - left; FATAL_ERROR ((0, 0, ngettext ("Unaligned block (%lu byte) in archive", "Unaligned block (%lu bytes) in archive", rest), rest)); } /* User warned us about this. Fix up. */ left -= status; more += status; } /* FIXME: for size=0, multi-volume support. On the first record, warn about the problem. */ if (!read_full_records && verbose_option > 1 && record_start_block == 0 && status != 0) { unsigned long rsize = (record_size - left) / BLOCKSIZE; WARN ((0, 0, ngettext ("Record size = %lu block", "Record size = %lu blocks", rsize), rsize)); } record_end = record_start + (record_size - left) / BLOCKSIZE; records_read++; } /* Flush the current buffer to/from the archive. */ void flush_archive (void) { size_t buffer_level = current_block->buffer - record_start->buffer; record_start_block += record_end - record_start; current_block = record_start; record_end = record_start + blocking_factor; if (access_mode == ACCESS_READ && time_to_start_writing) { access_mode = ACCESS_WRITE; time_to_start_writing = false; backspace_output (); } switch (access_mode) { case ACCESS_READ: flush_read (); break; case ACCESS_WRITE: flush_write_ptr (buffer_level); break; case ACCESS_UPDATE: abort (); } } /* Backspace the archive descriptor by one record worth. If it's a tape, MTIOCTOP will work. If it's something else, try to seek on it. If we can't seek, we lose! */ static void backspace_output (void) { #ifdef MTIOCTOP { struct mtop operation; operation.mt_op = MTBSR; operation.mt_count = 1; if (rmtioctl (archive, MTIOCTOP, (char *) &operation) >= 0) return; if (errno == EIO && rmtioctl (archive, MTIOCTOP, (char *) &operation) >= 0) return; } #endif { off_t position = rmtlseek (archive, (off_t) 0, SEEK_CUR); /* Seek back to the beginning of this record and start writing there. */ position -= record_size; if (position < 0) position = 0; if (rmtlseek (archive, position, SEEK_SET) != position) { /* Lseek failed. Try a different method. */ WARN ((0, 0, _("Cannot backspace archive file; it may be unreadable without -i"))); /* Replace the first part of the record with NULs. */ if (record_start->buffer != output_start) memset (record_start->buffer, 0, output_start - record_start->buffer); } } } off_t seek_archive (off_t size) { off_t start = current_block_ordinal (); off_t offset; off_t nrec, nblk; off_t skipped = (blocking_factor - (current_block - record_start)); size -= skipped * BLOCKSIZE; if (size < record_size) return 0; /* FIXME: flush? */ /* Compute number of records to skip */ nrec = size / record_size; offset = rmtlseek (archive, nrec * record_size, SEEK_CUR); if (offset < 0) return offset; if (offset % record_size) FATAL_ERROR ((0, 0, _("rmtlseek not stopped at a record boundary"))); /* Convert to number of records */ offset /= BLOCKSIZE; /* Compute number of skipped blocks */ nblk = offset - start; /* Update buffering info */ records_read += nblk / blocking_factor; record_start_block = offset - blocking_factor; current_block = record_end; return nblk; } /* Close the archive file. */ void close_archive (void) { if (time_to_start_writing || access_mode == ACCESS_WRITE) { flush_archive (); if (current_block > record_start) flush_archive (); } sys_drain_input_pipe (); compute_duration (); if (verify_option) verify_volume (); if (rmtclose (archive) != 0) close_warn (*archive_name_cursor); sys_wait_for_child (child_pid); tar_stat_destroy (¤t_stat_info); if (save_name) free (save_name); if (real_s_name) free (real_s_name); free (record_buffer[0]); free (record_buffer[1]); finish_qtn(); } /* Called to initialize the global volume number. */ void init_volume_number (void) { FILE *file = fopen (volno_file_option, "r"); if (file) { if (fscanf (file, "%d", &global_volno) != 1 || global_volno < 0) FATAL_ERROR ((0, 0, _("%s: contains invalid volume number"), quotearg_colon (volno_file_option))); if (ferror (file)) read_error (volno_file_option); if (fclose (file) != 0) close_error (volno_file_option); } else if (errno != ENOENT) open_error (volno_file_option); } /* Called to write out the closing global volume number. */ void closeout_volume_number (void) { FILE *file = fopen (volno_file_option, "w"); if (file) { fprintf (file, "%d\n", global_volno); if (ferror (file)) write_error (volno_file_option); if (fclose (file) != 0) close_error (volno_file_option); } else open_error (volno_file_option); } static void increase_volume_number () { global_volno++; if (global_volno < 0) FATAL_ERROR ((0, 0, _("Volume number overflow"))); volno++; } void change_tape_menu (FILE *read_file) { char *input_buffer = NULL; size_t size = 0; bool stop = false; while (!stop) { fputc ('\007', stderr); fprintf (stderr, _("Prepare volume #%d for %s and hit return: "), global_volno + 1, quote (*archive_name_cursor)); fflush (stderr); if (getline (&input_buffer, &size, read_file) <= 0) { WARN ((0, 0, _("EOF where user reply was expected"))); if (subcommand_option != EXTRACT_SUBCOMMAND && subcommand_option != LIST_SUBCOMMAND && subcommand_option != DIFF_SUBCOMMAND) WARN ((0, 0, _("WARNING: Archive is incomplete"))); fatal_exit (); } if (input_buffer[0] == '\n' || input_buffer[0] == 'y' || input_buffer[0] == 'Y') break; switch (input_buffer[0]) { case '?': { fprintf (stderr, _("\ n name Give a new file name for the next (and subsequent) volume(s)\n\ q Abort tar\n\ y or newline Continue operation\n")); if (!restrict_option) fprintf (stderr, _(" ! Spawn a subshell\n")); fprintf (stderr, _(" ? Print this list\n")); } break; case 'q': /* Quit. */ WARN ((0, 0, _("No new volume; exiting.\n"))); if (subcommand_option != EXTRACT_SUBCOMMAND && subcommand_option != LIST_SUBCOMMAND && subcommand_option != DIFF_SUBCOMMAND) WARN ((0, 0, _("WARNING: Archive is incomplete"))); fatal_exit (); case 'n': /* Get new file name. */ { char *name; char *cursor; for (name = input_buffer + 1; *name == ' ' || *name == '\t'; name++) ; for (cursor = name; *cursor && *cursor != '\n'; cursor++) ; *cursor = '\0'; if (name[0]) { /* FIXME: the following allocation is never reclaimed. */ *archive_name_cursor = xstrdup (name); stop = true; } else fprintf (stderr, "%s", _("File name not specified. Try again.\n")); } break; case '!': if (!restrict_option) { sys_spawn_shell (); break; } /* FALL THROUGH */ default: fprintf (stderr, _("Invalid input. Type ? for help.\n")); } } free (input_buffer); } /* We've hit the end of the old volume. Close it and open the next one. Return nonzero on success. */ static bool new_volume (enum access_mode mode) { static FILE *read_file; static int looped; int prompt; if (!read_file && !info_script_option) /* FIXME: if fopen is used, it will never be closed. */ read_file = archive == STDIN_FILENO ? fopen (TTY_NAME, "r") : stdin; if (now_verifying) return false; if (verify_option) verify_volume (); assign_string (&volume_label, NULL); assign_string (&continued_file_name, NULL); continued_file_size = continued_file_offset = 0; current_block = record_start; if (rmtclose (archive) != 0) close_warn (*archive_name_cursor); archive_name_cursor++; if (archive_name_cursor == archive_name_array + archive_names) { archive_name_cursor = archive_name_array; looped = 1; } prompt = looped; tryagain: if (prompt) { /* We have to prompt from now on. */ if (info_script_option) { if (volno_file_option) closeout_volume_number (); if (sys_exec_info_script (archive_name_cursor, global_volno+1)) FATAL_ERROR ((0, 0, _("%s command failed"), quote (info_script_option))); } else change_tape_menu (read_file); } if (strcmp (archive_name_cursor[0], "-") == 0) { read_full_records = true; archive = STDIN_FILENO; } else if (verify_option) archive = rmtopen (*archive_name_cursor, O_RDWR | O_CREAT, MODE_RW, rsh_command_option); else switch (mode) { case ACCESS_READ: archive = rmtopen (*archive_name_cursor, O_RDONLY, MODE_RW, rsh_command_option); break; case ACCESS_WRITE: if (backup_option) maybe_backup_file (*archive_name_cursor, 1); archive = rmtcreat (*archive_name_cursor, MODE_RW, rsh_command_option); break; case ACCESS_UPDATE: archive = rmtopen (*archive_name_cursor, O_RDWR | O_CREAT, MODE_RW, rsh_command_option); break; } if (archive < 0) { open_warn (*archive_name_cursor); if (!verify_option && mode == ACCESS_WRITE && backup_option) undo_last_backup (); prompt = 1; goto tryagain; } SET_BINARY_MODE (archive); return true; } static bool read_header0 (struct tar_stat_info *info) { enum read_header rc; tar_stat_init (info); rc = read_header_primitive (false, info); if (rc == HEADER_SUCCESS) { set_next_block_after (current_header); return true; } ERROR ((0, 0, _("This does not look like a tar archive"))); return false; } bool try_new_volume () { size_t status; union block *header; int access; switch (subcommand_option) { case APPEND_SUBCOMMAND: case CAT_SUBCOMMAND: case UPDATE_SUBCOMMAND: access = ACCESS_UPDATE; break; default: access = ACCESS_READ; break; } if (!new_volume (access)) return true; while ((status = rmtread (archive, record_start->buffer, record_size)) == SAFE_READ_ERROR) archive_read_error (); if (status != record_size) short_read (status); header = find_next_block (); if (!header) return false; switch (header->header.typeflag) { case XGLTYPE: { if (!read_header0 (&dummy)) return false; xheader_decode (&dummy); /* decodes values from the global header */ tar_stat_destroy (&dummy); if (!real_s_name) { /* We have read the extended header of the first member in this volume. Put it back, so next read_header works as expected. */ current_block = record_start; } break; } case GNUTYPE_VOLHDR: if (!read_header0 (&dummy)) return false; tar_stat_destroy (&dummy); assign_string (&volume_label, current_header->header.name); set_next_block_after (header); header = find_next_block (); if (header->header.typeflag != GNUTYPE_MULTIVOL) break; /* FALL THROUGH */ case GNUTYPE_MULTIVOL: if (!read_header0 (&dummy)) return false; tar_stat_destroy (&dummy); assign_string (&continued_file_name, current_header->header.name); continued_file_size = UINTMAX_FROM_HEADER (current_header->header.size); continued_file_offset = UINTMAX_FROM_HEADER (current_header->oldgnu_header.offset); break; default: break; } if (real_s_name) { uintmax_t s; if (!continued_file_name || strcmp (continued_file_name, real_s_name)) { if ((archive_format == GNU_FORMAT || archive_format == OLDGNU_FORMAT) && strlen (real_s_name) >= NAME_FIELD_SIZE && strncmp (continued_file_name, real_s_name, NAME_FIELD_SIZE) == 0) WARN ((0, 0, _("%s is possibly continued on this volume: header contains truncated name"), quote (real_s_name))); else { WARN ((0, 0, _("%s is not continued on this volume"), quote (real_s_name))); return false; } } s = continued_file_size + continued_file_offset; if (real_s_totsize != s || s < continued_file_offset) { char totsizebuf[UINTMAX_STRSIZE_BOUND]; char s1buf[UINTMAX_STRSIZE_BOUND]; char s2buf[UINTMAX_STRSIZE_BOUND]; WARN ((0, 0, _("%s is the wrong size (%s != %s + %s)"), quote (continued_file_name), STRINGIFY_BIGINT (save_totsize, totsizebuf), STRINGIFY_BIGINT (continued_file_size, s1buf), STRINGIFY_BIGINT (continued_file_offset, s2buf))); return false; } if (real_s_totsize - real_s_sizeleft != continued_file_offset) { WARN ((0, 0, _("This volume is out of sequence"))); return false; } } increase_volume_number (); return true; } /* Check the LABEL block against the volume label, seen as a globbing pattern. Return true if the pattern matches. In case of failure, retry matching a volume sequence number before giving up in multi-volume mode. */ static bool check_label_pattern (union block *label) { char *string; bool result; if (! memchr (label->header.name, '\0', sizeof label->header.name)) return false; if (fnmatch (volume_label_option, label->header.name, 0) == 0) return true; if (!multi_volume_option) return false; string = xmalloc (strlen (volume_label_option) + sizeof VOLUME_LABEL_APPEND + 1); strcpy (string, volume_label_option); strcat (string, VOLUME_LABEL_APPEND); result = fnmatch (string, label->header.name, 0) == 0; free (string); return result; } /* Check if the next block contains a volume label and if this matches the one given in the command line */ static void match_volume_label (void) { union block *label = find_next_block (); if (!label) FATAL_ERROR ((0, 0, _("Archive not labeled to match %s"), quote (volume_label_option))); if (!check_label_pattern (label)) FATAL_ERROR ((0, 0, _("Volume %s does not match %s"), quote_n (0, label->header.name), quote_n (1, volume_label_option))); } /* Mark the archive with volume label STR. */ static void _write_volume_label (const char *str) { if (archive_format == POSIX_FORMAT) xheader_store ("GNU.volume.label", &dummy, str); else { union block *label = find_next_block (); memset (label, 0, BLOCKSIZE); strcpy (label->header.name, volume_label_option); assign_string (¤t_stat_info.file_name, label->header.name); current_stat_info.had_trailing_slash = strip_trailing_slashes (current_stat_info.file_name); label->header.typeflag = GNUTYPE_VOLHDR; TIME_TO_CHARS (start_time.tv_sec, label->header.mtime); finish_header (¤t_stat_info, label, -1); set_next_block_after (label); } } #define VOL_SUFFIX "Volume" /* Add a volume label to a part of multi-volume archive */ static void add_volume_label (void) { char buf[UINTMAX_STRSIZE_BOUND]; char *p = STRINGIFY_BIGINT (volno, buf); char *s = xmalloc (strlen (volume_label_option) + sizeof VOL_SUFFIX + strlen (p) + 2); sprintf (s, "%s %s %s", volume_label_option, VOL_SUFFIX, p); _write_volume_label (s); free (s); } static void add_chunk_header () { if (archive_format == POSIX_FORMAT) { off_t block_ordinal; union block *blk; struct tar_stat_info st; static size_t real_s_part_no; /* FIXME */ real_s_part_no++; memset (&st, 0, sizeof st); st.orig_file_name = st.file_name = real_s_name; st.stat.st_mode = S_IFREG|S_IRUSR|S_IWUSR|S_IRGRP|S_IROTH; st.stat.st_uid = getuid (); st.stat.st_gid = getgid (); st.orig_file_name = xheader_format_name (&st, "%d/GNUFileParts.%p/%f.%n", real_s_part_no); st.file_name = st.orig_file_name; st.archive_file_size = st.stat.st_size = real_s_sizeleft; block_ordinal = current_block_ordinal (); blk = start_header (&st); if (!blk) abort (); /* FIXME */ finish_header (&st, blk, block_ordinal); free (st.orig_file_name); } } /* Add a volume label to the current archive */ static void write_volume_label (void) { if (multi_volume_option) add_volume_label (); else _write_volume_label (volume_label_option); } /* Write GNU multi-volume header */ static void gnu_add_multi_volume_header (void) { int tmp; union block *block = find_next_block (); if (strlen (real_s_name) > NAME_FIELD_SIZE) WARN ((0, 0, _("%s: file name too long to be stored in a GNU multivolume header, truncated"), quotearg_colon (real_s_name))); memset (block, 0, BLOCKSIZE); /* FIXME: Michael P Urban writes: [a long name file] is being written when a new volume rolls around [...] Looks like the wrong value is being preserved in real_s_name, though. */ strncpy (block->header.name, real_s_name, NAME_FIELD_SIZE); block->header.typeflag = GNUTYPE_MULTIVOL; OFF_TO_CHARS (real_s_sizeleft, block->header.size); OFF_TO_CHARS (real_s_totsize - real_s_sizeleft, block->oldgnu_header.offset); tmp = verbose_option; verbose_option = 0; finish_header (¤t_stat_info, block, -1); verbose_option = tmp; set_next_block_after (block); } /* Add a multi volume header to the current archive. The exact header format depends on the archive format. */ static void add_multi_volume_header (void) { if (archive_format == POSIX_FORMAT) { off_t d = real_s_totsize - real_s_sizeleft; xheader_store ("GNU.volume.filename", &dummy, real_s_name); xheader_store ("GNU.volume.size", &dummy, &real_s_sizeleft); xheader_store ("GNU.volume.offset", &dummy, &d); } else gnu_add_multi_volume_header (); } /* Synchronize multi-volume globals */ static void multi_volume_sync () { if (multi_volume_option) { if (save_name) { assign_string (&real_s_name, safer_name_suffix (save_name, false, absolute_names_option)); real_s_totsize = save_totsize; real_s_sizeleft = save_sizeleft; } else { assign_string (&real_s_name, 0); real_s_totsize = 0; real_s_sizeleft = 0; } } } /* Low-level flush functions */ /* Simple flush read (no multi-volume or label extensions) */ static void simple_flush_read (void) { size_t status; /* result from system call */ do_checkpoint (false); /* Clear the count of errors. This only applies to a single call to flush_read. */ read_error_count = 0; /* clear error count */ if (write_archive_to_stdout && record_start_block != 0) { archive = STDOUT_FILENO; status = sys_write_archive_buffer (); archive = STDIN_FILENO; if (status != record_size) archive_write_error (status); } for (;;) { status = rmtread (archive, record_start->buffer, record_size); if (status == record_size) { records_read++; return; } if (status == SAFE_READ_ERROR) { archive_read_error (); continue; /* try again */ } break; } short_read (status); } /* Simple flush write (no multi-volume or label extensions) */ static void simple_flush_write (size_t level __attribute__((unused))) { ssize_t status; status = _flush_write (); if (status != record_size) archive_write_error (status); else { records_written++; bytes_written += status; } } /* GNU flush functions. These support multi-volume and archive labels in GNU and PAX archive formats. */ static void _gnu_flush_read (void) { size_t status; /* result from system call */ do_checkpoint (false); /* Clear the count of errors. This only applies to a single call to flush_read. */ read_error_count = 0; /* clear error count */ if (write_archive_to_stdout && record_start_block != 0) { archive = STDOUT_FILENO; status = sys_write_archive_buffer (); archive = STDIN_FILENO; if (status != record_size) archive_write_error (status); } multi_volume_sync (); for (;;) { status = rmtread (archive, record_start->buffer, record_size); if (status == record_size) { records_read++; return; } /* The condition below used to include || (status > 0 && !read_full_records) This is incorrect since even if new_volume() succeeds, the subsequent call to rmtread will overwrite the chunk of data already read in the buffer, so the processing will fail */ if ((status == 0 || (status == SAFE_READ_ERROR && errno == ENOSPC)) && multi_volume_option) { while (!try_new_volume ()) ; return; } else if (status == SAFE_READ_ERROR) { archive_read_error (); continue; } break; } short_read (status); } static void gnu_flush_read (void) { flush_read_ptr = simple_flush_read; /* Avoid recursion */ _gnu_flush_read (); flush_read_ptr = gnu_flush_read; } static void _gnu_flush_write (size_t buffer_level) { ssize_t status; union block *header; char *copy_ptr; size_t copy_size; size_t bufsize; status = _flush_write (); if (status != record_size && !multi_volume_option) archive_write_error (status); else { records_written++; bytes_written += status; } if (status == record_size) { multi_volume_sync (); return; } /* In multi-volume mode. */ /* ENXIO is for the UNIX PC. */ if (status < 0 && errno != ENOSPC && errno != EIO && errno != ENXIO) archive_write_error (status); if (!new_volume (ACCESS_WRITE)) return; tar_stat_destroy (&dummy); increase_volume_number (); prev_written += bytes_written; bytes_written = 0; copy_ptr = record_start->buffer + status; copy_size = buffer_level - status; /* Switch to the next buffer */ record_index = !record_index; init_buffer (); if (volume_label_option) add_volume_label (); if (real_s_name) add_multi_volume_header (); write_extended (true, &dummy, find_next_block ()); tar_stat_destroy (&dummy); if (real_s_name) add_chunk_header (); header = find_next_block (); bufsize = available_space_after (header); while (bufsize < copy_size) { memcpy (header->buffer, copy_ptr, bufsize); copy_ptr += bufsize; copy_size -= bufsize; set_next_block_after (header + (bufsize - 1) / BLOCKSIZE); header = find_next_block (); bufsize = available_space_after (header); } memcpy (header->buffer, copy_ptr, copy_size); memset (header->buffer + copy_size, 0, bufsize - copy_size); set_next_block_after (header + (copy_size - 1) / BLOCKSIZE); find_next_block (); } static void gnu_flush_write (size_t buffer_level) { flush_write_ptr = simple_flush_write; /* Avoid recursion */ _gnu_flush_write (buffer_level); flush_write_ptr = gnu_flush_write; } void flush_read () { flush_read_ptr (); } void flush_write () { flush_write_ptr (record_size); } void open_archive (enum access_mode wanted_access) { flush_read_ptr = gnu_flush_read; flush_write_ptr = gnu_flush_write; _open_archive (wanted_access); switch (wanted_access) { case ACCESS_READ: if (volume_label_option) match_volume_label (); break; case ACCESS_WRITE: records_written = 0; if (volume_label_option) write_volume_label (); break; default: break; } set_volume_start_time (); }