int
archive_read_open_filenames(struct archive *a, const char **filenames,
    size_t block_size)
{
	struct read_file_data *mine;
	const char *filename = NULL;
	if (filenames)
		filename = *(filenames++);

	archive_clear_error(a);
	do
	{
		if (filename == NULL)
			filename = "";
		mine = (struct read_file_data *)calloc(1,
			sizeof(*mine) + strlen(filename));
		if (mine == NULL)
			goto no_memory;
		strcpy(mine->filename.m, filename);
		mine->block_size = block_size;
		mine->fd = -1;
		mine->buffer = NULL;
		mine->st_mode = mine->use_lseek = 0;
		if (filename == NULL || filename[0] == '\0') {
			mine->filename_type = FNT_STDIN;
		} else
			mine->filename_type = FNT_MBS;
		if (archive_read_append_callback_data(a, mine) != (ARCHIVE_OK))
			return (ARCHIVE_FATAL);
		if (filenames == NULL)
			break;
		filename = *(filenames++);
	} while (filename != NULL && filename[0] != '\0');
	archive_read_set_open_callback(a, file_open);
	archive_read_set_read_callback(a, file_read);
	archive_read_set_skip_callback(a, file_skip);
	archive_read_set_close_callback(a, file_close);
	archive_read_set_switch_callback(a, file_switch);
	archive_read_set_seek_callback(a, file_seek);

	return (archive_read_open1(a));
no_memory:
	archive_set_error(a, ENOMEM, "No memory");
	return (ARCHIVE_FATAL);
}
Exemplo n.º 2
0
int
archive_read_open_FILE(struct archive *a, FILE *f)
{
	struct stat st;
	struct read_FILE_data *mine;
	size_t block_size = 128 * 1024;
	void *b;

	archive_clear_error(a);
	mine = (struct read_FILE_data *)malloc(sizeof(*mine));
	b = malloc(block_size);
	if (mine == NULL || b == NULL) {
		archive_set_error(a, ENOMEM, "No memory");
		free(mine);
		free(b);
		return (ARCHIVE_FATAL);
	}
	mine->block_size = block_size;
	mine->buffer = b;
	mine->f = f;
	/*
	 * If we can't fstat() the file, it may just be that it's not
	 * a file.  (On some platforms, FILE * objects can wrap I/O
	 * streams that don't support fileno()).  As a result, fileno()
	 * should be used cautiously.)
	 */
	if (fstat(fileno(mine->f), &st) == 0 && S_ISREG(st.st_mode)) {
		archive_read_extract_set_skip_file(a, st.st_dev, st.st_ino);
		/* Enable the seek optimization only for regular files. */
		mine->can_skip = 1;
	} else
		mine->can_skip = 0;

#if defined(__CYGWIN__) || defined(_WIN32)
	setmode(fileno(mine->f), O_BINARY);
#endif

	archive_read_set_read_callback(a, file_read);
	archive_read_set_skip_callback(a, file_skip);
	archive_read_set_close_callback(a, file_close);
	archive_read_set_callback_data(a, mine);
	return (archive_read_open1(a));
}
Exemplo n.º 3
0
/*
 * Don't use _open_memory2() in production code; the archive_read_open_memory()
 * version is the one you really want.  This is just here so that
 * test harnesses can exercise block operations inside the library.
 */
int
archive_read_open_memory2(struct archive *a, void *buff,
    size_t size, size_t read_size)
{
	struct read_memory_data *mine;

	mine = (struct read_memory_data *)malloc(sizeof(*mine));
	if (mine == NULL) {
		archive_set_error(a, ENOMEM, "No memory");
		return (ARCHIVE_FATAL);
	}
	memset(mine, 0, sizeof(*mine));
	mine->buffer = (unsigned char *)buff;
	mine->end = mine->buffer + size;
	mine->read_size = read_size;
	archive_read_set_open_callback(a, memory_read_open);
	archive_read_set_read_callback(a, memory_read);
	archive_read_set_skip_callback(a, memory_read_skip);
	archive_read_set_close_callback(a, memory_read_close);
	archive_read_set_callback_data(a, mine);
	return (archive_read_open1(a));
}
Exemplo n.º 4
0
/*
 * Don't use _open_memory2() in production code; the archive_read_open_memory()
 * version is the one you really want.  This is just here so that
 * test harnesses can exercise block operations inside the library.
 */
int
archive_read_open_memory2(struct archive *a, const void *buff,
    size_t size, size_t read_size)
{
	struct read_memory_data *mine;

	mine = (struct read_memory_data *)calloc(1, sizeof(*mine));
	if (mine == NULL) {
		archive_set_error(a, ENOMEM, "No memory");
		return (ARCHIVE_FATAL);
	}
	mine->start = mine->p = (const unsigned char *)buff;
	mine->end = mine->start + size;
	mine->read_size = read_size;
	archive_read_set_open_callback(a, memory_read_open);
	archive_read_set_read_callback(a, memory_read);
	archive_read_set_seek_callback(a, memory_read_seek);
	archive_read_set_skip_callback(a, memory_read_skip);
	archive_read_set_close_callback(a, memory_read_close);
	archive_read_set_callback_data(a, mine);
	return (archive_read_open1(a));
}
static int
file_open_filename(struct archive *a, enum fnt_e filename_type,
    const void *_filename, size_t block_size)
{
	struct stat st;
	struct read_file_data *mine;
	void *buffer;
	const char *filename = NULL;
	const wchar_t *wfilename = NULL;
	int fd;
	int is_disk_like = 0;
#if defined(__FreeBSD__) || defined(__FreeBSD_kernel__)
	off_t mediasize = 0; /* FreeBSD-specific, so off_t okay here. */
#elif defined(__NetBSD__) || defined(__OpenBSD__)
	struct disklabel dl;
#elif defined(__DragonFly__)
	struct partinfo pi;
#endif

	archive_clear_error(a);
	if (filename_type == FNT_STDIN) {
		/* We used to delegate stdin support by
		 * directly calling archive_read_open_fd(a,0,block_size)
		 * here, but that doesn't (and shouldn't) handle the
		 * end-of-file flush when reading stdout from a pipe.
		 * Basically, read_open_fd() is intended for folks who
		 * are willing to handle such details themselves.  This
		 * API is intended to be a little smarter for folks who
		 * want easy handling of the common case.
		 */
		fd = 0;
#if defined(__CYGWIN__) || defined(_WIN32)
		setmode(0, O_BINARY);
#endif
		filename = "";
	} else if (filename_type == FNT_MBS) {
		filename = (const char *)_filename;
		fd = open(filename, O_RDONLY | O_BINARY);
		if (fd < 0) {
			archive_set_error(a, errno,
			    "Failed to open '%s'", filename);
			return (ARCHIVE_FATAL);
		}
	} else {
#if defined(_WIN32) && !defined(__CYGWIN__)
		wfilename = (const wchar_t *)_filename;
		fd = _wopen(wfilename, O_RDONLY | O_BINARY);
		if (fd < 0 && errno == ENOENT) {
			wchar_t *fullpath;
			fullpath = __la_win_permissive_name_w(wfilename);
			if (fullpath != NULL) {
				fd = _wopen(fullpath, O_RDONLY | O_BINARY);
				free(fullpath);
			}
		}
		if (fd < 0) {
			archive_set_error(a, errno,
			    "Failed to open '%S'", wfilename);
			return (ARCHIVE_FATAL);
		}
#else
		archive_set_error(a, ARCHIVE_ERRNO_MISC,
		    "Unexpedted operation in archive_read_open_filename");
		return (ARCHIVE_FATAL);
#endif
	}
	if (fstat(fd, &st) != 0) {
		if (filename_type == FNT_WCS)
			archive_set_error(a, errno, "Can't stat '%S'",
			    wfilename);
		else
			archive_set_error(a, errno, "Can't stat '%s'",
			    filename);
		return (ARCHIVE_FATAL);
	}

	/*
	 * Determine whether the input looks like a disk device or a
	 * tape device.  The results are used below to select an I/O
	 * strategy:
	 *  = "disk-like" devices support arbitrary lseek() and will
	 *    support I/O requests of any size.  So we get easy skipping
	 *    and can cheat on block sizes to get better performance.
	 *  = "tape-like" devices require strict blocking and use
	 *    specialized ioctls for seeking.
	 *  = "socket-like" devices cannot seek at all but can improve
	 *    performance by using nonblocking I/O to read "whatever is
	 *    available right now".
	 *
	 * Right now, we only specially recognize disk-like devices,
	 * but it should be straightforward to add probes and strategy
	 * here for tape-like and socket-like devices.
	 */
	if (S_ISREG(st.st_mode)) {
		/* Safety:  Tell the extractor not to overwrite the input. */
		archive_read_extract_set_skip_file(a, st.st_dev, st.st_ino);
		/* Regular files act like disks. */
		is_disk_like = 1;
	}
#if defined(__FreeBSD__) || defined(__FreeBSD_kernel__)
	/* FreeBSD: if it supports DIOCGMEDIASIZE ioctl, it's disk-like. */
	else if (S_ISCHR(st.st_mode) &&
	    ioctl(fd, DIOCGMEDIASIZE, &mediasize) == 0 &&
	    mediasize > 0) {
		is_disk_like = 1;
	}
#elif defined(__NetBSD__) || defined(__OpenBSD__)
	/* Net/OpenBSD: if it supports DIOCGDINFO ioctl, it's disk-like. */
	else if ((S_ISCHR(st.st_mode) || S_ISBLK(st.st_mode)) &&
	    ioctl(fd, DIOCGDINFO, &dl) == 0 &&
	    dl.d_partitions[DISKPART(st.st_rdev)].p_size > 0) {
		is_disk_like = 1;
	}
#elif defined(__DragonFly__)
	/* DragonFly BSD:  if it supports DIOCGPART ioctl, it's disk-like. */
	else if (S_ISCHR(st.st_mode) &&
	    ioctl(fd, DIOCGPART, &pi) == 0 &&
	    pi.media_size > 0) {
		is_disk_like = 1;
	}
#elif defined(__linux__)
	/* Linux:  All block devices are disk-like. */
	else if (S_ISBLK(st.st_mode) &&
	    lseek(fd, 0, SEEK_CUR) == 0 &&
	    lseek(fd, 0, SEEK_SET) == 0 &&
	    lseek(fd, 0, SEEK_END) > 0 &&
	    lseek(fd, 0, SEEK_SET) == 0) {
		is_disk_like = 1;
	}
#endif
	/* TODO: Add an "is_tape_like" variable and appropriate tests. */

	if (filename_type == FNT_WCS)
		mine = (struct read_file_data *)calloc(1,
		    sizeof(*mine) + wcslen(wfilename) * sizeof(wchar_t));
	else
		mine = (struct read_file_data *)calloc(1,
		    sizeof(*mine) + strlen(filename));
	/* Disk-like devices prefer power-of-two block sizes.  */
	/* Use provided block_size as a guide so users have some control. */
	if (is_disk_like) {
		size_t new_block_size = 64 * 1024;
		while (new_block_size < block_size
		    && new_block_size < 64 * 1024 * 1024)
			new_block_size *= 2;
		block_size = new_block_size;
	}
	buffer = malloc(block_size);
	if (mine == NULL || buffer == NULL) {
		archive_set_error(a, ENOMEM, "No memory");
		free(mine);
		free(buffer);
		return (ARCHIVE_FATAL);
	}
	if (filename_type == FNT_WCS)
		wcscpy(mine->filename.w, wfilename);
	else
		strcpy(mine->filename.m, filename);
	mine->filename_type = filename_type;
	mine->block_size = block_size;
	mine->buffer = buffer;
	mine->fd = fd;
	/* Remember mode so close can decide whether to flush. */
	mine->st_mode = st.st_mode;

	/* Disk-like inputs can use lseek(). */
	if (is_disk_like) {
		archive_read_set_seek_callback(a, file_seek);
		mine->use_lseek = 1;
	}

	archive_read_set_read_callback(a, file_read);
	archive_read_set_skip_callback(a, file_skip);
	archive_read_set_close_callback(a, file_close);
	archive_read_set_callback_data(a, mine);
	return (archive_read_open1(a));
}
static void
test_customized_multiple_data_objects(void)
{
  char buff[64];
  static const char *reffiles[] =
  {
    "test_read_splitted_rar_aa",
    "test_read_splitted_rar_ab",
    "test_read_splitted_rar_ac",
    "test_read_splitted_rar_ad",
    NULL
  };
  const char test_txt[] = "test text document\r\n";
  int size = sizeof(test_txt)-1;
  struct archive_entry *ae;
  struct archive *a;
  struct mydata *mydata;
  const char *filename = *reffiles;
  int i;

  extract_reference_files(reffiles);
  assert((a = archive_read_new()) != NULL);
  assertA(0 == archive_read_support_filter_all(a));
  assertA(0 == archive_read_support_format_all(a));

  for (i = 0; filename != NULL;)
  {
    assert((mydata = (struct mydata *)calloc(1, sizeof(*mydata))) != NULL);
    assert((mydata->filename =
      (char *)calloc(1, strlen(filename) + 1)) != NULL);
    strcpy(mydata->filename, filename);
    mydata->fd = -1;
    filename = reffiles[++i];
    assertA(0 == archive_read_append_callback_data(a, mydata));
  }
	assertA(0 == archive_read_set_open_callback(a, file_open));
	assertA(0 == archive_read_set_read_callback(a, file_read));
	assertA(0 == archive_read_set_skip_callback(a, file_skip));
	assertA(0 == archive_read_set_close_callback(a, file_close));
	assertA(0 == archive_read_set_switch_callback(a, file_switch));
  assertA(0 == archive_read_set_seek_callback(a, file_seek));
  assertA(0 == archive_read_open1(a));

  /* First header. */
  assertA(0 == archive_read_next_header(a, &ae));
  assertEqualString("test.txt", archive_entry_pathname(ae));
  assertA((int)archive_entry_mtime(ae));
  assertA((int)archive_entry_ctime(ae));
  assertA((int)archive_entry_atime(ae));
  assertEqualInt(20, archive_entry_size(ae));
  assertEqualInt(33188, archive_entry_mode(ae));
  assertA(size == archive_read_data(a, buff, size));
  assertEqualMem(buff, test_txt, size);

  /* Second header. */
  assertA(0 == archive_read_next_header(a, &ae));
  assertEqualString("testlink", archive_entry_pathname(ae));
  assertA((int)archive_entry_mtime(ae));
  assertA((int)archive_entry_ctime(ae));
  assertA((int)archive_entry_atime(ae));
  assertEqualInt(0, archive_entry_size(ae));
  assertEqualInt(41471, archive_entry_mode(ae));
  assertEqualString("test.txt", archive_entry_symlink(ae));
  assertEqualIntA(a, 0, archive_read_data(a, buff, sizeof(buff)));

  /* Third header. */
  assertA(0 == archive_read_next_header(a, &ae));
  assertEqualString("testdir/test.txt", archive_entry_pathname(ae));
  assertA((int)archive_entry_mtime(ae));
  assertA((int)archive_entry_ctime(ae));
  assertA((int)archive_entry_atime(ae));
  assertEqualInt(20, archive_entry_size(ae));
  assertEqualInt(33188, archive_entry_mode(ae));
  assertA(size == archive_read_data(a, buff, size));
  assertEqualMem(buff, test_txt, size);

  /* Fourth header. */
  assertA(0 == archive_read_next_header(a, &ae));
  assertEqualString("testdir", archive_entry_pathname(ae));
  assertA((int)archive_entry_mtime(ae));
  assertA((int)archive_entry_ctime(ae));
  assertA((int)archive_entry_atime(ae));
  assertEqualInt(0, archive_entry_size(ae));
  assertEqualInt(16877, archive_entry_mode(ae));

  /* Fifth header. */
  assertA(0 == archive_read_next_header(a, &ae));
  assertEqualString("testemptydir", archive_entry_pathname(ae));
  assertA((int)archive_entry_mtime(ae));
  assertA((int)archive_entry_ctime(ae));
  assertA((int)archive_entry_atime(ae));
  assertEqualInt(0, archive_entry_size(ae));
  assertEqualInt(16877, archive_entry_mode(ae));

  /* Test EOF */
  assertA(1 == archive_read_next_header(a, &ae));
  assertEqualInt(5, archive_file_count(a));
  assertEqualIntA(a, ARCHIVE_OK, archive_read_close(a));
  assertEqualInt(ARCHIVE_OK, archive_read_free(a));
}
Exemplo n.º 7
0
struct mp_archive *mp_archive_new(struct mp_log *log, struct stream *src,
                                  int flags)
{
    struct mp_archive *mpa = talloc_zero(NULL, struct mp_archive);
    mpa->log = log;
    mpa->locale = newlocale(LC_ALL_MASK, "C.UTF-8", (locale_t)0);
    if (!mpa->locale) {
        mpa->locale = newlocale(LC_CTYPE_MASK, "", (locale_t)0);
        if (!mpa->locale)
            goto err;
    }
    mpa->arch = archive_read_new();
    mpa->primary_src = src;
    if (!mpa->arch)
        goto err;

    // first volume is the primary streame
    if (!add_volume(log ,mpa, src, src->url))
        goto err;

    // try to open other volumes
    char** volumes = find_volumes(src);
    for (int i = 0; volumes[i]; i++) {
        if (!add_volume(log, mpa, NULL, volumes[i])) {
            talloc_free(volumes);
            goto err;
        }
    }
    talloc_free(volumes);

    locale_t oldlocale = uselocale(mpa->locale);

    archive_read_support_format_7zip(mpa->arch);
    archive_read_support_format_iso9660(mpa->arch);
    archive_read_support_format_rar(mpa->arch);
    archive_read_support_format_zip(mpa->arch);
    archive_read_support_filter_bzip2(mpa->arch);
    archive_read_support_filter_gzip(mpa->arch);
    archive_read_support_filter_xz(mpa->arch);
    if (flags & MP_ARCHIVE_FLAG_UNSAFE) {
        archive_read_support_format_gnutar(mpa->arch);
        archive_read_support_format_tar(mpa->arch);
    }

    archive_read_set_read_callback(mpa->arch, read_cb);
    archive_read_set_skip_callback(mpa->arch, skip_cb);
    archive_read_set_switch_callback(mpa->arch, switch_cb);
    archive_read_set_open_callback(mpa->arch, open_cb);
    archive_read_set_close_callback(mpa->arch, close_cb);
    if (mpa->primary_src->seekable)
        archive_read_set_seek_callback(mpa->arch, seek_cb);
    bool fail = archive_read_open1(mpa->arch) < ARCHIVE_OK;

    uselocale(oldlocale);

    if (fail)
        goto err;
    return mpa;

err:
    mp_archive_free(mpa);
    return NULL;
}
Exemplo n.º 8
0
static foreign_t
archive_open_stream(term_t data, term_t handle, term_t options)
{ IOSTREAM *datas;
  archive_wrapper *ar;
  term_t tail = PL_copy_term_ref(options);
  term_t head = PL_new_term_ref();
  term_t arg  = PL_new_term_ref();

  if ( !PL_get_stream_handle(data, &datas) )
    return FALSE;
  if ( !(datas->flags & SIO_INPUT) )
  { PL_release_stream(datas);
    return PL_domain_error("input_stream", data);
  }

  ar = PL_malloc(sizeof(*ar));
  memset(ar, 0, sizeof(*ar));
  ar->data = datas;
  ar->magic = ARCHIVE_MAGIC;
  if ( !PL_unify_blob(handle, ar, sizeof(*ar), &archive_blob) )
    return FALSE;

  while( PL_get_list_ex(tail, head, tail) )
  { atom_t name;
    int arity;

    if ( !PL_get_name_arity(head, &name, &arity) ||
	 !PL_get_arg(1, head, arg) )
      return PL_type_error("option", head);
    if ( name == ATOM_compression || name == ATOM_filter )
    { atom_t c;

      if ( !PL_get_atom_ex(arg, &c) )
	return FALSE;

      if ( c == ATOM_all )
	ar->type |= FILTER_ALL;
#ifdef FILTER_BZIP2
      else if ( c == ATOM_bzip2 )
	ar->type |= FILTER_BZIP2;
#endif
#ifdef FILTER_COMPRESS
      else if ( c == ATOM_compress )
	ar->type |= FILTER_COMPRESS;
#endif
#ifdef FILTER_GZIP
      else if ( c == ATOM_gzip )
	ar->type |= FILTER_GZIP;
#endif
#ifdef FILTER_GRZIP
      else if ( c == ATOM_grzip )
	ar->type |= FILTER_GRZIP;
#endif
#ifdef FILTER_LRZIP
      else if ( c == ATOM_lrzip )
	ar->type |= FILTER_LRZIP;
#endif
#ifdef FILTER_LZIP
      else if ( c == ATOM_lzip )
	ar->type |= FILTER_LZIP;
#endif
#ifdef FILTER_LZMA
      else if ( c == ATOM_lzma )
	ar->type |= FILTER_LZMA;
#endif
#ifdef FILTER_LZOP
      else if ( c == ATOM_lzop )
	ar->type |= FILTER_LZOP;
#endif
#ifdef FILTER_NONE
      else if ( c == ATOM_none )
	ar->type |= FILTER_NONE;
#endif
#ifdef FILTER_RPM
      else if ( c == ATOM_rpm )
	ar->type |= FILTER_RPM;
#endif
#ifdef FILTER_UU
      else if ( c == ATOM_uu )
	ar->type |= FILTER_UU;
#endif
#ifdef FILTER_XZ
      else if ( c == ATOM_xz )
	ar->type |= FILTER_XZ;
#endif
      else
	return PL_domain_error("filter", arg);
    } else if ( name == ATOM_format )
    { atom_t f;

      if ( !PL_get_atom_ex(arg, &f) )
	return FALSE;

      if ( f == ATOM_all )
	ar->type |= FORMAT_ALL;
#ifdef FORMAT_7ZIP
      else if ( f == ATOM_7zip )
	ar->type |= FORMAT_7ZIP;
#endif
#ifdef FORMAT_AR
      else if ( f == ATOM_ar )
	ar->type |= FORMAT_AR;
#endif
#ifdef FORMAT_CAB
      else if ( f == ATOM_cab )
	ar->type |= FORMAT_CAB;
#endif
#ifdef FORMAT_CPIO
      else if ( f == ATOM_cpio )
	ar->type |= FORMAT_CPIO;
#endif
#ifdef FORMAT_EMPTY
      else if ( f == ATOM_empty )
	ar->type |= FORMAT_EMPTY;
#endif
#ifdef FORMAT_GNUTAR
      else if ( f == ATOM_gnutar )
	ar->type |= FORMAT_GNUTAR;
#endif
#ifdef FORMAT_ISO9960
      else if ( f == ATOM_iso9960 )
	ar->type |= FORMAT_ISO9960;
#endif
#ifdef FORMAT_LHA
      else if ( f == ATOM_lha )
	ar->type |= FORMAT_LHA;
#endif
#ifdef FORMAT_MTREE
      else if ( f == ATOM_mtree )
	ar->type |= FORMAT_MTREE;
#endif
#ifdef FORMAT_RAR
      else if ( f == ATOM_rar )
	ar->type |= FORMAT_RAR;
#endif
#ifdef FORMAT_RAW
      else if ( f == ATOM_raw )
	ar->type |= FORMAT_RAW;
#endif
#ifdef FORMAT_TAR
      else if ( f == ATOM_tar )
	ar->type |= FORMAT_TAR;
#endif
#ifdef FORMAT_XAR
      else if ( f == ATOM_xar )
	ar->type |= FORMAT_XAR;
#endif
#ifdef FORMAT_ZIP
      else if ( f == ATOM_zip )
	ar->type |= FORMAT_ZIP;
#endif
      else
	return PL_domain_error("format", arg);
    } else if ( name == ATOM_close_parent )
    { if ( !PL_get_bool_ex(arg, &ar->close_parent) )
	return FALSE;
    }
  }
  if ( !PL_get_nil_ex(tail) )
    return FALSE;

  if ( !(ar->type & FILTER_ALL) )
    ar->type |= FILTER_ALL;
  if ( !(ar->type & FORMAT_MASK) )
    ar->type |= FORMAT_ALL;

  if ( !(ar->archive = archive_read_new()) )
    return PL_resource_error("memory");

  if ( (ar->type & FILTER_ALL) == FILTER_ALL )
  { archive_read_support_filter_all(ar->archive);
  } else
  {
#ifdef FILTER_BZIP2
    enable_type(ar, FILTER_BZIP2,    archive_read_support_filter_bzip2);
#endif
#ifdef FILTER_COMPRESS
    enable_type(ar, FILTER_COMPRESS, archive_read_support_filter_compress);
#endif
#ifdef FILTER_GZIP
    enable_type(ar, FILTER_GZIP,     archive_read_support_filter_gzip);
#endif
#ifdef FILTER_GRZIP
    enable_type(ar, FILTER_GRZIP,     archive_read_support_filter_grzip);
#endif
#ifdef FILTER_LRZIP
    enable_type(ar, FILTER_LRZIP,     archive_read_support_filter_lrzip);
#endif
#ifdef FILTER_LZIP
    enable_type(ar, FILTER_LZIP,     archive_read_support_filter_lzip);
#endif
#ifdef FILTER_LZMA
    enable_type(ar, FILTER_LZMA,     archive_read_support_filter_lzma);
#endif
#ifdef FILTER_LZOP
    enable_type(ar, FILTER_LZOP,     archive_read_support_filter_lzop);
#endif
#ifdef FILTER_NONE
    enable_type(ar, FILTER_NONE,     archive_read_support_filter_none);
#endif
#ifdef FILTER_RPM
    enable_type(ar, FILTER_RPM,      archive_read_support_filter_rpm);
#endif
#ifdef FILTER_UU
    enable_type(ar, FILTER_UU,       archive_read_support_filter_uu);
#endif
#ifdef FILTER_XZ
    enable_type(ar, FILTER_XZ,       archive_read_support_filter_xz);
#endif
  }

  if ( (ar->type & FORMAT_ALL) == FORMAT_ALL )
  { archive_read_support_format_all(ar->archive);
#ifdef FORMAT_RAW
    enable_type(ar, FORMAT_RAW,     archive_read_support_format_raw);
#endif
  } else
  {
#ifdef FORMAT_7ZIP
    enable_type(ar, FORMAT_7ZIP,    archive_read_support_format_7zip);
#endif
#ifdef FORMAT_AR
    enable_type(ar, FORMAT_AR,      archive_read_support_format_ar);
#endif
#ifdef FORMAT_CAB
    enable_type(ar, FORMAT_CAB,     archive_read_support_format_cab);
#endif
#ifdef FORMAT_CPIO
    enable_type(ar, FORMAT_CPIO,    archive_read_support_format_cpio);
#endif
#ifdef FORMAT_EMPTY
    enable_type(ar, FORMAT_EMPTY,   archive_read_support_format_empty);
#endif
#ifdef FORMAT_GNUTAR
    enable_type(ar, FORMAT_GNUTAR,  archive_read_support_format_gnutar);
#endif
#ifdef FORMAT_ISO9960
    enable_type(ar, FORMAT_ISO9960, archive_read_support_format_iso9660);
#endif
#ifdef FORMAT_LHA
    enable_type(ar, FORMAT_LHA,     archive_read_support_format_lha);
#endif
#ifdef FORMAT_MTREE
    enable_type(ar, FORMAT_MTREE,   archive_read_support_format_mtree);
#endif
#ifdef FORMAT_RAR
    enable_type(ar, FORMAT_RAR,     archive_read_support_format_rar);
#endif
#ifdef FORMAT_RAW
    enable_type(ar, FORMAT_RAW,     archive_read_support_format_raw);
#endif
#ifdef FORMAT_TAR
    enable_type(ar, FORMAT_TAR,     archive_read_support_format_tar);
#endif
#ifdef FORMAT_XAR
    enable_type(ar, FORMAT_XAR,     archive_read_support_format_xar);
#endif
#ifdef FORMAT_ZIP
    enable_type(ar, FORMAT_ZIP,     archive_read_support_format_zip);
#endif
  }

#ifdef HAVE_ARCHIVE_READ_OPEN1
  archive_read_set_callback_data(ar->archive, ar);
  archive_read_set_open_callback(ar->archive, ar_open);
  archive_read_set_read_callback(ar->archive, ar_read);
  archive_read_set_skip_callback(ar->archive, ar_skip);
  archive_read_set_seek_callback(ar->archive, ar_seek);
  archive_read_set_close_callback(ar->archive, ar_close);

  if ( archive_read_open1(ar->archive) == ARCHIVE_OK )
  { ar->status = AR_OPENED;
    return TRUE;
  }
#else
  if ( archive_read_open2(ar->archive, ar,
			  ar_open, ar_read, ar_skip, ar_close) == ARCHIVE_OK )
  { ar->status = AR_OPENED;
    return TRUE;
  }
#endif

  return archive_error(ar);
}