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 */
+ of the archive, defined in delete.c */
static off_t record_start_block; /* block ordinal at record_start */
last_stat_time = start_time;
}
-void
-set_volume_start_time ()
+static void
+set_volume_start_time (void)
{
gettime (&volume_start_time);
last_stat_time = volume_start_time;
ct_compress,
ct_gzip,
ct_bzip2,
+ ct_lzip,
ct_lzma,
ct_lzop,
ct_xz
{
enum compress_type type;
size_t length;
- char *magic;
- char *program;
- char *option;
+ char const *magic;
+ char const *program;
+ char const *option;
};
static struct zip_magic const magic[] = {
{ ct_compress, 2, "\037\235", COMPRESS_PROGRAM, "-Z" },
{ ct_gzip, 2, "\037\213", GZIP_PROGRAM, "-z" },
{ ct_bzip2, 3, "BZh", BZIP2_PROGRAM, "-j" },
+ { ct_lzip, 4, "LZIP", LZIP_PROGRAM, "--lzip" },
{ ct_lzma, 6, "\xFFLZMA", LZMA_PROGRAM, "--lzma" },
{ ct_lzop, 4, "\211LZO", LZOP_PROGRAM, "--lzop" },
{ ct_xz, 6, "\0xFD7zXZ", XZ_PROGRAM, "-J" },
#define compress_program(t) magic[t].program
/* Check if the file ARCHIVE is a compressed archive. */
-enum compress_type
+static enum compress_type
check_compressed_archive (bool *pshort)
{
struct zip_magic const *p;
if (!pshort)
pshort = &temp;
-
+
/* 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 */
*pshort = find_next_block () == 0;
-
+
/* Restore global values */
read_full_records = sfr;
/* Guess if the archive is seekable. */
static void
-guess_seekable_archive ()
+guess_seekable_archive (void)
{
struct stat st;
seekable_archive = !!seek_option;
return;
}
-
+
if (!multi_volume_option && !use_compress_program_option
&& fstat (archive, &st) == 0)
seekable_archive = S_ISREG (st.st_mode);
/* 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 ()
+static int
+open_compressed_archive (void)
{
archive = rmtopen (archive_name_array[0], O_RDONLY | O_BINARY,
MODE_RW, rsh_command_option);
if (shortfile)
ERROR ((0, 0, _("This does not look like a tar archive")));
return archive;
-
+
case ct_none:
if (shortfile)
ERROR ((0, 0, _("This does not look like a tar archive")));
break;
}
}
-
+
/* FD is not needed any more */
rmtclose (archive);
-
+
hit_eof = false; /* It might have been set by find_next_block in
check_compressed_archive */
}
static void
-init_buffer ()
+init_buffer (void)
{
if (! record_buffer_aligned[record_index])
record_buffer_aligned[record_index] =
}
/* Perform a write to flush the buffer. */
-ssize_t
+static ssize_t
_flush_write (void)
{
ssize_t status;
status = record_size;
else
status = sys_write_archive_buffer ();
-
+
return status;
}
}
static bool
-archive_is_dev ()
+archive_is_dev (void)
{
struct stat st;
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;
+ off_t skipped = (blocking_factor - (current_block - record_start))
+ * BLOCKSIZE;
- if (size < record_size)
+ if (size <= skipped)
return 0;
- /* FIXME: flush? */
/* Compute number of records to skip */
- nrec = size / record_size;
+ nrec = (size - skipped) / record_size;
+ if (nrec == 0)
+ return 0;
offset = rmtlseek (archive, nrec * record_size, SEEK_CUR);
if (offset < 0)
return offset;
\f
static void
-increase_volume_number ()
+increase_volume_number (void)
{
global_volno++;
if (global_volno < 0)
volno++;
}
-void
+static void
change_tape_menu (FILE *read_file)
{
char *input_buffer = NULL;
size_t size = 0;
bool stop = false;
-
+
while (!stop)
{
fputc ('\007', stderr);
assign_string (&continued_file_name, NULL);
continued_file_size = continued_file_offset = 0;
current_block = record_start;
-
+
if (rmtclose (archive) != 0)
close_error (*archive_name_cursor);
return false;
}
-bool
-try_new_volume ()
+static bool
+try_new_volume (void)
{
size_t status;
union block *header;
enum access_mode acc;
-
+
switch (subcommand_option)
{
case APPEND_SUBCOMMAND:
if (!new_volume (acc))
return true;
-
+
while ((status = rmtread (archive, record_start->buffer, record_size))
== SAFE_READ_ERROR)
archive_read_error ();
ERROR ((0, 0, _("This does not look like a tar archive")));
return false;
}
-
+
xheader_decode (&dummy); /* decodes values from the global header */
tar_stat_destroy (&dummy);
-
+
/* The initial global header must be immediately followed by
an extended PAX header for the first member in this volume.
However, in some cases tar may split volumes in the middle
HEADER_FAILURE, which is ignored.
See also tests/multiv07.at */
-
+
switch (read_header (&header, &dummy, read_header_auto))
{
case HEADER_SUCCESS:
STRINGIFY_BIGINT (real_s_totsize, totsizebuf),
STRINGIFY_BIGINT (real_s_sizeleft, s1buf),
STRINGIFY_BIGINT (continued_file_offset, s2buf)));
-
+
return false;
}
}
if (len < 1)
return NULL;
-
+
for (p = label + len - 1; p > label && isdigit ((unsigned char) *p); p--)
;
if (p > label && p - (VOLUME_TEXT_LEN - 1) > label)
return NULL;
}
-
+
/* Check LABEL 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
check_label_pattern (const char *label)
{
char *string;
- bool result;
+ bool result = false;
if (fnmatch (volume_label_option, label, 0) == 0)
return true;
if (!volume_label)
{
union block *label = find_next_block ();
-
+
if (!label)
FATAL_ERROR ((0, 0, _("Archive not labeled to match %s"),
quote (volume_label_option)));
tar_stat_destroy (&st);
}
}
-
+
if (!volume_label)
FATAL_ERROR ((0, 0, _("Archive not labeled to match %s"),
quote (volume_label_option)));
-
+
if (!check_label_pattern (volume_label))
FATAL_ERROR ((0, 0, _("Volume %s does not match %s"),
quote_n (0, volume_label),
}
static void
-add_chunk_header ()
+add_chunk_header (void)
{
if (archive_format == POSIX_FORMAT)
{
/* Synchronize multi-volume globals */
static void
-multi_volume_sync ()
+multi_volume_sync (void)
{
if (multi_volume_option)
{
size_t status; /* result from system call */
checkpoint_run (false);
-
+
/* Clear the count of errors. This only applies to a single call to
flush_read. */
size_t status; /* result from system call */
checkpoint_run (false);
-
+
/* Clear the count of errors. This only applies to a single call to
flush_read. */
size_t copy_size;
size_t bufsize;
tarlong wrt;
-
+
status = _flush_write ();
if (status != record_size && !multi_volume_option)
archive_write_error (status);
else
{
if (status)
- records_written++;
+ records_written++;
bytes_written += status;
}
ERROR ((0, 0, _("write did not end on a block boundary")));
archive_write_error (status);
}
-
+
/* In multi-volume mode. */
/* ENXIO is for the UNIX PC. */
if (status < 0 && errno != ENOSPC && errno != EIO && errno != ENXIO)
copy_ptr = record_start->buffer + status;
copy_size = buffer_level - status;
-
+
/* Switch to the next buffer */
record_index = !record_index;
init_buffer ();
write_extended (true, &dummy, find_next_block ());
tar_stat_destroy (&dummy);
-
+
if (real_s_name)
add_chunk_header ();
wrt = bytes_written;
switch (wanted_access)
{
case ACCESS_READ:
+ case ACCESS_UPDATE:
if (volume_label_option)
match_volume_label ();
break;
if (volume_label_option)
write_volume_label ();
break;
-
- default:
- break;
}
set_volume_start_time ();
}