/*
* Verify that KOI8-R filenames are not translated to Unicode and UTF-8
* when using hdrcharset=BINARY option.
*/
static void
test_pax_filename_encoding_KOI8R_BINARY(void)
{
struct archive *a;
struct archive_entry *entry;
char buff[4096];
size_t used;
if (NULL == setlocale(LC_ALL, "ru_RU.KOI8-R")) {
skipping("KOI8-R locale not available on this system.");
return;
}
a = archive_write_new();
assertEqualInt(ARCHIVE_OK, archive_write_set_format_pax(a));
/* BINARY mode should be accepted. */
assertEqualInt(ARCHIVE_OK,
archive_write_set_options(a, "hdrcharset=BINARY"));
assertEqualInt(ARCHIVE_OK,
archive_write_open_memory(a, buff, sizeof(buff), &used));
entry = archive_entry_new2(a);
archive_entry_set_pathname(entry, "\xD0\xD2\xC9");
archive_entry_set_filetype(entry, AE_IFREG);
archive_entry_set_size(entry, 0);
assertEqualInt(ARCHIVE_OK, archive_write_header(a, entry));
archive_entry_free(entry);
assertEqualInt(ARCHIVE_OK, archive_write_free(a));
/* "hdrcharset=BINARY" pax attribute should be written. */
assertEqualMem(buff + 512, "21 hdrcharset=BINARY\x0A", 21);
/* Above three characters in KOI8-R should not translate to any
* character-set. */
assertEqualMem(buff + 512+21, "12 path=\xD0\xD2\xC9\x0A", 12);
}
static void
test_binary(void)
{
const char reffile[] = "test_read_format_rar_binary_data.rar";
char file1_buff[1048576];
int file1_size = sizeof(file1_buff);
const char file1_test_txt[] = "\x37\xef\xb2\xbe\x33\xf6\xcc\xcb\xee\x2a\x10"
"\x9d\x2e\x01\xe9\xf6\xf9\xe5\xe6\x67\x0c\x2b"
"\xd8\x6b\xa0\x26\x9a\xf7\x93\x87\x42\xf1\x08"
"\x42\xdc\x9b\x76\x91\x20\xa4\x01\xbe\x67\xbd"
"\x08\x74\xde\xec";
char file2_buff[32618];
int file2_size = sizeof(file2_buff);
const char file2_test_txt[] = "\x00\xee\x78\x00\x00\x4d\x45\x54\x41\x2d\x49"
"\x4e\x46\x2f\x6d\x61\x6e\x69\x66\x65\x73\x74"
"\x2e\x78\x6d\x6c\x50\x4b\x05\x06\x00\x00\x00"
"\x00\x12\x00\x12\x00\xaa\x04\x00\x00\xaa\x7a"
"\x00\x00\x00\x00";
struct archive_entry *ae;
struct archive *a;
extract_reference_file(reffile);
assert((a = archive_read_new()) != NULL);
assertA(0 == archive_read_support_filter_all(a));
assertA(0 == archive_read_support_format_all(a));
assertA(0 == archive_read_open_file(a, reffile, 10240));
/* First header. */
assertA(0 == archive_read_next_header(a, &ae));
assertEqualString("random_data.bin", archive_entry_pathname(ae));
assertA((int)archive_entry_mtime(ae));
assertA((int)archive_entry_ctime(ae));
assertA((int)archive_entry_atime(ae));
assertEqualInt(file1_size, archive_entry_size(ae));
assertEqualInt(33188, archive_entry_mode(ae));
assertA(file1_size == archive_read_data(a, file1_buff, file1_size));
assertEqualMem(&file1_buff[file1_size - sizeof(file1_test_txt) + 1],
file1_test_txt, sizeof(file1_test_txt) - 1);
/* Second header. */
assertA(0 == archive_read_next_header(a, &ae));
assertEqualString("LibarchiveAddingTest.odt", archive_entry_pathname(ae));
assertA((int)archive_entry_mtime(ae));
assertA((int)archive_entry_ctime(ae));
assertA((int)archive_entry_atime(ae));
assertEqualInt(file2_size, archive_entry_size(ae));
assertEqualInt(33188, archive_entry_mode(ae));
assertA(file2_size == archive_read_data(a, file2_buff, file2_size));
assertEqualMem(&file2_buff[file2_size + 1 - sizeof(file2_test_txt)],
file2_test_txt, sizeof(file2_test_txt) - 1);
/* Test EOF */
assertA(1 == archive_read_next_header(a, &ae));
assertEqualInt(2, archive_file_count(a));
assertEqualIntA(a, ARCHIVE_OK, archive_read_close(a));
assertEqualInt(ARCHIVE_OK, archive_read_free(a));
}
static void
verify_file0_stream(struct archive *a, int size_known)
{
struct archive_entry *ae;
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualString("-", archive_entry_pathname(ae));
assertEqualInt(AE_IFREG | 0664, archive_entry_mode(ae));
if (size_known) {
// zip64b has the uncompressed size at the beginning,
// plus CRC and compressed size using length-at-end.
assert(archive_entry_size_is_set(ae));
assertEqualInt(6, archive_entry_size(ae));
} else {
// zip64a does not have a size at the beginning at all.
assert(!archive_entry_size_is_set(ae));
}
#ifdef HAVE_ZLIB_H
{
char data[16];
assertEqualIntA(a, 6, archive_read_data(a, data, 16));
assertEqualMem(data, "file0\x0a", 6);
}
#endif
assertEqualIntA(a, ARCHIVE_EOF, archive_read_next_header(a, &ae));
assertEqualIntA(a, ARCHIVE_OK, archive_read_close(a));
assertEqualIntA(a, ARCHIVE_OK, archive_read_free(a));
}
static void
test_noeof(void)
{
char buff[64];
const char reffile[] = "test_read_format_rar_noeof.rar";
const char test_txt[] = "test text document\r\n";
int size = sizeof(test_txt)-1;
struct archive_entry *ae;
struct archive *a;
extract_reference_file(reffile);
assert((a = archive_read_new()) != NULL);
assertA(0 == archive_read_support_filter_all(a));
assertA(0 == archive_read_support_format_all(a));
assertA(0 == archive_read_open_file(a, reffile, 10240));
/* 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);
/* Test EOF */
assertA(1 == archive_read_next_header(a, &ae));
assertEqualInt(1, archive_file_count(a));
assertEqualIntA(a, ARCHIVE_OK, archive_read_close(a));
assertEqualInt(ARCHIVE_OK, archive_read_free(a));
}
static void
test_symname()
{
const char *refname = "test_read_format_7zip_symbolic_name.7z";
struct archive_entry *ae;
struct archive *a;
char buff[128];
extract_reference_file(refname);
assert((a = archive_read_new()) != NULL);
assertEqualIntA(a, ARCHIVE_OK, archive_read_support_filter_all(a));
assertEqualIntA(a, ARCHIVE_OK, archive_read_support_format_all(a));
assertEqualIntA(a, ARCHIVE_OK,
archive_read_open_filename(a, refname, 10240));
/* Verify regular file1. */
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualInt((AE_IFREG | 0644), archive_entry_mode(ae));
assertEqualString("file1", archive_entry_pathname(ae));
assertEqualInt(86401, archive_entry_mtime(ae));
assertEqualInt(32, archive_entry_size(ae));
assertEqualInt(archive_entry_is_encrypted(ae), 0);
assertEqualIntA(a, archive_read_has_encrypted_entries(a), 0);
assertEqualInt(32, archive_read_data(a, buff, sizeof(buff)));
assertEqualMem(buff, "hellohellohello\nhellohellohello\n", 32);
/* Verify symbolic-linke symlinkfile. */
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualInt((AE_IFLNK | 0755), archive_entry_mode(ae));
assertEqualString("symlinkfile", archive_entry_pathname(ae));
assertEqualString("file1", archive_entry_symlink(ae));
assertEqualInt(86401, archive_entry_mtime(ae));
assertEqualInt(archive_entry_is_encrypted(ae), 0);
assertEqualIntA(a, archive_read_has_encrypted_entries(a), 0);
assertEqualInt(2, archive_file_count(a));
/* End of archive. */
assertEqualIntA(a, ARCHIVE_EOF, archive_read_next_header(a, &ae));
/* Verify archive format. */
assertEqualIntA(a, ARCHIVE_FILTER_NONE, archive_filter_code(a, 0));
assertEqualIntA(a, ARCHIVE_FORMAT_7ZIP, archive_format(a));
/* Close the archive. */
assertEqualInt(ARCHIVE_OK, archive_read_close(a));
assertEqualInt(ARCHIVE_OK, archive_read_free(a));
}
/*
* Extract a non-encoded file.
* The header of the 7z archive files is not encoded.
*/
static void
test_copy(int use_open_fd)
{
const char *refname = "test_read_format_7zip_copy.7z";
struct archive_entry *ae;
struct archive *a;
char buff[128];
int fd = -1;
extract_reference_file(refname);
assert((a = archive_read_new()) != NULL);
assertEqualIntA(a, ARCHIVE_OK, archive_read_support_filter_all(a));
assertEqualIntA(a, ARCHIVE_OK, archive_read_support_format_all(a));
if (use_open_fd) {
fd = open(refname, O_RDONLY | O_BINARY);
assertEqualIntA(a, ARCHIVE_OK,
archive_read_open_fd(a, fd, 10240));
} else {
assertEqualIntA(a, ARCHIVE_OK,
archive_read_open_filename(a, refname, 10240));
}
/* Verify regular file1. */
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualInt((AE_IFREG | 0666), archive_entry_mode(ae));
assertEqualString("file1", archive_entry_pathname(ae));
assertEqualInt(86401, archive_entry_mtime(ae));
assertEqualInt(60, archive_entry_size(ae));
assertEqualInt(archive_entry_is_encrypted(ae), 0);
assert(archive_read_has_encrypted_entries(a) > ARCHIVE_READ_FORMAT_ENCRYPTION_UNSUPPORTED);
assertEqualInt(60, archive_read_data(a, buff, sizeof(buff)));
assertEqualMem(buff, " ", 4);
assertEqualInt(1, archive_file_count(a));
/* End of archive. */
assertEqualIntA(a, ARCHIVE_EOF, archive_read_next_header(a, &ae));
/* Verify archive format. */
assertEqualIntA(a, ARCHIVE_FILTER_NONE, archive_filter_code(a, 0));
assertEqualIntA(a, ARCHIVE_FORMAT_7ZIP, archive_format(a));
/* Close the archive. */
assertEqualInt(ARCHIVE_OK, archive_read_close(a));
assertEqualInt(ARCHIVE_OK, archive_read_free(a));
if (fd != -1)
close(fd);
}
static void
test_large_splitted_file(void)
{
static const char *reffiles[] =
{
"test_read_large_splitted_rar_aa",
"test_read_large_splitted_rar_ab",
"test_read_large_splitted_rar_ac",
"test_read_large_splitted_rar_ad",
"test_read_large_splitted_rar_ae",
NULL
};
const char test_txt[] = "gin-bottom: 0in\"><BR>\n</P>\n</BODY>\n</HTML>";
int size = 241647978, offset = 0;
char buff[64];
struct archive_entry *ae;
struct archive *a;
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));
assertA(0 == archive_read_open_filenames(a, reffiles, 10240));
/* First header. */
assertA(0 == archive_read_next_header(a, &ae));
assertEqualString("ppmd_lzss_conversion_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(size, archive_entry_size(ae));
assertEqualInt(33188, archive_entry_mode(ae));
while (offset + (int)sizeof(buff) < size)
{
assertA(sizeof(buff) == archive_read_data(a, buff, sizeof(buff)));
offset += sizeof(buff);
}
assertA(size - offset == archive_read_data(a, buff, size - offset));
assertEqualMem(buff, test_txt, size - offset);
/* Test EOF */
assertA(1 == archive_read_next_header(a, &ae));
assertEqualInt(1, archive_file_count(a));
assertEqualIntA(a, ARCHIVE_OK, archive_read_close(a));
assertEqualInt(ARCHIVE_OK, archive_read_free(a));
}
/*
* Issue 185: Test a regression that got in between 2.6 and 2.7 that
* broke extraction of Zip entries with length-at-end.
*/
static void
test_compat_zip_3(void)
{
const char *refname = "test_compat_zip_3.zip";
struct archive_entry *ae;
struct archive *a;
extract_reference_file(refname);
assert((a = archive_read_new()) != NULL);
assertEqualIntA(a, ARCHIVE_OK, archive_read_support_filter_all(a));
assertEqualIntA(a, ARCHIVE_OK, archive_read_support_format_all(a));
assertEqualIntA(a, ARCHIVE_OK, archive_read_open_filename(a, refname, 10240));
/* First entry. */
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualString("soapui-4.0.0/", archive_entry_pathname(ae));
assertEqualInt(0, archive_entry_size(ae));
assert(archive_entry_size_is_set(ae));
assertEqualInt(AE_IFDIR, archive_entry_filetype(ae));
/* Second entry. */
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualString("soapui-4.0.0/soapui-settings.xml", archive_entry_pathname(ae));
assertEqualInt(AE_IFREG, archive_entry_filetype(ae));
assertEqualInt(1030, archive_entry_size(ae));
assert(archive_entry_size_is_set(ae));
/* Extract under a different name. */
archive_entry_set_pathname(ae, "test_3.txt");
if(libz_enabled) {
char *p;
size_t s;
assertEqualIntA(a, ARCHIVE_OK, archive_read_extract(a, ae, 0));
/* Verify the first 12 bytes actually got written to disk correctly. */
p = slurpfile(&s, "test_3.txt");
assertEqualInt(s, 1030);
assertEqualMem(p, "<?xml versio", 12);
free(p);
} else {
skipping("Skipping ZIP compression check, no libz support");
}
assertEqualIntA(a, ARCHIVE_EOF, archive_read_next_header(a, &ae));
assertEqualIntA(a, ARCHIVE_OK, archive_read_close(a));
assertEqualIntA(a, ARCHIVE_OK, archive_read_free(a));
}
/*
* Verify that CP932/SJIS filenames are correctly translated to Unicode and UTF-8.
*/
static void
test_pax_filename_encoding_CP932(void)
{
struct archive *a;
struct archive_entry *entry;
char buff[4096];
size_t used;
if (NULL == setlocale(LC_ALL, "Japanese_Japan") &&
NULL == setlocale(LC_ALL, "ja_JP.SJIS")) {
skipping("eucJP locale not available on this system.");
return;
}
/* Check if the paltform completely supports the string conversion. */
a = archive_write_new();
assertEqualInt(ARCHIVE_OK, archive_write_set_format_pax(a));
if (archive_write_set_options(a, "hdrcharset=UTF-8") != ARCHIVE_OK) {
skipping("This system cannot convert character-set"
" from CP932/SJIS to UTF-8.");
archive_write_free(a);
return;
}
archive_write_free(a);
/* Re-create a write archive object since filenames should be written
* in UTF-8 by default. */
a = archive_write_new();
assertEqualInt(ARCHIVE_OK, archive_write_set_format_pax(a));
assertEqualInt(ARCHIVE_OK,
archive_write_open_memory(a, buff, sizeof(buff), &used));
entry = archive_entry_new2(a);
archive_entry_set_pathname(entry, "\x95\x5C.txt");
/* Check the Unicode version. */
archive_entry_set_filetype(entry, AE_IFREG);
archive_entry_set_size(entry, 0);
assertEqualInt(ARCHIVE_OK, archive_write_header(a, entry));
archive_entry_free(entry);
assertEqualInt(ARCHIVE_OK, archive_write_free(a));
/* Check UTF-8 version. */
assertEqualMem(buff + 512, "16 path=\xE8\xA1\xA8.txt\x0A", 16);
}
/*
* Verify that CP1251 filenames are correctly translated to Unicode and UTF-8.
*/
static void
test_pax_filename_encoding_CP1251(void)
{
struct archive *a;
struct archive_entry *entry;
char buff[4096];
size_t used;
if (NULL == setlocale(LC_ALL, "Russian_Russia") &&
NULL == setlocale(LC_ALL, "ru_RU.CP1251")) {
skipping("KOI8-R locale not available on this system.");
return;
}
/* Check if the paltform completely supports the string conversion. */
a = archive_write_new();
assertEqualInt(ARCHIVE_OK, archive_write_set_format_pax(a));
if (archive_write_set_options(a, "hdrcharset=UTF-8") != ARCHIVE_OK) {
skipping("This system cannot convert character-set"
" from KOI8-R to UTF-8.");
archive_write_free(a);
return;
}
archive_write_free(a);
/* Re-create a write archive object since filenames should be written
* in UTF-8 by default. */
a = archive_write_new();
assertEqualInt(ARCHIVE_OK, archive_write_set_format_pax(a));
assertEqualInt(ARCHIVE_OK,
archive_write_open_memory(a, buff, sizeof(buff), &used));
entry = archive_entry_new2(a);
archive_entry_set_pathname(entry, "\xef\xf0\xe8");
archive_entry_set_filetype(entry, AE_IFREG);
archive_entry_set_size(entry, 0);
assertEqualInt(ARCHIVE_OK, archive_write_header(a, entry));
archive_entry_free(entry);
assertEqualInt(ARCHIVE_OK, archive_write_free(a));
/* Above three characters in KOI8-R should translate to the following
* three characters (two bytes each) in UTF-8. */
assertEqualMem(buff + 512, "15 path=\xD0\xBF\xD1\x80\xD0\xB8\x0A", 15);
}
/*
* Sample file was created with:
* echo file0 | zip
* Info-Zip uses Zip64 extensions in this case.
*/
static void
verify_file0_seek(struct archive *a)
{
struct archive_entry *ae;
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualString("-", archive_entry_pathname(ae));
assertEqualInt(AE_IFREG | 0660, archive_entry_mode(ae));
assertEqualInt(6, archive_entry_size(ae));
#ifdef HAVE_ZLIB_H
{
char data[16];
assertEqualIntA(a, 6, archive_read_data(a, data, 16));
assertEqualMem(data, "file0\x0a", 6);
}
#endif
assertEqualIntA(a, ARCHIVE_EOF, archive_read_next_header(a, &ae));
assertEqualIntA(a, ARCHIVE_OK, archive_read_close(a));
assertEqualIntA(a, ARCHIVE_OK, archive_read_free(a));
}
static void verify0(struct archive *a, struct archive_entry *ae)
{
const void *p;
size_t size;
int64_t offset;
assert(archive_entry_filetype(ae) == AE_IFREG);
assertEqualInt(archive_entry_mode(ae) & 0777, 0644);
assertEqualInt(archive_entry_uid(ae), UID);
assertEqualInt(archive_entry_gid(ae), GID);
assertEqualString(archive_entry_uname(ae), UNAME);
assertEqualString(archive_entry_gname(ae), GNAME);
assertEqualString(archive_entry_pathname(ae), "f1");
assert(archive_entry_hardlink(ae) == NULL);
assert(archive_entry_symlink(ae) == NULL);
assertEqualInt(archive_entry_mtime(ae), 86401);
assertEqualInt(archive_entry_size(ae), 16);
assertEqualInt(archive_read_data_block(a, &p, &size, &offset), 0);
assertEqualInt((int)size, 16);
assertEqualInt((int)offset, 0);
assertEqualMem(p, "hellohellohello\n", 16);
}
/*
* Read Info-ZIP New Unix Extra Field 0x7875 "ux".
* Currently stores Unix UID/GID up to 32 bits.
*/
static void
verify_info_zip_ux(struct archive *a, int seek_checks)
{
struct archive_entry *ae;
char *buff[128];
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualString("file1", archive_entry_pathname(ae));
assertEqualInt(1300668680, archive_entry_mtime(ae));
assertEqualInt(18, archive_entry_size(ae));
assertEqualInt(archive_entry_is_encrypted(ae), 0);
assertEqualIntA(a, archive_read_has_encrypted_entries(a), 0);
if (seek_checks)
assertEqualInt(AE_IFREG | 0644, archive_entry_mode(ae));
failure("zip reader should read Info-ZIP New Unix Extra Field");
assertEqualInt(1001, archive_entry_uid(ae));
assertEqualInt(1001, archive_entry_gid(ae));
if (archive_zlib_version() != NULL) {
failure("archive_read_data() returns number of bytes read");
assertEqualInt(18, archive_read_data(a, buff, 19));
assertEqualMem(buff, "hello\nhello\nhello\n", 18);
} else {
assertEqualInt(ARCHIVE_FAILED, archive_read_data(a, buff, 19));
assertEqualString(archive_error_string(a),
"Unsupported ZIP compression method (deflation)");
assert(archive_errno(a) != 0);
}
assertEqualIntA(a, ARCHIVE_EOF, archive_read_next_header(a, &ae));
/* Verify the number of files read. */
failure("the archive file has just one file");
assertEqualInt(1, archive_file_count(a));
assertEqualIntA(a, ARCHIVE_FILTER_NONE, archive_filter_code(a, 0));
assertEqualIntA(a, ARCHIVE_FORMAT_ZIP, archive_format(a));
assertEqualIntA(a, ARCHIVE_OK, archive_read_close(a));
assertEqualInt(ARCHIVE_OK, archive_read_free(a));
}
/* This test is for sufficiently large files that would have been compressed
* using multiple lzss blocks.
*/
static void
test_multi_lzss_blocks(void)
{
const char reffile[] = "test_read_format_rar_multi_lzss_blocks.rar";
const char test_txt[] = "-bottom: 0in\"><BR>\n</P>\n</BODY>\n</HTML>";
int size = 20131111, offset = 0;
char buff[64];
struct archive_entry *ae;
struct archive *a;
extract_reference_file(reffile);
assert((a = archive_read_new()) != NULL);
assertA(0 == archive_read_support_filter_all(a));
assertA(0 == archive_read_support_format_all(a));
assertA(0 == archive_read_open_file(a, reffile, 10240));
/* First header. */
assertA(0 == archive_read_next_header(a, &ae));
assertEqualString("multi_lzss_blocks_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(size, archive_entry_size(ae));
assertEqualInt(33188, archive_entry_mode(ae));
while (offset + (int)sizeof(buff) < size)
{
assertA(sizeof(buff) == archive_read_data(a, buff, sizeof(buff)));
offset += sizeof(buff);
}
assertA(size - offset == archive_read_data(a, buff, size - offset));
assertEqualMem(buff, test_txt, size - offset);
/* Test EOF */
assertA(1 == archive_read_next_header(a, &ae));
assertEqualInt(1, archive_file_count(a));
assertEqualIntA(a, ARCHIVE_OK, archive_read_close(a));
assertEqualInt(ARCHIVE_OK, archive_read_free(a));
}
/*
* Extract an encoded file.
* The header of the 7z archive files is not encoded.
*/
static void
test_plain_header(const char *refname)
{
struct archive_entry *ae;
struct archive *a;
char buff[128];
extract_reference_file(refname);
assert((a = archive_read_new()) != NULL);
assertEqualIntA(a, ARCHIVE_OK, archive_read_support_filter_all(a));
assertEqualIntA(a, ARCHIVE_OK, archive_read_support_format_all(a));
assertEqualIntA(a, ARCHIVE_OK,
archive_read_open_filename(a, refname, 10240));
/* Verify regular file1. */
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualInt((AE_IFREG | 0644), archive_entry_mode(ae));
assertEqualString("file1", archive_entry_pathname(ae));
assertEqualInt(1322058763, archive_entry_mtime(ae));
assertEqualInt(2844, archive_entry_size(ae));
assertEqualInt(archive_entry_is_encrypted(ae), 0);
assertEqualIntA(a, archive_read_has_encrypted_entries(a), 0);
assertEqualInt(sizeof(buff), archive_read_data(a, buff, sizeof(buff)));
assertEqualMem(buff, "The libarchive distribution ", 28);
assertEqualInt(1, archive_file_count(a));
/* End of archive. */
assertEqualIntA(a, ARCHIVE_EOF, archive_read_next_header(a, &ae));
/* Verify archive format. */
assertEqualIntA(a, ARCHIVE_FILTER_NONE, archive_filter_code(a, 0));
assertEqualIntA(a, ARCHIVE_FORMAT_7ZIP, archive_format(a));
/* Close the archive. */
assertEqualInt(ARCHIVE_OK, archive_read_close(a));
assertEqualInt(ARCHIVE_OK, archive_read_free(a));
}
/*
* Do not translate CP1251 into CP866 if non Windows platform.
*/
static void
test_zip_filename_encoding_ru_RU_CP1251(void)
{
struct archive *a;
struct archive_entry *entry;
char buff[4096];
size_t used;
if (NULL == setlocale(LC_ALL, "ru_RU.CP1251")) {
skipping("Russian_Russia locale not available on this system.");
return;
}
/*
* Verify that CP1251 filenames are not translated into any
* other character-set, in particular, CP866.
*/
a = archive_write_new();
assertEqualInt(ARCHIVE_OK, archive_write_set_format_zip(a));
assertEqualInt(ARCHIVE_OK,
archive_write_open_memory(a, buff, sizeof(buff), &used));
entry = archive_entry_new2(a);
/* Set a CP1251 filename. */
archive_entry_set_pathname(entry, "\xEF\xF0\xE8");
archive_entry_set_filetype(entry, AE_IFREG);
archive_entry_set_size(entry, 0);
assertEqualInt(ARCHIVE_OK, archive_write_header(a, entry));
archive_entry_free(entry);
assertEqualInt(ARCHIVE_OK, archive_write_free(a));
/* A bit 11 of general purpose flag should be 0,
* which indicates the filename charset is unknown. */
assertEqualInt(0, buff[7]);
/* Above three characters in CP1251 should not translate into
* any other character-set. */
assertEqualMem(buff + 30, "\xEF\xF0\xE8", 3);
}
/*
* Extract a non-encoded file.
* The header of the 7z archive files is not encoded.
*/
static void
test_copy()
{
const char *refname = "test_read_format_7zip_copy.7z";
struct archive_entry *ae;
struct archive *a;
char buff[128];
extract_reference_file(refname);
assert((a = archive_read_new()) != NULL);
assertEqualIntA(a, ARCHIVE_OK, archive_read_support_filter_all(a));
assertEqualIntA(a, ARCHIVE_OK, archive_read_support_format_all(a));
assertEqualIntA(a, ARCHIVE_OK,
archive_read_open_filename(a, refname, 10240));
/* Verify regular file1. */
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualInt((AE_IFREG | 0666), archive_entry_mode(ae));
assertEqualString("file1", archive_entry_pathname(ae));
assertEqualInt(86401, archive_entry_mtime(ae));
assertEqualInt(60, archive_entry_size(ae));
assertEqualInt(60, archive_read_data(a, buff, sizeof(buff)));
assertEqualMem(buff, " ", 4);
assertEqualInt(1, archive_file_count(a));
/* End of archive. */
assertEqualIntA(a, ARCHIVE_EOF, archive_read_next_header(a, &ae));
/* Verify archive format. */
assertEqualIntA(a, ARCHIVE_FILTER_NONE, archive_filter_code(a, 0));
assertEqualIntA(a, ARCHIVE_FORMAT_7ZIP, archive_format(a));
/* Close the archive. */
assertEqualInt(ARCHIVE_OK, archive_read_close(a));
assertEqualInt(ARCHIVE_OK, archive_read_free(a));
}
static void
test_unicode_UTF8(void)
{
char buff[30];
const char reffile[] = "test_read_format_rar_unicode.rar";
const char test_txt[] = "kanji";
struct archive_entry *ae;
struct archive *a;
if (NULL == setlocale(LC_ALL, "en_US.UTF-8")) {
skipping("en_US.UTF-8 locale not available on this system.");
return;
}
extract_reference_file(reffile);
assert((a = archive_read_new()) != NULL);
assertA(0 == archive_read_support_filter_all(a));
assertA(0 == archive_read_support_format_all(a));
assertA(0 == archive_read_open_file(a, reffile, 10240));
/* First header. */
assertA(0 == archive_read_next_header(a, &ae));
#if defined(__APPLE__)
#define f1name "\xE8\xA1\xA8\xE3\x81\x9F\xE3\x82\x99\xE3\x82\x88/"\
"\xE6\x96\xB0\xE3\x81\x97\xE3\x81\x84\xE3\x83\x95\xE3\x82\xA9"\
"\xE3\x83\xAB\xE3\x82\xBF\xE3\x82\x99/\xE6\x96\xB0\xE8\xA6\x8F"\
"\xE3\x83\x86\xE3\x82\xAD\xE3\x82\xB9\xE3\x83\x88 "\
"\xE3\x83\x88\xE3\x82\x99\xE3\x82\xAD\xE3\x83\xA5\xE3\x83\xA1"\
"\xE3\x83\xB3\xE3\x83\x88.txt" /* NFD */
#else
#define f1name "\xE8\xA1\xA8\xE3\x81\xA0\xE3\x82\x88/"\
"\xE6\x96\xB0\xE3\x81\x97\xE3\x81\x84\xE3\x83\x95\xE3\x82\xA9"\
"\xE3\x83\xAB\xE3\x83\x80/\xE6\x96\xB0\xE8\xA6\x8F"\
"\xE3\x83\x86\xE3\x82\xAD\xE3\x82\xB9\xE3\x83\x88 "\
"\xE3\x83\x89\xE3\x82\xAD\xE3\x83\xA5\xE3\x83\xA1"\
"\xE3\x83\xB3\xE3\x83\x88.txt" /* NFC */
#endif
assertEqualUTF8String(f1name, archive_entry_pathname(ae));
assertA((int)archive_entry_mtime(ae));
assertEqualInt(0, archive_entry_size(ae));
assertEqualInt(33188, archive_entry_mode(ae));
/* Second header. */
assertA(0 == archive_read_next_header(a, &ae));
#if defined(__APPLE__)
#define f2name "\xE8\xA1\xA8\xE3\x81\x9F\xE3\x82\x99\xE3\x82\x88/"\
"\xE6\xBC\xA2\xE5\xAD\x97\xE9\x95\xB7\xE3\x81\x84\xE3\x83\x95"\
"\xE3\x82\xA1\xE3\x82\xA4\xE3\x83\xAB\xE5\x90\x8Dlong-filename-in-"\
"\xE6\xBC\xA2\xE5\xAD\x97.txt" /* NFD */
#else
#define f2name "\xE8\xA1\xA8\xE3\x81\xA0\xE3\x82\x88/"\
"\xE6\xBC\xA2\xE5\xAD\x97\xE9\x95\xB7\xE3\x81\x84\xE3\x83\x95"\
"\xE3\x82\xA1\xE3\x82\xA4\xE3\x83\xAB\xE5\x90\x8Dlong-filename-in-"\
"\xE6\xBC\xA2\xE5\xAD\x97.txt" /* NFC */
#endif
assertEqualUTF8String(f2name, archive_entry_pathname(ae));
assertA((int)archive_entry_mtime(ae));
assertEqualInt(5, archive_entry_size(ae));
assertEqualInt(33188, archive_entry_mode(ae));
assertEqualIntA(a, 5, archive_read_data(a, buff, 5));
assertEqualMem(buff, test_txt, 5);
/* Third header. */
assertA(0 == archive_read_next_header(a, &ae));
#if defined(__APPLE__)
#define f3name "\xE8\xA1\xA8\xE3\x81\x9F\xE3\x82\x99\xE3\x82\x88/"\
"\xE6\x96\xB0\xE3\x81\x97\xE3\x81\x84\xE3\x83\x95\xE3\x82"\
"\xA9\xE3\x83\xAB\xE3\x82\xBF\xE3\x82\x99" /* NFD */
#else
#define f3name "\xE8\xA1\xA8\xE3\x81\xA0\xE3\x82\x88/"\
"\xE6\x96\xB0\xE3\x81\x97\xE3\x81\x84\xE3\x83\x95\xE3\x82"\
"\xA9\xE3\x83\xAB\xE3\x83\x80" /* NFC */
#endif
assertEqualUTF8String(f3name, archive_entry_pathname(ae));
assertA((int)archive_entry_mtime(ae));
assertEqualInt(0, archive_entry_size(ae));
assertEqualInt(16877, archive_entry_mode(ae));
/* Fourth header. */
assertA(0 == archive_read_next_header(a, &ae));
#if defined(__APPLE__)
#define f4name "\xE8\xA1\xA8\xE3\x81\x9F\xE3\x82\x99\xE3\x82\x88" /* NFD */
#else
#define f4name "\xE8\xA1\xA8\xE3\x81\xA0\xE3\x82\x88" /* NFC */
#endif
assertEqualUTF8String(f4name, archive_entry_pathname(ae));
assertA((int)archive_entry_mtime(ae));
assertEqualInt(0, archive_entry_size(ae));
assertEqualInt(16877, archive_entry_mode(ae));
/* Fifth header, which has a symbolic-link name in multi-byte characters. */
assertA(0 == archive_read_next_header(a, &ae));
#if defined(__APPLE__)
#define f5name "\xE8\xA1\xA8\xE3\x81\x9F\xE3\x82\x99\xE3\x82\x88/"\
"\xE3\x83\x95\xE3\x82\xA1\xE3\x82\xA4\xE3\x83\xAB" /* NFD */
#else
#define f5name "\xE8\xA1\xA8\xE3\x81\xA0\xE3\x82\x88/"\
"\xE3\x83\x95\xE3\x82\xA1\xE3\x82\xA4\xE3\x83\xAB" /* NFC */
#endif
assertEqualUTF8String(f5name, archive_entry_pathname(ae));
assertEqualUTF8String(
"\xE6\xBC\xA2\xE5\xAD\x97\xE9\x95\xB7\xE3\x81\x84\xE3\x83\x95"
"\xE3\x82\xA1\xE3\x82\xA4\xE3\x83\xAB\xE5\x90\x8Dlong-filename-in-"
"\xE6\xBC\xA2\xE5\xAD\x97.txt", archive_entry_symlink(ae));
assertA((int)archive_entry_mtime(ae));
assertEqualInt(0, archive_entry_size(ae));
assertEqualInt(41453, archive_entry_mode(ae));
assertEqualIntA(a, 0, archive_read_data(a, buff, sizeof(buff)));
/* 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));
}
static void
test_unicode_CP932(void)
{
char buff[30];
const char reffile[] = "test_read_format_rar_unicode.rar";
const char test_txt[] = "kanji";
struct archive_entry *ae;
struct archive *a;
if (NULL == setlocale(LC_ALL, "Japanese_Japan") &&
NULL == setlocale(LC_ALL, "ja_JP.SJIS")) {
skipping("CP932 locale not available on this system.");
return;
}
extract_reference_file(reffile);
assert((a = archive_read_new()) != NULL);
assertA(0 == archive_read_support_filter_all(a));
assertA(0 == archive_read_support_format_all(a));
/* Specify the charset of symbolic-link file name. */
if (ARCHIVE_OK != archive_read_set_options(a, "rar:hdrcharset=UTF-8")) {
skipping("This system cannot convert character-set"
" from UTF-8 to CP932.");
assertEqualInt(ARCHIVE_OK, archive_read_free(a));
return;
}
assertA(0 == archive_read_open_file(a, reffile, 10240));
/* First header. */
assertA(0 == archive_read_next_header(a, &ae));
assertEqualString("\x95\x5c\x82\xbe\x82\xe6/\x90\x56\x82\xb5\x82\xa2"
"\x83\x74\x83\x48\x83\x8b\x83\x5f/\x90\x56\x8b\x4b\x83\x65\x83\x4c"
"\x83\x58\x83\x67 \x83\x68\x83\x4c\x83\x85\x83\x81\x83\x93\x83\x67.txt",
archive_entry_pathname(ae));
assertA((int)archive_entry_mtime(ae));
assertEqualInt(0, archive_entry_size(ae));
assertEqualInt(33188, archive_entry_mode(ae));
/* Second header. */
assertA(0 == archive_read_next_header(a, &ae));
assertEqualString("\x95\x5c\x82\xbe\x82\xe6/\x8a\xbf\x8e\x9a"
"\x92\xb7\x82\xa2\x83\x74\x83\x40\x83\x43\x83\x8b\x96\xbc\x6c"
"\x6f\x6e\x67\x2d\x66\x69\x6c\x65\x6e\x61\x6d\x65\x2d\x69\x6e"
"\x2d\x8a\xbf\x8e\x9a.txt", archive_entry_pathname(ae));
assertA((int)archive_entry_mtime(ae));
assertEqualInt(5, archive_entry_size(ae));
assertEqualInt(33188, archive_entry_mode(ae));
assertA(5 == archive_read_data(a, buff, 5));
assertEqualMem(buff, test_txt, 5);
/* Third header. */
assertA(0 == archive_read_next_header(a, &ae));
assertEqualString("\x95\x5c\x82\xbe\x82\xe6/"
"\x90\x56\x82\xb5\x82\xa2\x83\x74\x83\x48\x83\x8b\x83\x5f",
archive_entry_pathname(ae));
assertA((int)archive_entry_mtime(ae));
assertEqualInt(0, archive_entry_size(ae));
assertEqualInt(16877, archive_entry_mode(ae));
/* Fourth header. */
assertA(0 == archive_read_next_header(a, &ae));
assertEqualString("\x95\x5c\x82\xbe\x82\xe6", archive_entry_pathname(ae));
assertA((int)archive_entry_mtime(ae));
assertEqualInt(0, archive_entry_size(ae));
assertEqualInt(16877, archive_entry_mode(ae));
/* Fifth header, which has a symbolic-link name in multi-byte characters. */
assertA(0 == archive_read_next_header(a, &ae));
assertEqualString("\x95\x5c\x82\xbe\x82\xe6/"
"\x83\x74\x83\x40\x83\x43\x83\x8B", archive_entry_pathname(ae));
assertEqualString("\x8a\xbf\x8e\x9a"
"\x92\xb7\x82\xa2\x83\x74\x83\x40\x83\x43\x83\x8b\x96\xbc\x6c"
"\x6f\x6e\x67\x2d\x66\x69\x6c\x65\x6e\x61\x6d\x65\x2d\x69\x6e"
"\x2d\x8a\xbf\x8e\x9a.txt", archive_entry_symlink(ae));
assertA((int)archive_entry_mtime(ae));
assertEqualInt(0, archive_entry_size(ae));
assertEqualInt(41453, archive_entry_mode(ae));
assertEqualIntA(a, 0, archive_read_data(a, buff, sizeof(buff)));
/* 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));
}
/*
* Apple shipped a customized version of bsdtar starting with MacOS 10.6.
*/
static void
test_compat_mac_2(void)
{
char name[] = "test_compat_mac-2.tar.Z";
struct archive_entry *ae;
struct archive *a;
const void *attr;
size_t attrSize;
assert((a = archive_read_new()) != NULL);
assertEqualIntA(a, ARCHIVE_OK, archive_read_support_filter_all(a));
assertEqualIntA(a, ARCHIVE_OK, archive_read_support_format_all(a));
extract_reference_file(name);
assertEqualIntA(a, ARCHIVE_OK, archive_read_open_filename(a, name, 10240));
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualString("./", archive_entry_pathname(ae));
assertEqualInt(1303628303, archive_entry_mtime(ae));
assertEqualInt(501, archive_entry_uid(ae));
assertEqualString("tim", archive_entry_uname(ae));
assertEqualInt(20, archive_entry_gid(ae));
assertEqualString("staff", archive_entry_gname(ae));
assertEqualInt(040755, archive_entry_mode(ae));
attr = archive_entry_mac_metadata(ae, &attrSize);
assert(attr == NULL);
assertEqualInt(0, attrSize);
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualString("./mydir/", archive_entry_pathname(ae));
assertEqualInt(1303628303, archive_entry_mtime(ae));
assertEqualInt(501, archive_entry_uid(ae));
assertEqualString("tim", archive_entry_uname(ae));
assertEqualInt(20, archive_entry_gid(ae));
assertEqualString("staff", archive_entry_gname(ae));
assertEqualInt(040755, archive_entry_mode(ae));
attr = archive_entry_mac_metadata(ae, &attrSize);
assert(attr != NULL);
assertEqualInt(267, attrSize);
assertEqualMem("\x00\x05\x16\x07\x00\x02\x00\x00Mac OS X", attr, 16);
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualString("./myfile", archive_entry_pathname(ae));
assertEqualInt(1303628303, archive_entry_mtime(ae));
assertEqualInt(501, archive_entry_uid(ae));
assertEqualString("tim", archive_entry_uname(ae));
assertEqualInt(20, archive_entry_gid(ae));
assertEqualString("staff", archive_entry_gname(ae));
assertEqualInt(0100644, archive_entry_mode(ae));
attr = archive_entry_mac_metadata(ae, &attrSize);
assert(attr != NULL);
assertEqualInt(267, attrSize);
assertEqualMem("\x00\x05\x16\x07\x00\x02\x00\x00Mac OS X", attr, 16);
/* Verify the end-of-archive. */
assertEqualIntA(a, ARCHIVE_EOF, archive_read_next_header(a, &ae));
/* Verify that the format detection worked. */
assertEqualInt(archive_filter_code(a, 0), ARCHIVE_FILTER_COMPRESS);
assertEqualInt(archive_format(a), ARCHIVE_FORMAT_TAR_USTAR);
assertEqualInt(ARCHIVE_OK, archive_read_close(a));
assertEqualInt(ARCHIVE_OK, archive_read_free(a));
}
/*
* Write a file using archive_write_data call, read the file
* back and verify the contents. The data written includes large
* blocks of nulls, so it should exercise the sparsification logic
* if ARCHIVE_EXTRACT_SPARSE is enabled.
*/
static void
verify_write_data(struct archive *a, int sparse)
{
static const char data[]="abcdefghijklmnopqrstuvwxyz";
struct stat st;
struct archive_entry *ae;
size_t buff_size = 64 * 1024;
char *buff, *p;
const char *msg = sparse ? "sparse" : "non-sparse";
FILE *f;
buff = malloc(buff_size);
assert(buff != NULL);
ae = archive_entry_new();
assert(ae != NULL);
archive_entry_set_size(ae, 8 * buff_size);
archive_entry_set_pathname(ae, "test_write_data");
archive_entry_set_mode(ae, AE_IFREG | 0755);
assertEqualIntA(a, 0, archive_write_header(a, ae));
/* Use archive_write_data() to write three relatively sparse blocks. */
/* First has non-null data at beginning. */
memset(buff, 0, buff_size);
memcpy(buff, data, sizeof(data));
failure("%s", msg);
assertEqualInt(buff_size, archive_write_data(a, buff, buff_size));
/* Second has non-null data in the middle. */
memset(buff, 0, buff_size);
memcpy(buff + buff_size / 2 - 3, data, sizeof(data));
failure("%s", msg);
assertEqualInt(buff_size, archive_write_data(a, buff, buff_size));
/* Third has non-null data at the end. */
memset(buff, 0, buff_size);
memcpy(buff + buff_size - sizeof(data), data, sizeof(data));
failure("%s", msg);
assertEqualInt(buff_size, archive_write_data(a, buff, buff_size));
failure("%s", msg);
assertEqualIntA(a, 0, archive_write_finish_entry(a));
/* Test the entry on disk. */
assert(0 == stat(archive_entry_pathname(ae), &st));
assertEqualInt(st.st_size, 8 * buff_size);
f = fopen(archive_entry_pathname(ae), "rb");
if (!assert(f != NULL))
return;
/* Check first block. */
assertEqualInt(buff_size, fread(buff, 1, buff_size, f));
failure("%s", msg);
assertEqualMem(buff, data, sizeof(data));
for (p = buff + sizeof(data); p < buff + buff_size; ++p) {
failure("offset: %d, %s", (int)(p - buff), msg);
if (!assertEqualInt(0, *p))
break;
}
/* Check second block. */
assertEqualInt(buff_size, fread(buff, 1, buff_size, f));
for (p = buff; p < buff + buff_size; ++p) {
failure("offset: %d, %s", (int)(p - buff), msg);
if (p == buff + buff_size / 2 - 3) {
assertEqualMem(p, data, sizeof(data));
p += sizeof(data);
} else if (!assertEqualInt(0, *p))
break;
}
/* Check third block. */
assertEqualInt(buff_size, fread(buff, 1, buff_size, f));
for (p = buff; p < buff + buff_size - sizeof(data); ++p) {
failure("offset: %d, %s", (int)(p - buff), msg);
if (!assertEqualInt(0, *p))
break;
}
failure("%s", msg);
assertEqualMem(buff + buff_size - sizeof(data), data, sizeof(data));
/* XXX more XXX */
assertEqualInt(0, fclose(f));
archive_entry_free(ae);
free(buff);
}
static void
verify_contents(struct archive *a, int expect_details)
{
char filedata[64];
struct archive_entry *ae;
/*
* Read and verify first file.
*/
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualInt(1, archive_entry_mtime(ae));
/* Zip doesn't store high-resolution mtime. */
assertEqualInt(0, archive_entry_mtime_nsec(ae));
assertEqualInt(0, archive_entry_atime(ae));
assertEqualInt(0, archive_entry_ctime(ae));
assertEqualString("file", archive_entry_pathname(ae));
if (expect_details) {
assertEqualInt(AE_IFREG | 0755, archive_entry_mode(ae));
assertEqualInt(8, archive_entry_size(ae));
} else {
assertEqualInt(0, archive_entry_size(ae));
}
assertEqualIntA(a, 8,
archive_read_data(a, filedata, sizeof(filedata)));
assertEqualMem(filedata, "12345678", 8);
/*
* Read the second file back.
*/
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualInt(1, archive_entry_mtime(ae));
assertEqualInt(0, archive_entry_mtime_nsec(ae));
assertEqualInt(0, archive_entry_atime(ae));
assertEqualInt(0, archive_entry_ctime(ae));
assertEqualString("file2", archive_entry_pathname(ae));
if (expect_details) {
assertEqualInt(AE_IFREG | 0755, archive_entry_mode(ae));
assertEqualInt(4, archive_entry_size(ae));
} else {
assertEqualInt(0, archive_entry_size(ae));
}
assertEqualIntA(a, 4,
archive_read_data(a, filedata, sizeof(filedata)));
assertEqualMem(filedata, "1234", 4);
/*
* Read the third file back.
*/
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualInt(1, archive_entry_mtime(ae));
assertEqualInt(0, archive_entry_mtime_nsec(ae));
assertEqualInt(0, archive_entry_atime(ae));
assertEqualInt(0, archive_entry_ctime(ae));
assertEqualString("symlink", archive_entry_pathname(ae));
if (expect_details) {
assertEqualInt(AE_IFLNK | 0755, archive_entry_mode(ae));
assertEqualInt(0, archive_entry_size(ae));
assertEqualString("file1", archive_entry_symlink(ae));
} else {
assertEqualInt(AE_IFREG | 0777, archive_entry_mode(ae));
assertEqualInt(0, archive_entry_size(ae));
}
/*
* Read the dir entry back.
*/
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualInt(11, archive_entry_mtime(ae));
assertEqualInt(0, archive_entry_mtime_nsec(ae));
assertEqualInt(0, archive_entry_atime(ae));
assertEqualInt(0, archive_entry_ctime(ae));
assertEqualString("dir/", archive_entry_pathname(ae));
if (expect_details)
assertEqualInt(AE_IFDIR | 0755, archive_entry_mode(ae));
assertEqualInt(0, archive_entry_size(ae));
assertEqualIntA(a, 0, archive_read_data(a, filedata, 10));
/* Verify the end of the archive. */
assertEqualIntA(a, ARCHIVE_EOF, archive_read_next_header(a, &ae));
assertEqualInt(ARCHIVE_OK, archive_read_close(a));
assertEqualInt(ARCHIVE_OK, archive_read_free(a));
}
static void
test_1(void)
{
struct archive_entry *ae;
struct archive *a;
size_t used;
size_t blocksize;
int64_t offset, length;
char *buff2;
size_t buff2_size = 0x13000;
char buff3[1024];
long i;
assert((buff2 = malloc(buff2_size)) != NULL);
/* Repeat the following for a variety of odd blocksizes. */
for (blocksize = 1; blocksize < 100000; blocksize += blocksize + 3) {
/* Create a new archive in memory. */
assert((a = archive_write_new()) != NULL);
assertEqualIntA(a, ARCHIVE_OK,
archive_write_set_format_pax(a));
assertEqualIntA(a, ARCHIVE_OK,
archive_write_set_compression_none(a));
assertEqualIntA(a, ARCHIVE_OK,
archive_write_set_bytes_per_block(a, (int)blocksize));
assertEqualIntA(a, ARCHIVE_OK,
archive_write_set_bytes_in_last_block(a, (int)blocksize));
assertEqualInt(blocksize,
archive_write_get_bytes_in_last_block(a));
assertEqualIntA(a, ARCHIVE_OK,
archive_write_open_memory(a, buff, sizeof(buff), &used));
assertEqualInt(blocksize,
archive_write_get_bytes_in_last_block(a));
/*
* Write a file to it.
*/
assert((ae = archive_entry_new()) != NULL);
archive_entry_set_mtime(ae, 1, 10);
assertEqualInt(1, archive_entry_mtime(ae));
assertEqualInt(10, archive_entry_mtime_nsec(ae));
archive_entry_copy_pathname(ae, "file");
assertEqualString("file", archive_entry_pathname(ae));
archive_entry_set_mode(ae, S_IFREG | 0755);
assertEqualInt(S_IFREG | 0755, archive_entry_mode(ae));
archive_entry_set_size(ae, 0x81000);
archive_entry_sparse_add_entry(ae, 0x10000, 0x1000);
archive_entry_sparse_add_entry(ae, 0x80000, 0x1000);
assertEqualIntA(a, ARCHIVE_OK, archive_write_header(a, ae));
archive_entry_free(ae);
memset(buff2, 'a', buff2_size);
for (i = 0; i < 0x81000;) {
size_t ws = buff2_size;
if (i + ws > 0x81000)
ws = 0x81000 - i;
assertEqualInt(ws,
archive_write_data(a, buff2, ws));
i += ws;
}
/* Close out the archive. */
assertEqualIntA(a, ARCHIVE_OK, archive_write_close(a));
assertEqualInt(ARCHIVE_OK, archive_write_free(a));
/* This calculation gives "the smallest multiple of
* the block size that is at least 11264 bytes". */
failure("blocksize=%d", blocksize);
assertEqualInt(((11264 - 1)/blocksize+1)*blocksize, used);
/*
* Now, read the data back.
*/
assert((a = archive_read_new()) != NULL);
assertEqualIntA(a, ARCHIVE_OK,
archive_read_support_format_all(a));
assertEqualIntA(a, ARCHIVE_OK,
archive_read_support_filter_all(a));
assertEqualIntA(a, ARCHIVE_OK,
archive_read_open_memory(a, buff, used));
assertEqualIntA(a, ARCHIVE_OK,
archive_read_next_header(a, &ae));
assertEqualInt(1, archive_entry_mtime(ae));
assertEqualInt(10, archive_entry_mtime_nsec(ae));
assertEqualInt(0, archive_entry_atime(ae));
assertEqualInt(0, archive_entry_ctime(ae));
assertEqualString("file", archive_entry_pathname(ae));
assertEqualInt(AE_IFREG, archive_entry_filetype(ae));
assertEqualInt(AE_IFREG | 0755, archive_entry_mode(ae));
assertEqualInt(0x81000, archive_entry_size(ae));
/* Verify sparse information. */
assertEqualInt(2, archive_entry_sparse_reset(ae));
assertEqualInt(0,
archive_entry_sparse_next(ae, &offset, &length));
assertEqualInt(0x10000, offset);
assertEqualInt(0x1000, length);
assertEqualInt(0,
archive_entry_sparse_next(ae, &offset, &length));
assertEqualInt(0x80000, offset);
assertEqualInt(0x1000, length);
/* Verify file contents. */
memset(buff3, 0, sizeof(buff3));
for (i = 0; i < 0x10000; i += 1024) {
assertEqualInt(1024, archive_read_data(a, buff2, 1024));
failure("Read data(0x%lx - 0x%lx) should be all zero",
i, i + 1024);
assertEqualMem(buff2, buff3, 1024);
}
memset(buff3, 'a', sizeof(buff3));
for (i = 0x10000; i < 0x11000; i += 1024) {
assertEqualInt(1024, archive_read_data(a, buff2, 1024));
failure("Read data(0x%lx - 0x%lx) should be all 'a'",
i, i + 1024);
assertEqualMem(buff2, buff3, 1024);
}
memset(buff3, 0, sizeof(buff3));
for (i = 0x11000; i < 0x80000; i += 1024) {
assertEqualInt(1024, archive_read_data(a, buff2, 1024));
failure("Read data(0x%lx - 0x%lx) should be all zero",
i, i + 1024);
assertEqualMem(buff2, buff3, 1024);
}
memset(buff3, 'a', sizeof(buff3));
for (i = 0x80000; i < 0x81000; i += 1024) {
assertEqualInt(1024, archive_read_data(a, buff2, 1024));
failure("Read data(0x%lx - 0x%lx) should be all 'a'",
i, i + 1024);
assertEqualMem(buff2, buff3, 1024);
}
/* Verify the end of the archive. */
assertEqualIntA(a, ARCHIVE_EOF,
archive_read_next_header(a, &ae));
assertEqualIntA(a, ARCHIVE_OK, archive_read_close(a));
assertEqualInt(ARCHIVE_OK, archive_read_free(a));
}
free(buff2);
}
/*
* Apple shipped an extended version of GNU tar with Mac OS X 10.5
* and earlier.
*/
static void
test_compat_mac_1(void)
{
char name[] = "test_compat_mac-1.tar.Z";
struct archive_entry *ae;
struct archive *a;
const void *attr;
size_t attrSize;
assert((a = archive_read_new()) != NULL);
assertEqualIntA(a, ARCHIVE_OK, archive_read_support_filter_all(a));
assertEqualIntA(a, ARCHIVE_OK, archive_read_support_format_all(a));
extract_reference_file(name);
assertEqualIntA(a, ARCHIVE_OK, archive_read_open_filename(a, name, 10240));
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualString(TESTPATH, archive_entry_pathname(ae));
assertEqualInt(1275688109, archive_entry_mtime(ae));
assertEqualInt(95594, archive_entry_uid(ae));
assertEqualString("kientzle", archive_entry_uname(ae));
assertEqualInt(5000, archive_entry_gid(ae));
assertEqualString("", archive_entry_gname(ae));
assertEqualInt(040755, archive_entry_mode(ae));
attr = archive_entry_mac_metadata(ae, &attrSize);
assert(attr == NULL);
assertEqualInt(0, attrSize);
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualString(TESTPATH "dir/", archive_entry_pathname(ae));
assertEqualInt(1275687611, archive_entry_mtime(ae));
assertEqualInt(95594, archive_entry_uid(ae));
assertEqualString("kientzle", archive_entry_uname(ae));
assertEqualInt(5000, archive_entry_gid(ae));
assertEqualString("", archive_entry_gname(ae));
assertEqualInt(040755, archive_entry_mode(ae));
attr = archive_entry_mac_metadata(ae, &attrSize);
assert(attr != NULL);
assertEqualInt(225, attrSize);
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualString(TESTPATH "file", archive_entry_pathname(ae));
assertEqualInt(1275687588, archive_entry_mtime(ae));
assertEqualInt(95594, archive_entry_uid(ae));
assertEqualString("kientzle", archive_entry_uname(ae));
assertEqualInt(5000, archive_entry_gid(ae));
assertEqualString("", archive_entry_gname(ae));
assertEqualInt(0100644, archive_entry_mode(ae));
attr = archive_entry_mac_metadata(ae, &attrSize);
assert(attr != NULL);
assertEqualInt(225, attrSize);
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualString("dir/", archive_entry_pathname(ae));
assertEqualInt(1275688064, archive_entry_mtime(ae));
assertEqualInt(95594, archive_entry_uid(ae));
assertEqualString("kientzle", archive_entry_uname(ae));
assertEqualInt(5000, archive_entry_gid(ae));
assertEqualString("", archive_entry_gname(ae));
assertEqualInt(040755, archive_entry_mode(ae));
attr = archive_entry_mac_metadata(ae, &attrSize);
assert(attr != NULL);
assertEqualInt(225, attrSize);
assertEqualMem("\x00\x05\x16\x07\x00\x02\x00\x00Mac OS X", attr, 16);
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualString("file", archive_entry_pathname(ae));
assertEqualInt(1275625860, archive_entry_mtime(ae));
assertEqualInt(95594, archive_entry_uid(ae));
assertEqualString("kientzle", archive_entry_uname(ae));
assertEqualInt(5000, archive_entry_gid(ae));
assertEqualString("", archive_entry_gname(ae));
assertEqualInt(0100644, archive_entry_mode(ae));
attr = archive_entry_mac_metadata(ae, &attrSize);
assert(attr != NULL);
assertEqualInt(225, attrSize);
assertEqualMem("\x00\x05\x16\x07\x00\x02\x00\x00Mac OS X", attr, 16);
/* Verify the end-of-archive. */
assertEqualIntA(a, ARCHIVE_EOF, archive_read_next_header(a, &ae));
/* Verify that the format detection worked. */
assertEqualInt(archive_filter_code(a, 0), ARCHIVE_FILTER_COMPRESS);
assertEqualInt(archive_format(a), ARCHIVE_FORMAT_TAR_GNUTAR);
assertEqualInt(ARCHIVE_OK, archive_read_close(a));
assertEqualInt(ARCHIVE_OK, archive_read_free(a));
}
static void
test_compress_best(void)
{
const char reffile[] = "test_read_format_rar_compress_best.rar";
char file1_buff[20111];
int file1_size = sizeof(file1_buff);
const char file1_test_txt[] = "<P STYLE=\"margin-bottom: 0in\"><BR>\n"
"</P>\n"
"</BODY>\n"
"</HTML>";
char file2_buff[20];
int file2_size = sizeof(file2_buff);
const char file2_test_txt[] = "test text document\r\n";
struct archive_entry *ae;
struct archive *a;
extract_reference_file(reffile);
assert((a = archive_read_new()) != NULL);
assertA(0 == archive_read_support_filter_all(a));
assertA(0 == archive_read_support_format_all(a));
assertA(0 == archive_read_open_file(a, reffile, 10240));
/* First header. */
assertA(0 == archive_read_next_header(a, &ae));
assertEqualString("LibarchiveAddingTest.html", archive_entry_pathname(ae));
assertA((int)archive_entry_mtime(ae));
assertA((int)archive_entry_ctime(ae));
assertA((int)archive_entry_atime(ae));
assertEqualInt(file1_size, archive_entry_size(ae));
assertEqualInt(33188, archive_entry_mode(ae));
assertA(file1_size == archive_read_data(a, file1_buff, file1_size));
assertEqualMem(&file1_buff[file1_size - sizeof(file1_test_txt) + 1],
file1_test_txt, sizeof(file1_test_txt) - 1);
/* 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("LibarchiveAddingTest.html", archive_entry_symlink(ae));
assertEqualIntA(a, 0, archive_read_data(a, file1_buff, 30));
/* 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(file2_size, archive_entry_size(ae));
assertEqualInt(33188, archive_entry_mode(ae));
assertA(file2_size == archive_read_data(a, file2_buff, file2_size));
assertEqualMem(&file2_buff[file2_size + 1 - sizeof(file2_test_txt)],
file2_test_txt, sizeof(file2_test_txt) - 1);
/* Fourth header. */
assertA(0 == archive_read_next_header(a, &ae));
assertEqualString("testdir/LibarchiveAddingTest.html",
archive_entry_pathname(ae));
assertA((int)archive_entry_mtime(ae));
assertA((int)archive_entry_ctime(ae));
assertA((int)archive_entry_atime(ae));
assertEqualInt(file1_size, archive_entry_size(ae));
assertEqualInt(33188, archive_entry_mode(ae));
assertA(file1_size == archive_read_data(a, file1_buff, file1_size));
assertEqualMem(&file1_buff[file1_size - sizeof(file1_test_txt) + 1],
file1_test_txt, sizeof(file1_test_txt) - 1);
/* Fifth 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));
/* Sixth 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(6, archive_file_count(a));
assertEqualIntA(a, ARCHIVE_OK, archive_read_close(a));
assertEqualInt(ARCHIVE_OK, archive_read_free(a));
}
/*
* Extract a mixed archive file which has both LZMA and LZMA2 encoded files.
* LZMA: file1, file2, file3, file4
* LZMA2: zfile1, zfile2, zfile3, zfile4
*/
static void
test_extract_all_files2(const char *refname)
{
struct archive_entry *ae;
struct archive *a;
char buff[128];
extract_reference_file(refname);
assert((a = archive_read_new()) != NULL);
assertEqualIntA(a, ARCHIVE_OK, archive_read_support_filter_all(a));
assertEqualIntA(a, ARCHIVE_OK, archive_read_support_format_all(a));
assertEqualIntA(a, ARCHIVE_OK,
archive_read_open_filename(a, refname, 10240));
/* Verify regular file1. */
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualInt((AE_IFREG | 0644), archive_entry_mode(ae));
assertEqualString("dir1/file1", archive_entry_pathname(ae));
assertEqualInt(86401, archive_entry_mtime(ae));
assertEqualInt(13, archive_entry_size(ae));
assertEqualInt(13, archive_read_data(a, buff, sizeof(buff)));
assertEqualMem(buff, "aaaaaaaaaaaa\n", 13);
/* Verify regular file2. */
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualInt((AE_IFREG | 0644), archive_entry_mode(ae));
assertEqualString("file2", archive_entry_pathname(ae));
assertEqualInt(86401, archive_entry_mtime(ae));
assertEqualInt(26, archive_entry_size(ae));
assertEqualInt(26, archive_read_data(a, buff, sizeof(buff)));
assertEqualMem(buff, "aaaaaaaaaaaa\nbbbbbbbbbbbb\n", 26);
/* Verify regular file3. */
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualInt((AE_IFREG | 0644), archive_entry_mode(ae));
assertEqualString("file3", archive_entry_pathname(ae));
assertEqualInt(86401, archive_entry_mtime(ae));
assertEqualInt(39, archive_entry_size(ae));
assertEqualInt(39, archive_read_data(a, buff, sizeof(buff)));
assertEqualMem(buff, "aaaaaaaaaaaa\nbbbbbbbbbbbb\ncccccccccccc\n", 39);
/* Verify regular file4. */
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualInt((AE_IFREG | 0644), archive_entry_mode(ae));
assertEqualString("file4", archive_entry_pathname(ae));
assertEqualInt(86401, archive_entry_mtime(ae));
assertEqualInt(52, archive_entry_size(ae));
assertEqualInt(52, archive_read_data(a, buff, sizeof(buff)));
assertEqualMem(buff,
"aaaaaaaaaaaa\nbbbbbbbbbbbb\ncccccccccccc\ndddddddddddd\n", 52);
/* Verify regular zfile1. */
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualInt((AE_IFREG | 0644), archive_entry_mode(ae));
assertEqualString("dir1/zfile1", archive_entry_pathname(ae));
assertEqualInt(5184001, archive_entry_mtime(ae));
assertEqualInt(13, archive_entry_size(ae));
assertEqualInt(13, archive_read_data(a, buff, sizeof(buff)));
assertEqualMem(buff, "aaaaaaaaaaaa\n", 13);
/* Verify regular zfile2. */
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualInt((AE_IFREG | 0644), archive_entry_mode(ae));
assertEqualString("zfile2", archive_entry_pathname(ae));
assertEqualInt(5184001, archive_entry_mtime(ae));
assertEqualInt(26, archive_entry_size(ae));
assertEqualInt(26, archive_read_data(a, buff, sizeof(buff)));
assertEqualMem(buff, "aaaaaaaaaaaa\nbbbbbbbbbbbb\n", 26);
/* Verify regular zfile3. */
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualInt((AE_IFREG | 0644), archive_entry_mode(ae));
assertEqualString("zfile3", archive_entry_pathname(ae));
assertEqualInt(5184001, archive_entry_mtime(ae));
assertEqualInt(39, archive_entry_size(ae));
assertEqualInt(39, archive_read_data(a, buff, sizeof(buff)));
assertEqualMem(buff, "aaaaaaaaaaaa\nbbbbbbbbbbbb\ncccccccccccc\n", 39);
/* Verify regular zfile4. */
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualInt((AE_IFREG | 0644), archive_entry_mode(ae));
assertEqualString("zfile4", archive_entry_pathname(ae));
assertEqualInt(5184001, archive_entry_mtime(ae));
assertEqualInt(52, archive_entry_size(ae));
assertEqualInt(52, archive_read_data(a, buff, sizeof(buff)));
assertEqualMem(buff,
"aaaaaaaaaaaa\nbbbbbbbbbbbb\ncccccccccccc\ndddddddddddd\n", 52);
/* Verify directory dir1. */
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualInt((AE_IFDIR | 0755), archive_entry_mode(ae));
assertEqualString("dir1/", archive_entry_pathname(ae));
assertEqualInt(2764801, archive_entry_mtime(ae));
assertEqualInt(9, archive_file_count(a));
/* End of archive. */
assertEqualIntA(a, ARCHIVE_EOF, archive_read_next_header(a, &ae));
/* Verify archive format. */
assertEqualIntA(a, ARCHIVE_FILTER_NONE, archive_filter_code(a, 0));
assertEqualIntA(a, ARCHIVE_FORMAT_7ZIP, archive_format(a));
/* Close the archive. */
assertEqualInt(ARCHIVE_OK, archive_read_close(a));
assertEqualInt(ARCHIVE_OK, archive_read_free(a));
}
static void
test_sfx(void)
{
char buff[441];
const char reffile[] = "test_read_format_rar_sfx.exe";
const char test_txt[] = "test text file\r\n";
int size = sizeof(test_txt)-1;
struct archive_entry *ae;
struct archive *a;
extract_reference_file(reffile);
assert((a = archive_read_new()) != NULL);
assertA(0 == archive_read_support_filter_all(a));
assertA(0 == archive_read_support_format_all(a));
assertA(0 == archive_read_open_file(a, reffile, 10240));
/* 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(16, 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("testshortcut.lnk", archive_entry_pathname(ae));
assertA((int)archive_entry_mtime(ae));
assertA((int)archive_entry_ctime(ae));
assertA((int)archive_entry_atime(ae));
assertEqualInt(sizeof(buff), archive_entry_size(ae));
assertEqualInt(33188, archive_entry_mode(ae));
assertA(sizeof(buff) == 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(16, 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));
}
static void
test_format(int (*set_format)(struct archive *))
{
char filedata[64];
struct archive_entry *ae;
struct archive *a;
char *p;
size_t used;
size_t buffsize = 1000000;
char *buff;
int damaged = 0;
buff = malloc(buffsize);
/* Create a new archive in memory. */
assert((a = archive_write_new()) != NULL);
assertA(0 == (*set_format)(a));
assertA(0 == archive_write_add_filter_none(a));
assertA(0 == archive_write_open_memory(a, buff, buffsize, &used));
/*
* Write a file to it.
*/
assert((ae = archive_entry_new()) != NULL);
archive_entry_set_mtime(ae, 1, 10);
assert(1 == archive_entry_mtime(ae));
assert(10 == archive_entry_mtime_nsec(ae));
p = strdup("file");
archive_entry_copy_pathname(ae, p);
strcpy(p, "XXXX");
free(p);
assertEqualString("file", archive_entry_pathname(ae));
archive_entry_set_mode(ae, S_IFREG | 0755);
assert((S_IFREG | 0755) == archive_entry_mode(ae));
archive_entry_set_size(ae, 8);
assertA(0 == archive_write_header(a, ae));
archive_entry_free(ae);
assertA(8 == archive_write_data(a, "12345678", 9));
/*
* Write another file to it.
*/
assert((ae = archive_entry_new()) != NULL);
archive_entry_set_mtime(ae, 1, 10);
assert(1 == archive_entry_mtime(ae));
assert(10 == archive_entry_mtime_nsec(ae));
p = strdup("file2");
archive_entry_copy_pathname(ae, p);
strcpy(p, "XXXX");
free(p);
assertEqualString("file2", archive_entry_pathname(ae));
archive_entry_set_mode(ae, S_IFREG | 0755);
assert((S_IFREG | 0755) == archive_entry_mode(ae));
archive_entry_set_size(ae, 4);
assertA(0 == archive_write_header(a, ae));
archive_entry_free(ae);
assertA(4 == archive_write_data(a, "1234", 5));
/*
* Write a file with a name, filetype, and size.
*/
assert((ae = archive_entry_new()) != NULL);
archive_entry_copy_pathname(ae, "name");
archive_entry_set_size(ae, 0);
archive_entry_set_filetype(ae, AE_IFREG);
assertEqualInt(ARCHIVE_OK, archive_write_header(a, ae));
assert(archive_error_string(a) == NULL);
archive_entry_free(ae);
/*
* Write a file with a name and filetype but no size.
*/
assert((ae = archive_entry_new()) != NULL);
archive_entry_copy_pathname(ae, "name");
archive_entry_unset_size(ae);
archive_entry_set_filetype(ae, AE_IFREG);
assertEqualInt(ARCHIVE_FAILED, archive_write_header(a, ae));
assert(archive_error_string(a) != NULL);
archive_entry_free(ae);
/*
* Write a file with a name and size but no filetype.
*/
assert((ae = archive_entry_new()) != NULL);
archive_entry_copy_pathname(ae, "name");
archive_entry_set_size(ae, 0);
assertEqualInt(ARCHIVE_FAILED, archive_write_header(a, ae));
assert(archive_error_string(a) != NULL);
archive_entry_free(ae);
/*
* Write a file with a size and filetype but no name.
*/
assert((ae = archive_entry_new()) != NULL);
archive_entry_set_size(ae, 0);
archive_entry_set_filetype(ae, AE_IFREG);
assertEqualInt(ARCHIVE_FAILED, archive_write_header(a, ae));
assert(archive_error_string(a) != NULL);
archive_entry_free(ae);
/*
* Write a directory to it.
*/
assert((ae = archive_entry_new()) != NULL);
archive_entry_set_mtime(ae, 11, 110);
archive_entry_copy_pathname(ae, "dir");
archive_entry_set_mode(ae, S_IFDIR | 0755);
archive_entry_set_size(ae, 512);
assertA(0 == archive_write_header(a, ae));
assertEqualInt(0, archive_entry_size(ae));
archive_entry_free(ae);
assertEqualIntA(a, 0, archive_write_data(a, "12345678", 9));
/* Close out the archive. */
assertEqualIntA(a, ARCHIVE_OK, archive_write_close(a));
assertEqualInt(ARCHIVE_OK, archive_write_free(a));
/*
* Damage the second entry to test the search-ahead recovery.
* TODO: Move the damage-recovery checking to a separate test;
* it doesn't really belong in this write test.
*/
{
int i;
for (i = 80; i < 150; i++) {
if (memcmp(buff + i, "07070", 5) == 0) {
damaged = 1;
buff[i] = 'X';
break;
}
}
}
failure("Unable to locate the second header for damage-recovery test.");
assert(damaged == 1);
/*
* Now, read the data back.
*/
assert((a = archive_read_new()) != NULL);
assertA(0 == archive_read_support_format_all(a));
assertA(0 == archive_read_support_filter_all(a));
assertA(0 == archive_read_open_memory(a, buff, used));
if (!assertEqualIntA(a, 0, archive_read_next_header(a, &ae))) {
archive_read_free(a);
return;
}
assertEqualInt(1, archive_entry_mtime(ae));
/* Not the same as above: cpio doesn't store hi-res times. */
assert(0 == archive_entry_mtime_nsec(ae));
assert(0 == archive_entry_atime(ae));
assert(0 == archive_entry_ctime(ae));
assertEqualString("file", archive_entry_pathname(ae));
assertEqualInt((S_IFREG | 0755), archive_entry_mode(ae));
assertEqualInt(8, archive_entry_size(ae));
assertA(8 == archive_read_data(a, filedata, 10));
assertEqualMem(filedata, "12345678", 8);
/*
* The second file can't be read because we damaged its header.
*/
/*
* Read the third file back.
* ARCHIVE_WARN here because the damaged entry was skipped.
*/
assertEqualIntA(a, ARCHIVE_WARN, archive_read_next_header(a, &ae));
assertEqualString("name", archive_entry_pathname(ae));
/*
* Read the dir entry back.
*/
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualInt(11, archive_entry_mtime(ae));
assert(0 == archive_entry_mtime_nsec(ae));
assert(0 == archive_entry_atime(ae));
assert(0 == archive_entry_ctime(ae));
assertEqualString("dir", archive_entry_pathname(ae));
assertEqualInt((S_IFDIR | 0755), archive_entry_mode(ae));
assertEqualInt(0, archive_entry_size(ae));
assertEqualIntA(a, 0, archive_read_data(a, filedata, 10));
/* Verify the end of the archive. */
assertEqualIntA(a, 1, archive_read_next_header(a, &ae));
assertEqualIntA(a, ARCHIVE_OK, archive_read_close(a));
assertEqualInt(ARCHIVE_OK, archive_read_free(a));
free(buff);
}
/*
* The reference file for this has been manually tweaked so that:
* * file2 has length-at-end but file1 does not
* * file2 has an invalid CRC
*/
static void
verify_basic(struct archive *a, int seek_checks)
{
struct archive_entry *ae;
char *buff[128];
const void *pv;
size_t s;
int64_t o;
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualString("ZIP 1.0 (uncompressed)", archive_format_name(a));
assertEqualString("dir/", archive_entry_pathname(ae));
assertEqualInt(1179604249, archive_entry_mtime(ae));
assertEqualInt(0, archive_entry_size(ae));
if (seek_checks)
assertEqualInt(AE_IFDIR | 0755, archive_entry_mode(ae));
assertEqualInt(archive_entry_is_encrypted(ae), 0);
assertEqualIntA(a, archive_read_has_encrypted_entries(a), 0);
assertEqualIntA(a, ARCHIVE_EOF,
archive_read_data_block(a, &pv, &s, &o));
assertEqualInt((int)s, 0);
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualString("ZIP 2.0 (deflation)", archive_format_name(a));
assertEqualString("file1", archive_entry_pathname(ae));
assertEqualInt(1179604289, archive_entry_mtime(ae));
if (seek_checks)
assertEqualInt(AE_IFREG | 0755, archive_entry_mode(ae));
assertEqualInt(18, archive_entry_size(ae));
assertEqualInt(archive_entry_is_encrypted(ae), 0);
assertEqualIntA(a, archive_read_has_encrypted_entries(a), 0);
failure("archive_read_data() returns number of bytes read");
if (archive_zlib_version() != NULL) {
assertEqualInt(18, archive_read_data(a, buff, 19));
assertEqualMem(buff, "hello\nhello\nhello\n", 18);
} else {
assertEqualInt(ARCHIVE_FAILED, archive_read_data(a, buff, 19));
assertEqualString(archive_error_string(a),
"Unsupported ZIP compression method (deflation)");
assert(archive_errno(a) != 0);
}
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualString("ZIP 2.0 (deflation)", archive_format_name(a));
assertEqualString("file2", archive_entry_pathname(ae));
assertEqualInt(1179605932, archive_entry_mtime(ae));
assertEqualInt(archive_entry_is_encrypted(ae), 0);
assertEqualIntA(a, archive_read_has_encrypted_entries(a), 0);
if (seek_checks) {
assertEqualInt(AE_IFREG | 0755, archive_entry_mode(ae));
}
assert(archive_entry_size_is_set(ae));
assertEqualInt(18, archive_entry_size(ae));
if (archive_zlib_version() != NULL) {
failure("file2 has a bad CRC, so read should fail and not change buff");
memset(buff, 'a', 19);
assertEqualInt(ARCHIVE_WARN, archive_read_data(a, buff, 19));
assertEqualMem(buff, "aaaaaaaaaaaaaaaaaaa", 19);
} else {
assertEqualInt(ARCHIVE_FAILED, archive_read_data(a, buff, 19));
assertEqualString(archive_error_string(a),
"Unsupported ZIP compression method (deflation)");
assert(archive_errno(a) != 0);
}
assertEqualInt(ARCHIVE_EOF, archive_read_next_header(a, &ae));
assertEqualString("ZIP 2.0 (deflation)", archive_format_name(a));
/* Verify the number of files read. */
failure("the archive file has three files");
assertEqualInt(3, archive_file_count(a));
assertEqualIntA(a, ARCHIVE_FILTER_NONE, archive_filter_code(a, 0));
assertEqualIntA(a, ARCHIVE_FORMAT_ZIP, archive_format(a));
assertEqualIntA(a, ARCHIVE_OK, archive_read_close(a));
assertEqualInt(ARCHIVE_OK, archive_read_free(a));
}
static void
test_open_filename_mbs(void)
{
char buff[64];
struct archive_entry *ae;
struct archive *a;
/* Write an archive through this FILE *. */
assert((a = archive_write_new()) != NULL);
assertEqualIntA(a, ARCHIVE_OK, archive_write_set_format_ustar(a));
assertEqualIntA(a, ARCHIVE_OK, archive_write_set_compression_none(a));
assertEqualIntA(a, ARCHIVE_OK,
archive_write_open_filename(a, "test.tar"));
/*
* Write a file to it.
*/
assert((ae = archive_entry_new()) != NULL);
archive_entry_set_mtime(ae, 1, 0);
archive_entry_copy_pathname(ae, "file");
archive_entry_set_mode(ae, S_IFREG | 0755);
archive_entry_set_size(ae, 8);
assertEqualIntA(a, ARCHIVE_OK, archive_write_header(a, ae));
archive_entry_free(ae);
assertEqualIntA(a, 8, archive_write_data(a, "12345678", 9));
/*
* Write a second file to it.
*/
assert((ae = archive_entry_new()) != NULL);
archive_entry_copy_pathname(ae, "file2");
archive_entry_set_mode(ae, S_IFREG | 0755);
archive_entry_set_size(ae, 819200);
assertEqualIntA(a, ARCHIVE_OK, archive_write_header(a, ae));
archive_entry_free(ae);
/* Close out the archive. */
assertEqualIntA(a, ARCHIVE_OK, archive_write_close(a));
assertEqualInt(ARCHIVE_OK, archive_write_free(a));
/*
* Now, read the data back.
*/
assert((a = archive_read_new()) != NULL);
assertEqualIntA(a, ARCHIVE_OK, archive_read_support_format_all(a));
assertEqualIntA(a, ARCHIVE_OK, archive_read_support_filter_all(a));
assertEqualIntA(a, ARCHIVE_OK,
archive_read_open_filename(a, "test.tar", 512));
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualInt(1, archive_entry_mtime(ae));
assertEqualInt(0, archive_entry_mtime_nsec(ae));
assertEqualInt(0, archive_entry_atime(ae));
assertEqualInt(0, archive_entry_ctime(ae));
assertEqualString("file", archive_entry_pathname(ae));
assert((S_IFREG | 0755) == archive_entry_mode(ae));
assertEqualInt(8, archive_entry_size(ae));
assertEqualIntA(a, 8, archive_read_data(a, buff, 10));
assertEqualMem(buff, "12345678", 8);
assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae));
assertEqualString("file2", archive_entry_pathname(ae));
assert((S_IFREG | 0755) == archive_entry_mode(ae));
assertEqualInt(819200, archive_entry_size(ae));
assertEqualIntA(a, ARCHIVE_OK, archive_read_data_skip(a));
/* Verify the end of the archive. */
assertEqualIntA(a, ARCHIVE_EOF, archive_read_next_header(a, &ae));
assertEqualIntA(a, ARCHIVE_OK, archive_read_close(a));
assertEqualInt(ARCHIVE_OK, archive_read_free(a));
/*
* Verify some of the error handling.
*/
assert((a = archive_read_new()) != NULL);
assertEqualIntA(a, ARCHIVE_OK, archive_read_support_format_all(a));
assertEqualIntA(a, ARCHIVE_OK, archive_read_support_filter_all(a));
assertEqualIntA(a, ARCHIVE_FATAL,
archive_read_open_filename(a, "nonexistent.tar", 512));
assertEqualIntA(a, ARCHIVE_OK, archive_read_close(a));
assertEqualInt(ARCHIVE_OK, archive_read_free(a));
}
