/*- * Copyright (c) 2003-2008 Tim Kientzle * Copyright (c) 2008 Anselm Strauss * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR(S) ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR(S) BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* * Development supported by Google Summer of Code 2008. */ #include "test.h" __FBSDID("$FreeBSD$"); /* * Detailed byte-for-byte verification of the format of a zip archive * with a single file written to it that uses Zip64 extensions. */ static unsigned long bitcrc32(unsigned long c, void *_p, size_t s) { /* This is a drop-in replacement for crc32() from zlib. * Libarchive should be able to correctly generate * uncompressed zip archives (including correct CRCs) even * when zlib is unavailable, and this function helps us verify * that. Yes, this is very, very slow and unsuitable for * production use, but it's correct, compact, and works well * enough for this particular usage. Libarchive internally * uses a much more efficient implementation. */ const unsigned char *p = _p; int bitctr; if (p == NULL) return (0); for (; s > 0; --s) { c ^= *p++; for (bitctr = 8; bitctr > 0; --bitctr) { if (c & 1) c = (c >> 1); else c = (c >> 1) ^ 0xedb88320; c ^= 0x80000000; } } return (c); } /* Quick and dirty: Read 2-byte and 4-byte integers from Zip file. */ static unsigned i2(const unsigned char *p) { return ((p[0] & 0xff) | ((p[1] & 0xff) << 8)); } static unsigned i4(const unsigned char *p) { return (i2(p) | (i2(p + 2) << 16)); } /* We're only working with small values here; ignore the 4 high bytes. */ static unsigned i8(const unsigned char *p) { return (i4(p)); } DEFINE_TEST(test_write_format_zip_file_zip64) { struct archive *a; struct archive_entry *ae; time_t t = 1234567890; struct tm *tm = localtime(&t); size_t used, buffsize = 1000000; unsigned long crc; int file_perm = 00644; int zip_version = 45; int zip_compression = 8; short file_uid = 10, file_gid = 20; unsigned char *buff, *buffend, *p; unsigned char *central_header, *local_header, *eocd, *eocd_record; unsigned char *extension_start, *extension_end; char file_data[] = {'1', '2', '3', '4', '5', '6', '7', '8'}; const char *file_name = "file"; #ifndef HAVE_ZLIB_H zip_compression = 0; #endif buff = malloc(buffsize); /* Create a new archive in memory. */ assert((a = archive_write_new()) != NULL); assertEqualIntA(a, ARCHIVE_OK, archive_write_set_format_zip(a)); assertEqualIntA(a, ARCHIVE_OK, archive_write_set_options(a, "zip:zip64")); assertEqualIntA(a, ARCHIVE_OK, archive_write_set_options(a, "zip:experimental")); assertEqualIntA(a, ARCHIVE_OK, archive_write_open_memory(a, buff, buffsize, &used)); assert((ae = archive_entry_new()) != NULL); archive_entry_copy_pathname(ae, file_name); archive_entry_set_mode(ae, AE_IFREG | file_perm); archive_entry_set_size(ae, sizeof(file_data)); archive_entry_set_uid(ae, file_uid); archive_entry_set_gid(ae, file_gid); archive_entry_set_mtime(ae, t, 0); assertEqualInt(0, archive_write_header(a, ae)); archive_entry_free(ae); assertEqualInt(8, archive_write_data(a, file_data, sizeof(file_data))); assertEqualIntA(a, ARCHIVE_OK, archive_write_close(a)); assertEqualInt(ARCHIVE_OK, archive_write_free(a)); buffend = buff + used; dumpfile("constructed.zip", buff, used); /* Verify "End of Central Directory" record. */ /* Get address of end-of-central-directory record. */ eocd_record = p = buffend - 22; /* Assumes there is no zip comment field. */ failure("End-of-central-directory begins with PK\\005\\006 signature"); assertEqualMem(p, "PK\005\006", 4); failure("This must be disk 0"); assertEqualInt(i2(p + 4), 0); failure("Central dir must start on disk 0"); assertEqualInt(i2(p + 6), 0); failure("All central dir entries are on this disk"); assertEqualInt(i2(p + 8), i2(p + 10)); eocd = buff + i4(p + 12) + i4(p + 16); failure("no zip comment"); assertEqualInt(i2(p + 20), 0); /* Get address of first entry in central directory. */ central_header = p = buff + i4(buffend - 6); failure("Central file record at offset %d should begin with" " PK\\001\\002 signature", i4(buffend - 10)); /* Verify file entry in central directory. */ assertEqualMem(p, "PK\001\002", 4); /* Signature */ assertEqualInt(i2(p + 4), 3 * 256 + zip_version); /* Version made by */ assertEqualInt(i2(p + 6), zip_version); /* Version needed to extract */ assertEqualInt(i2(p + 8), 8); /* Flags */ assertEqualInt(i2(p + 10), zip_compression); /* Compression method */ assertEqualInt(i2(p + 12), (tm->tm_hour * 2048) + (tm->tm_min * 32) + (tm->tm_sec / 2)); /* File time */ assertEqualInt(i2(p + 14), ((tm->tm_year - 80) * 512) + ((tm->tm_mon + 1) * 32) + tm->tm_mday); /* File date */ crc = bitcrc32(0, file_data, sizeof(file_data)); assertEqualInt(i4(p + 16), crc); /* CRC-32 */ /* assertEqualInt(i4(p + 20), sizeof(file_data)); */ /* Compressed size */ assertEqualInt(i4(p + 24), sizeof(file_data)); /* Uncompressed size */ assertEqualInt(i2(p + 28), strlen(file_name)); /* Pathname length */ /* assertEqualInt(i2(p + 30), 28); */ /* Extra field length: See below */ assertEqualInt(i2(p + 32), 0); /* File comment length */ assertEqualInt(i2(p + 34), 0); /* Disk number start */ assertEqualInt(i2(p + 36), 0); /* Internal file attrs */ assertEqualInt(i4(p + 38) >> 16 & 01777, file_perm); /* External file attrs */ assertEqualInt(i4(p + 42), 0); /* Offset of local header */ assertEqualMem(p + 46, file_name, strlen(file_name)); /* Pathname */ p = extension_start = central_header + 46 + strlen(file_name); extension_end = extension_start + i2(central_header + 30); assertEqualInt(i2(p), 0x5455); /* 'UT' extension header */ assertEqualInt(i2(p + 2), 5); /* 'UT' size */ assertEqualInt(p[4], 1); /* 'UT' flags */ assertEqualInt(i4(p + 5), t); /* 'UT' mtime */ p += 4 + i2(p + 2); assertEqualInt(i2(p), 0x7875); /* 'ux' extension header */ assertEqualInt(i2(p + 2), 11); /* 'ux' size */ /* TODO: verify 'ux' contents */ p += 4 + i2(p + 2); /* Note: We don't expect to see zip64 extension in the central * directory, since the writer knows the actual full size by * the time it is ready to write the central directory and has * no reason to insert it then. Info-Zip seems to do the same * thing. */ /* Just in case: Report any extra extensions. */ while (p < extension_end) { failure("Unexpected extension 0x%04X", i2(p)); assert(0); p += 4 + i2(p + 2); } /* Should have run exactly to end of extra data. */ assert(p == extension_end); assert(p == eocd); /* After Central dir, we find Zip64 eocd and Zip64 eocd locator. */ assertEqualMem(p, "PK\006\006", 4); /* Zip64 eocd */ assertEqualInt(i8(p + 4), 44); /* We're using v1 Zip64 eocd */ assertEqualInt(i2(p + 12), 45); /* Written by Version 4.5 */ assertEqualInt(i2(p + 14), 45); /* Needs version 4.5 to extract */ assertEqualInt(i4(p + 16), 0); /* This is disk #0 */ assertEqualInt(i4(p + 20), 0); /* Dir starts on disk #0 */ assertEqualInt(i8(p + 24), 1); /* 1 entry on this disk */ assertEqualInt(i8(p + 32), 1); /* 1 entry total */ assertEqualInt(i8(p + 40), eocd - central_header); /* size of cd */ assertEqualInt(i8(p + 48), central_header - buff); /* start of cd */ p += 12 + i8(p + 4); assertEqualMem(p, "PK\006\007", 4); /* Zip64 eocd locator */ assertEqualInt(i4(p + 4), 0); /* Zip64 eocd is on disk #0 */ assertEqualInt(i8(p + 8), eocd - buff); /* Offset of Zip64 eocd */ assertEqualInt(i4(p + 16), 1); /* 1 disk */ p += 20; /* Regular EOCD immediately follows Zip64 records. */ assert(p == eocd_record); /* Verify local header of file entry. */ p = local_header = buff; assertEqualMem(p, "PK\003\004", 4); /* Signature */ assertEqualInt(i2(p + 4), zip_version); /* Version needed to extract */ assertEqualInt(i2(p + 6), 8); /* Flags */ assertEqualInt(i2(p + 8), zip_compression); /* Compression method */ assertEqualInt(i2(p + 10), (tm->tm_hour * 2048) + (tm->tm_min * 32) + (tm->tm_sec / 2)); /* File time */ assertEqualInt(i2(p + 12), ((tm->tm_year - 80) * 512) + ((tm->tm_mon + 1) * 32) + tm->tm_mday); /* File date */ assertEqualInt(i4(p + 14), 0); /* CRC-32 */ /* assertEqualInt(i4(p + 18), sizeof(file_data)); */ /* Compressed size */ /* assertEqualInt(i4(p + 22), sizeof(file_data)); */ /* Uncompressed size not stored because we're using length-at-end. */ assertEqualInt(i2(p + 26), strlen(file_name)); /* Pathname length */ assertEqualInt(i2(p + 28), 57); /* Extra field length */ assertEqualMem(p + 30, file_name, strlen(file_name)); /* Pathname */ p = extension_start = local_header + 30 + strlen(file_name); extension_end = extension_start + i2(local_header + 28); assertEqualInt(i2(p), 0x5455); /* 'UT' extension header */ assertEqualInt(i2(p + 2), 5); /* 'UT' size */ assertEqualInt(p[4], 1); /* 'UT' flags */ assertEqualInt(i4(p + 5), t); /* 'UT' mtime */ p += 4 + i2(p + 2); assertEqualInt(i2(p), 0x7875); /* 'ux' extension header */ assertEqualInt(i2(p + 2), 11); /* 'ux' size */ assertEqualInt(p[4], 1); /* 'ux' version */ assertEqualInt(p[5], 4); /* 'ux' uid size */ assertEqualInt(i4(p + 6), file_uid); /* 'Ux' UID */ assertEqualInt(p[10], 4); /* 'ux' gid size */ assertEqualInt(i4(p + 11), file_gid); /* 'Ux' GID */ p += 4 + i2(p + 2); assertEqualInt(i2(p), 0x0001); /* Zip64 extension header */ assertEqualInt(i2(p + 2), 16); /* size */ assertEqualInt(i8(p + 4), 8); /* uncompressed file size */ /* compressed file size we can't verify here */ p += 4 + i2(p + 2); assertEqualInt(i2(p), 0x6c78); /* 'xl' experimental extension header */ assertEqualInt(i2(p + 2), 9); /* size */ assertEqualInt(p[4], 7); /* bitmap of included fields */ assertEqualInt(i2(p + 5) >> 8, 3); /* system & version made by */ assertEqualInt(i2(p + 7), 0); /* internal file attributes */ assertEqualInt(i4(p + 9) >> 16 & 01777, file_perm); /* external file attributes */ p += 4 + i2(p + 2); /* Just in case: Report any extra extensions. */ while (p < extension_end) { failure("Unexpected extension 0x%04X", i2(p)); assert(0); p += 4 + i2(p + 2); } /* Should have run exactly to end of extra data. */ assert(p == extension_end); /* Data descriptor should follow compressed data. */ while (p < central_header && memcmp(p, "PK\007\010", 4) != 0) ++p; assertEqualMem(p, "PK\007\010", 4); assertEqualInt(i4(p + 4), crc); /* CRC-32 */ /* assertEqualInt(i8(p + 8), ???); */ /* compressed size */ assertEqualInt(i8(p + 16), sizeof(file_data)); /* uncompressed size */ /* Central directory should immediately follow the only entry. */ assert(p + 24 == central_header); free(buff); }