/*- * Copyright (c) 2018 Grzegorz Antoniak * 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. */ #include "test.h" /* Some tests will want to calculate some CRC32's, and this header can * help. */ #define __LIBARCHIVE_BUILD #include #include #define PROLOGUE(reffile) \ struct archive_entry *ae; \ struct archive *a; \ \ (void) a; /* Make the compiler happy if we won't use this variables */ \ (void) ae; /* in the test cases. */ \ \ 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_filename(a, reffile, 10240)) #define PROLOGUE_MULTI(reffile) \ struct archive_entry *ae; \ struct archive *a; \ \ (void) a; \ (void) ae; \ \ extract_reference_files(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_filenames(a, reffile, 10240)) #define EPILOGUE() \ assertEqualIntA(a, ARCHIVE_OK, archive_read_close(a)); \ assertEqualInt(ARCHIVE_OK, archive_read_free(a)) static int verify_data(const uint8_t* data_ptr, int magic, int size) { int i = 0; /* This is how the test data inside test files was generated; * we are re-generating it here and we check if our re-generated * test data is the same as in the test file. If this test is * failing it's either because there's a bug in the test case, * or the unpacked data is corrupted. */ for(i = 0; i < size / 4; ++i) { const int k = i + 1; const signed int* lptr = (const signed int*) &data_ptr[i * 4]; signed int val = k * k - 3 * k + (1 + magic); if(val < 0) val = 0; /* *lptr is a value inside unpacked test file, val is the * value that should be in the unpacked test file. */ if(archive_le32dec(lptr) != (uint32_t) val) return 0; } return 1; } static int extract_one(struct archive* a, struct archive_entry* ae, uint32_t crc) { la_ssize_t fsize, bytes_read; uint8_t* buf; int ret = 1; uint32_t computed_crc; fsize = (la_ssize_t) archive_entry_size(ae); buf = malloc(fsize); if(buf == NULL) return 1; bytes_read = archive_read_data(a, buf, fsize); if(bytes_read != fsize) { assertEqualInt(bytes_read, fsize); goto fn_exit; } computed_crc = crc32(0, buf, fsize); assertEqualInt(computed_crc, crc); ret = 0; fn_exit: free(buf); return ret; } DEFINE_TEST(test_read_format_rar5_set_format) { struct archive *a; struct archive_entry *ae; const char reffile[] = "test_read_format_rar5_stored.rar"; extract_reference_file(reffile); assert((a = archive_read_new()) != NULL); assertA(0 == archive_read_support_filter_all(a)); assertA(0 == archive_read_set_format(a, ARCHIVE_FORMAT_RAR_V5)); assertA(0 == archive_read_open_filename(a, reffile, 10240)); assertA(0 == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_stored) { const char helloworld_txt[] = "hello libarchive test suite!\n"; la_ssize_t file_size = sizeof(helloworld_txt) - 1; char buff[64]; PROLOGUE("test_read_format_rar5_stored.rar"); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("helloworld.txt", archive_entry_pathname(ae)); assertA((int) archive_entry_mtime(ae) > 0); assertA((int) archive_entry_ctime(ae) == 0); assertA((int) archive_entry_atime(ae) == 0); assertEqualInt(file_size, archive_entry_size(ae)); assertEqualInt(33188, archive_entry_mode(ae)); assertA(file_size == archive_read_data(a, buff, file_size)); assertEqualMem(buff, helloworld_txt, file_size); assertEqualInt(archive_entry_is_encrypted(ae), 0); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_compressed) { const int DATA_SIZE = 1200; uint8_t buff[1200]; PROLOGUE("test_read_format_rar5_compressed.rar"); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test.bin", archive_entry_pathname(ae)); assertA((int) archive_entry_mtime(ae) > 0); assertEqualInt(DATA_SIZE, archive_entry_size(ae)); assertA(DATA_SIZE == archive_read_data(a, buff, DATA_SIZE)); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); verify_data(buff, 0, DATA_SIZE); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_multiple_files) { const int DATA_SIZE = 4096; uint8_t buff[4096]; PROLOGUE("test_read_format_rar5_multiple_files.rar"); /* There should be 4 files inside this test file. Check for their * existence, and also check the contents of those test files. */ assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test1.bin", archive_entry_pathname(ae)); assertEqualInt(DATA_SIZE, archive_entry_size(ae)); assertA(DATA_SIZE == archive_read_data(a, buff, DATA_SIZE)); assertA(verify_data(buff, 1, DATA_SIZE)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test2.bin", archive_entry_pathname(ae)); assertEqualInt(DATA_SIZE, archive_entry_size(ae)); assertA(DATA_SIZE == archive_read_data(a, buff, DATA_SIZE)); assertA(verify_data(buff, 2, DATA_SIZE)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test3.bin", archive_entry_pathname(ae)); assertEqualInt(DATA_SIZE, archive_entry_size(ae)); assertA(DATA_SIZE == archive_read_data(a, buff, DATA_SIZE)); assertA(verify_data(buff, 3, DATA_SIZE)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test4.bin", archive_entry_pathname(ae)); assertEqualInt(DATA_SIZE, archive_entry_size(ae)); assertA(DATA_SIZE == archive_read_data(a, buff, DATA_SIZE)); assertA(verify_data(buff, 4, DATA_SIZE)); /* There should be no more files in this archive. */ assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } /* This test is really the same as the test above, but it deals with a solid * archive instead of a regular archive. The test solid archive contains the * same set of files as regular test archive, but it's size is 2x smaller, * because solid archives reuse the window buffer from previous compressed * files, so it's able to compress lots of small files more effectively. */ DEFINE_TEST(test_read_format_rar5_multiple_files_solid) { const int DATA_SIZE = 4096; uint8_t buff[4096]; PROLOGUE("test_read_format_rar5_multiple_files_solid.rar"); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test1.bin", archive_entry_pathname(ae)); assertEqualInt(DATA_SIZE, archive_entry_size(ae)); assertA(DATA_SIZE == archive_read_data(a, buff, DATA_SIZE)); assertA(verify_data(buff, 1, DATA_SIZE)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test2.bin", archive_entry_pathname(ae)); assertEqualInt(DATA_SIZE, archive_entry_size(ae)); assertA(DATA_SIZE == archive_read_data(a, buff, DATA_SIZE)); assertA(verify_data(buff, 2, DATA_SIZE)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test3.bin", archive_entry_pathname(ae)); assertEqualInt(DATA_SIZE, archive_entry_size(ae)); assertA(DATA_SIZE == archive_read_data(a, buff, DATA_SIZE)); assertA(verify_data(buff, 3, DATA_SIZE)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test4.bin", archive_entry_pathname(ae)); assertEqualInt(DATA_SIZE, archive_entry_size(ae)); assertA(DATA_SIZE == archive_read_data(a, buff, DATA_SIZE)); assertA(verify_data(buff, 4, DATA_SIZE)); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_multiarchive_skip_all) { const char* reffiles[] = { "test_read_format_rar5_multiarchive.part01.rar", "test_read_format_rar5_multiarchive.part02.rar", "test_read_format_rar5_multiarchive.part03.rar", "test_read_format_rar5_multiarchive.part04.rar", "test_read_format_rar5_multiarchive.part05.rar", "test_read_format_rar5_multiarchive.part06.rar", "test_read_format_rar5_multiarchive.part07.rar", "test_read_format_rar5_multiarchive.part08.rar", NULL }; PROLOGUE_MULTI(reffiles); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("home/antek/temp/build/unrar5/libarchive/bin/bsdcat_test", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("home/antek/temp/build/unrar5/libarchive/bin/bsdtar_test", archive_entry_pathname(ae)); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_multiarchive_skip_all_but_first) { const char* reffiles[] = { "test_read_format_rar5_multiarchive.part01.rar", "test_read_format_rar5_multiarchive.part02.rar", "test_read_format_rar5_multiarchive.part03.rar", "test_read_format_rar5_multiarchive.part04.rar", "test_read_format_rar5_multiarchive.part05.rar", "test_read_format_rar5_multiarchive.part06.rar", "test_read_format_rar5_multiarchive.part07.rar", "test_read_format_rar5_multiarchive.part08.rar", NULL }; PROLOGUE_MULTI(reffiles); assertA(0 == archive_read_next_header(a, &ae)); assertA(0 == extract_one(a, ae, 0x35277473)); assertA(0 == archive_read_next_header(a, &ae)); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_multiarchive_skip_all_but_second) { const char* reffiles[] = { "test_read_format_rar5_multiarchive.part01.rar", "test_read_format_rar5_multiarchive.part02.rar", "test_read_format_rar5_multiarchive.part03.rar", "test_read_format_rar5_multiarchive.part04.rar", "test_read_format_rar5_multiarchive.part05.rar", "test_read_format_rar5_multiarchive.part06.rar", "test_read_format_rar5_multiarchive.part07.rar", "test_read_format_rar5_multiarchive.part08.rar", NULL }; PROLOGUE_MULTI(reffiles); assertA(0 == archive_read_next_header(a, &ae)); assertA(0 == archive_read_next_header(a, &ae)); assertA(0 == extract_one(a, ae, 0xE59665F8)); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_blake2) { const la_ssize_t proper_size = 814; uint8_t buf[814]; PROLOGUE("test_read_format_rar5_blake2.rar"); assertA(0 == archive_read_next_header(a, &ae)); assertEqualInt(proper_size, archive_entry_size(ae)); /* Should blake2 calculation fail, we'll get a failure return * value from archive_read_data(). */ assertA(proper_size == archive_read_data(a, buf, proper_size)); /* To be extra pedantic, let's also check crc32 of the poem. */ assertEqualInt(crc32(0, buf, proper_size), 0x7E5EC49E); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_arm_filter) { /* This test unpacks a file that uses an ARM filter. The DELTA * and X86 filters are tested implicitly in the "multiarchive_skip" * test. */ const la_ssize_t proper_size = 90808; uint8_t buf[90808]; PROLOGUE("test_read_format_rar5_arm.rar"); assertA(0 == archive_read_next_header(a, &ae)); assertEqualInt(proper_size, archive_entry_size(ae)); assertA(proper_size == archive_read_data(a, buf, proper_size)); /* Yes, RARv5 unpacker itself should calculate the CRC, but in case * the DONT_FAIL_ON_CRC_ERROR define option is enabled during compilation, * let's still fail the test if the unpacked data is wrong. */ assertEqualInt(crc32(0, buf, proper_size), 0x886F91EB); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_stored_skip_all) { const char* fname = "test_read_format_rar5_stored_manyfiles.rar"; PROLOGUE(fname); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("make_uue.tcl", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("cebula.txt", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test.bin", archive_entry_pathname(ae)); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_stored_skip_in_part) { const char* fname = "test_read_format_rar5_stored_manyfiles.rar"; char buf[6]; /* Skip first, extract in part rest. */ PROLOGUE(fname); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("make_uue.tcl", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("cebula.txt", archive_entry_pathname(ae)); assertA(6 == archive_read_data(a, buf, 6)); assertEqualInt(0, memcmp(buf, "Cebula", 6)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test.bin", archive_entry_pathname(ae)); assertA(4 == archive_read_data(a, buf, 4)); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_stored_skip_all_but_first) { const char* fname = "test_read_format_rar5_stored_manyfiles.rar"; char buf[405]; /* Extract first, skip rest. */ PROLOGUE(fname); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("make_uue.tcl", archive_entry_pathname(ae)); assertA(405 == archive_read_data(a, buf, sizeof(buf))); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("cebula.txt", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test.bin", archive_entry_pathname(ae)); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_stored_skip_all_in_part) { const char* fname = "test_read_format_rar5_stored_manyfiles.rar"; char buf[4]; /* Extract in part all */ PROLOGUE(fname); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("make_uue.tcl", archive_entry_pathname(ae)); assertA(4 == archive_read_data(a, buf, 4)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("cebula.txt", archive_entry_pathname(ae)); assertA(4 == archive_read_data(a, buf, 4)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test.bin", archive_entry_pathname(ae)); assertA(4 == archive_read_data(a, buf, 4)); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_multiarchive_solid_extr_all) { const char* reffiles[] = { "test_read_format_rar5_multiarchive_solid.part01.rar", "test_read_format_rar5_multiarchive_solid.part02.rar", "test_read_format_rar5_multiarchive_solid.part03.rar", "test_read_format_rar5_multiarchive_solid.part04.rar", NULL }; PROLOGUE_MULTI(reffiles); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("cebula.txt", archive_entry_pathname(ae)); assertA(0 == extract_one(a, ae, 0x7E5EC49E)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test.bin", archive_entry_pathname(ae)); assertA(0 == extract_one(a, ae, 0x7cca70cd)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test1.bin", archive_entry_pathname(ae)); assertA(0 == extract_one(a, ae, 0x7e13b2c6)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test2.bin", archive_entry_pathname(ae)); assertA(0 == extract_one(a, ae, 0xf166afcb)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test3.bin", archive_entry_pathname(ae)); assertA(0 == extract_one(a, ae, 0x9fb123d9)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test4.bin", archive_entry_pathname(ae)); assertA(0 == extract_one(a, ae, 0x10c43ed4)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test5.bin", archive_entry_pathname(ae)); assertA(0 == extract_one(a, ae, 0xb9d155f2)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test6.bin", archive_entry_pathname(ae)); assertA(0 == extract_one(a, ae, 0x36a448ff)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("elf-Linux-ARMv7-ls", archive_entry_pathname(ae)); assertA(0 == extract_one(a, ae, 0x886F91EB)); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_multiarchive_solid_skip_all) { const char* reffiles[] = { "test_read_format_rar5_multiarchive_solid.part01.rar", "test_read_format_rar5_multiarchive_solid.part02.rar", "test_read_format_rar5_multiarchive_solid.part03.rar", "test_read_format_rar5_multiarchive_solid.part04.rar", NULL }; PROLOGUE_MULTI(reffiles); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("cebula.txt", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test1.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test2.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test3.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test4.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test5.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test6.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("elf-Linux-ARMv7-ls", archive_entry_pathname(ae)); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_multiarchive_solid_skip_all_but_first) { const char* reffiles[] = { "test_read_format_rar5_multiarchive_solid.part01.rar", "test_read_format_rar5_multiarchive_solid.part02.rar", "test_read_format_rar5_multiarchive_solid.part03.rar", "test_read_format_rar5_multiarchive_solid.part04.rar", NULL }; PROLOGUE_MULTI(reffiles); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("cebula.txt", archive_entry_pathname(ae)); assertA(0 == extract_one(a, ae, 0x7E5EC49E)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test1.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test2.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test3.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test4.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test5.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test6.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("elf-Linux-ARMv7-ls", archive_entry_pathname(ae)); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } /* "skip_all_but_scnd" -> am I hitting the test name limit here after * expansion of "scnd" to "second"? */ DEFINE_TEST(test_read_format_rar5_multiarchive_solid_skip_all_but_scnd) { const char* reffiles[] = { "test_read_format_rar5_multiarchive_solid.part01.rar", "test_read_format_rar5_multiarchive_solid.part02.rar", "test_read_format_rar5_multiarchive_solid.part03.rar", "test_read_format_rar5_multiarchive_solid.part04.rar", NULL }; PROLOGUE_MULTI(reffiles); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("cebula.txt", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test.bin", archive_entry_pathname(ae)); assertA(0 == extract_one(a, ae, 0x7CCA70CD)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test1.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test2.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test3.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test4.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test5.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test6.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("elf-Linux-ARMv7-ls", archive_entry_pathname(ae)); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_multiarchive_solid_skip_all_but_third) { const char* reffiles[] = { "test_read_format_rar5_multiarchive_solid.part01.rar", "test_read_format_rar5_multiarchive_solid.part02.rar", "test_read_format_rar5_multiarchive_solid.part03.rar", "test_read_format_rar5_multiarchive_solid.part04.rar", NULL }; PROLOGUE_MULTI(reffiles); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("cebula.txt", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test1.bin", archive_entry_pathname(ae)); assertA(0 == extract_one(a, ae, 0x7E13B2C6)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test2.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test3.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test4.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test5.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test6.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("elf-Linux-ARMv7-ls", archive_entry_pathname(ae)); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_multiarchive_solid_skip_all_but_last) { const char* reffiles[] = { "test_read_format_rar5_multiarchive_solid.part01.rar", "test_read_format_rar5_multiarchive_solid.part02.rar", "test_read_format_rar5_multiarchive_solid.part03.rar", "test_read_format_rar5_multiarchive_solid.part04.rar", NULL }; PROLOGUE_MULTI(reffiles); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("cebula.txt", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test1.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test2.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test3.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test4.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test5.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test6.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("elf-Linux-ARMv7-ls", archive_entry_pathname(ae)); assertA(0 == extract_one(a, ae, 0x886F91EB)); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_solid_skip_all) { const char* reffile = "test_read_format_rar5_solid.rar"; /* Skip all */ PROLOGUE(reffile); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test1.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test2.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test3.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test4.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test5.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test6.bin", archive_entry_pathname(ae)); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_solid_skip_all_but_first) { const char* reffile = "test_read_format_rar5_solid.rar"; /* Extract first, skip rest */ PROLOGUE(reffile); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test.bin", archive_entry_pathname(ae)); assertA(0 == extract_one(a, ae, 0x7CCA70CD)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test1.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test2.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test3.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test4.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test5.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test6.bin", archive_entry_pathname(ae)); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_solid_skip_all_but_second) { const char* reffile = "test_read_format_rar5_solid.rar"; /* Skip first, extract second, skip rest */ PROLOGUE(reffile); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test1.bin", archive_entry_pathname(ae)); assertA(0 == extract_one(a, ae, 0x7E13B2C6)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test2.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test3.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test4.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test5.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test6.bin", archive_entry_pathname(ae)); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_solid_skip_all_but_last) { const char* reffile = "test_read_format_rar5_solid.rar"; /* Skip all but last, extract last */ PROLOGUE(reffile); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test1.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test2.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test3.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test4.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test5.bin", archive_entry_pathname(ae)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test6.bin", archive_entry_pathname(ae)); assertA(0 == extract_one(a, ae, 0x36A448FF)); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_extract_win32) { PROLOGUE("test_read_format_rar5_win32.rar"); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("testdir", archive_entry_pathname(ae)); assertEqualInt(archive_entry_mode(ae), AE_IFDIR | 0755); assertA(0 == extract_one(a, ae, 0)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test.bin", archive_entry_pathname(ae)); assertEqualInt(archive_entry_mode(ae), AE_IFREG | 0644); assertA(0 == extract_one(a, ae, 0x7CCA70CD)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test1.bin", archive_entry_pathname(ae)); assertEqualInt(archive_entry_mode(ae), AE_IFREG | 0644); assertA(0 == extract_one(a, ae, 0x7E13B2C6)); assertA(0 == archive_read_next_header(a, &ae)); /* Read only file */ assertEqualString("test2.bin", archive_entry_pathname(ae)); assertEqualInt(archive_entry_mode(ae), AE_IFREG | 0444); assertA(0 == extract_one(a, ae, 0xF166AFCB)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test3.bin", archive_entry_pathname(ae)); assertEqualInt(archive_entry_mode(ae), AE_IFREG | 0644); assertA(0 == extract_one(a, ae, 0x9FB123D9)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test4.bin", archive_entry_pathname(ae)); assertEqualInt(archive_entry_mode(ae), AE_IFREG | 0644); assertA(0 == extract_one(a, ae, 0x10C43ED4)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test5.bin", archive_entry_pathname(ae)); assertEqualInt(archive_entry_mode(ae), AE_IFREG | 0644); assertA(0 == extract_one(a, ae, 0xB9D155F2)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test6.bin", archive_entry_pathname(ae)); assertEqualInt(archive_entry_mode(ae), AE_IFREG | 0644); assertA(0 == extract_one(a, ae, 0x36A448FF)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_block_by_block) { /* This test uses strange buffer sizes intentionally. */ struct archive_entry *ae; struct archive *a; uint8_t buf[173]; int bytes_read; uint32_t computed_crc = 0; extract_reference_file("test_read_format_rar5_compressed.rar"); 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_filename(a, "test_read_format_rar5_compressed.rar", 130)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("test.bin", archive_entry_pathname(ae)); assertEqualInt(1200, archive_entry_size(ae)); /* File size is 1200 bytes, we're reading it using a buffer of 173 bytes. * Libarchive is configured to use a buffer of 130 bytes. */ while(1) { /* archive_read_data should return one of: * a) 0, if there is no more data to be read, * b) negative value, if there was an error, * c) positive value, meaning how many bytes were read. */ bytes_read = archive_read_data(a, buf, sizeof(buf)); assertA(bytes_read >= 0); if(bytes_read <= 0) break; computed_crc = crc32(computed_crc, buf, bytes_read); } assertEqualInt(computed_crc, 0x7CCA70CD); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_owner) { const int DATA_SIZE = 5; uint8_t buff[5]; PROLOGUE("test_read_format_rar5_owner.rar"); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("root.txt", archive_entry_pathname(ae)); assertEqualString("root", archive_entry_uname(ae)); assertEqualString("wheel", archive_entry_gname(ae)); assertA((int) archive_entry_mtime(ae) > 0); assertEqualInt(DATA_SIZE, archive_entry_size(ae)); assertA(DATA_SIZE == archive_read_data(a, buff, DATA_SIZE)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("nobody.txt", archive_entry_pathname(ae)); assertEqualString("nobody", archive_entry_uname(ae)); assertEqualString("nogroup", archive_entry_gname(ae)); assertA((int) archive_entry_mtime(ae) > 0); assertEqualInt(DATA_SIZE, archive_entry_size(ae)); assertA(DATA_SIZE == archive_read_data(a, buff, DATA_SIZE)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("numeric.txt", archive_entry_pathname(ae)); assertEqualInt(9999, archive_entry_uid(ae)); assertEqualInt(8888, archive_entry_gid(ae)); assertA((int) archive_entry_mtime(ae) > 0); assertEqualInt(DATA_SIZE, archive_entry_size(ae)); assertA(DATA_SIZE == archive_read_data(a, buff, DATA_SIZE)); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_symlink) { const int DATA_SIZE = 5; uint8_t buff[5]; PROLOGUE("test_read_format_rar5_symlink.rar"); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("file.txt", archive_entry_pathname(ae)); assertEqualInt(AE_IFREG, archive_entry_filetype(ae)); assertA((int) archive_entry_mtime(ae) > 0); assertEqualInt(DATA_SIZE, archive_entry_size(ae)); assertA(DATA_SIZE == archive_read_data(a, buff, DATA_SIZE)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("symlink.txt", archive_entry_pathname(ae)); assertEqualInt(AE_IFLNK, archive_entry_filetype(ae)); assertEqualString("file.txt", archive_entry_symlink(ae)); assertEqualInt(AE_SYMLINK_TYPE_FILE, archive_entry_symlink_type(ae)); assertA(0 == archive_read_data(a, NULL, archive_entry_size(ae))); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("dirlink", archive_entry_pathname(ae)); assertEqualInt(AE_IFLNK, archive_entry_filetype(ae)); assertEqualString("dir", archive_entry_symlink(ae)); assertEqualInt(AE_SYMLINK_TYPE_DIRECTORY, archive_entry_symlink_type(ae)); assertA(0 == archive_read_data(a, NULL, archive_entry_size(ae))); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("dir", archive_entry_pathname(ae)); assertEqualInt(AE_IFDIR, archive_entry_filetype(ae)); assertA(0 == archive_read_data(a, NULL, archive_entry_size(ae))); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_hardlink) { const int DATA_SIZE = 5; uint8_t buff[5]; PROLOGUE("test_read_format_rar5_hardlink.rar"); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("file.txt", archive_entry_pathname(ae)); assertEqualInt(AE_IFREG, archive_entry_filetype(ae)); assertA((int) archive_entry_mtime(ae) > 0); assertEqualInt(DATA_SIZE, archive_entry_size(ae)); assertA(DATA_SIZE == archive_read_data(a, buff, DATA_SIZE)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("hardlink.txt", archive_entry_pathname(ae)); assertEqualInt(AE_IFREG, archive_entry_filetype(ae)); assertEqualString("file.txt", archive_entry_hardlink(ae)); assertA(0 == archive_read_data(a, NULL, archive_entry_size(ae))); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_extra_field_version) { PROLOGUE("test_read_format_rar5_extra_field_version.rar"); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("bin/2to3;1", archive_entry_pathname(ae)); assertA(0 == extract_one(a, ae, 0xF24181B7)); assertA(0 == archive_read_next_header(a, &ae)); assertEqualString("bin/2to3", archive_entry_pathname(ae)); assertA(0 == extract_one(a, ae, 0xF24181B7)); assertA(ARCHIVE_EOF == archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_readtables_overflow) { uint8_t buf[16]; PROLOGUE("test_read_format_rar5_readtables_overflow.rar"); /* This archive is invalid. However, processing it shouldn't cause any * buffer overflow errors during reading rar5 tables. */ (void) archive_read_next_header(a, &ae); (void) archive_read_data(a, buf, sizeof(buf)); (void) archive_read_next_header(a, &ae); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_leftshift1) { uint8_t buf[16]; PROLOGUE("test_read_format_rar5_leftshift1.rar"); /* This archive is invalid. However, processing it shouldn't cause any * errors related to undefined operations when using -fsanitize. */ (void) archive_read_next_header(a, &ae); (void) archive_read_data(a, buf, sizeof(buf)); (void) archive_read_next_header(a, &ae); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_leftshift2) { uint8_t buf[16]; PROLOGUE("test_read_format_rar5_leftshift2.rar"); /* This archive is invalid. However, processing it shouldn't cause any * errors related to undefined operations when using -fsanitize. */ (void) archive_read_next_header(a, &ae); (void) archive_read_data(a, buf, sizeof(buf)); (void) archive_read_next_header(a, &ae); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_truncated_huff) { uint8_t buf[16]; PROLOGUE("test_read_format_rar5_truncated_huff.rar"); /* This archive is invalid. However, processing it shouldn't cause any * errors related to undefined operations when using -fsanitize. */ (void) archive_read_next_header(a, &ae); (void) archive_read_data(a, buf, sizeof(buf)); (void) archive_read_next_header(a, &ae); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_invalid_dict_reference) { uint8_t buf[16]; PROLOGUE("test_read_format_rar5_invalid_dict_reference.rar"); /* This test should fail on parsing the header. */ assertA(archive_read_next_header(a, &ae) != ARCHIVE_OK); /* This archive is invalid. However, processing it shouldn't cause any * errors related to buffer underflow when using -fsanitize. */ assertA(archive_read_data(a, buf, sizeof(buf)) <= 0); /* This test only cares about not returning success here. */ assertA(ARCHIVE_OK != archive_read_next_header(a, &ae)); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_distance_overflow) { uint8_t buf[16]; PROLOGUE("test_read_format_rar5_distance_overflow.rar"); /* This archive is invalid. However, processing it shouldn't cause any * errors related to variable overflows when using -fsanitize. */ (void) archive_read_next_header(a, &ae); (void) archive_read_data(a, buf, sizeof(buf)); (void) archive_read_next_header(a, &ae); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_nonempty_dir_stream) { uint8_t buf[16]; PROLOGUE("test_read_format_rar5_nonempty_dir_stream.rar"); /* This archive is invalid. However, processing it shouldn't cause any * errors related to buffer overflows when using -fsanitize. */ (void) archive_read_next_header(a, &ae); (void) archive_read_data(a, buf, sizeof(buf)); (void) archive_read_next_header(a, &ae); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_fileattr) { unsigned long set, clear, flag; flag = 0; PROLOGUE("test_read_format_rar5_fileattr.rar"); assertA(0 == archive_read_next_header(a, &ae)); assertEqualInt(archive_entry_mode(ae), 0444 | AE_IFREG); assertEqualString("readonly.txt", archive_entry_pathname(ae)); assertEqualString("rdonly", archive_entry_fflags_text(ae)); archive_entry_fflags(ae, &set, &clear); #if defined(__FreeBSD__) flag = UF_READONLY; #elif defined(_WIN32) && !defined(CYGWIN) flag = FILE_ATTRIBUTE_READONLY; #endif assertEqualInt(flag, set & flag); assertA(0 == archive_read_next_header(a, &ae)); assertEqualInt(archive_entry_mode(ae), 0644 | AE_IFREG); assertEqualString("hidden.txt", archive_entry_pathname(ae)); assertEqualString("hidden", archive_entry_fflags_text(ae)); archive_entry_fflags(ae, &set, &clear); #if defined(__FreeBSD__) flag = UF_HIDDEN; #elif defined(_WIN32) && !defined(CYGWIN) flag = FILE_ATTRIBUTE_HIDDEN; #endif assertEqualInt(flag, set & flag); assertA(0 == archive_read_next_header(a, &ae)); assertEqualInt(archive_entry_mode(ae), 0644 | AE_IFREG); assertEqualString("system.txt", archive_entry_pathname(ae)); assertEqualString("system", archive_entry_fflags_text(ae)); archive_entry_fflags(ae, &set, &clear); #if defined(__FreeBSD__) flag = UF_SYSTEM;; #elif defined(_WIN32) && !defined(CYGWIN) flag = FILE_ATTRIBUTE_SYSTEM; #endif assertEqualInt(flag, set & flag); assertA(0 == archive_read_next_header(a, &ae)); assertEqualInt(archive_entry_mode(ae), 0444 | AE_IFREG); assertEqualString("ro_hidden.txt", archive_entry_pathname(ae)); assertEqualString("rdonly,hidden", archive_entry_fflags_text(ae)); archive_entry_fflags(ae, &set, &clear); #if defined(__FreeBSD__) flag = UF_READONLY | UF_HIDDEN; #elif defined(_WIN32) && !defined(CYGWIN) flag = FILE_ATTRIBUTE_READONLY | FILE_ATTRIBUTE_HIDDEN; #endif assertEqualInt(flag, set & flag); assertA(0 == archive_read_next_header(a, &ae)); assertEqualInt(archive_entry_mode(ae), 0555 | AE_IFDIR); assertEqualString("dir_readonly", archive_entry_pathname(ae)); assertEqualString("rdonly", archive_entry_fflags_text(ae)); archive_entry_fflags(ae, &set, &clear); #if defined(__FreeBSD__) flag = UF_READONLY; #elif defined(_WIN32) && !defined(CYGWIN) flag = FILE_ATTRIBUTE_READONLY; #endif assertEqualInt(flag, set & flag); assertA(0 == archive_read_next_header(a, &ae)); assertEqualInt(archive_entry_mode(ae), 0755 | AE_IFDIR); assertEqualString("dir_hidden", archive_entry_pathname(ae)); assertEqualString("hidden", archive_entry_fflags_text(ae)); archive_entry_fflags(ae, &set, &clear); #if defined(__FreeBSD__) flag = UF_HIDDEN; #elif defined(_WIN32) && !defined(CYGWIN) flag = FILE_ATTRIBUTE_HIDDEN; #endif assertEqualInt(flag, set & flag); assertA(0 == archive_read_next_header(a, &ae)); assertEqualInt(archive_entry_mode(ae), 0755 | AE_IFDIR); assertEqualString("dir_system", archive_entry_pathname(ae)); assertEqualString("system", archive_entry_fflags_text(ae)); archive_entry_fflags(ae, &set, &clear); #if defined(__FreeBSD__) flag = UF_SYSTEM; #elif defined(_WIN32) && !defined(CYGWIN) flag = FILE_ATTRIBUTE_SYSTEM; #endif assertEqualInt(flag, set & flag); assertA(0 == archive_read_next_header(a, &ae)); assertEqualInt(archive_entry_mode(ae), 0555 | AE_IFDIR); assertEqualString("dir_rohidden", archive_entry_pathname(ae)); assertEqualString("rdonly,hidden", archive_entry_fflags_text(ae)); archive_entry_fflags(ae, &set, &clear); #if defined(__FreeBSD__) flag = UF_READONLY | UF_HIDDEN; #elif defined(_WIN32) && !defined(CYGWIN) flag = FILE_ATTRIBUTE_READONLY | FILE_ATTRIBUTE_HIDDEN; #endif assertEqualInt(flag, set & flag); EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_different_window_size) { char buf[4096]; PROLOGUE("test_read_format_rar5_different_window_size.rar"); /* Return codes of those calls are ignored, because this sample file * is invalid. However, the unpacker shouldn't produce any SIGSEGV * errors during processing. */ (void) archive_read_next_header(a, &ae); while(0 < archive_read_data(a, buf, sizeof(buf))) {} (void) archive_read_next_header(a, &ae); while(0 < archive_read_data(a, buf, sizeof(buf))) {} (void) archive_read_next_header(a, &ae); while(0 < archive_read_data(a, buf, sizeof(buf))) {} EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_arm_filter_on_window_boundary) { char buf[4096]; PROLOGUE("test_read_format_rar5_arm_filter_on_window_boundary.rar"); /* Return codes of those calls are ignored, because this sample file * is invalid. However, the unpacker shouldn't produce any SIGSEGV * errors during processing. */ (void) archive_read_next_header(a, &ae); while(0 < archive_read_data(a, buf, sizeof(buf))) {} EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_different_solid_window_size) { char buf[4096]; PROLOGUE("test_read_format_rar5_different_solid_window_size.rar"); /* Return codes of those calls are ignored, because this sample file * is invalid. However, the unpacker shouldn't produce any SIGSEGV * errors during processing. */ (void) archive_read_next_header(a, &ae); while(0 < archive_read_data(a, buf, sizeof(buf))) {} (void) archive_read_next_header(a, &ae); while(0 < archive_read_data(a, buf, sizeof(buf))) {} (void) archive_read_next_header(a, &ae); while(0 < archive_read_data(a, buf, sizeof(buf))) {} EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_different_winsize_on_merge) { char buf[4096]; PROLOGUE("test_read_format_rar5_different_winsize_on_merge.rar"); /* Return codes of those calls are ignored, because this sample file * is invalid. However, the unpacker shouldn't produce any SIGSEGV * errors during processing. */ (void) archive_read_next_header(a, &ae); while(0 < archive_read_data(a, buf, sizeof(buf))) {} EPILOGUE(); } DEFINE_TEST(test_read_format_rar5_block_size_is_too_small) { char buf[4096]; PROLOGUE("test_read_format_rar5_block_size_is_too_small.rar"); /* This file is damaged, so those functions should return failure. * Additionally, SIGSEGV shouldn't be raised during execution * of those functions. */ assertA(archive_read_next_header(a, &ae) != ARCHIVE_OK); assertA(archive_read_data(a, buf, sizeof(buf)) <= 0); EPILOGUE(); }