/* SPDX-License-Identifier: LGPL-2.1-or-later */ #include #if HAVE_LZ4 #include #endif #include "dlfcn-util.h" #include "alloc-util.h" #include "compress.h" #include "fd-util.h" #include "fs-util.h" #include "macro.h" #include "memory-util.h" #include "path-util.h" #include "random-util.h" #include "tests.h" #include "tmpfile-util.h" #if HAVE_XZ # define XZ_OK 0 #else # define XZ_OK -EPROTONOSUPPORT #endif #if HAVE_LZ4 # define LZ4_OK 0 #else # define LZ4_OK -EPROTONOSUPPORT #endif #define HUGE_SIZE (4096*1024) typedef int (compress_blob_t)(const void *src, uint64_t src_size, void *dst, size_t dst_alloc_size, size_t *dst_size); typedef int (decompress_blob_t)(const void *src, uint64_t src_size, void **dst, size_t* dst_size, size_t dst_max); typedef int (decompress_sw_t)(const void *src, uint64_t src_size, void **buffer, const void *prefix, size_t prefix_len, uint8_t extra); typedef int (compress_stream_t)(int fdf, int fdt, uint64_t max_bytes, uint64_t *uncompressed_size); typedef int (decompress_stream_t)(int fdf, int fdt, uint64_t max_size); #if HAVE_COMPRESSION _unused_ static void test_compress_decompress( const char *compression, compress_blob_t compress, decompress_blob_t decompress, const char *data, size_t data_len, bool may_fail) { char compressed[512]; size_t csize; _cleanup_free_ char *decompressed = NULL; int r; log_info("/* testing %s %s blob compression/decompression */", compression, data); r = compress(data, data_len, compressed, sizeof(compressed), &csize); if (r == -ENOBUFS) { log_info_errno(r, "compression failed: %m"); assert_se(may_fail); } else { assert_se(r >= 0); r = decompress(compressed, csize, (void **) &decompressed, &csize, 0); assert_se(r == 0); assert_se(decompressed); assert_se(memcmp(decompressed, data, data_len) == 0); } r = decompress("garbage", 7, (void **) &decompressed, &csize, 0); assert_se(r < 0); /* make sure to have the minimal lz4 compressed size */ r = decompress("00000000\1g", 9, (void **) &decompressed, &csize, 0); assert_se(r < 0); r = decompress("\100000000g", 9, (void **) &decompressed, &csize, 0); assert_se(r < 0); explicit_bzero_safe(decompressed, MALLOC_SIZEOF_SAFE(decompressed)); } _unused_ static void test_decompress_startswith(const char *compression, compress_blob_t compress, decompress_sw_t decompress_sw, const char *data, size_t data_len, bool may_fail) { char *compressed; _cleanup_free_ char *compressed1 = NULL, *compressed2 = NULL, *decompressed = NULL; size_t csize, len; int r; log_info("/* testing decompress_startswith with %s on %.20s text */", compression, data); #define BUFSIZE_1 512 #define BUFSIZE_2 20000 compressed = compressed1 = malloc(BUFSIZE_1); assert_se(compressed1); r = compress(data, data_len, compressed, BUFSIZE_1, &csize); if (r == -ENOBUFS) { log_info_errno(r, "compression failed: %m"); assert_se(may_fail); compressed = compressed2 = malloc(BUFSIZE_2); assert_se(compressed2); r = compress(data, data_len, compressed, BUFSIZE_2, &csize); } assert_se(r >= 0); len = strlen(data); r = decompress_sw(compressed, csize, (void **) &decompressed, data, len, '\0'); assert_se(r > 0); r = decompress_sw(compressed, csize, (void **) &decompressed, data, len, 'w'); assert_se(r == 0); r = decompress_sw(compressed, csize, (void **) &decompressed, "barbarbar", 9, ' '); assert_se(r == 0); r = decompress_sw(compressed, csize, (void **) &decompressed, data, len - 1, data[len-1]); assert_se(r > 0); r = decompress_sw(compressed, csize, (void **) &decompressed, data, len - 1, 'w'); assert_se(r == 0); r = decompress_sw(compressed, csize, (void **) &decompressed, data, len, '\0'); assert_se(r > 0); } _unused_ static void test_decompress_startswith_short(const char *compression, compress_blob_t compress, decompress_sw_t decompress_sw) { #define TEXT "HUGE=xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx" char buf[1024]; size_t csize; int r; log_info("/* %s with %s */", __func__, compression); r = compress(TEXT, sizeof TEXT, buf, sizeof buf, &csize); assert_se(r >= 0); for (size_t i = 1; i < strlen(TEXT); i++) { _cleanup_free_ void *buf2 = NULL; assert_se(buf2 = malloc(i)); assert_se(decompress_sw(buf, csize, &buf2, TEXT, i, TEXT[i]) == 1); assert_se(decompress_sw(buf, csize, &buf2, TEXT, i, 'y') == 0); } } _unused_ static void test_compress_stream(const char *compression, const char *cat, compress_stream_t compress, decompress_stream_t decompress, const char *srcfile) { _cleanup_close_ int src = -EBADF, dst = -EBADF, dst2 = -EBADF; _cleanup_(unlink_tempfilep) char pattern[] = "/tmp/systemd-test.compressed.XXXXXX", pattern2[] = "/tmp/systemd-test.compressed.XXXXXX"; int r; _cleanup_free_ char *cmd = NULL, *cmd2 = NULL; struct stat st = {}; uint64_t uncompressed_size; r = find_executable(cat, NULL); if (r < 0) { log_error_errno(r, "Skipping %s, could not find %s binary: %m", __func__, cat); return; } log_debug("/* testing %s compression */", compression); log_debug("/* create source from %s */", srcfile); ASSERT_OK((src = open(srcfile, O_RDONLY|O_CLOEXEC))); log_debug("/* test compression */"); assert_se((dst = mkostemp_safe(pattern)) >= 0); ASSERT_OK(compress(src, dst, -1, &uncompressed_size)); if (cat) { assert_se(asprintf(&cmd, "%s %s | diff '%s' -", cat, pattern, srcfile) > 0); assert_se(system(cmd) == 0); } log_debug("/* test decompression */"); assert_se((dst2 = mkostemp_safe(pattern2)) >= 0); assert_se(stat(srcfile, &st) == 0); assert_se((uint64_t)st.st_size == uncompressed_size); assert_se(lseek(dst, 0, SEEK_SET) == 0); r = decompress(dst, dst2, st.st_size); assert_se(r == 0); assert_se(asprintf(&cmd2, "diff '%s' %s", srcfile, pattern2) > 0); assert_se(system(cmd2) == 0); log_debug("/* test faulty decompression */"); assert_se(lseek(dst, 1, SEEK_SET) == 1); r = decompress(dst, dst2, st.st_size); assert_se(IN_SET(r, 0, -EBADMSG)); assert_se(lseek(dst, 0, SEEK_SET) == 0); assert_se(lseek(dst2, 0, SEEK_SET) == 0); r = decompress(dst, dst2, st.st_size - 1); assert_se(r == -EFBIG); } #endif #if HAVE_LZ4 static void test_lz4_decompress_partial(void) { char buf[20000], buf2[100]; size_t buf_size = sizeof(buf), compressed; int r; _cleanup_free_ char *huge = NULL; log_debug("/* %s */", __func__); assert_se(huge = malloc(HUGE_SIZE)); memcpy(huge, "HUGE=", STRLEN("HUGE=")); memset(&huge[STRLEN("HUGE=")], 'x', HUGE_SIZE - STRLEN("HUGE=") - 1); huge[HUGE_SIZE - 1] = '\0'; r = sym_LZ4_compress_default(huge, buf, HUGE_SIZE, buf_size); assert_se(r >= 0); compressed = r; log_info("Compressed %i → %zu", HUGE_SIZE, compressed); r = sym_LZ4_decompress_safe(buf, huge, r, HUGE_SIZE); assert_se(r >= 0); log_info("Decompressed → %i", r); r = sym_LZ4_decompress_safe_partial(buf, huge, compressed, 12, HUGE_SIZE); assert_se(r >= 0); log_info("Decompressed partial %i/%i → %i", 12, HUGE_SIZE, r); for (size_t size = 1; size < sizeof(buf2); size++) { /* This failed in older lz4s but works in newer ones. */ r = sym_LZ4_decompress_safe_partial(buf, buf2, compressed, size, size); log_info("Decompressed partial %zu/%zu → %i (%s)", size, size, r, r < 0 ? "bad" : "good"); if (r >= 0 && sym_LZ4_versionNumber() >= 10803) /* lz4 <= 1.8.2 should fail that test, let's only check for newer ones */ assert_se(memcmp(buf2, huge, r) == 0); } } #endif int main(int argc, char *argv[]) { #if HAVE_COMPRESSION _unused_ const char text[] = "text\0foofoofoofoo AAAA aaaaaaaaa ghost busters barbarbar FFF" "foofoofoofoo AAAA aaaaaaaaa ghost busters barbarbar FFF"; /* The file to test compression on can be specified as the first argument */ const char *srcfile = argc > 1 ? argv[1] : argv[0]; char data[512] = "random\0"; _cleanup_free_ char *huge = NULL; assert_se(huge = malloc(HUGE_SIZE)); memcpy(huge, "HUGE=", STRLEN("HUGE=")); memset(&huge[STRLEN("HUGE=")], 'x', HUGE_SIZE - STRLEN("HUGE=") - 1); huge[HUGE_SIZE - 1] = '\0'; test_setup_logging(LOG_DEBUG); random_bytes(data + 7, sizeof(data) - 7); #if HAVE_XZ test_compress_decompress("XZ", compress_blob_xz, decompress_blob_xz, text, sizeof(text), false); test_compress_decompress("XZ", compress_blob_xz, decompress_blob_xz, data, sizeof(data), true); test_decompress_startswith("XZ", compress_blob_xz, decompress_startswith_xz, text, sizeof(text), false); test_decompress_startswith("XZ", compress_blob_xz, decompress_startswith_xz, data, sizeof(data), true); test_decompress_startswith("XZ", compress_blob_xz, decompress_startswith_xz, huge, HUGE_SIZE, true); test_compress_stream("XZ", "xzcat", compress_stream_xz, decompress_stream_xz, srcfile); test_decompress_startswith_short("XZ", compress_blob_xz, decompress_startswith_xz); #else log_info("/* XZ test skipped */"); #endif #if HAVE_LZ4 if (dlopen_lz4() >= 0) { test_compress_decompress("LZ4", compress_blob_lz4, decompress_blob_lz4, text, sizeof(text), false); test_compress_decompress("LZ4", compress_blob_lz4, decompress_blob_lz4, data, sizeof(data), true); test_decompress_startswith("LZ4", compress_blob_lz4, decompress_startswith_lz4, text, sizeof(text), false); test_decompress_startswith("LZ4", compress_blob_lz4, decompress_startswith_lz4, data, sizeof(data), true); test_decompress_startswith("LZ4", compress_blob_lz4, decompress_startswith_lz4, huge, HUGE_SIZE, true); test_compress_stream("LZ4", "lz4cat", compress_stream_lz4, decompress_stream_lz4, srcfile); test_lz4_decompress_partial(); test_decompress_startswith_short("LZ4", compress_blob_lz4, decompress_startswith_lz4); } else log_error("/* Can't load liblz4 */"); #else log_info("/* LZ4 test skipped */"); #endif #if HAVE_ZSTD test_compress_decompress("ZSTD", compress_blob_zstd, decompress_blob_zstd, text, sizeof(text), false); test_compress_decompress("ZSTD", compress_blob_zstd, decompress_blob_zstd, data, sizeof(data), true); test_decompress_startswith("ZSTD", compress_blob_zstd, decompress_startswith_zstd, text, sizeof(text), false); test_decompress_startswith("ZSTD", compress_blob_zstd, decompress_startswith_zstd, data, sizeof(data), true); test_decompress_startswith("ZSTD", compress_blob_zstd, decompress_startswith_zstd, huge, HUGE_SIZE, true); test_compress_stream("ZSTD", "zstdcat", compress_stream_zstd, decompress_stream_zstd, srcfile); test_decompress_startswith_short("ZSTD", compress_blob_zstd, decompress_startswith_zstd); #else log_info("/* ZSTD test skipped */"); #endif return 0; #else return log_tests_skipped("no compression algorithm supported"); #endif }