/* Copyright 2020 Google LLC Use of this source code is governed by a BSD-style license that can be found in the LICENSE file or at https://developers.google.com/open-source/licenses/bsd */ #include "stack.h" #include "system.h" #include "reftable-reader.h" #include "merged.h" #include "basics.h" #include "constants.h" #include "record.h" #include "test_framework.h" #include "reftable-tests.h" #include #include static void clear_dir(const char *dirname) { struct strbuf path = STRBUF_INIT; strbuf_addstr(&path, dirname); remove_dir_recursively(&path, 0); strbuf_release(&path); } static int count_dir_entries(const char *dirname) { DIR *dir = opendir(dirname); int len = 0; struct dirent *d; if (dir == NULL) return 0; while ((d = readdir(dir))) { if (!strcmp(d->d_name, "..") || !strcmp(d->d_name, ".")) continue; len++; } closedir(dir); return len; } /* * Work linenumber into the tempdir, so we can see which tests forget to * cleanup. */ static char *get_tmp_template(int linenumber) { const char *tmp = getenv("TMPDIR"); static char template[1024]; snprintf(template, sizeof(template) - 1, "%s/stack_test-%d.XXXXXX", tmp ? tmp : "/tmp", linenumber); return template; } static char *get_tmp_dir(int linenumber) { char *dir = get_tmp_template(linenumber); EXPECT(mkdtemp(dir)); return dir; } static void test_read_file(void) { char *fn = get_tmp_template(__LINE__); int fd = mkstemp(fn); char out[1024] = "line1\n\nline2\nline3"; int n, err; char **names = NULL; char *want[] = { "line1", "line2", "line3" }; int i = 0; EXPECT(fd > 0); n = write(fd, out, strlen(out)); EXPECT(n == strlen(out)); err = close(fd); EXPECT(err >= 0); err = read_lines(fn, &names); EXPECT_ERR(err); for (i = 0; names[i]; i++) { EXPECT(0 == strcmp(want[i], names[i])); } free_names(names); remove(fn); } static void test_parse_names(void) { char buf[] = "line\n"; char **names = NULL; parse_names(buf, strlen(buf), &names); EXPECT(NULL != names[0]); EXPECT(0 == strcmp(names[0], "line")); EXPECT(NULL == names[1]); free_names(names); } static void test_names_equal(void) { char *a[] = { "a", "b", "c", NULL }; char *b[] = { "a", "b", "d", NULL }; char *c[] = { "a", "b", NULL }; EXPECT(names_equal(a, a)); EXPECT(!names_equal(a, b)); EXPECT(!names_equal(a, c)); } static int write_test_ref(struct reftable_writer *wr, void *arg) { struct reftable_ref_record *ref = arg; reftable_writer_set_limits(wr, ref->update_index, ref->update_index); return reftable_writer_add_ref(wr, ref); } struct write_log_arg { struct reftable_log_record *log; uint64_t update_index; }; static int write_test_log(struct reftable_writer *wr, void *arg) { struct write_log_arg *wla = arg; reftable_writer_set_limits(wr, wla->update_index, wla->update_index); return reftable_writer_add_log(wr, wla->log); } static void test_reftable_stack_add_one(void) { char *dir = get_tmp_dir(__LINE__); struct reftable_write_options cfg = { 0 }; struct reftable_stack *st = NULL; int err; struct reftable_ref_record ref = { .refname = "HEAD", .update_index = 1, .value_type = REFTABLE_REF_SYMREF, .value.symref = "master", }; struct reftable_ref_record dest = { NULL }; err = reftable_new_stack(&st, dir, cfg); EXPECT_ERR(err); err = reftable_stack_add(st, &write_test_ref, &ref); EXPECT_ERR(err); err = reftable_stack_read_ref(st, ref.refname, &dest); EXPECT_ERR(err); EXPECT(0 == strcmp("master", dest.value.symref)); printf("testing print functionality:\n"); err = reftable_stack_print_directory(dir, GIT_SHA1_FORMAT_ID); EXPECT_ERR(err); err = reftable_stack_print_directory(dir, GIT_SHA256_FORMAT_ID); EXPECT(err == REFTABLE_FORMAT_ERROR); reftable_ref_record_release(&dest); reftable_stack_destroy(st); clear_dir(dir); } static void test_reftable_stack_uptodate(void) { struct reftable_write_options cfg = { 0 }; struct reftable_stack *st1 = NULL; struct reftable_stack *st2 = NULL; char *dir = get_tmp_dir(__LINE__); int err; struct reftable_ref_record ref1 = { .refname = "HEAD", .update_index = 1, .value_type = REFTABLE_REF_SYMREF, .value.symref = "master", }; struct reftable_ref_record ref2 = { .refname = "branch2", .update_index = 2, .value_type = REFTABLE_REF_SYMREF, .value.symref = "master", }; /* simulate multi-process access to the same stack by creating two stacks for the same directory. */ err = reftable_new_stack(&st1, dir, cfg); EXPECT_ERR(err); err = reftable_new_stack(&st2, dir, cfg); EXPECT_ERR(err); err = reftable_stack_add(st1, &write_test_ref, &ref1); EXPECT_ERR(err); err = reftable_stack_add(st2, &write_test_ref, &ref2); EXPECT(err == REFTABLE_LOCK_ERROR); err = reftable_stack_reload(st2); EXPECT_ERR(err); err = reftable_stack_add(st2, &write_test_ref, &ref2); EXPECT_ERR(err); reftable_stack_destroy(st1); reftable_stack_destroy(st2); clear_dir(dir); } static void test_reftable_stack_transaction_api(void) { char *dir = get_tmp_dir(__LINE__); struct reftable_write_options cfg = { 0 }; struct reftable_stack *st = NULL; int err; struct reftable_addition *add = NULL; struct reftable_ref_record ref = { .refname = "HEAD", .update_index = 1, .value_type = REFTABLE_REF_SYMREF, .value.symref = "master", }; struct reftable_ref_record dest = { NULL }; err = reftable_new_stack(&st, dir, cfg); EXPECT_ERR(err); reftable_addition_destroy(add); err = reftable_stack_new_addition(&add, st); EXPECT_ERR(err); err = reftable_addition_add(add, &write_test_ref, &ref); EXPECT_ERR(err); err = reftable_addition_commit(add); EXPECT_ERR(err); reftable_addition_destroy(add); err = reftable_stack_read_ref(st, ref.refname, &dest); EXPECT_ERR(err); EXPECT(REFTABLE_REF_SYMREF == dest.value_type); EXPECT(0 == strcmp("master", dest.value.symref)); reftable_ref_record_release(&dest); reftable_stack_destroy(st); clear_dir(dir); } static void test_reftable_stack_validate_refname(void) { struct reftable_write_options cfg = { 0 }; struct reftable_stack *st = NULL; int err; char *dir = get_tmp_dir(__LINE__); int i; struct reftable_ref_record ref = { .refname = "a/b", .update_index = 1, .value_type = REFTABLE_REF_SYMREF, .value.symref = "master", }; char *additions[] = { "a", "a/b/c" }; err = reftable_new_stack(&st, dir, cfg); EXPECT_ERR(err); err = reftable_stack_add(st, &write_test_ref, &ref); EXPECT_ERR(err); for (i = 0; i < ARRAY_SIZE(additions); i++) { struct reftable_ref_record ref = { .refname = additions[i], .update_index = 1, .value_type = REFTABLE_REF_SYMREF, .value.symref = "master", }; err = reftable_stack_add(st, &write_test_ref, &ref); EXPECT(err == REFTABLE_NAME_CONFLICT); } reftable_stack_destroy(st); clear_dir(dir); } static int write_error(struct reftable_writer *wr, void *arg) { return *((int *)arg); } static void test_reftable_stack_update_index_check(void) { char *dir = get_tmp_dir(__LINE__); struct reftable_write_options cfg = { 0 }; struct reftable_stack *st = NULL; int err; struct reftable_ref_record ref1 = { .refname = "name1", .update_index = 1, .value_type = REFTABLE_REF_SYMREF, .value.symref = "master", }; struct reftable_ref_record ref2 = { .refname = "name2", .update_index = 1, .value_type = REFTABLE_REF_SYMREF, .value.symref = "master", }; err = reftable_new_stack(&st, dir, cfg); EXPECT_ERR(err); err = reftable_stack_add(st, &write_test_ref, &ref1); EXPECT_ERR(err); err = reftable_stack_add(st, &write_test_ref, &ref2); EXPECT(err == REFTABLE_API_ERROR); reftable_stack_destroy(st); clear_dir(dir); } static void test_reftable_stack_lock_failure(void) { char *dir = get_tmp_dir(__LINE__); struct reftable_write_options cfg = { 0 }; struct reftable_stack *st = NULL; int err, i; err = reftable_new_stack(&st, dir, cfg); EXPECT_ERR(err); for (i = -1; i != REFTABLE_EMPTY_TABLE_ERROR; i--) { err = reftable_stack_add(st, &write_error, &i); EXPECT(err == i); } reftable_stack_destroy(st); clear_dir(dir); } static void test_reftable_stack_add(void) { int i = 0; int err = 0; struct reftable_write_options cfg = { .exact_log_message = 1, }; struct reftable_stack *st = NULL; char *dir = get_tmp_dir(__LINE__); struct reftable_ref_record refs[2] = { { NULL } }; struct reftable_log_record logs[2] = { { NULL } }; int N = ARRAY_SIZE(refs); err = reftable_new_stack(&st, dir, cfg); EXPECT_ERR(err); st->disable_auto_compact = 1; for (i = 0; i < N; i++) { char buf[256]; snprintf(buf, sizeof(buf), "branch%02d", i); refs[i].refname = xstrdup(buf); refs[i].update_index = i + 1; refs[i].value_type = REFTABLE_REF_VAL1; refs[i].value.val1 = reftable_malloc(GIT_SHA1_RAWSZ); set_test_hash(refs[i].value.val1, i); logs[i].refname = xstrdup(buf); logs[i].update_index = N + i + 1; logs[i].value_type = REFTABLE_LOG_UPDATE; logs[i].value.update.new_hash = reftable_malloc(GIT_SHA1_RAWSZ); logs[i].value.update.email = xstrdup("identity@invalid"); set_test_hash(logs[i].value.update.new_hash, i); } for (i = 0; i < N; i++) { int err = reftable_stack_add(st, &write_test_ref, &refs[i]); EXPECT_ERR(err); } for (i = 0; i < N; i++) { struct write_log_arg arg = { .log = &logs[i], .update_index = reftable_stack_next_update_index(st), }; int err = reftable_stack_add(st, &write_test_log, &arg); EXPECT_ERR(err); } err = reftable_stack_compact_all(st, NULL); EXPECT_ERR(err); for (i = 0; i < N; i++) { struct reftable_ref_record dest = { NULL }; int err = reftable_stack_read_ref(st, refs[i].refname, &dest); EXPECT_ERR(err); EXPECT(reftable_ref_record_equal(&dest, refs + i, GIT_SHA1_RAWSZ)); reftable_ref_record_release(&dest); } for (i = 0; i < N; i++) { struct reftable_log_record dest = { NULL }; int err = reftable_stack_read_log(st, refs[i].refname, &dest); EXPECT_ERR(err); EXPECT(reftable_log_record_equal(&dest, logs + i, GIT_SHA1_RAWSZ)); reftable_log_record_release(&dest); } /* cleanup */ reftable_stack_destroy(st); for (i = 0; i < N; i++) { reftable_ref_record_release(&refs[i]); reftable_log_record_release(&logs[i]); } clear_dir(dir); } static void test_reftable_stack_log_normalize(void) { int err = 0; struct reftable_write_options cfg = { 0, }; struct reftable_stack *st = NULL; char *dir = get_tmp_dir(__LINE__); uint8_t h1[GIT_SHA1_RAWSZ] = { 0x01 }, h2[GIT_SHA1_RAWSZ] = { 0x02 }; struct reftable_log_record input = { .refname = "branch", .update_index = 1, .value_type = REFTABLE_LOG_UPDATE, .value = { .update = { .new_hash = h1, .old_hash = h2, } } }; struct reftable_log_record dest = { .update_index = 0, }; struct write_log_arg arg = { .log = &input, .update_index = 1, }; err = reftable_new_stack(&st, dir, cfg); EXPECT_ERR(err); input.value.update.message = "one\ntwo"; err = reftable_stack_add(st, &write_test_log, &arg); EXPECT(err == REFTABLE_API_ERROR); input.value.update.message = "one"; err = reftable_stack_add(st, &write_test_log, &arg); EXPECT_ERR(err); err = reftable_stack_read_log(st, input.refname, &dest); EXPECT_ERR(err); EXPECT(0 == strcmp(dest.value.update.message, "one\n")); input.value.update.message = "two\n"; arg.update_index = 2; err = reftable_stack_add(st, &write_test_log, &arg); EXPECT_ERR(err); err = reftable_stack_read_log(st, input.refname, &dest); EXPECT_ERR(err); EXPECT(0 == strcmp(dest.value.update.message, "two\n")); /* cleanup */ reftable_stack_destroy(st); reftable_log_record_release(&dest); clear_dir(dir); } static void test_reftable_stack_tombstone(void) { int i = 0; char *dir = get_tmp_dir(__LINE__); struct reftable_write_options cfg = { 0 }; struct reftable_stack *st = NULL; int err; struct reftable_ref_record refs[2] = { { NULL } }; struct reftable_log_record logs[2] = { { NULL } }; int N = ARRAY_SIZE(refs); struct reftable_ref_record dest = { NULL }; struct reftable_log_record log_dest = { NULL }; err = reftable_new_stack(&st, dir, cfg); EXPECT_ERR(err); /* even entries add the refs, odd entries delete them. */ for (i = 0; i < N; i++) { const char *buf = "branch"; refs[i].refname = xstrdup(buf); refs[i].update_index = i + 1; if (i % 2 == 0) { refs[i].value_type = REFTABLE_REF_VAL1; refs[i].value.val1 = reftable_malloc(GIT_SHA1_RAWSZ); set_test_hash(refs[i].value.val1, i); } logs[i].refname = xstrdup(buf); /* update_index is part of the key. */ logs[i].update_index = 42; if (i % 2 == 0) { logs[i].value_type = REFTABLE_LOG_UPDATE; logs[i].value.update.new_hash = reftable_malloc(GIT_SHA1_RAWSZ); set_test_hash(logs[i].value.update.new_hash, i); logs[i].value.update.email = xstrdup("identity@invalid"); } } for (i = 0; i < N; i++) { int err = reftable_stack_add(st, &write_test_ref, &refs[i]); EXPECT_ERR(err); } for (i = 0; i < N; i++) { struct write_log_arg arg = { .log = &logs[i], .update_index = reftable_stack_next_update_index(st), }; int err = reftable_stack_add(st, &write_test_log, &arg); EXPECT_ERR(err); } err = reftable_stack_read_ref(st, "branch", &dest); EXPECT(err == 1); reftable_ref_record_release(&dest); err = reftable_stack_read_log(st, "branch", &log_dest); EXPECT(err == 1); reftable_log_record_release(&log_dest); err = reftable_stack_compact_all(st, NULL); EXPECT_ERR(err); err = reftable_stack_read_ref(st, "branch", &dest); EXPECT(err == 1); err = reftable_stack_read_log(st, "branch", &log_dest); EXPECT(err == 1); reftable_ref_record_release(&dest); reftable_log_record_release(&log_dest); /* cleanup */ reftable_stack_destroy(st); for (i = 0; i < N; i++) { reftable_ref_record_release(&refs[i]); reftable_log_record_release(&logs[i]); } clear_dir(dir); } static void test_reftable_stack_hash_id(void) { char *dir = get_tmp_dir(__LINE__); struct reftable_write_options cfg = { 0 }; struct reftable_stack *st = NULL; int err; struct reftable_ref_record ref = { .refname = "master", .value_type = REFTABLE_REF_SYMREF, .value.symref = "target", .update_index = 1, }; struct reftable_write_options cfg32 = { .hash_id = GIT_SHA256_FORMAT_ID }; struct reftable_stack *st32 = NULL; struct reftable_write_options cfg_default = { 0 }; struct reftable_stack *st_default = NULL; struct reftable_ref_record dest = { NULL }; err = reftable_new_stack(&st, dir, cfg); EXPECT_ERR(err); err = reftable_stack_add(st, &write_test_ref, &ref); EXPECT_ERR(err); /* can't read it with the wrong hash ID. */ err = reftable_new_stack(&st32, dir, cfg32); EXPECT(err == REFTABLE_FORMAT_ERROR); /* check that we can read it back with default config too. */ err = reftable_new_stack(&st_default, dir, cfg_default); EXPECT_ERR(err); err = reftable_stack_read_ref(st_default, "master", &dest); EXPECT_ERR(err); EXPECT(reftable_ref_record_equal(&ref, &dest, GIT_SHA1_RAWSZ)); reftable_ref_record_release(&dest); reftable_stack_destroy(st); reftable_stack_destroy(st_default); clear_dir(dir); } static void test_log2(void) { EXPECT(1 == fastlog2(3)); EXPECT(2 == fastlog2(4)); EXPECT(2 == fastlog2(5)); } static void test_sizes_to_segments(void) { uint64_t sizes[] = { 2, 3, 4, 5, 7, 9 }; /* .................0 1 2 3 4 5 */ int seglen = 0; struct segment *segs = sizes_to_segments(&seglen, sizes, ARRAY_SIZE(sizes)); EXPECT(segs[2].log == 3); EXPECT(segs[2].start == 5); EXPECT(segs[2].end == 6); EXPECT(segs[1].log == 2); EXPECT(segs[1].start == 2); EXPECT(segs[1].end == 5); reftable_free(segs); } static void test_sizes_to_segments_empty(void) { int seglen = 0; struct segment *segs = sizes_to_segments(&seglen, NULL, 0); EXPECT(seglen == 0); reftable_free(segs); } static void test_sizes_to_segments_all_equal(void) { uint64_t sizes[] = { 5, 5 }; int seglen = 0; struct segment *segs = sizes_to_segments(&seglen, sizes, ARRAY_SIZE(sizes)); EXPECT(seglen == 1); EXPECT(segs[0].start == 0); EXPECT(segs[0].end == 2); reftable_free(segs); } static void test_suggest_compaction_segment(void) { uint64_t sizes[] = { 128, 64, 17, 16, 9, 9, 9, 16, 16 }; /* .................0 1 2 3 4 5 6 */ struct segment min = suggest_compaction_segment(sizes, ARRAY_SIZE(sizes)); EXPECT(min.start == 2); EXPECT(min.end == 7); } static void test_suggest_compaction_segment_nothing(void) { uint64_t sizes[] = { 64, 32, 16, 8, 4, 2 }; struct segment result = suggest_compaction_segment(sizes, ARRAY_SIZE(sizes)); EXPECT(result.start == result.end); } static void test_reflog_expire(void) { char *dir = get_tmp_dir(__LINE__); struct reftable_write_options cfg = { 0 }; struct reftable_stack *st = NULL; struct reftable_log_record logs[20] = { { NULL } }; int N = ARRAY_SIZE(logs) - 1; int i = 0; int err; struct reftable_log_expiry_config expiry = { .time = 10, }; struct reftable_log_record log = { NULL }; err = reftable_new_stack(&st, dir, cfg); EXPECT_ERR(err); for (i = 1; i <= N; i++) { char buf[256]; snprintf(buf, sizeof(buf), "branch%02d", i); logs[i].refname = xstrdup(buf); logs[i].update_index = i; logs[i].value_type = REFTABLE_LOG_UPDATE; logs[i].value.update.time = i; logs[i].value.update.new_hash = reftable_malloc(GIT_SHA1_RAWSZ); logs[i].value.update.email = xstrdup("identity@invalid"); set_test_hash(logs[i].value.update.new_hash, i); } for (i = 1; i <= N; i++) { struct write_log_arg arg = { .log = &logs[i], .update_index = reftable_stack_next_update_index(st), }; int err = reftable_stack_add(st, &write_test_log, &arg); EXPECT_ERR(err); } err = reftable_stack_compact_all(st, NULL); EXPECT_ERR(err); err = reftable_stack_compact_all(st, &expiry); EXPECT_ERR(err); err = reftable_stack_read_log(st, logs[9].refname, &log); EXPECT(err == 1); err = reftable_stack_read_log(st, logs[11].refname, &log); EXPECT_ERR(err); expiry.min_update_index = 15; err = reftable_stack_compact_all(st, &expiry); EXPECT_ERR(err); err = reftable_stack_read_log(st, logs[14].refname, &log); EXPECT(err == 1); err = reftable_stack_read_log(st, logs[16].refname, &log); EXPECT_ERR(err); /* cleanup */ reftable_stack_destroy(st); for (i = 0; i <= N; i++) { reftable_log_record_release(&logs[i]); } clear_dir(dir); reftable_log_record_release(&log); } static int write_nothing(struct reftable_writer *wr, void *arg) { reftable_writer_set_limits(wr, 1, 1); return 0; } static void test_empty_add(void) { struct reftable_write_options cfg = { 0 }; struct reftable_stack *st = NULL; int err; char *dir = get_tmp_dir(__LINE__); struct reftable_stack *st2 = NULL; err = reftable_new_stack(&st, dir, cfg); EXPECT_ERR(err); err = reftable_stack_add(st, &write_nothing, NULL); EXPECT_ERR(err); err = reftable_new_stack(&st2, dir, cfg); EXPECT_ERR(err); clear_dir(dir); reftable_stack_destroy(st); reftable_stack_destroy(st2); } static void test_reftable_stack_auto_compaction(void) { struct reftable_write_options cfg = { 0 }; struct reftable_stack *st = NULL; char *dir = get_tmp_dir(__LINE__); int err, i; int N = 100; err = reftable_new_stack(&st, dir, cfg); EXPECT_ERR(err); st->disable_auto_compact = 1; /* call manually below for coverage. */ for (i = 0; i < N; i++) { char name[100]; struct reftable_ref_record ref = { .refname = name, .update_index = reftable_stack_next_update_index(st), .value_type = REFTABLE_REF_SYMREF, .value.symref = "master", }; snprintf(name, sizeof(name), "branch%04d", i); err = reftable_stack_add(st, &write_test_ref, &ref); EXPECT_ERR(err); err = reftable_stack_auto_compact(st); EXPECT(i < 3 || st->merged->stack_len < 2 * fastlog2(i)); } EXPECT(reftable_stack_compaction_stats(st)->entries_written < (uint64_t)(N * fastlog2(N))); reftable_stack_destroy(st); clear_dir(dir); } static void test_reftable_stack_compaction_concurrent(void) { struct reftable_write_options cfg = { 0 }; struct reftable_stack *st1 = NULL, *st2 = NULL; char *dir = get_tmp_dir(__LINE__); int err, i; int N = 3; err = reftable_new_stack(&st1, dir, cfg); EXPECT_ERR(err); for (i = 0; i < N; i++) { char name[100]; struct reftable_ref_record ref = { .refname = name, .update_index = reftable_stack_next_update_index(st1), .value_type = REFTABLE_REF_SYMREF, .value.symref = "master", }; snprintf(name, sizeof(name), "branch%04d", i); err = reftable_stack_add(st1, &write_test_ref, &ref); EXPECT_ERR(err); } err = reftable_new_stack(&st2, dir, cfg); EXPECT_ERR(err); err = reftable_stack_compact_all(st1, NULL); EXPECT_ERR(err); reftable_stack_destroy(st1); reftable_stack_destroy(st2); EXPECT(count_dir_entries(dir) == 2); clear_dir(dir); } static void unclean_stack_close(struct reftable_stack *st) { /* break abstraction boundary to simulate unclean shutdown. */ int i = 0; for (; i < st->readers_len; i++) { reftable_reader_free(st->readers[i]); } st->readers_len = 0; FREE_AND_NULL(st->readers); } static void test_reftable_stack_compaction_concurrent_clean(void) { struct reftable_write_options cfg = { 0 }; struct reftable_stack *st1 = NULL, *st2 = NULL, *st3 = NULL; char *dir = get_tmp_dir(__LINE__); int err, i; int N = 3; err = reftable_new_stack(&st1, dir, cfg); EXPECT_ERR(err); for (i = 0; i < N; i++) { char name[100]; struct reftable_ref_record ref = { .refname = name, .update_index = reftable_stack_next_update_index(st1), .value_type = REFTABLE_REF_SYMREF, .value.symref = "master", }; snprintf(name, sizeof(name), "branch%04d", i); err = reftable_stack_add(st1, &write_test_ref, &ref); EXPECT_ERR(err); } err = reftable_new_stack(&st2, dir, cfg); EXPECT_ERR(err); err = reftable_stack_compact_all(st1, NULL); EXPECT_ERR(err); unclean_stack_close(st1); unclean_stack_close(st2); err = reftable_new_stack(&st3, dir, cfg); EXPECT_ERR(err); err = reftable_stack_clean(st3); EXPECT_ERR(err); EXPECT(count_dir_entries(dir) == 2); reftable_stack_destroy(st1); reftable_stack_destroy(st2); reftable_stack_destroy(st3); clear_dir(dir); } int stack_test_main(int argc, const char *argv[]) { RUN_TEST(test_empty_add); RUN_TEST(test_log2); RUN_TEST(test_names_equal); RUN_TEST(test_parse_names); RUN_TEST(test_read_file); RUN_TEST(test_reflog_expire); RUN_TEST(test_reftable_stack_add); RUN_TEST(test_reftable_stack_add_one); RUN_TEST(test_reftable_stack_auto_compaction); RUN_TEST(test_reftable_stack_compaction_concurrent); RUN_TEST(test_reftable_stack_compaction_concurrent_clean); RUN_TEST(test_reftable_stack_hash_id); RUN_TEST(test_reftable_stack_lock_failure); RUN_TEST(test_reftable_stack_log_normalize); RUN_TEST(test_reftable_stack_tombstone); RUN_TEST(test_reftable_stack_transaction_api); RUN_TEST(test_reftable_stack_update_index_check); RUN_TEST(test_reftable_stack_uptodate); RUN_TEST(test_reftable_stack_validate_refname); RUN_TEST(test_sizes_to_segments); RUN_TEST(test_sizes_to_segments_all_equal); RUN_TEST(test_sizes_to_segments_empty); RUN_TEST(test_suggest_compaction_segment); RUN_TEST(test_suggest_compaction_segment_nothing); return 0; }