// SPDX-License-Identifier: GPL-2.0 /* * Base unit test (KUnit) API. * * Copyright (C) 2019, Google LLC. * Author: Brendan Higgins */ #include #include #include #include #include #include #include #include "debugfs.h" #include "string-stream.h" #include "try-catch-impl.h" #if IS_BUILTIN(CONFIG_KUNIT) /* * Fail the current test and print an error message to the log. */ void __kunit_fail_current_test(const char *file, int line, const char *fmt, ...) { va_list args; int len; char *buffer; if (!current->kunit_test) return; kunit_set_failure(current->kunit_test); /* kunit_err() only accepts literals, so evaluate the args first. */ va_start(args, fmt); len = vsnprintf(NULL, 0, fmt, args) + 1; va_end(args); buffer = kunit_kmalloc(current->kunit_test, len, GFP_KERNEL); if (!buffer) return; va_start(args, fmt); vsnprintf(buffer, len, fmt, args); va_end(args); kunit_err(current->kunit_test, "%s:%d: %s", file, line, buffer); kunit_kfree(current->kunit_test, buffer); } EXPORT_SYMBOL_GPL(__kunit_fail_current_test); #endif /* * KUnit statistic mode: * 0 - disabled * 1 - only when there is more than one subtest * 2 - enabled */ static int kunit_stats_enabled = 1; module_param_named(stats_enabled, kunit_stats_enabled, int, 0644); MODULE_PARM_DESC(stats_enabled, "Print test stats: never (0), only for multiple subtests (1), or always (2)"); struct kunit_result_stats { unsigned long passed; unsigned long skipped; unsigned long failed; unsigned long total; }; static bool kunit_should_print_stats(struct kunit_result_stats stats) { if (kunit_stats_enabled == 0) return false; if (kunit_stats_enabled == 2) return true; return (stats.total > 1); } static void kunit_print_test_stats(struct kunit *test, struct kunit_result_stats stats) { if (!kunit_should_print_stats(stats)) return; kunit_log(KERN_INFO, test, KUNIT_SUBTEST_INDENT "# %s: pass:%lu fail:%lu skip:%lu total:%lu", test->name, stats.passed, stats.failed, stats.skipped, stats.total); } /* * Append formatted message to log, size of which is limited to * KUNIT_LOG_SIZE bytes (including null terminating byte). */ void kunit_log_append(char *log, const char *fmt, ...) { char line[KUNIT_LOG_SIZE]; va_list args; int len_left; if (!log) return; len_left = KUNIT_LOG_SIZE - strlen(log) - 1; if (len_left <= 0) return; va_start(args, fmt); vsnprintf(line, sizeof(line), fmt, args); va_end(args); strncat(log, line, len_left); } EXPORT_SYMBOL_GPL(kunit_log_append); size_t kunit_suite_num_test_cases(struct kunit_suite *suite) { struct kunit_case *test_case; size_t len = 0; kunit_suite_for_each_test_case(suite, test_case) len++; return len; } EXPORT_SYMBOL_GPL(kunit_suite_num_test_cases); static void kunit_print_subtest_start(struct kunit_suite *suite) { kunit_log(KERN_INFO, suite, KUNIT_SUBTEST_INDENT "# Subtest: %s", suite->name); kunit_log(KERN_INFO, suite, KUNIT_SUBTEST_INDENT "1..%zd", kunit_suite_num_test_cases(suite)); } static void kunit_print_ok_not_ok(void *test_or_suite, bool is_test, enum kunit_status status, size_t test_number, const char *description, const char *directive) { struct kunit_suite *suite = is_test ? NULL : test_or_suite; struct kunit *test = is_test ? test_or_suite : NULL; const char *directive_header = (status == KUNIT_SKIPPED) ? " # SKIP " : ""; /* * We do not log the test suite results as doing so would * mean debugfs display would consist of the test suite * description and status prior to individual test results. * Hence directly printk the suite status, and we will * separately seq_printf() the suite status for the debugfs * representation. */ if (suite) pr_info("%s %zd - %s%s%s\n", kunit_status_to_ok_not_ok(status), test_number, description, directive_header, (status == KUNIT_SKIPPED) ? directive : ""); else kunit_log(KERN_INFO, test, KUNIT_SUBTEST_INDENT "%s %zd - %s%s%s", kunit_status_to_ok_not_ok(status), test_number, description, directive_header, (status == KUNIT_SKIPPED) ? directive : ""); } enum kunit_status kunit_suite_has_succeeded(struct kunit_suite *suite) { const struct kunit_case *test_case; enum kunit_status status = KUNIT_SKIPPED; kunit_suite_for_each_test_case(suite, test_case) { if (test_case->status == KUNIT_FAILURE) return KUNIT_FAILURE; else if (test_case->status == KUNIT_SUCCESS) status = KUNIT_SUCCESS; } return status; } EXPORT_SYMBOL_GPL(kunit_suite_has_succeeded); static size_t kunit_suite_counter = 1; static void kunit_print_subtest_end(struct kunit_suite *suite) { kunit_print_ok_not_ok((void *)suite, false, kunit_suite_has_succeeded(suite), kunit_suite_counter++, suite->name, suite->status_comment); } unsigned int kunit_test_case_num(struct kunit_suite *suite, struct kunit_case *test_case) { struct kunit_case *tc; unsigned int i = 1; kunit_suite_for_each_test_case(suite, tc) { if (tc == test_case) return i; i++; } return 0; } EXPORT_SYMBOL_GPL(kunit_test_case_num); static void kunit_print_string_stream(struct kunit *test, struct string_stream *stream) { struct string_stream_fragment *fragment; char *buf; if (string_stream_is_empty(stream)) return; buf = string_stream_get_string(stream); if (!buf) { kunit_err(test, "Could not allocate buffer, dumping stream:\n"); list_for_each_entry(fragment, &stream->fragments, node) { kunit_err(test, "%s", fragment->fragment); } kunit_err(test, "\n"); } else { kunit_err(test, "%s", buf); kunit_kfree(test, buf); } } static void kunit_fail(struct kunit *test, struct kunit_assert *assert) { struct string_stream *stream; kunit_set_failure(test); stream = alloc_string_stream(test, GFP_KERNEL); if (!stream) { WARN(true, "Could not allocate stream to print failed assertion in %s:%d\n", assert->file, assert->line); return; } assert->format(assert, stream); kunit_print_string_stream(test, stream); WARN_ON(string_stream_destroy(stream)); } static void __noreturn kunit_abort(struct kunit *test) { kunit_try_catch_throw(&test->try_catch); /* Does not return. */ /* * Throw could not abort from test. * * XXX: we should never reach this line! As kunit_try_catch_throw is * marked __noreturn. */ WARN_ONCE(true, "Throw could not abort from test!\n"); } void kunit_do_assertion(struct kunit *test, struct kunit_assert *assert, bool pass, const char *fmt, ...) { va_list args; if (pass) return; va_start(args, fmt); assert->message.fmt = fmt; assert->message.va = &args; kunit_fail(test, assert); va_end(args); if (assert->type == KUNIT_ASSERTION) kunit_abort(test); } EXPORT_SYMBOL_GPL(kunit_do_assertion); void kunit_init_test(struct kunit *test, const char *name, char *log) { spin_lock_init(&test->lock); INIT_LIST_HEAD(&test->resources); test->name = name; test->log = log; if (test->log) test->log[0] = '\0'; test->status = KUNIT_SUCCESS; test->status_comment[0] = '\0'; } EXPORT_SYMBOL_GPL(kunit_init_test); /* * Initializes and runs test case. Does not clean up or do post validations. */ static void kunit_run_case_internal(struct kunit *test, struct kunit_suite *suite, struct kunit_case *test_case) { if (suite->init) { int ret; ret = suite->init(test); if (ret) { kunit_err(test, "failed to initialize: %d\n", ret); kunit_set_failure(test); return; } } test_case->run_case(test); } static void kunit_case_internal_cleanup(struct kunit *test) { kunit_cleanup(test); } /* * Performs post validations and cleanup after a test case was run. * XXX: Should ONLY BE CALLED AFTER kunit_run_case_internal! */ static void kunit_run_case_cleanup(struct kunit *test, struct kunit_suite *suite) { if (suite->exit) suite->exit(test); kunit_case_internal_cleanup(test); } struct kunit_try_catch_context { struct kunit *test; struct kunit_suite *suite; struct kunit_case *test_case; }; static void kunit_try_run_case(void *data) { struct kunit_try_catch_context *ctx = data; struct kunit *test = ctx->test; struct kunit_suite *suite = ctx->suite; struct kunit_case *test_case = ctx->test_case; current->kunit_test = test; /* * kunit_run_case_internal may encounter a fatal error; if it does, * abort will be called, this thread will exit, and finally the parent * thread will resume control and handle any necessary clean up. */ kunit_run_case_internal(test, suite, test_case); /* This line may never be reached. */ kunit_run_case_cleanup(test, suite); } static void kunit_catch_run_case(void *data) { struct kunit_try_catch_context *ctx = data; struct kunit *test = ctx->test; struct kunit_suite *suite = ctx->suite; int try_exit_code = kunit_try_catch_get_result(&test->try_catch); if (try_exit_code) { kunit_set_failure(test); /* * Test case could not finish, we have no idea what state it is * in, so don't do clean up. */ if (try_exit_code == -ETIMEDOUT) { kunit_err(test, "test case timed out\n"); /* * Unknown internal error occurred preventing test case from * running, so there is nothing to clean up. */ } else { kunit_err(test, "internal error occurred preventing test case from running: %d\n", try_exit_code); } return; } /* * Test case was run, but aborted. It is the test case's business as to * whether it failed or not, we just need to clean up. */ kunit_run_case_cleanup(test, suite); } /* * Performs all logic to run a test case. It also catches most errors that * occur in a test case and reports them as failures. */ static void kunit_run_case_catch_errors(struct kunit_suite *suite, struct kunit_case *test_case, struct kunit *test) { struct kunit_try_catch_context context; struct kunit_try_catch *try_catch; kunit_init_test(test, test_case->name, test_case->log); try_catch = &test->try_catch; kunit_try_catch_init(try_catch, test, kunit_try_run_case, kunit_catch_run_case); context.test = test; context.suite = suite; context.test_case = test_case; kunit_try_catch_run(try_catch, &context); /* Propagate the parameter result to the test case. */ if (test->status == KUNIT_FAILURE) test_case->status = KUNIT_FAILURE; else if (test_case->status != KUNIT_FAILURE && test->status == KUNIT_SUCCESS) test_case->status = KUNIT_SUCCESS; } static void kunit_print_suite_stats(struct kunit_suite *suite, struct kunit_result_stats suite_stats, struct kunit_result_stats param_stats) { if (kunit_should_print_stats(suite_stats)) { kunit_log(KERN_INFO, suite, "# %s: pass:%lu fail:%lu skip:%lu total:%lu", suite->name, suite_stats.passed, suite_stats.failed, suite_stats.skipped, suite_stats.total); } if (kunit_should_print_stats(param_stats)) { kunit_log(KERN_INFO, suite, "# Totals: pass:%lu fail:%lu skip:%lu total:%lu", param_stats.passed, param_stats.failed, param_stats.skipped, param_stats.total); } } static void kunit_update_stats(struct kunit_result_stats *stats, enum kunit_status status) { switch (status) { case KUNIT_SUCCESS: stats->passed++; break; case KUNIT_SKIPPED: stats->skipped++; break; case KUNIT_FAILURE: stats->failed++; break; } stats->total++; } static void kunit_accumulate_stats(struct kunit_result_stats *total, struct kunit_result_stats add) { total->passed += add.passed; total->skipped += add.skipped; total->failed += add.failed; total->total += add.total; } int kunit_run_tests(struct kunit_suite *suite) { char param_desc[KUNIT_PARAM_DESC_SIZE]; struct kunit_case *test_case; struct kunit_result_stats suite_stats = { 0 }; struct kunit_result_stats total_stats = { 0 }; kunit_print_subtest_start(suite); kunit_suite_for_each_test_case(suite, test_case) { struct kunit test = { .param_value = NULL, .param_index = 0 }; struct kunit_result_stats param_stats = { 0 }; test_case->status = KUNIT_SKIPPED; if (test_case->generate_params) { /* Get initial param. */ param_desc[0] = '\0'; test.param_value = test_case->generate_params(NULL, param_desc); } do { kunit_run_case_catch_errors(suite, test_case, &test); if (test_case->generate_params) { if (param_desc[0] == '\0') { snprintf(param_desc, sizeof(param_desc), "param-%d", test.param_index); } kunit_log(KERN_INFO, &test, KUNIT_SUBTEST_INDENT "# %s: %s %d - %s", test_case->name, kunit_status_to_ok_not_ok(test.status), test.param_index + 1, param_desc); /* Get next param. */ param_desc[0] = '\0'; test.param_value = test_case->generate_params(test.param_value, param_desc); test.param_index++; } kunit_update_stats(¶m_stats, test.status); } while (test.param_value); kunit_print_test_stats(&test, param_stats); kunit_print_ok_not_ok(&test, true, test_case->status, kunit_test_case_num(suite, test_case), test_case->name, test.status_comment); kunit_update_stats(&suite_stats, test_case->status); kunit_accumulate_stats(&total_stats, param_stats); } kunit_print_suite_stats(suite, suite_stats, total_stats); kunit_print_subtest_end(suite); return 0; } EXPORT_SYMBOL_GPL(kunit_run_tests); static void kunit_init_suite(struct kunit_suite *suite) { kunit_debugfs_create_suite(suite); suite->status_comment[0] = '\0'; } int __kunit_test_suites_init(struct kunit_suite * const * const suites) { unsigned int i; for (i = 0; suites[i] != NULL; i++) { kunit_init_suite(suites[i]); kunit_run_tests(suites[i]); } return 0; } EXPORT_SYMBOL_GPL(__kunit_test_suites_init); static void kunit_exit_suite(struct kunit_suite *suite) { kunit_debugfs_destroy_suite(suite); } void __kunit_test_suites_exit(struct kunit_suite **suites) { unsigned int i; for (i = 0; suites[i] != NULL; i++) kunit_exit_suite(suites[i]); kunit_suite_counter = 1; } EXPORT_SYMBOL_GPL(__kunit_test_suites_exit); /* * Used for static resources and when a kunit_resource * has been created by * kunit_alloc_resource(). When an init function is supplied, @data is passed * into the init function; otherwise, we simply set the resource data field to * the data value passed in. */ int kunit_add_resource(struct kunit *test, kunit_resource_init_t init, kunit_resource_free_t free, struct kunit_resource *res, void *data) { int ret = 0; unsigned long flags; res->free = free; kref_init(&res->refcount); if (init) { ret = init(res, data); if (ret) return ret; } else { res->data = data; } spin_lock_irqsave(&test->lock, flags); list_add_tail(&res->node, &test->resources); /* refcount for list is established by kref_init() */ spin_unlock_irqrestore(&test->lock, flags); return ret; } EXPORT_SYMBOL_GPL(kunit_add_resource); int kunit_add_named_resource(struct kunit *test, kunit_resource_init_t init, kunit_resource_free_t free, struct kunit_resource *res, const char *name, void *data) { struct kunit_resource *existing; if (!name) return -EINVAL; existing = kunit_find_named_resource(test, name); if (existing) { kunit_put_resource(existing); return -EEXIST; } res->name = name; return kunit_add_resource(test, init, free, res, data); } EXPORT_SYMBOL_GPL(kunit_add_named_resource); struct kunit_resource *kunit_alloc_and_get_resource(struct kunit *test, kunit_resource_init_t init, kunit_resource_free_t free, gfp_t internal_gfp, void *data) { struct kunit_resource *res; int ret; res = kzalloc(sizeof(*res), internal_gfp); if (!res) return NULL; ret = kunit_add_resource(test, init, free, res, data); if (!ret) { /* * bump refcount for get; kunit_resource_put() should be called * when done. */ kunit_get_resource(res); return res; } return NULL; } EXPORT_SYMBOL_GPL(kunit_alloc_and_get_resource); void kunit_remove_resource(struct kunit *test, struct kunit_resource *res) { unsigned long flags; spin_lock_irqsave(&test->lock, flags); list_del(&res->node); spin_unlock_irqrestore(&test->lock, flags); kunit_put_resource(res); } EXPORT_SYMBOL_GPL(kunit_remove_resource); int kunit_destroy_resource(struct kunit *test, kunit_resource_match_t match, void *match_data) { struct kunit_resource *res = kunit_find_resource(test, match, match_data); if (!res) return -ENOENT; kunit_remove_resource(test, res); /* We have a reference also via _find(); drop it. */ kunit_put_resource(res); return 0; } EXPORT_SYMBOL_GPL(kunit_destroy_resource); struct kunit_kmalloc_array_params { size_t n; size_t size; gfp_t gfp; }; static int kunit_kmalloc_array_init(struct kunit_resource *res, void *context) { struct kunit_kmalloc_array_params *params = context; res->data = kmalloc_array(params->n, params->size, params->gfp); if (!res->data) return -ENOMEM; return 0; } static void kunit_kmalloc_array_free(struct kunit_resource *res) { kfree(res->data); } void *kunit_kmalloc_array(struct kunit *test, size_t n, size_t size, gfp_t gfp) { struct kunit_kmalloc_array_params params = { .size = size, .n = n, .gfp = gfp }; return kunit_alloc_resource(test, kunit_kmalloc_array_init, kunit_kmalloc_array_free, gfp, ¶ms); } EXPORT_SYMBOL_GPL(kunit_kmalloc_array); void kunit_kfree(struct kunit *test, const void *ptr) { struct kunit_resource *res; res = kunit_find_resource(test, kunit_resource_instance_match, (void *)ptr); /* * Removing the resource from the list of resources drops the * reference count to 1; the final put will trigger the free. */ kunit_remove_resource(test, res); kunit_put_resource(res); } EXPORT_SYMBOL_GPL(kunit_kfree); void kunit_cleanup(struct kunit *test) { struct kunit_resource *res; unsigned long flags; /* * test->resources is a stack - each allocation must be freed in the * reverse order from which it was added since one resource may depend * on another for its entire lifetime. * Also, we cannot use the normal list_for_each constructs, even the * safe ones because *arbitrary* nodes may be deleted when * kunit_resource_free is called; the list_for_each_safe variants only * protect against the current node being deleted, not the next. */ while (true) { spin_lock_irqsave(&test->lock, flags); if (list_empty(&test->resources)) { spin_unlock_irqrestore(&test->lock, flags); break; } res = list_last_entry(&test->resources, struct kunit_resource, node); /* * Need to unlock here as a resource may remove another * resource, and this can't happen if the test->lock * is held. */ spin_unlock_irqrestore(&test->lock, flags); kunit_remove_resource(test, res); } current->kunit_test = NULL; } EXPORT_SYMBOL_GPL(kunit_cleanup); static int __init kunit_init(void) { kunit_debugfs_init(); return 0; } late_initcall(kunit_init); static void __exit kunit_exit(void) { kunit_debugfs_cleanup(); } module_exit(kunit_exit); MODULE_LICENSE("GPL v2");