// SPDX-License-Identifier: GPL-2.0+ /* * Copyright 2021 Google LLC * Written by Simon Glass */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include DECLARE_GLOBAL_DATA_PTR; /** * enum fdtchk_t - what to do with the device tree (gd->fdt_blob) * * This affects what happens with the device tree before and after a test * * @FDTCHK_NONE: Do nothing * @FDTCHK_CHECKSUM: Take a checksum of the FDT before the test runs and * compare it afterwards to detect any changes * @FDTCHK_COPY: Make a copy of the FDT and restore it afterwards */ enum fdtchk_t { FDTCHK_NONE, FDTCHK_CHECKSUM, FDTCHK_COPY, }; /** * fdt_action() - get the required action for the FDT * * @return the action that should be taken for this build */ static enum fdtchk_t fdt_action(void) { /* For sandbox SPL builds, do nothing */ if (IS_ENABLED(CONFIG_SANDBOX) && IS_ENABLED(CONFIG_SPL_BUILD)) return FDTCHK_NONE; /* Do a copy for sandbox (but only the U-Boot build, not SPL) */ if (IS_ENABLED(CONFIG_SANDBOX)) return FDTCHK_COPY; /* For all other boards, do a checksum */ return FDTCHK_CHECKSUM; } /* This is valid when a test is running, NULL otherwise */ static struct unit_test_state *cur_test_state; struct unit_test_state *test_get_state(void) { return cur_test_state; } void test_set_state(struct unit_test_state *uts) { cur_test_state = uts; } /** * dm_test_pre_run() - Get ready to run a driver model test * * This clears out the driver model data structures. For sandbox it resets the * state structure * * @uts: Test state */ static int dm_test_pre_run(struct unit_test_state *uts) { bool of_live = uts->of_live; if (of_live && (gd->flags & GD_FLG_FDT_CHANGED)) { printf("Cannot run live tree test as device tree changed\n"); return -EFAULT; } uts->root = NULL; uts->testdev = NULL; uts->force_fail_alloc = false; uts->skip_post_probe = false; if (fdt_action() == FDTCHK_CHECKSUM) uts->fdt_chksum = crc8(0, gd->fdt_blob, fdt_totalsize(gd->fdt_blob)); gd->dm_root = NULL; malloc_disable_testing(); if (CONFIG_IS_ENABLED(UT_DM) && !CONFIG_IS_ENABLED(OF_PLATDATA)) memset(dm_testdrv_op_count, '\0', sizeof(dm_testdrv_op_count)); arch_reset_for_test(); /* Determine whether to make the live tree available */ gd_set_of_root(of_live ? uts->of_root : NULL); oftree_reset(); ut_assertok(dm_init(of_live)); uts->root = dm_root(); return 0; } static int dm_test_post_run(struct unit_test_state *uts) { int id; if (gd->fdt_blob) { switch (fdt_action()) { case FDTCHK_COPY: memcpy((void *)gd->fdt_blob, uts->fdt_copy, uts->fdt_size); break; case FDTCHK_CHECKSUM: { uint chksum; chksum = crc8(0, gd->fdt_blob, fdt_totalsize(gd->fdt_blob)); if (chksum != uts->fdt_chksum) { /* * We cannot run any more tests that need the * live tree, since its strings point into the * flat tree, which has changed. This likely * means that at least some of the pointers from * the live tree point to different things */ printf("Device tree changed: cannot run live tree tests\n"); gd->flags |= GD_FLG_FDT_CHANGED; } break; } case FDTCHK_NONE: break; } } /* * With of-platdata-inst the uclasses are created at build time. If we * destroy them we cannot get them back since uclass_add() is not * supported. So skip this. */ if (!CONFIG_IS_ENABLED(OF_PLATDATA_INST)) { for (id = 0; id < UCLASS_COUNT; id++) { struct uclass *uc; /* * If the uclass doesn't exist we don't want to create * it. So check that here before we call * uclass_find_device(). */ uc = uclass_find(id); if (!uc) continue; ut_assertok(uclass_destroy(uc)); } } return 0; } /* Ensure all the test devices are probed */ static int do_autoprobe(struct unit_test_state *uts) { return uclass_probe_all(UCLASS_TEST); } /* * ut_test_run_on_flattree() - Check if we should run a test with flat DT * * This skips long/slow tests where there is not much value in running a flat * DT test in addition to a live DT test. * * Return: true to run the given test on the flat device tree */ static bool ut_test_run_on_flattree(struct unit_test *test) { const char *fname = strrchr(test->file, '/') + 1; if (!(test->flags & UT_TESTF_DM)) return false; return !strstr(fname, "video") || strstr(test->name, "video_base"); } /** * test_matches() - Check if a test should be run * * This checks if the a test should be run. In the normal case of running all * tests, @select_name is NULL. * * @prefix: String prefix for the tests. Any tests that have this prefix will be * printed without the prefix, so that it is easier to see the unique part * of the test name. If NULL, any suite name (xxx_test) is considered to be * a prefix. * @test_name: Name of current test * @select_name: Name of test to run (or NULL for all) * Return: true to run this test, false to skip it */ static bool test_matches(const char *prefix, const char *test_name, const char *select_name) { size_t len; if (!select_name) return true; /* Allow glob expansion in the test name */ len = select_name[strlen(select_name) - 1] == '*' ? strlen(select_name) : 0; if (len-- == 1) return true; if (!strncmp(test_name, select_name, len)) return true; if (prefix) { /* All tests have this prefix */ if (!strncmp(test_name, prefix, strlen(prefix))) test_name += strlen(prefix); } else { const char *p = strstr(test_name, "_test_"); /* convert xxx_test_yyy to yyy, i.e. remove the suite name */ if (p) test_name = p + strlen("_test_"); } if (!strncmp(test_name, select_name, len)) return true; return false; } /** * ut_list_has_dm_tests() - Check if a list of tests has driver model ones * * @tests: List of tests to run * @count: Number of tests to ru * Return: true if any of the tests have the UT_TESTF_DM flag */ static bool ut_list_has_dm_tests(struct unit_test *tests, int count) { struct unit_test *test; for (test = tests; test < tests + count; test++) { if (test->flags & UT_TESTF_DM) return true; } return false; } /** * dm_test_restore() Put things back to normal so sandbox works as expected * * @of_root: Value to set for of_root * Return: 0 if OK, -ve on error */ static int dm_test_restore(struct device_node *of_root) { int ret; gd_set_of_root(of_root); gd->dm_root = NULL; ret = dm_init(CONFIG_IS_ENABLED(OF_LIVE)); if (ret) return ret; dm_scan_plat(false); if (!CONFIG_IS_ENABLED(OF_PLATDATA)) dm_extended_scan(false); return 0; } /** * test_pre_run() - Handle any preparation needed to run a test * * @uts: Test state * @test: Test to prepare for * Return: 0 if OK, -EAGAIN to skip this test since some required feature is not * available, other -ve on error (meaning that testing cannot likely * continue) */ static int test_pre_run(struct unit_test_state *uts, struct unit_test *test) { ut_assertok(event_init()); if (test->flags & UT_TESTF_DM) ut_assertok(dm_test_pre_run(uts)); ut_set_skip_delays(uts, false); uts->start = mallinfo(); if (test->flags & UT_TESTF_SCAN_PDATA) ut_assertok(dm_scan_plat(false)); if (test->flags & UT_TESTF_PROBE_TEST) ut_assertok(do_autoprobe(uts)); if (!CONFIG_IS_ENABLED(OF_PLATDATA) && (test->flags & UT_TESTF_SCAN_FDT)) { /* * only set this if we know the ethernet uclass will be created */ eth_set_enable_bootdevs(test->flags & UT_TESTF_ETH_BOOTDEV); test_sf_set_enable_bootdevs(test->flags & UT_TESTF_SF_BOOTDEV); ut_assertok(dm_extended_scan(false)); } /* * Do this after FDT scan since dm_scan_other() in bootstd-uclass.c * checks for the existence of bootstd */ if (test->flags & UT_TESTF_SCAN_PDATA) ut_assertok(dm_scan_other(false)); if (IS_ENABLED(CONFIG_SANDBOX) && (test->flags & UT_TESTF_OTHER_FDT)) { /* make sure the other FDT is available */ ut_assertok(test_load_other_fdt(uts)); /* * create a new live tree with it for every test, in case a * test modifies the tree */ if (of_live_active()) { ut_assertok(unflatten_device_tree(uts->other_fdt, &uts->of_other)); } } if (test->flags & UT_TESTF_CONSOLE_REC) { int ret = console_record_reset_enable(); if (ret) { printf("Skipping: Console recording disabled\n"); return -EAGAIN; } } ut_silence_console(uts); return 0; } /** * test_post_run() - Handle cleaning up after a test * * @uts: Test state * @test: Test to clean up after * Return: 0 if OK, -ve on error (meaning that testing cannot likely continue) */ static int test_post_run(struct unit_test_state *uts, struct unit_test *test) { ut_unsilence_console(uts); if (test->flags & UT_TESTF_DM) ut_assertok(dm_test_post_run(uts)); ut_assertok(cyclic_unregister_all()); ut_assertok(event_uninit()); free(uts->of_other); uts->of_other = NULL; blkcache_free(); return 0; } /** * skip_test() - Handle skipping a test * * @uts: Test state to update * @return -EAGAIN (always) */ static int skip_test(struct unit_test_state *uts) { uts->skip_count++; return -EAGAIN; } /** * ut_run_test() - Run a single test * * This runs the test, handling any preparation and clean-up needed. It prints * the name of each test before running it. * * @uts: Test state to update. The caller should ensure that this is zeroed for * the first call to this function. On exit, @uts->fail_count is * incremented by the number of failures (0, one hopes) * @test_name: Test to run * @name: Name of test, possibly skipping a prefix that should not be displayed * Return: 0 if all tests passed, -EAGAIN if the test should be skipped, -1 if * any failed */ static int ut_run_test(struct unit_test_state *uts, struct unit_test *test, const char *test_name) { const char *fname = strrchr(test->file, '/') + 1; const char *note = ""; int ret; if ((test->flags & UT_TESTF_DM) && !uts->of_live) note = " (flat tree)"; printf("Test: %s: %s%s\n", test_name, fname, note); /* Allow access to test state from drivers */ test_set_state(uts); ret = test_pre_run(uts, test); if (ret == -EAGAIN) return skip_test(uts); if (ret) return ret; ret = test->func(uts); if (ret == -EAGAIN) skip_test(uts); ret = test_post_run(uts, test); if (ret) return ret; test_set_state( NULL); return 0; } /** * ut_run_test_live_flat() - Run a test with both live and flat tree * * This calls ut_run_test() with livetree enabled, which is the standard setup * for runnig tests. Then, for driver model test, it calls it again with * livetree disabled. This allows checking of flattree being used when OF_LIVE * is enabled, as is the case in U-Boot proper before relocation, as well as in * SPL. * * @uts: Test state to update. The caller should ensure that this is zeroed for * the first call to this function. On exit, @uts->fail_count is * incremented by the number of failures (0, one hopes) * @test: Test to run * Return: 0 if all tests passed, -EAGAIN if the test should be skipped, -1 if * any failed */ static int ut_run_test_live_flat(struct unit_test_state *uts, struct unit_test *test) { int runs; if ((test->flags & UT_TESTF_OTHER_FDT) && !IS_ENABLED(CONFIG_SANDBOX)) return skip_test(uts); /* Run with the live tree if possible */ runs = 0; if (CONFIG_IS_ENABLED(OF_LIVE)) { if (!(test->flags & UT_TESTF_FLAT_TREE)) { uts->of_live = true; ut_assertok(ut_run_test(uts, test, test->name)); runs++; } } /* * Run with the flat tree if: * - it is not marked for live tree only * - it doesn't require the 'other' FDT when OFNODE_MULTI_TREE_MAX is * not enabled (since flat tree can only support a single FDT in that * case * - we couldn't run it with live tree, * - it is a core test (dm tests except video) * - the FDT is still valid and has not been updated by an earlier test * (for sandbox we handle this by copying the tree, but not for other * boards) */ if ((test->flags & UT_TESTF_SCAN_FDT) && !(test->flags & UT_TESTF_LIVE_TREE) && (CONFIG_IS_ENABLED(OFNODE_MULTI_TREE) || !(test->flags & UT_TESTF_OTHER_FDT)) && (!runs || ut_test_run_on_flattree(test)) && !(gd->flags & GD_FLG_FDT_CHANGED)) { uts->of_live = false; ut_assertok(ut_run_test(uts, test, test->name)); runs++; } return 0; } /** * ut_run_tests() - Run a set of tests * * This runs the tests, handling any preparation and clean-up needed. It prints * the name of each test before running it. * * @uts: Test state to update. The caller should ensure that this is zeroed for * the first call to this function. On exit, @uts->fail_count is * incremented by the number of failures (0, one hopes) * @prefix: String prefix for the tests. Any tests that have this prefix will be * printed without the prefix, so that it is easier to see the unique part * of the test name. If NULL, no prefix processing is done * @tests: List of tests to run * @count: Number of tests to run * @select_name: Name of a single test to run (from the list provided). If NULL * then all tests are run * Return: 0 if all tests passed, -ENOENT if test @select_name was not found, * -EBADF if any failed */ static int ut_run_tests(struct unit_test_state *uts, const char *prefix, struct unit_test *tests, int count, const char *select_name, const char *test_insert) { struct unit_test *test, *one; int found = 0; int pos = 0; int upto; one = NULL; if (test_insert) { char *p; pos = dectoul(test_insert, NULL); p = strchr(test_insert, ':'); if (p) p++; for (test = tests; test < tests + count; test++) { if (!strcmp(p, test->name)) one = test; } } for (upto = 0, test = tests; test < tests + count; test++, upto++) { const char *test_name = test->name; int ret, i, old_fail_count; if (!test_matches(prefix, test_name, select_name)) continue; if (test->flags & UT_TESTF_MANUAL) { int len; /* * manual tests must have a name ending "_norun" as this * is how pytest knows to skip them. See * generate_ut_subtest() for this check. */ len = strlen(test_name); if (len < 6 || strcmp(test_name + len - 6, "_norun")) { printf("Test %s is manual so must have a name ending in _norun\n", test_name); uts->fail_count++; return -EBADF; } if (!uts->force_run) { if (select_name) { printf("Test %s skipped as it is manual (use -f to run it)\n", test_name); } continue; } } old_fail_count = uts->fail_count; if (one && upto == pos) { ret = ut_run_test_live_flat(uts, one); if (uts->fail_count != old_fail_count) { printf("Test %s failed %d times (position %d)\n", one->name, uts->fail_count - old_fail_count, pos); } return -EBADF; } for (i = 0; i < uts->runs_per_test; i++) ret = ut_run_test_live_flat(uts, test); if (uts->fail_count != old_fail_count) { printf("Test %s failed %d times\n", select_name, uts->fail_count - old_fail_count); } found++; if (ret == -EAGAIN) continue; if (ret) return ret; } if (select_name && !found) return -ENOENT; return uts->fail_count ? -EBADF : 0; } int ut_run_list(const char *category, const char *prefix, struct unit_test *tests, int count, const char *select_name, int runs_per_test, bool force_run, const char *test_insert) { struct unit_test_state uts = { .fail_count = 0 }; bool has_dm_tests = false; int ret; if (!CONFIG_IS_ENABLED(OF_PLATDATA) && ut_list_has_dm_tests(tests, count)) { has_dm_tests = true; /* * If we have no device tree, or it only has a root node, then * these * tests clearly aren't going to work... */ if (!gd->fdt_blob || fdt_next_node(gd->fdt_blob, 0, NULL) < 0) { puts("Please run with test device tree:\n" " ./u-boot -d arch/sandbox/dts/test.dtb\n"); return CMD_RET_FAILURE; } } if (!select_name) printf("Running %d %s tests\n", count, category); uts.of_root = gd_of_root(); uts.runs_per_test = runs_per_test; if (fdt_action() == FDTCHK_COPY && gd->fdt_blob) { uts.fdt_size = fdt_totalsize(gd->fdt_blob); uts.fdt_copy = os_malloc(uts.fdt_size); if (!uts.fdt_copy) { printf("Out of memory for device tree copy\n"); return -ENOMEM; } memcpy(uts.fdt_copy, gd->fdt_blob, uts.fdt_size); } uts.force_run = force_run; ret = ut_run_tests(&uts, prefix, tests, count, select_name, test_insert); /* Best efforts only...ignore errors */ if (has_dm_tests) dm_test_restore(uts.of_root); if (IS_ENABLED(CONFIG_SANDBOX)) { os_free(uts.fdt_copy); os_free(uts.other_fdt); } if (uts.skip_count) printf("Skipped: %d, ", uts.skip_count); if (ret == -ENOENT) printf("Test '%s' not found\n", select_name); else printf("Failures: %d\n", uts.fail_count); return ret; }