/* * Copyright (C) Internet Systems Consortium, Inc. ("ISC") * * SPDX-License-Identifier: MPL-2.0 * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, you can obtain one at https://mozilla.org/MPL/2.0/. * * See the COPYRIGHT file distributed with this work for additional * information regarding copyright ownership. */ #include #include /* IWYU pragma: keep */ #include #include #include #include #include #include #define UNIT_TESTING #include #include #include #include #include #include #include #include #include #include #include #include #include static int setup_test(void **state) { isc__nm_force_tid(0); setup_server(state); return (0); } static int teardown_test(void **state) { isc__nm_force_tid(-1); teardown_server(state); return (0); } /* can be used for client->sendcb to avoid disruption on sending a response */ static void send_noop(isc_buffer_t *buffer) { UNUSED(buffer); } /***** ***** ns__query_sfcache() tests *****/ /*% * Structure containing parameters for ns__query_sfcache_test(). */ typedef struct { const ns_test_id_t id; /* libns test identifier */ unsigned int qflags; /* query flags */ bool cache_entry_present; /* whether a SERVFAIL * cache entry * matching the query * should be * present */ uint32_t cache_entry_flags; /* NS_FAILCACHE_* flags to * set for * the SERVFAIL cache entry * */ bool servfail_expected; /* whether a cached * SERVFAIL is * expected to be returned * */ } ns__query_sfcache_test_params_t; /*% * Perform a single ns__query_sfcache() check using given parameters. */ static void run_sfcache_test(const ns__query_sfcache_test_params_t *test) { ns_hooktable_t *query_hooks = NULL; query_ctx_t *qctx = NULL; isc_result_t result; const ns_hook_t hook = { .action = ns_test_hook_catch_call, }; REQUIRE(test != NULL); REQUIRE(test->id.description != NULL); REQUIRE(test->cache_entry_present || test->cache_entry_flags == 0); /* * Interrupt execution if ns_query_done() is called. */ ns_hooktable_create(mctx, &query_hooks); ns_hook_add(query_hooks, mctx, NS_QUERY_DONE_BEGIN, &hook); ns__hook_table = query_hooks; /* * Construct a query context for a ./NS query with given flags. */ { const ns_test_qctx_create_params_t qctx_params = { .qname = ".", .qtype = dns_rdatatype_ns, .qflags = test->qflags, .with_cache = true, }; result = ns_test_qctx_create(&qctx_params, &qctx); assert_int_equal(result, ISC_R_SUCCESS); } /* * If this test wants a SERVFAIL cache entry matching the query to * exist, create it. */ if (test->cache_entry_present) { isc_interval_t hour; isc_time_t expire; isc_interval_set(&hour, 3600, 0); result = isc_time_nowplusinterval(&expire, &hour); assert_int_equal(result, ISC_R_SUCCESS); dns_badcache_add(qctx->client->view->failcache, dns_rootname, dns_rdatatype_ns, true, test->cache_entry_flags, &expire); } /* * Check whether ns__query_sfcache() behaves as expected. */ ns__query_sfcache(qctx); if (test->servfail_expected) { if (qctx->result != DNS_R_SERVFAIL) { fail_msg("# test \"%s\" on line %d: " "expected SERVFAIL, got %s", test->id.description, test->id.lineno, isc_result_totext(qctx->result)); } } else { if (qctx->result != ISC_R_SUCCESS) { fail_msg("# test \"%s\" on line %d: " "expected success, got %s", test->id.description, test->id.lineno, isc_result_totext(qctx->result)); } } /* * Clean up. */ ns_test_qctx_destroy(&qctx); ns_hooktable_free(mctx, (void **)&query_hooks); } /* test ns__query_sfcache() */ ISC_RUN_TEST_IMPL(ns_query_sfcache) { size_t i; const ns__query_sfcache_test_params_t tests[] = { /* * Sanity check for an empty SERVFAIL cache. */ { NS_TEST_ID("query: RD=1, CD=0; cache: empty"), .qflags = DNS_MESSAGEFLAG_RD, .cache_entry_present = false, .servfail_expected = false, }, /* * Query: RD=1, CD=0. Cache entry: CD=0. Should SERVFAIL. */ { NS_TEST_ID("query: RD=1, CD=0; cache: CD=0"), .qflags = DNS_MESSAGEFLAG_RD, .cache_entry_present = true, .cache_entry_flags = 0, .servfail_expected = true, }, /* * Query: RD=1, CD=1. Cache entry: CD=0. Should not SERVFAIL: * failed validation should not influence CD=1 queries. */ { NS_TEST_ID("query: RD=1, CD=1; cache: CD=0"), .qflags = DNS_MESSAGEFLAG_RD | DNS_MESSAGEFLAG_CD, .cache_entry_present = true, .cache_entry_flags = 0, .servfail_expected = false, }, /* * Query: RD=1, CD=1. Cache entry: CD=1. Should SERVFAIL: * SERVFAIL responses elicited by CD=1 queries can be * "replayed" for other CD=1 queries during the lifetime of the * SERVFAIL cache entry. */ { NS_TEST_ID("query: RD=1, CD=1; cache: CD=1"), .qflags = DNS_MESSAGEFLAG_RD | DNS_MESSAGEFLAG_CD, .cache_entry_present = true, .cache_entry_flags = NS_FAILCACHE_CD, .servfail_expected = true, }, /* * Query: RD=1, CD=0. Cache entry: CD=1. Should SERVFAIL: if * a CD=1 query elicited a SERVFAIL, a CD=0 query for the same * QNAME and QTYPE will SERVFAIL as well. */ { NS_TEST_ID("query: RD=1, CD=0; cache: CD=1"), .qflags = DNS_MESSAGEFLAG_RD, .cache_entry_present = true, .cache_entry_flags = NS_FAILCACHE_CD, .servfail_expected = true, }, /* * Query: RD=0, CD=0. Cache entry: CD=0. Should not SERVFAIL * despite a matching entry being present as the SERVFAIL cache * should not be consulted for non-recursive queries. */ { NS_TEST_ID("query: RD=0, CD=0; cache: CD=0"), .qflags = 0, .cache_entry_present = true, .cache_entry_flags = 0, .servfail_expected = false, }, }; UNUSED(state); for (i = 0; i < sizeof(tests) / sizeof(tests[0]); i++) { run_sfcache_test(&tests[i]); } } /***** ***** ns__query_start() tests *****/ /*% * Structure containing parameters for ns__query_start_test(). */ typedef struct { const ns_test_id_t id; /* libns test identifier */ const char *qname; /* QNAME */ dns_rdatatype_t qtype; /* QTYPE */ unsigned int qflags; /* query flags */ bool disable_name_checks; /* if set to true, owner * name * checks will * be disabled for the * view created * */ bool recursive_service; /* if set to true, the view * created will * have a cache * database * attached */ const char *auth_zone_origin; /* origin name of the zone * the * created view will be * authoritative for */ const char *auth_zone_path; /* path to load the * authoritative * zone from */ enum { /* expected result: */ NS__QUERY_START_R_INVALID, NS__QUERY_START_R_REFUSE, /* query should be REFUSED */ NS__QUERY_START_R_CACHE, /* query should be answered from * cache */ NS__QUERY_START_R_AUTH, /* query should be answered using * authoritative data */ } expected_result; } ns__query_start_test_params_t; /*% * Perform a single ns__query_start() check using given parameters. */ static void run_start_test(const ns__query_start_test_params_t *test) { ns_hooktable_t *query_hooks = NULL; query_ctx_t *qctx = NULL; isc_result_t result; const ns_hook_t hook = { .action = ns_test_hook_catch_call, }; REQUIRE(test != NULL); REQUIRE(test->id.description != NULL); REQUIRE((test->auth_zone_origin == NULL && test->auth_zone_path == NULL) || (test->auth_zone_origin != NULL && test->auth_zone_path != NULL)); /* * Interrupt execution if query_lookup() or ns_query_done() is called. */ ns_hooktable_create(mctx, &query_hooks); ns_hook_add(query_hooks, mctx, NS_QUERY_LOOKUP_BEGIN, &hook); ns_hook_add(query_hooks, mctx, NS_QUERY_DONE_BEGIN, &hook); ns__hook_table = query_hooks; /* * Construct a query context using the supplied parameters. */ { const ns_test_qctx_create_params_t qctx_params = { .qname = test->qname, .qtype = test->qtype, .qflags = test->qflags, .with_cache = test->recursive_service, }; result = ns_test_qctx_create(&qctx_params, &qctx); assert_int_equal(result, ISC_R_SUCCESS); } /* * Enable view->checknames by default, disable if requested. */ qctx->client->view->checknames = !test->disable_name_checks; /* * Load zone from file and attach it to the client's view, if * requested. */ if (test->auth_zone_path != NULL) { result = ns_test_serve_zone(test->auth_zone_origin, test->auth_zone_path, qctx->client->view); assert_int_equal(result, ISC_R_SUCCESS); } /* * Check whether ns__query_start() behaves as expected. */ ns__query_start(qctx); switch (test->expected_result) { case NS__QUERY_START_R_REFUSE: if (qctx->result != DNS_R_REFUSED) { fail_msg("# test \"%s\" on line %d: " "expected REFUSED, got %s", test->id.description, test->id.lineno, isc_result_totext(qctx->result)); } if (qctx->zone != NULL) { fail_msg("# test \"%s\" on line %d: " "no zone was expected to be attached to " "query context, but some was", test->id.description, test->id.lineno); } if (qctx->db != NULL) { fail_msg("# test \"%s\" on line %d: " "no database was expected to be attached to " "query context, but some was", test->id.description, test->id.lineno); } break; case NS__QUERY_START_R_CACHE: if (qctx->result != ISC_R_SUCCESS) { fail_msg("# test \"%s\" on line %d: " "expected success, got %s", test->id.description, test->id.lineno, isc_result_totext(qctx->result)); } if (qctx->zone != NULL) { fail_msg("# test \"%s\" on line %d: " "no zone was expected to be attached to " "query context, but some was", test->id.description, test->id.lineno); } if (qctx->db == NULL || qctx->db != qctx->client->view->cachedb) { fail_msg("# test \"%s\" on line %d: " "cache database was expected to be " "attached to query context, but it was not", test->id.description, test->id.lineno); } break; case NS__QUERY_START_R_AUTH: if (qctx->result != ISC_R_SUCCESS) { fail_msg("# test \"%s\" on line %d: " "expected success, got %s", test->id.description, test->id.lineno, isc_result_totext(qctx->result)); } if (qctx->zone == NULL) { fail_msg("# test \"%s\" on line %d: " "a zone was expected to be attached to query " "context, but it was not", test->id.description, test->id.lineno); } if (qctx->db == qctx->client->view->cachedb) { fail_msg("# test \"%s\" on line %d: " "cache database was not expected to be " "attached to query context, but it is", test->id.description, test->id.lineno); } break; case NS__QUERY_START_R_INVALID: fail_msg("# test \"%s\" on line %d has no expected result set", test->id.description, test->id.lineno); break; default: UNREACHABLE(); } /* * Clean up. */ if (test->auth_zone_path != NULL) { ns_test_cleanup_zone(); } ns_test_qctx_destroy(&qctx); ns_hooktable_free(mctx, (void **)&query_hooks); } /* test ns__query_start() */ ISC_RUN_TEST_IMPL(ns_query_start) { size_t i; const ns__query_start_test_params_t tests[] = { /* * Recursive foo/A query to a server without recursive service * and no zones configured. Query should be REFUSED. */ { NS_TEST_ID("foo/A, no cache, no auth"), .qname = "foo", .qtype = dns_rdatatype_a, .qflags = DNS_MESSAGEFLAG_RD, .recursive_service = false, .expected_result = NS__QUERY_START_R_REFUSE, }, /* * Recursive foo/A query to a server with recursive service and * no zones configured. Query should be answered from cache. */ { NS_TEST_ID("foo/A, cache, no auth"), .qname = "foo", .qtype = dns_rdatatype_a, .recursive_service = true, .expected_result = NS__QUERY_START_R_CACHE, }, /* * Recursive foo/A query to a server with recursive service and * zone "foo" configured. Query should be answered from * authoritative data. */ { NS_TEST_ID("foo/A, RD=1, cache, auth for foo"), .qname = "foo", .qtype = dns_rdatatype_a, .qflags = DNS_MESSAGEFLAG_RD, .recursive_service = true, .auth_zone_origin = "foo", .auth_zone_path = TESTS_DIR "/testdata/query/foo.db", .expected_result = NS__QUERY_START_R_AUTH, }, /* * Recursive bar/A query to a server without recursive service * and zone "foo" configured. Query should be REFUSED. */ { NS_TEST_ID("bar/A, RD=1, no cache, auth for foo"), .qname = "bar", .qtype = dns_rdatatype_a, .qflags = DNS_MESSAGEFLAG_RD, .recursive_service = false, .auth_zone_origin = "foo", .auth_zone_path = TESTS_DIR "/testdata/query/foo.db", .expected_result = NS__QUERY_START_R_REFUSE, }, /* * Recursive bar/A query to a server with recursive service and * zone "foo" configured. Query should be answered from * cache. */ { NS_TEST_ID("bar/A, RD=1, cache, auth for foo"), .qname = "bar", .qtype = dns_rdatatype_a, .qflags = DNS_MESSAGEFLAG_RD, .recursive_service = true, .auth_zone_origin = "foo", .auth_zone_path = TESTS_DIR "/testdata/query/foo.db", .expected_result = NS__QUERY_START_R_CACHE, }, /* * Recursive bar.foo/DS query to a server with recursive * service and zone "foo" configured. Query should be answered * from authoritative data. */ { NS_TEST_ID("bar.foo/DS, RD=1, cache, auth for foo"), .qname = "bar.foo", .qtype = dns_rdatatype_ds, .qflags = DNS_MESSAGEFLAG_RD, .recursive_service = true, .auth_zone_origin = "foo", .auth_zone_path = TESTS_DIR "/testdata/query/foo.db", .expected_result = NS__QUERY_START_R_AUTH, }, /* * Non-recursive bar.foo/DS query to a server with recursive * service and zone "foo" configured. Query should be answered * from authoritative data. */ { NS_TEST_ID("bar.foo/DS, RD=0, cache, auth for foo"), .qname = "bar.foo", .qtype = dns_rdatatype_ds, .qflags = 0, .recursive_service = true, .auth_zone_origin = "foo", .auth_zone_path = TESTS_DIR "/testdata/query/foo.db", .expected_result = NS__QUERY_START_R_AUTH, }, /* * Recursive foo/DS query to a server with recursive service * and zone "foo" configured. Query should be answered from * cache. */ { NS_TEST_ID("foo/DS, RD=1, cache, auth for foo"), .qname = "foo", .qtype = dns_rdatatype_ds, .qflags = DNS_MESSAGEFLAG_RD, .recursive_service = true, .auth_zone_origin = "foo", .auth_zone_path = TESTS_DIR "/testdata/query/foo.db", .expected_result = NS__QUERY_START_R_CACHE, }, /* * Non-recursive foo/DS query to a server with recursive * service and zone "foo" configured. Query should be answered * from authoritative data. */ { NS_TEST_ID("foo/DS, RD=0, cache, auth for foo"), .qname = "foo", .qtype = dns_rdatatype_ds, .qflags = 0, .recursive_service = true, .auth_zone_origin = "foo", .auth_zone_path = TESTS_DIR "/testdata/query/foo.db", .expected_result = NS__QUERY_START_R_AUTH, }, /* * Recursive _foo/A query to a server with recursive service, * no zones configured and owner name checks disabled. Query * should be answered from cache. */ { NS_TEST_ID("_foo/A, cache, no auth, name checks off"), .qname = "_foo", .qtype = dns_rdatatype_a, .qflags = DNS_MESSAGEFLAG_RD, .disable_name_checks = true, .recursive_service = true, .expected_result = NS__QUERY_START_R_CACHE, }, /* * Recursive _foo/A query to a server with recursive service, * no zones configured and owner name checks enabled. Query * should be REFUSED. */ { NS_TEST_ID("_foo/A, cache, no auth, name checks on"), .qname = "_foo", .qtype = dns_rdatatype_a, .qflags = DNS_MESSAGEFLAG_RD, .disable_name_checks = false, .recursive_service = true, .expected_result = NS__QUERY_START_R_REFUSE, }, }; UNUSED(state); for (i = 0; i < sizeof(tests) / sizeof(tests[0]); i++) { run_start_test(&tests[i]); } } /***** ***** tests for ns_query_hookasync(). *****/ /*% * Structure containing parameters for ns__query_hookasync_test(). */ typedef struct { const ns_test_id_t id; /* libns test identifier */ ns_hookpoint_t hookpoint; /* hook point specified for resume */ ns_hookpoint_t hookpoint2; /* expected hook point used after resume */ ns_hook_action_t action; /* action for the hook point */ isc_result_t start_result; /* result of 'runasync' */ bool quota_ok; /* true if recursion quota should be okay */ bool do_cancel; /* true if query should be canceled * in test */ } ns__query_hookasync_test_params_t; /* Data structure passed from tests to hooks */ typedef struct hookasync_data { bool async; /* true if in a hook-triggered * asynchronous process */ bool canceled; /* true if the query has been canceled */ isc_result_t start_result; /* result of 'runasync' */ ns_hook_resevent_t *rev; /* resume event sent on completion */ query_ctx_t qctx; /* shallow copy of qctx passed to hook */ ns_hookpoint_t hookpoint; /* specifies where to resume */ ns_hookpoint_t lasthookpoint; /* remember the last hook point called */ } hookasync_data_t; /* * 'destroy' callback of hook recursion ctx. * The dynamically allocated context will be freed here, thereby proving * this is actually called; otherwise tests would fail due to memory leak. */ static void destroy_hookactx(ns_hookasync_t **ctxp) { ns_hookasync_t *ctx = *ctxp; *ctxp = NULL; isc_mem_putanddetach(&ctx->mctx, ctx, sizeof(*ctx)); } /* 'cancel' callback of hook recursion ctx. */ static void cancel_hookactx(ns_hookasync_t *ctx) { /* Mark the hook data so the test can confirm this is called. */ ((hookasync_data_t *)ctx->private)->canceled = true; } /* 'runasync' callback passed to ns_query_hookasync */ static isc_result_t test_hookasync(query_ctx_t *qctx, isc_mem_t *memctx, void *arg, isc_task_t *task, isc_taskaction_t action, void *evarg, ns_hookasync_t **ctxp) { hookasync_data_t *asdata = arg; ns_hookasync_t *ctx = NULL; ns_hook_resevent_t *rev = NULL; if (asdata->start_result != ISC_R_SUCCESS) { return (asdata->start_result); } ctx = isc_mem_get(memctx, sizeof(*ctx)); rev = (ns_hook_resevent_t *)isc_event_allocate( memctx, task, NS_EVENT_HOOKASYNCDONE, action, evarg, sizeof(*rev)); rev->hookpoint = asdata->hookpoint; rev->origresult = DNS_R_NXDOMAIN; rev->saved_qctx = qctx; rev->ctx = ctx; asdata->rev = rev; *ctx = (ns_hookasync_t){ .private = asdata }; isc_mem_attach(memctx, &ctx->mctx); ctx->destroy = destroy_hookactx; ctx->cancel = cancel_hookactx; *ctxp = ctx; return (ISC_R_SUCCESS); } /* * Main logic for hook actions. * 'hookpoint' should identify the point that calls the hook. It will be * remembered in the hook data, so that the test can confirm which hook point * was last used. */ static ns_hookresult_t hook_async_common(void *arg, void *data, isc_result_t *resultp, ns_hookpoint_t hookpoint) { query_ctx_t *qctx = arg; hookasync_data_t *asdata = data; isc_result_t result; asdata->qctx = *qctx; /* remember passed ctx for inspection */ asdata->lasthookpoint = hookpoint; /* ditto */ if (!asdata->async) { /* Initial call to the hook; start recursion */ result = ns_query_hookasync(qctx, test_hookasync, asdata); if (result == ISC_R_SUCCESS) { asdata->async = true; } } else { /* * Resume from the completion of async event. * fetchhandle should have been detached so that we can start * another async event or DNS recursive resolution. */ INSIST(qctx->client->fetchhandle == NULL); asdata->async = false; switch (hookpoint) { case NS_QUERY_GOT_ANSWER_BEGIN: case NS_QUERY_NODATA_BEGIN: case NS_QUERY_NXDOMAIN_BEGIN: case NS_QUERY_NCACHE_BEGIN: INSIST(*resultp == DNS_R_NXDOMAIN); break; default:; } } *resultp = ISC_R_UNSET; return (NS_HOOK_RETURN); } static ns_hookresult_t hook_async_query_setup(void *arg, void *data, isc_result_t *resultp) { return (hook_async_common(arg, data, resultp, NS_QUERY_SETUP)); } static ns_hookresult_t hook_async_query_start_begin(void *arg, void *data, isc_result_t *resultp) { return (hook_async_common(arg, data, resultp, NS_QUERY_START_BEGIN)); } static ns_hookresult_t hook_async_query_lookup_begin(void *arg, void *data, isc_result_t *resultp) { return (hook_async_common(arg, data, resultp, NS_QUERY_LOOKUP_BEGIN)); } static ns_hookresult_t hook_async_query_resume_begin(void *arg, void *data, isc_result_t *resultp) { return (hook_async_common(arg, data, resultp, NS_QUERY_RESUME_BEGIN)); } static ns_hookresult_t hook_async_query_got_answer_begin(void *arg, void *data, isc_result_t *resultp) { return (hook_async_common(arg, data, resultp, NS_QUERY_GOT_ANSWER_BEGIN)); } static ns_hookresult_t hook_async_query_respond_any_begin(void *arg, void *data, isc_result_t *resultp) { return (hook_async_common(arg, data, resultp, NS_QUERY_RESPOND_ANY_BEGIN)); } static ns_hookresult_t hook_async_query_addanswer_begin(void *arg, void *data, isc_result_t *resultp) { return (hook_async_common(arg, data, resultp, NS_QUERY_ADDANSWER_BEGIN)); } static ns_hookresult_t hook_async_query_notfound_begin(void *arg, void *data, isc_result_t *resultp) { return (hook_async_common(arg, data, resultp, NS_QUERY_NOTFOUND_BEGIN)); } static ns_hookresult_t hook_async_query_prep_delegation_begin(void *arg, void *data, isc_result_t *resultp) { return (hook_async_common(arg, data, resultp, NS_QUERY_PREP_DELEGATION_BEGIN)); } static ns_hookresult_t hook_async_query_zone_delegation_begin(void *arg, void *data, isc_result_t *resultp) { return (hook_async_common(arg, data, resultp, NS_QUERY_ZONE_DELEGATION_BEGIN)); } static ns_hookresult_t hook_async_query_delegation_begin(void *arg, void *data, isc_result_t *resultp) { return (hook_async_common(arg, data, resultp, NS_QUERY_DELEGATION_BEGIN)); } static ns_hookresult_t hook_async_query_delegation_recurse_begin(void *arg, void *data, isc_result_t *resultp) { return (hook_async_common(arg, data, resultp, NS_QUERY_DELEGATION_RECURSE_BEGIN)); } static ns_hookresult_t hook_async_query_nodata_begin(void *arg, void *data, isc_result_t *resultp) { return (hook_async_common(arg, data, resultp, NS_QUERY_NODATA_BEGIN)); } static ns_hookresult_t hook_async_query_nxdomain_begin(void *arg, void *data, isc_result_t *resultp) { return (hook_async_common(arg, data, resultp, NS_QUERY_NXDOMAIN_BEGIN)); } static ns_hookresult_t hook_async_query_ncache_begin(void *arg, void *data, isc_result_t *resultp) { return (hook_async_common(arg, data, resultp, NS_QUERY_NCACHE_BEGIN)); } static ns_hookresult_t hook_async_query_cname_begin(void *arg, void *data, isc_result_t *resultp) { return (hook_async_common(arg, data, resultp, NS_QUERY_CNAME_BEGIN)); } static ns_hookresult_t hook_async_query_dname_begin(void *arg, void *data, isc_result_t *resultp) { return (hook_async_common(arg, data, resultp, NS_QUERY_DNAME_BEGIN)); } static ns_hookresult_t hook_async_query_respond_begin(void *arg, void *data, isc_result_t *resultp) { return (hook_async_common(arg, data, resultp, NS_QUERY_RESPOND_BEGIN)); } static ns_hookresult_t hook_async_query_response_begin(void *arg, void *data, isc_result_t *resultp) { return (hook_async_common(arg, data, resultp, NS_QUERY_PREP_RESPONSE_BEGIN)); } static ns_hookresult_t hook_async_query_done_begin(void *arg, void *data, isc_result_t *resultp) { return (hook_async_common(arg, data, resultp, NS_QUERY_DONE_BEGIN)); } /* * hook on destroying actx. Can't be used for async event, but we use this * to remember the qctx at that point. */ static ns_hookresult_t ns_test_qctx_destroy_hook(void *arg, void *data, isc_result_t *resultp) { query_ctx_t *qctx = arg; hookasync_data_t *asdata = data; asdata->qctx = *qctx; /* remember passed ctx for inspection */ *resultp = ISC_R_UNSET; return (NS_HOOK_CONTINUE); } static void run_hookasync_test(const ns__query_hookasync_test_params_t *test) { query_ctx_t *qctx = NULL; isc_result_t result; hookasync_data_t asdata = { .async = false, .canceled = false, .start_result = test->start_result, .hookpoint = test->hookpoint, }; const ns_hook_t testhook = { .action = test->action, .action_data = &asdata, }; const ns_hook_t destroyhook = { .action = ns_test_qctx_destroy_hook, .action_data = &asdata, }; isc_quota_t *quota = NULL; isc_statscounter_t srvfail_cnt; bool expect_servfail = false; /* * Prepare hooks. We always begin with ns__query_start for simplicity. * Its action will specify various different resume points (unusual * in practice, but that's fine for the testing purpose). */ ns__hook_table = NULL; ns_hooktable_create(mctx, &ns__hook_table); ns_hook_add(ns__hook_table, mctx, NS_QUERY_START_BEGIN, &testhook); if (test->hookpoint2 != NS_QUERY_START_BEGIN) { /* * unless testing START_BEGIN itself, specify the hook for the * expected resume point, too. */ ns_hook_add(ns__hook_table, mctx, test->hookpoint2, &testhook); } ns_hook_add(ns__hook_table, mctx, NS_QUERY_QCTX_DESTROYED, &destroyhook); { const ns_test_qctx_create_params_t qctx_params = { .qname = "test.example.com", .qtype = dns_rdatatype_aaaa, }; result = ns_test_qctx_create(&qctx_params, &qctx); INSIST(result == ISC_R_SUCCESS); qctx->client->sendcb = send_noop; } /* * Set recursion quota to the lowest possible value, then make it full * if we want to exercise a quota failure case. */ isc_quota_max(&sctx->recursionquota, 1); if (!test->quota_ok) { result = isc_quota_attach(&sctx->recursionquota, "a); INSIST(result == ISC_R_SUCCESS); } /* Remember SERVFAIL counter */ srvfail_cnt = ns_stats_get_counter(qctx->client->sctx->nsstats, ns_statscounter_servfail); /* * If the query has been canceled, or async event didn't succeed, * SERVFAIL will have to be sent. In this case we need to have * 'reqhandle' attach to the client's handle as it's detached in * query_error. */ if (test->start_result != ISC_R_SUCCESS || !test->quota_ok || test->do_cancel) { expect_servfail = true; isc_nmhandle_attach(qctx->client->handle, &qctx->client->reqhandle); } /* * Emulate query handling from query_start. * Specified hook should be called. */ qctx->client->state = NS_CLIENTSTATE_WORKING; result = ns__query_start(qctx); INSIST(result == ISC_R_UNSET); /* * hook-triggered async event should be happening unless it hits * recursion quota limit or 'runasync' callback fails. */ INSIST(asdata.async == (test->quota_ok && test->start_result == ISC_R_SUCCESS)); /* * Emulate cancel if so specified. * The cancel callback should be called. */ if (test->do_cancel) { ns_query_cancel(qctx->client); } INSIST(asdata.canceled == test->do_cancel); /* If async event has started, manually invoke the 'done' event. */ if (asdata.async) { qctx->client->now = 0; /* set to sentinel before resume */ asdata.rev->ev_action(asdata.rev->ev_sender, (isc_event_t *)asdata.rev); /* Confirm necessary cleanup has been performed. */ INSIST(qctx->client->query.hookactx == NULL); INSIST(qctx->client->state == NS_CLIENTSTATE_WORKING); INSIST(qctx->client->recursionquota == NULL); INSIST(ns_stats_get_counter(qctx->client->sctx->nsstats, ns_statscounter_recursclients) == 0); INSIST(!ISC_LINK_LINKED(qctx->client, rlink)); if (!test->do_cancel) { /* * In the normal case the client's timestamp is updated * and the query handling has been resumed from the * expected point. */ INSIST(qctx->client->now != 0); INSIST(asdata.lasthookpoint == test->hookpoint2); } } else { INSIST(qctx->client->query.hookactx == NULL); } /* * Confirm SERVFAIL has been sent if it was expected. * Also, the last-generated qctx should have detach_client being true. */ if (expect_servfail) { INSIST(ns_stats_get_counter(qctx->client->sctx->nsstats, ns_statscounter_servfail) == srvfail_cnt + 1); if (test->do_cancel) { /* qctx was created on resume and copied in hook */ INSIST(asdata.qctx.detach_client); } else { INSIST(qctx->detach_client); } } /* * Cleanup. Note that we've kept 'qctx' until now; otherwise * qctx->client may have been invalidated while we still need it. */ ns_test_qctx_destroy(&qctx); ns_hooktable_free(mctx, (void **)&ns__hook_table); if (quota != NULL) { isc_quota_detach("a); } } ISC_RUN_TEST_IMPL(ns_query_hookasync) { size_t i; UNUSED(state); const ns__query_hookasync_test_params_t tests[] = { { NS_TEST_ID("normal case"), NS_QUERY_START_BEGIN, NS_QUERY_START_BEGIN, hook_async_query_start_begin, ISC_R_SUCCESS, true, false, }, { NS_TEST_ID("quota fail"), NS_QUERY_START_BEGIN, NS_QUERY_START_BEGIN, hook_async_query_start_begin, ISC_R_SUCCESS, false, false, }, { NS_TEST_ID("start fail"), NS_QUERY_START_BEGIN, NS_QUERY_START_BEGIN, hook_async_query_start_begin, ISC_R_FAILURE, true, false, }, { NS_TEST_ID("query cancel"), NS_QUERY_START_BEGIN, NS_QUERY_START_BEGIN, hook_async_query_start_begin, ISC_R_SUCCESS, true, true, }, /* * The rest of the test case just confirms supported hookpoints * with the same test logic. */ { NS_TEST_ID("async from setup"), NS_QUERY_SETUP, NS_QUERY_SETUP, hook_async_query_setup, ISC_R_SUCCESS, true, false, }, { NS_TEST_ID("async from lookup"), NS_QUERY_LOOKUP_BEGIN, NS_QUERY_LOOKUP_BEGIN, hook_async_query_lookup_begin, ISC_R_SUCCESS, true, false, }, { NS_TEST_ID("async from resume"), NS_QUERY_RESUME_BEGIN, NS_QUERY_RESUME_BEGIN, hook_async_query_resume_begin, ISC_R_SUCCESS, true, false, }, { NS_TEST_ID("async from resume restored"), NS_QUERY_RESUME_RESTORED, NS_QUERY_RESUME_BEGIN, hook_async_query_resume_begin, ISC_R_SUCCESS, true, false, }, { NS_TEST_ID("async from gotanswer"), NS_QUERY_GOT_ANSWER_BEGIN, NS_QUERY_GOT_ANSWER_BEGIN, hook_async_query_got_answer_begin, ISC_R_SUCCESS, true, false, }, { NS_TEST_ID("async from respond any"), NS_QUERY_RESPOND_ANY_BEGIN, NS_QUERY_RESPOND_ANY_BEGIN, hook_async_query_respond_any_begin, ISC_R_SUCCESS, true, false, }, { NS_TEST_ID("async from add answer"), NS_QUERY_ADDANSWER_BEGIN, NS_QUERY_ADDANSWER_BEGIN, hook_async_query_addanswer_begin, ISC_R_SUCCESS, true, false, }, { NS_TEST_ID("async from notfound"), NS_QUERY_NOTFOUND_BEGIN, NS_QUERY_NOTFOUND_BEGIN, hook_async_query_notfound_begin, ISC_R_SUCCESS, true, false, }, { NS_TEST_ID("async from prep delegation"), NS_QUERY_PREP_DELEGATION_BEGIN, NS_QUERY_PREP_DELEGATION_BEGIN, hook_async_query_prep_delegation_begin, ISC_R_SUCCESS, true, false, }, { NS_TEST_ID("async from zone delegation"), NS_QUERY_ZONE_DELEGATION_BEGIN, NS_QUERY_ZONE_DELEGATION_BEGIN, hook_async_query_zone_delegation_begin, ISC_R_SUCCESS, true, false, }, { NS_TEST_ID("async from delegation"), NS_QUERY_DELEGATION_BEGIN, NS_QUERY_DELEGATION_BEGIN, hook_async_query_delegation_begin, ISC_R_SUCCESS, true, false, }, { NS_TEST_ID("async from async delegation"), NS_QUERY_DELEGATION_RECURSE_BEGIN, NS_QUERY_DELEGATION_RECURSE_BEGIN, hook_async_query_delegation_recurse_begin, ISC_R_SUCCESS, true, false, }, { NS_TEST_ID("async from nodata"), NS_QUERY_NODATA_BEGIN, NS_QUERY_NODATA_BEGIN, hook_async_query_nodata_begin, ISC_R_SUCCESS, true, false, }, { NS_TEST_ID("async from nxdomain"), NS_QUERY_NXDOMAIN_BEGIN, NS_QUERY_NXDOMAIN_BEGIN, hook_async_query_nxdomain_begin, ISC_R_SUCCESS, true, false, }, { NS_TEST_ID("async from ncache"), NS_QUERY_NCACHE_BEGIN, NS_QUERY_NCACHE_BEGIN, hook_async_query_ncache_begin, ISC_R_SUCCESS, true, false, }, { NS_TEST_ID("async from CNAME"), NS_QUERY_CNAME_BEGIN, NS_QUERY_CNAME_BEGIN, hook_async_query_cname_begin, ISC_R_SUCCESS, true, false, }, { NS_TEST_ID("async from DNAME"), NS_QUERY_DNAME_BEGIN, NS_QUERY_DNAME_BEGIN, hook_async_query_dname_begin, ISC_R_SUCCESS, true, false, }, { NS_TEST_ID("async from prep response"), NS_QUERY_PREP_RESPONSE_BEGIN, NS_QUERY_PREP_RESPONSE_BEGIN, hook_async_query_response_begin, ISC_R_SUCCESS, true, false, }, { NS_TEST_ID("async from respond"), NS_QUERY_RESPOND_BEGIN, NS_QUERY_RESPOND_BEGIN, hook_async_query_respond_begin, ISC_R_SUCCESS, true, false, }, { NS_TEST_ID("async from done begin"), NS_QUERY_DONE_BEGIN, NS_QUERY_DONE_BEGIN, hook_async_query_done_begin, ISC_R_SUCCESS, true, false, }, { NS_TEST_ID("async from done send"), NS_QUERY_DONE_SEND, NS_QUERY_DONE_BEGIN, hook_async_query_done_begin, ISC_R_SUCCESS, true, false, }, }; for (i = 0; i < sizeof(tests) / sizeof(tests[0]); i++) { run_hookasync_test(&tests[i]); } } /***** ***** tests for higher level ("e2e") behavior of ns_query_hookasync(). ***** It exercises overall behavior for some selected cases, while ***** ns__query_hookasync_test exercises implementation details for a ***** simple scenario and for all supported hook points. *****/ /*% * Structure containing parameters for ns__query_hookasync_e2e_test(). */ typedef struct { const ns_test_id_t id; /* libns test identifier */ const char *qname; /* QNAME */ ns_hookpoint_t hookpoint; /* hook point specified for resume */ isc_result_t start_result; /* result of 'runasync' */ bool do_cancel; /* true if query should be canceled * in test */ dns_rcode_t expected_rcode; } ns__query_hookasync_e2e_test_params_t; /* data structure passed from tests to hooks */ typedef struct hookasync_e2e_data { bool async; /* true if in a hook-triggered * asynchronous process */ ns_hook_resevent_t *rev; /* resume event sent on completion */ ns_hookpoint_t hookpoint; /* specifies where to resume */ isc_result_t start_result; /* result of 'runasync' */ dns_rcode_t expected_rcode; bool done; /* if SEND_DONE hook is called */ } hookasync_e2e_data_t; /* Cancel callback. Just need to be defined, it doesn't have to do anything. */ static void cancel_e2ehookactx(ns_hookasync_t *ctx) { UNUSED(ctx); } /* 'runasync' callback passed to ns_query_hookasync */ static isc_result_t test_hookasync_e2e(query_ctx_t *qctx, isc_mem_t *memctx, void *arg, isc_task_t *task, isc_taskaction_t action, void *evarg, ns_hookasync_t **ctxp) { ns_hookasync_t *ctx = NULL; ns_hook_resevent_t *rev = NULL; hookasync_e2e_data_t *asdata = arg; if (asdata->start_result != ISC_R_SUCCESS) { return (asdata->start_result); } ctx = isc_mem_get(memctx, sizeof(*ctx)); rev = (ns_hook_resevent_t *)isc_event_allocate( memctx, task, NS_EVENT_HOOKASYNCDONE, action, evarg, sizeof(*rev)); rev->hookpoint = asdata->hookpoint; rev->saved_qctx = qctx; rev->ctx = ctx; asdata->rev = rev; *ctx = (ns_hookasync_t){ .private = asdata }; isc_mem_attach(memctx, &ctx->mctx); ctx->destroy = destroy_hookactx; ctx->cancel = cancel_e2ehookactx; *ctxp = ctx; return (ISC_R_SUCCESS); } static ns_hookresult_t hook_async_e2e(void *arg, void *data, isc_result_t *resultp) { query_ctx_t *qctx = arg; hookasync_e2e_data_t *asdata = data; isc_result_t result; if (!asdata->async) { /* Initial call to the hook; start async event */ result = ns_query_hookasync(qctx, test_hookasync_e2e, asdata); if (result != ISC_R_SUCCESS) { *resultp = result; return (NS_HOOK_RETURN); } asdata->async = true; asdata->rev->origresult = *resultp; /* save it for resume */ *resultp = ISC_R_UNSET; return (NS_HOOK_RETURN); } else { /* Resume from the completion of async event */ asdata->async = false; /* Don't touch 'resultp' */ return (NS_HOOK_CONTINUE); } } /* * Check whether the final response has expected the RCODE according to * the test scenario. */ static ns_hookresult_t hook_donesend(void *arg, void *data, isc_result_t *resultp) { query_ctx_t *qctx = arg; hookasync_e2e_data_t *asdata = data; INSIST(qctx->client->message->rcode == asdata->expected_rcode); asdata->done = true; /* Let the test know this hook is called */ *resultp = ISC_R_UNSET; return (NS_HOOK_CONTINUE); } static void run_hookasync_e2e_test(const ns__query_hookasync_e2e_test_params_t *test) { query_ctx_t *qctx = NULL; isc_result_t result; hookasync_e2e_data_t asdata = { .async = false, .hookpoint = test->hookpoint, .start_result = test->start_result, .expected_rcode = test->expected_rcode, .done = false, }; const ns_hook_t donesend_hook = { .action = hook_donesend, .action_data = &asdata, }; const ns_hook_t hook = { .action = hook_async_e2e, .action_data = &asdata, }; const ns_test_qctx_create_params_t qctx_params = { .qname = test->qname, .qtype = dns_rdatatype_a, .with_cache = true, }; ns__hook_table = NULL; ns_hooktable_create(mctx, &ns__hook_table); ns_hook_add(ns__hook_table, mctx, test->hookpoint, &hook); ns_hook_add(ns__hook_table, mctx, NS_QUERY_DONE_SEND, &donesend_hook); result = ns_test_qctx_create(&qctx_params, &qctx); INSIST(result == ISC_R_SUCCESS); isc_sockaddr_any(&qctx->client->peeraddr); /* for sortlist */ qctx->client->sendcb = send_noop; /* Load a zone. it should have ns.foo/A */ result = ns_test_serve_zone("foo", TESTS_DIR "/testdata/query/foo.db", qctx->client->view); INSIST(result == ISC_R_SUCCESS); /* * We expect to have a response sent all cases, so we need to * setup reqhandle (which will be detached on the send). */ isc_nmhandle_attach(qctx->client->handle, &qctx->client->reqhandle); /* Handle the query. hook-based async event will be triggered. */ qctx->client->state = NS_CLIENTSTATE_WORKING; ns__query_start(qctx); /* If specified cancel the query at this point. */ if (test->do_cancel) { ns_query_cancel(qctx->client); } if (test->start_result == ISC_R_SUCCESS) { /* * If async event has started, manually invoke the done event. */ INSIST(asdata.async); asdata.rev->ev_action(asdata.rev->ev_sender, (isc_event_t *)asdata.rev); /* * Usually 'async' is reset to false on the 2nd call to * the hook. But the hook isn't called if the query is * canceled. */ INSIST(asdata.done == !test->do_cancel); INSIST(asdata.async == test->do_cancel); } else { INSIST(!asdata.async); } /* Cleanup */ ns_test_qctx_destroy(&qctx); ns_test_cleanup_zone(); ns_hooktable_free(mctx, (void **)&ns__hook_table); } ISC_RUN_TEST_IMPL(ns_query_hookasync_e2e) { UNUSED(state); const ns__query_hookasync_e2e_test_params_t tests[] = { { NS_TEST_ID("positive answer"), "ns.foo", NS_QUERY_GOT_ANSWER_BEGIN, ISC_R_SUCCESS, false, dns_rcode_noerror, }, { NS_TEST_ID("NXDOMAIN"), "notexist.foo", NS_QUERY_NXDOMAIN_BEGIN, ISC_R_SUCCESS, false, dns_rcode_nxdomain, }, { NS_TEST_ID("async fail"), "ns.foo", NS_QUERY_DONE_BEGIN, ISC_R_FAILURE, false, -1, }, { NS_TEST_ID("cancel query"), "ns.foo", NS_QUERY_DONE_BEGIN, ISC_R_SUCCESS, true, -1, }, }; for (size_t i = 0; i < sizeof(tests) / sizeof(tests[0]); i++) { run_hookasync_e2e_test(&tests[i]); } } ISC_TEST_LIST_START ISC_TEST_ENTRY_CUSTOM(ns_query_sfcache, setup_test, teardown_test) ISC_TEST_ENTRY_CUSTOM(ns_query_start, setup_test, teardown_test) ISC_TEST_ENTRY_CUSTOM(ns_query_hookasync, setup_test, teardown_test) ISC_TEST_ENTRY_CUSTOM(ns_query_hookasync_e2e, setup_test, teardown_test) ISC_TEST_LIST_END ISC_TEST_MAIN