/* * Copyright 2022 The OpenSSL Project Authors. All Rights Reserved. * * Licensed under the Apache License 2.0 (the "License"). You may not use * this file except in compliance with the License. You can obtain a copy * in the file LICENSE in the source distribution or at * https://www.openssl.org/source/license.html */ #include #include #include #include "internal/common.h" #include "internal/sockets.h" #include "internal/quic_tserver.h" #include "internal/quic_ssl.h" #include "internal/time.h" #include "testutil.h" static const char msg1[] = "The quick brown fox jumped over the lazy dogs."; static char msg2[1024], msg3[1024]; static OSSL_TIME fake_time; static CRYPTO_RWLOCK *fake_time_lock; static const char *certfile, *keyfile; static int is_want(SSL *s, int ret) { int ec = SSL_get_error(s, ret); return ec == SSL_ERROR_WANT_READ || ec == SSL_ERROR_WANT_WRITE; } static unsigned char scratch_buf[2048]; static OSSL_TIME fake_now(void *arg) { OSSL_TIME t; if (!CRYPTO_THREAD_read_lock(fake_time_lock)) return ossl_time_zero(); t = fake_time; CRYPTO_THREAD_unlock(fake_time_lock); return t; } static OSSL_TIME real_now(void *arg) { return ossl_time_now(); } static int do_test(int use_thread_assist, int use_fake_time, int use_inject) { int testresult = 0, ret; int s_fd = -1, c_fd = -1; BIO *s_net_bio = NULL, *s_net_bio_own = NULL; BIO *c_net_bio = NULL, *c_net_bio_own = NULL; BIO *c_pair_own = NULL, *s_pair_own = NULL; QUIC_TSERVER_ARGS tserver_args = {0}; QUIC_TSERVER *tserver = NULL; BIO_ADDR *s_addr_ = NULL; struct in_addr ina = {0}; union BIO_sock_info_u s_info = {0}; SSL_CTX *c_ctx = NULL; SSL *c_ssl = NULL; short port = 8186; int c_connected = 0, c_write_done = 0, c_begin_read = 0, s_read_done = 0; int c_wait_eos = 0, c_done_eos = 0; int c_start_idle_test = 0, c_done_idle_test = 0; size_t l = 0, s_total_read = 0, s_total_written = 0, c_total_read = 0; size_t idle_units_done = 0; int s_begin_write = 0; OSSL_TIME start_time; unsigned char alpn[] = { 8, 'o', 's', 's', 'l', 't', 'e', 's', 't' }; OSSL_TIME (*now_cb)(void *arg) = use_fake_time ? fake_now : real_now; size_t limit_ms = 1000; ina.s_addr = htonl(0x7f000001UL); /* Setup test server. */ s_fd = BIO_socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP, 0); if (!TEST_int_ge(s_fd, 0)) goto err; if (!TEST_true(BIO_socket_nbio(s_fd, 1))) goto err; if (!TEST_ptr(s_addr_ = BIO_ADDR_new())) goto err; if (!TEST_true(BIO_ADDR_rawmake(s_addr_, AF_INET, &ina, sizeof(ina), htons(port)))) goto err; if (!TEST_true(BIO_bind(s_fd, s_addr_, 0))) goto err; s_info.addr = s_addr_; if (!TEST_true(BIO_sock_info(s_fd, BIO_SOCK_INFO_ADDRESS, &s_info))) goto err; if (!TEST_int_gt(BIO_ADDR_rawport(s_addr_), 0)) goto err; if (!TEST_ptr(s_net_bio = s_net_bio_own = BIO_new_dgram(s_fd, 0))) goto err; if (!BIO_up_ref(s_net_bio)) goto err; fake_time = ossl_ms2time(1000); tserver_args.net_rbio = s_net_bio; tserver_args.net_wbio = s_net_bio; if (use_fake_time) tserver_args.now_cb = fake_now; if (!TEST_ptr(tserver = ossl_quic_tserver_new(&tserver_args, certfile, keyfile))) { BIO_free(s_net_bio); goto err; } s_net_bio_own = NULL; if (use_inject) { /* * In inject mode we create a dgram pair to feed to the QUIC client on * the read side. We don't feed anything to this, it is just a * placeholder to give the client something which never returns any * datagrams. */ if (!TEST_true(BIO_new_bio_dgram_pair(&c_pair_own, 5000, &s_pair_own, 5000))) goto err; } /* Setup test client. */ c_fd = BIO_socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP, 0); if (!TEST_int_ge(c_fd, 0)) goto err; if (!TEST_true(BIO_socket_nbio(c_fd, 1))) goto err; if (!TEST_ptr(c_net_bio = c_net_bio_own = BIO_new_dgram(c_fd, 0))) goto err; if (!BIO_dgram_set_peer(c_net_bio, s_addr_)) goto err; if (!TEST_ptr(c_ctx = SSL_CTX_new(use_thread_assist ? OSSL_QUIC_client_thread_method() : OSSL_QUIC_client_method()))) goto err; if (!TEST_ptr(c_ssl = SSL_new(c_ctx))) goto err; if (use_fake_time) ossl_quic_conn_set_override_now_cb(c_ssl, fake_now, NULL); /* 0 is a success for SSL_set_alpn_protos() */ if (!TEST_false(SSL_set_alpn_protos(c_ssl, alpn, sizeof(alpn)))) goto err; /* Takes ownership of our reference to the BIO. */ if (use_inject) { SSL_set0_rbio(c_ssl, c_pair_own); c_pair_own = NULL; } else { SSL_set0_rbio(c_ssl, c_net_bio); /* Get another reference to be transferred in the SSL_set0_wbio call. */ if (!TEST_true(BIO_up_ref(c_net_bio))) { c_net_bio_own = NULL; /* SSL_free will free the first reference. */ goto err; } } SSL_set0_wbio(c_ssl, c_net_bio); c_net_bio_own = NULL; if (!TEST_true(SSL_set_blocking_mode(c_ssl, 0))) goto err; start_time = now_cb(NULL); for (;;) { if (ossl_time_compare(ossl_time_subtract(now_cb(NULL), start_time), ossl_ms2time(limit_ms)) >= 0) { TEST_error("timeout while attempting QUIC server test"); goto err; } if (!c_start_idle_test) { ret = SSL_connect(c_ssl); if (!TEST_true(ret == 1 || is_want(c_ssl, ret))) goto err; if (ret == 1) c_connected = 1; } if (c_connected && !c_write_done) { if (!TEST_int_eq(SSL_write(c_ssl, msg1, sizeof(msg1) - 1), (int)sizeof(msg1) - 1)) goto err; if (!TEST_true(SSL_stream_conclude(c_ssl, 0))) goto err; c_write_done = 1; } if (c_connected && c_write_done && !s_read_done) { if (!ossl_quic_tserver_read(tserver, 0, (unsigned char *)msg2 + s_total_read, sizeof(msg2) - s_total_read, &l)) { if (!TEST_true(ossl_quic_tserver_has_read_ended(tserver, 0))) goto err; if (!TEST_mem_eq(msg1, sizeof(msg1) - 1, msg2, s_total_read)) goto err; s_begin_write = 1; s_read_done = 1; } else { s_total_read += l; if (!TEST_size_t_le(s_total_read, sizeof(msg1) - 1)) goto err; } } if (s_begin_write && s_total_written < sizeof(msg1) - 1) { if (!TEST_true(ossl_quic_tserver_write(tserver, 0, (unsigned char *)msg2 + s_total_written, sizeof(msg1) - 1 - s_total_written, &l))) goto err; s_total_written += l; if (s_total_written == sizeof(msg1) - 1) { ossl_quic_tserver_conclude(tserver, 0); c_begin_read = 1; } } if (c_begin_read && c_total_read < sizeof(msg1) - 1) { ret = SSL_read_ex(c_ssl, msg3 + c_total_read, sizeof(msg1) - 1 - c_total_read, &l); if (!TEST_true(ret == 1 || is_want(c_ssl, ret))) goto err; c_total_read += l; if (c_total_read == sizeof(msg1) - 1) { if (!TEST_mem_eq(msg1, sizeof(msg1) - 1, msg3, c_total_read)) goto err; c_wait_eos = 1; } } if (c_wait_eos && !c_done_eos) { unsigned char c; ret = SSL_read_ex(c_ssl, &c, sizeof(c), &l); if (!TEST_false(ret)) goto err; /* * Allow the implementation to take as long as it wants to finally * notice EOS. Account for varied timings in OS networking stacks. */ if (SSL_get_error(c_ssl, ret) != SSL_ERROR_WANT_READ) { if (!TEST_int_eq(SSL_get_error(c_ssl, ret), SSL_ERROR_ZERO_RETURN)) goto err; c_done_eos = 1; if (use_thread_assist && use_fake_time) { if (!TEST_true(ossl_quic_tserver_is_connected(tserver))) goto err; c_start_idle_test = 1; limit_ms = 120000; /* extend time limit */ } else { /* DONE */ break; } } } if (c_start_idle_test && !c_done_idle_test) { /* This is more than our default idle timeout of 30s. */ if (idle_units_done < 600) { if (!TEST_true(CRYPTO_THREAD_write_lock(fake_time_lock))) goto err; fake_time = ossl_time_add(fake_time, ossl_ms2time(100)); CRYPTO_THREAD_unlock(fake_time_lock); ++idle_units_done; ossl_quic_conn_force_assist_thread_wake(c_ssl); OSSL_sleep(1); /* Ensure CPU scheduling for test purposes */ } else { c_done_idle_test = 1; } } if (c_done_idle_test) { /* * If we have finished the fake idling duration, the connection * should still be healthy in TA mode. */ if (!TEST_true(ossl_quic_tserver_is_connected(tserver))) goto err; /* DONE */ break; } /* * This is inefficient because we spin until things work without * blocking but this is just a test. */ if (!c_start_idle_test || c_done_idle_test) { /* Inhibit manual ticking during idle test to test TA mode. */ SSL_tick(c_ssl); } ossl_quic_tserver_tick(tserver); if (use_inject) { BIO_MSG rmsg = {0}; size_t msgs_processed = 0; for (;;) { /* * Manually spoonfeed received datagrams from the real BIO_dgram * into QUIC via the injection interface, thereby testing the * injection interface. */ rmsg.data = scratch_buf; rmsg.data_len = sizeof(scratch_buf); if (!BIO_recvmmsg(c_net_bio, &rmsg, sizeof(rmsg), 1, 0, &msgs_processed) || msgs_processed == 0 || rmsg.data_len == 0) break; if (!TEST_true(SSL_inject_net_dgram(c_ssl, rmsg.data, rmsg.data_len, NULL, NULL))) goto err; } } } testresult = 1; err: SSL_free(c_ssl); SSL_CTX_free(c_ctx); ossl_quic_tserver_free(tserver); BIO_ADDR_free(s_addr_); BIO_free(s_net_bio_own); BIO_free(c_net_bio_own); BIO_free(c_pair_own); BIO_free(s_pair_own); if (s_fd >= 0) BIO_closesocket(s_fd); if (c_fd >= 0) BIO_closesocket(c_fd); return testresult; } static int test_tserver(int idx) { int thread_assisted, use_fake_time, use_inject; thread_assisted = idx % 2; idx /= 2; use_inject = idx % 2; idx /= 2; use_fake_time = idx % 2; if (use_fake_time && !thread_assisted) return 1; return do_test(thread_assisted, use_fake_time, use_inject); } OPT_TEST_DECLARE_USAGE("certfile privkeyfile\n") int setup_tests(void) { if (!test_skip_common_options()) { TEST_error("Error parsing test options\n"); return 0; } if (!TEST_ptr(certfile = test_get_argument(0)) || !TEST_ptr(keyfile = test_get_argument(1))) return 0; if ((fake_time_lock = CRYPTO_THREAD_lock_new()) == NULL) return 0; ADD_ALL_TESTS(test_tserver, 2 * 2 * 2); return 1; }