int main(int argc, char **argv) { struct s2n_config *server_config; struct s2n_cipher_preferences *default_cipher_preferences; BEGIN_TEST(); EXPECT_SUCCESS(setenv("S2N_ENABLE_CLIENT_MODE", "1", 0)); EXPECT_SUCCESS(setenv("S2N_DONT_MLOCK", "1", 0)); EXPECT_SUCCESS(s2n_init()); EXPECT_NOT_NULL(server_config = s2n_config_new()); EXPECT_SUCCESS(s2n_config_add_cert_chain_and_key(server_config, certificate, private_key)); EXPECT_SUCCESS(s2n_config_add_dhparams(server_config, dhparams)); EXPECT_NOT_NULL(default_cipher_preferences = server_config->cipher_preferences); /* Verify that a handshake succeeds for every cipher in the default list. */ for (int cipher_idx = 0; cipher_idx < default_cipher_preferences->count; cipher_idx++) { struct s2n_cipher_preferences server_cipher_preferences; struct s2n_connection *client_conn; struct s2n_connection *server_conn; int client_more; int server_more; int server_to_client[2]; int client_to_server[2]; /* Craft a cipher preference with a cipher_idx cipher NOTE: Its safe to use memcpy as the address of server_cipher_preferences will never be NULL */ memcpy(&server_cipher_preferences, default_cipher_preferences, sizeof(server_cipher_preferences)); server_cipher_preferences.count = 1; server_cipher_preferences.wire_format = default_cipher_preferences->wire_format + cipher_idx * S2N_TLS_CIPHER_SUITE_LEN; server_config->cipher_preferences = &server_cipher_preferences; /* Create nonblocking pipes */ EXPECT_SUCCESS(pipe(server_to_client)); EXPECT_SUCCESS(pipe(client_to_server)); for (int i = 0; i < 2; i++) { EXPECT_NOT_EQUAL(fcntl(server_to_client[i], F_SETFL, fcntl(server_to_client[i], F_GETFL) | O_NONBLOCK), -1); EXPECT_NOT_EQUAL(fcntl(client_to_server[i], F_SETFL, fcntl(client_to_server[i], F_GETFL) | O_NONBLOCK), -1); } EXPECT_NOT_NULL(client_conn = s2n_connection_new(S2N_CLIENT)); EXPECT_SUCCESS(s2n_connection_set_read_fd(client_conn, server_to_client[0])); EXPECT_SUCCESS(s2n_connection_set_write_fd(client_conn, client_to_server[1])); EXPECT_NOT_NULL(server_conn = s2n_connection_new(S2N_SERVER)); EXPECT_SUCCESS(s2n_connection_set_read_fd(server_conn, client_to_server[0])); EXPECT_SUCCESS(s2n_connection_set_write_fd(server_conn, server_to_client[1])); EXPECT_SUCCESS(s2n_connection_set_config(server_conn, server_config)); do { int ret; ret = s2n_negotiate(client_conn, &client_more); EXPECT_TRUE(ret == 0 || (client_more && errno == EAGAIN)); ret = s2n_negotiate(server_conn, &server_more); EXPECT_TRUE(ret == 0 || (server_more && errno == EAGAIN)); } while (client_more || server_more); EXPECT_SUCCESS(s2n_shutdown(client_conn, &client_more)); EXPECT_SUCCESS(s2n_connection_free(client_conn)); EXPECT_SUCCESS(s2n_shutdown(server_conn, &server_more)); EXPECT_SUCCESS(s2n_connection_free(server_conn)); for (int i = 0; i < 2; i++) { EXPECT_SUCCESS(close(server_to_client[i])); EXPECT_SUCCESS(close(client_to_server[i])); } } EXPECT_SUCCESS(s2n_config_free(server_config)); END_TEST(); return 0; }
int main(int argc, char **argv) { struct s2n_connection *conn; struct s2n_config *config; s2n_blocked_status blocked; int status; pid_t pid; int server_to_client[2]; int client_to_server[2]; BEGIN_TEST(); EXPECT_SUCCESS(setenv("S2N_ENABLE_CLIENT_MODE", "1", 0)); for (int cert = 0; cert < SUPPORTED_CERTIFICATE_FORMATS; cert++) { for (int is_dh_key_exchange = 0; is_dh_key_exchange <= 1; is_dh_key_exchange++) { /* Create a pipe */ EXPECT_SUCCESS(pipe(server_to_client)); EXPECT_SUCCESS(pipe(client_to_server)); /* Create a child process */ pid = fork(); if (pid == 0) { /* This is the child process, close the read end of the pipe */ EXPECT_SUCCESS(close(client_to_server[0])); EXPECT_SUCCESS(close(server_to_client[1])); /* Write the fragmented hello message */ mock_client(client_to_server[1], server_to_client[0]); } /* This is the parent */ EXPECT_SUCCESS(close(client_to_server[1])); EXPECT_SUCCESS(close(server_to_client[0])); EXPECT_NOT_NULL(conn = s2n_connection_new(S2N_SERVER)); conn->server_protocol_version = S2N_TLS12; conn->client_protocol_version = S2N_TLS12; conn->actual_protocol_version = S2N_TLS12; EXPECT_NOT_NULL(config = s2n_config_new()); EXPECT_SUCCESS(s2n_config_add_cert_chain_and_key(config, certificates[cert], private_keys[cert])); if (is_dh_key_exchange) { EXPECT_SUCCESS(s2n_config_add_dhparams(config, dhparams)); } EXPECT_SUCCESS(s2n_connection_set_config(conn, config)); /* Set up the connection to read from the fd */ EXPECT_SUCCESS(s2n_connection_set_read_fd(conn, client_to_server[0])); EXPECT_SUCCESS(s2n_connection_set_write_fd(conn, server_to_client[1])); /* Negotiate the handshake. */ EXPECT_SUCCESS(s2n_negotiate(conn, &blocked)); char buffer[0xffff]; for (int i = 1; i < 0xffff; i += 100) { char * ptr = buffer; int size = i; do { int bytes_read = 0; EXPECT_SUCCESS(bytes_read = s2n_recv(conn, ptr, size, &blocked)); size -= bytes_read; ptr += bytes_read; } while(size); for (int j = 0; j < i; j++) { EXPECT_EQUAL(buffer[j], 33); } } int shutdown_rc = -1; do { shutdown_rc = s2n_shutdown(conn, &blocked); EXPECT_TRUE(shutdown_rc == 0 || (errno == EAGAIN && blocked)); } while(shutdown_rc != 0); EXPECT_SUCCESS(s2n_connection_free(conn)); EXPECT_SUCCESS(s2n_config_free(config)); /* Clean up */ EXPECT_EQUAL(waitpid(-1, &status, 0), pid); EXPECT_EQUAL(status, 0); } } END_TEST(); return 0; }
int main(int argc, char **argv) { BEGIN_TEST(); EXPECT_SUCCESS(setenv("S2N_ENABLE_CLIENT_MODE", "1", 0)); EXPECT_SUCCESS(setenv("S2N_DONT_MLOCK", "1", 0)); EXPECT_SUCCESS(s2n_init()); /* Client doens't use the server name extension. */ { struct s2n_connection *client_conn; struct s2n_connection *server_conn; struct s2n_config *server_config; s2n_blocked_status client_blocked; s2n_blocked_status server_blocked; int server_to_client[2]; int client_to_server[2]; /* Create nonblocking pipes */ EXPECT_SUCCESS(pipe(server_to_client)); EXPECT_SUCCESS(pipe(client_to_server)); for (int i = 0; i < 2; i++) { EXPECT_NOT_EQUAL(fcntl(server_to_client[i], F_SETFL, fcntl(server_to_client[i], F_GETFL) | O_NONBLOCK), -1); EXPECT_NOT_EQUAL(fcntl(client_to_server[i], F_SETFL, fcntl(client_to_server[i], F_GETFL) | O_NONBLOCK), -1); } EXPECT_NOT_NULL(client_conn = s2n_connection_new(S2N_CLIENT)); EXPECT_SUCCESS(s2n_connection_set_read_fd(client_conn, server_to_client[0])); EXPECT_SUCCESS(s2n_connection_set_write_fd(client_conn, client_to_server[1])); EXPECT_NOT_NULL(server_conn = s2n_connection_new(S2N_SERVER)); EXPECT_SUCCESS(s2n_connection_set_read_fd(server_conn, client_to_server[0])); EXPECT_SUCCESS(s2n_connection_set_write_fd(server_conn, server_to_client[1])); EXPECT_NOT_NULL(server_config = s2n_config_new()); EXPECT_SUCCESS(s2n_config_add_cert_chain_and_key(server_config, certificate, private_key)); EXPECT_SUCCESS(s2n_connection_set_config(server_conn, server_config)); do { int ret; ret = s2n_negotiate(client_conn, &client_blocked); EXPECT_TRUE(ret == 0 || (client_blocked && errno == EAGAIN)); ret = s2n_negotiate(server_conn, &server_blocked); EXPECT_TRUE(ret == 0 || (server_blocked && errno == EAGAIN)); } while (client_blocked || server_blocked); /* Verify that the server didn't receive the server name. */ EXPECT_NULL(s2n_get_server_name(server_conn)); EXPECT_SUCCESS(s2n_shutdown(client_conn, &client_blocked)); EXPECT_SUCCESS(s2n_connection_free(client_conn)); EXPECT_SUCCESS(s2n_shutdown(server_conn, &server_blocked)); EXPECT_SUCCESS(s2n_connection_free(server_conn)); EXPECT_SUCCESS(s2n_config_free(server_config)); for (int i = 0; i < 2; i++) { EXPECT_SUCCESS(close(server_to_client[i])); EXPECT_SUCCESS(close(client_to_server[i])); } } /* Client uses the server name extension. */ { struct s2n_connection *client_conn; struct s2n_connection *server_conn; struct s2n_config *server_config; s2n_blocked_status client_blocked; s2n_blocked_status server_blocked; int server_to_client[2]; int client_to_server[2]; const char *sent_server_name = "awesome.amazonaws.com"; const char *received_server_name; /* Create nonblocking pipes */ EXPECT_SUCCESS(pipe(server_to_client)); EXPECT_SUCCESS(pipe(client_to_server)); for (int i = 0; i < 2; i++) { EXPECT_NOT_EQUAL(fcntl(server_to_client[i], F_SETFL, fcntl(server_to_client[i], F_GETFL) | O_NONBLOCK), -1); EXPECT_NOT_EQUAL(fcntl(client_to_server[i], F_SETFL, fcntl(client_to_server[i], F_GETFL) | O_NONBLOCK), -1); } EXPECT_NOT_NULL(client_conn = s2n_connection_new(S2N_CLIENT)); EXPECT_SUCCESS(s2n_connection_set_read_fd(client_conn, server_to_client[0])); EXPECT_SUCCESS(s2n_connection_set_write_fd(client_conn, client_to_server[1])); /* Set the server name */ EXPECT_SUCCESS(s2n_set_server_name(client_conn, sent_server_name)); EXPECT_NOT_NULL(server_conn = s2n_connection_new(S2N_SERVER)); EXPECT_SUCCESS(s2n_connection_set_read_fd(server_conn, client_to_server[0])); EXPECT_SUCCESS(s2n_connection_set_write_fd(server_conn, server_to_client[1])); EXPECT_NOT_NULL(server_config = s2n_config_new()); EXPECT_SUCCESS(s2n_config_add_cert_chain_and_key(server_config, certificate, private_key)); EXPECT_SUCCESS(s2n_connection_set_config(server_conn, server_config)); do { int ret; ret = s2n_negotiate(client_conn, &client_blocked); EXPECT_TRUE(ret == 0 || (client_blocked && errno == EAGAIN)); ret = s2n_negotiate(server_conn, &server_blocked); EXPECT_TRUE(ret == 0 || (server_blocked && errno == EAGAIN)); } while (client_blocked || server_blocked); /* Verify that the server name was received intact. */ EXPECT_NOT_NULL(received_server_name = s2n_get_server_name(server_conn)); EXPECT_EQUAL(strlen(received_server_name), strlen(sent_server_name)); EXPECT_BYTEARRAY_EQUAL(received_server_name, sent_server_name, strlen(received_server_name)); EXPECT_SUCCESS(s2n_shutdown(client_conn, &client_blocked)); EXPECT_SUCCESS(s2n_connection_free(client_conn)); EXPECT_SUCCESS(s2n_shutdown(server_conn, &server_blocked)); EXPECT_SUCCESS(s2n_connection_free(server_conn)); EXPECT_SUCCESS(s2n_config_free(server_config)); for (int i = 0; i < 2; i++) { EXPECT_SUCCESS(close(server_to_client[i])); EXPECT_SUCCESS(close(client_to_server[i])); } } /* Client sends multiple server names. */ { struct s2n_connection *server_conn; struct s2n_config *server_config; s2n_blocked_status server_blocked; int server_to_client[2]; int client_to_server[2]; const char *sent_server_name = "svr"; const char *received_server_name; uint8_t client_extensions[] = { /* Extension type TLS_EXTENSION_SERVER_NAME */ 0x00, 0x00, /* Extension size */ 0x00, 0x0C, /* All server names len */ 0x00, 0x0A, /* First server name type - host name */ 0x00, /* First server name len */ 0x00, 0x03, /* First server name, matches sent_server_name */ 's', 'v', 'r', /* Second server name type - host name */ 0x00, /* Second server name len */ 0x00, 0x01, /* Second server name */ 0xFF, }; int client_extensions_len = sizeof(client_extensions); uint8_t client_hello_message[] = { /* Protocol version TLS 1.2 */ 0x03, 0x03, /* Client random */ ZERO_TO_THIRTY_ONE, /* SessionID len - 32 bytes */ 0x20, /* Session ID */ ZERO_TO_THIRTY_ONE, /* Cipher suites len */ 0x00, 0x02, /* Cipher suite - TLS_RSA_WITH_AES_128_CBC_SHA256 */ 0x00, 0x3C, /* Compression methods len */ 0x01, /* Compression method - none */ 0x00, /* Extensions len */ (client_extensions_len >> 8) & 0xff, (client_extensions_len & 0xff), }; int body_len = sizeof(client_hello_message) + client_extensions_len; uint8_t message_header[] = { /* Handshake message type CLIENT HELLO */ 0x01, /* Body len */ (body_len >> 16) & 0xff, (body_len >> 8) & 0xff, (body_len & 0xff), }; int message_len = sizeof(message_header) + body_len; uint8_t record_header[] = { /* Record type HANDSHAKE */ 0x16, /* Protocol version TLS 1.2 */ 0x03, 0x03, /* Message len */ (message_len >> 8) & 0xff, (message_len & 0xff), }; /* Create nonblocking pipes */ EXPECT_SUCCESS(pipe(server_to_client)); EXPECT_SUCCESS(pipe(client_to_server)); for (int i = 0; i < 2; i++) { EXPECT_NOT_EQUAL(fcntl(server_to_client[i], F_SETFL, fcntl(server_to_client[i], F_GETFL) | O_NONBLOCK), -1); EXPECT_NOT_EQUAL(fcntl(client_to_server[i], F_SETFL, fcntl(client_to_server[i], F_GETFL) | O_NONBLOCK), -1); } EXPECT_NOT_NULL(server_conn = s2n_connection_new(S2N_SERVER)); EXPECT_SUCCESS(s2n_connection_set_read_fd(server_conn, client_to_server[0])); EXPECT_SUCCESS(s2n_connection_set_write_fd(server_conn, server_to_client[1])); EXPECT_NOT_NULL(server_config = s2n_config_new()); EXPECT_SUCCESS(s2n_config_add_cert_chain_and_key(server_config, certificate, private_key)); EXPECT_SUCCESS(s2n_connection_set_config(server_conn, server_config)); /* Send the client hello */ EXPECT_EQUAL(write(client_to_server[1], record_header, sizeof(record_header)), sizeof(record_header)); EXPECT_EQUAL(write(client_to_server[1], message_header, sizeof(message_header)), sizeof(message_header)); EXPECT_EQUAL(write(client_to_server[1], client_hello_message, sizeof(client_hello_message)), sizeof(client_hello_message)); EXPECT_EQUAL(write(client_to_server[1], client_extensions, sizeof(client_extensions)), sizeof(client_extensions)); /* Verify that the CLIENT HELLO is accepted */ s2n_negotiate(server_conn, &server_blocked); EXPECT_EQUAL(server_blocked, 1); EXPECT_EQUAL(server_conn->handshake.state, CLIENT_KEY); /* Verify that the server name was received intact. */ EXPECT_NOT_NULL(received_server_name = s2n_get_server_name(server_conn)); EXPECT_EQUAL(strlen(received_server_name), strlen(sent_server_name)); EXPECT_BYTEARRAY_EQUAL(received_server_name, sent_server_name, strlen(received_server_name)); EXPECT_SUCCESS(s2n_shutdown(server_conn, &server_blocked)); EXPECT_SUCCESS(s2n_connection_free(server_conn)); EXPECT_SUCCESS(s2n_config_free(server_config)); for (int i = 0; i < 2; i++) { EXPECT_SUCCESS(close(server_to_client[i])); EXPECT_SUCCESS(close(client_to_server[i])); } } /* Client doesn't use the OCSP extension. */ { struct s2n_connection *client_conn; struct s2n_connection *server_conn; struct s2n_config *server_config; s2n_blocked_status client_blocked; s2n_blocked_status server_blocked; int server_to_client[2]; int client_to_server[2]; uint32_t length; /* Create nonblocking pipes */ EXPECT_SUCCESS(pipe(server_to_client)); EXPECT_SUCCESS(pipe(client_to_server)); for (int i = 0; i < 2; i++) { EXPECT_NOT_EQUAL(fcntl(server_to_client[i], F_SETFL, fcntl(server_to_client[i], F_GETFL) | O_NONBLOCK), -1); EXPECT_NOT_EQUAL(fcntl(client_to_server[i], F_SETFL, fcntl(client_to_server[i], F_GETFL) | O_NONBLOCK), -1); } EXPECT_NOT_NULL(client_conn = s2n_connection_new(S2N_CLIENT)); EXPECT_SUCCESS(s2n_connection_set_read_fd(client_conn, server_to_client[0])); EXPECT_SUCCESS(s2n_connection_set_write_fd(client_conn, client_to_server[1])); EXPECT_NOT_NULL(server_conn = s2n_connection_new(S2N_SERVER)); EXPECT_SUCCESS(s2n_connection_set_read_fd(server_conn, client_to_server[0])); EXPECT_SUCCESS(s2n_connection_set_write_fd(server_conn, server_to_client[1])); EXPECT_NOT_NULL(server_config = s2n_config_new()); EXPECT_SUCCESS(s2n_config_add_cert_chain_and_key_with_status(server_config, certificate, private_key, server_ocsp_status, sizeof(server_ocsp_status))); EXPECT_SUCCESS(s2n_connection_set_config(server_conn, server_config)); do { int ret; ret = s2n_negotiate(client_conn, &client_blocked); EXPECT_TRUE(ret == 0 || client_blocked); ret = s2n_negotiate(server_conn, &server_blocked); EXPECT_TRUE(ret == 0 || server_blocked); } while (client_blocked || server_blocked); /* Verify that the client didn't receive an OCSP response. */ EXPECT_NULL(s2n_connection_get_ocsp_response(client_conn, &length)); EXPECT_EQUAL(length, 0); EXPECT_SUCCESS(s2n_shutdown(client_conn, &client_blocked)); EXPECT_SUCCESS(s2n_connection_free(client_conn)); EXPECT_SUCCESS(s2n_shutdown(server_conn, &server_blocked)); EXPECT_SUCCESS(s2n_connection_free(server_conn)); EXPECT_SUCCESS(s2n_config_free(server_config)); for (int i = 0; i < 2; i++) { EXPECT_SUCCESS(close(server_to_client[i])); EXPECT_SUCCESS(close(client_to_server[i])); } } /* Server doesn't support the OCSP extension. */ { struct s2n_connection *client_conn; struct s2n_connection *server_conn; struct s2n_config *server_config; struct s2n_config *client_config; s2n_blocked_status client_blocked; s2n_blocked_status server_blocked; int server_to_client[2]; int client_to_server[2]; uint32_t length; /* Create nonblocking pipes */ EXPECT_SUCCESS(pipe(server_to_client)); EXPECT_SUCCESS(pipe(client_to_server)); for (int i = 0; i < 2; i++) { EXPECT_NOT_EQUAL(fcntl(server_to_client[i], F_SETFL, fcntl(server_to_client[i], F_GETFL) | O_NONBLOCK), -1); EXPECT_NOT_EQUAL(fcntl(client_to_server[i], F_SETFL, fcntl(client_to_server[i], F_GETFL) | O_NONBLOCK), -1); } EXPECT_NOT_NULL(client_conn = s2n_connection_new(S2N_CLIENT)); EXPECT_SUCCESS(s2n_connection_set_read_fd(client_conn, server_to_client[0])); EXPECT_SUCCESS(s2n_connection_set_write_fd(client_conn, client_to_server[1])); EXPECT_NOT_NULL(client_config = s2n_config_new()); EXPECT_SUCCESS(s2n_config_set_status_request_type(client_config, S2N_STATUS_REQUEST_OCSP)); EXPECT_SUCCESS(s2n_connection_set_config(client_conn, client_config)); EXPECT_NOT_NULL(server_conn = s2n_connection_new(S2N_SERVER)); EXPECT_SUCCESS(s2n_connection_set_read_fd(server_conn, client_to_server[0])); EXPECT_SUCCESS(s2n_connection_set_write_fd(server_conn, server_to_client[1])); EXPECT_NOT_NULL(server_config = s2n_config_new()); EXPECT_SUCCESS(s2n_config_add_cert_chain_and_key(server_config, certificate, private_key)); EXPECT_SUCCESS(s2n_connection_set_config(server_conn, server_config)); do { int ret; ret = s2n_negotiate(client_conn, &client_blocked); EXPECT_TRUE(ret == 0 || client_blocked); ret = s2n_negotiate(server_conn, &server_blocked); EXPECT_TRUE(ret == 0 || server_blocked); } while (client_blocked || server_blocked); /* Verify that the client didn't receive an OCSP response. */ EXPECT_NULL(s2n_connection_get_ocsp_response(client_conn, &length)); EXPECT_EQUAL(length, 0); EXPECT_SUCCESS(s2n_shutdown(client_conn, &client_blocked)); EXPECT_SUCCESS(s2n_connection_free(client_conn)); EXPECT_SUCCESS(s2n_shutdown(server_conn, &server_blocked)); EXPECT_SUCCESS(s2n_connection_free(server_conn)); EXPECT_SUCCESS(s2n_config_free(server_config)); EXPECT_SUCCESS(s2n_config_free(client_config)); for (int i = 0; i < 2; i++) { EXPECT_SUCCESS(close(server_to_client[i])); EXPECT_SUCCESS(close(client_to_server[i])); } } /* Server and client support the OCSP extension. */ { struct s2n_connection *client_conn; struct s2n_connection *server_conn; struct s2n_config *server_config; struct s2n_config *client_config; s2n_blocked_status client_blocked; s2n_blocked_status server_blocked; int server_to_client[2]; int client_to_server[2]; uint32_t length; /* Create nonblocking pipes */ EXPECT_SUCCESS(pipe(server_to_client)); EXPECT_SUCCESS(pipe(client_to_server)); for (int i = 0; i < 2; i++) { EXPECT_NOT_EQUAL(fcntl(server_to_client[i], F_SETFL, fcntl(server_to_client[i], F_GETFL) | O_NONBLOCK), -1); EXPECT_NOT_EQUAL(fcntl(client_to_server[i], F_SETFL, fcntl(client_to_server[i], F_GETFL) | O_NONBLOCK), -1); } EXPECT_NOT_NULL(client_conn = s2n_connection_new(S2N_CLIENT)); EXPECT_SUCCESS(s2n_connection_set_read_fd(client_conn, server_to_client[0])); EXPECT_SUCCESS(s2n_connection_set_write_fd(client_conn, client_to_server[1])); EXPECT_NOT_NULL(client_config = s2n_config_new()); EXPECT_SUCCESS(s2n_config_set_status_request_type(client_config, S2N_STATUS_REQUEST_OCSP)); EXPECT_SUCCESS(s2n_connection_set_config(client_conn, client_config)); EXPECT_NOT_NULL(server_conn = s2n_connection_new(S2N_SERVER)); EXPECT_SUCCESS(s2n_connection_set_read_fd(server_conn, client_to_server[0])); EXPECT_SUCCESS(s2n_connection_set_write_fd(server_conn, server_to_client[1])); EXPECT_NOT_NULL(server_config = s2n_config_new()); EXPECT_SUCCESS(s2n_config_add_cert_chain_and_key_with_status(server_config, certificate, private_key, server_ocsp_status, sizeof(server_ocsp_status))); EXPECT_SUCCESS(s2n_connection_set_config(server_conn, server_config)); do { int ret; ret = s2n_negotiate(client_conn, &client_blocked); EXPECT_TRUE(ret == 0 || client_blocked); ret = s2n_negotiate(server_conn, &server_blocked); EXPECT_TRUE(ret == 0 || server_blocked); } while (client_blocked || server_blocked); /* Verify that the client didn't receive an OCSP response. */ EXPECT_NULL(s2n_connection_get_ocsp_response(client_conn, &length)); EXPECT_EQUAL(length, 0); EXPECT_SUCCESS(s2n_shutdown(client_conn, &client_blocked)); EXPECT_SUCCESS(s2n_connection_free(client_conn)); EXPECT_SUCCESS(s2n_shutdown(server_conn, &server_blocked)); EXPECT_SUCCESS(s2n_connection_free(server_conn)); EXPECT_SUCCESS(s2n_config_free(server_config)); EXPECT_SUCCESS(s2n_config_free(client_config)); for (int i = 0; i < 2; i++) { EXPECT_SUCCESS(close(server_to_client[i])); EXPECT_SUCCESS(close(client_to_server[i])); } } END_TEST(); return 0; }
int main(int argc, char **argv) { struct s2n_stuffer certificate_in, certificate_out; struct s2n_stuffer dhparams_in, dhparams_out; struct s2n_stuffer rsa_key_in, rsa_key_out; struct s2n_blob b; BEGIN_TEST(); EXPECT_SUCCESS(s2n_stuffer_alloc(&certificate_in, sizeof(certificate))); EXPECT_SUCCESS(s2n_stuffer_alloc(&certificate_out, sizeof(certificate))); EXPECT_SUCCESS(s2n_stuffer_alloc(&dhparams_in, sizeof(dhparams))); EXPECT_SUCCESS(s2n_stuffer_alloc(&dhparams_out, sizeof(dhparams))); EXPECT_SUCCESS(s2n_stuffer_alloc(&rsa_key_in, sizeof(private_key))); EXPECT_SUCCESS(s2n_stuffer_alloc(&rsa_key_out, sizeof(private_key))); b.data = certificate; b.size = sizeof(certificate); EXPECT_SUCCESS(s2n_stuffer_write(&certificate_in, &b)); b.data = private_key; b.size = sizeof(private_key); EXPECT_SUCCESS(s2n_stuffer_write(&rsa_key_in, &b)); b.data = dhparams; b.size = sizeof(dhparams); EXPECT_SUCCESS(s2n_stuffer_write(&dhparams_in, &b)); EXPECT_SUCCESS(s2n_stuffer_certificate_from_pem(&certificate_in, &certificate_out)); EXPECT_SUCCESS(s2n_stuffer_rsa_private_key_from_pem(&rsa_key_in, &rsa_key_out)); EXPECT_SUCCESS(s2n_stuffer_dhparams_from_pem(&dhparams_in, &dhparams_out)); struct s2n_rsa_private_key priv_key; struct s2n_rsa_public_key pub_key; b.size = s2n_stuffer_data_available(&certificate_out); b.data = s2n_stuffer_raw_read(&certificate_out, b.size); EXPECT_SUCCESS(s2n_asn1der_to_rsa_public_key(&pub_key, &b)); b.size = s2n_stuffer_data_available(&rsa_key_out); b.data = s2n_stuffer_raw_read(&rsa_key_out, b.size); EXPECT_SUCCESS(s2n_asn1der_to_rsa_private_key(&priv_key, &b)); EXPECT_SUCCESS(s2n_rsa_keys_match(&pub_key, &priv_key)); struct s2n_connection *conn; EXPECT_NOT_NULL(conn = s2n_connection_new(S2N_SERVER)); EXPECT_SUCCESS(s2n_config_add_cert_chain_and_key(conn->config, (char *)chain, (char *)private_key)); struct s2n_dh_params dh_params; b.size = s2n_stuffer_data_available(&dhparams_out); b.data = s2n_stuffer_raw_read(&dhparams_out, b.size); EXPECT_SUCCESS(s2n_pkcs3_to_dh_params(&dh_params, &b)); EXPECT_SUCCESS(s2n_config_add_dhparams(conn->config, (char *)dhparams)); /* Try signing and verification with RSA */ uint8_t inputpad[] = "Hello world!"; struct s2n_blob signature; struct s2n_hash_state tls10_one, tls10_two, tls12_one, tls12_two; EXPECT_SUCCESS(s2n_hash_init(&tls10_one, S2N_HASH_MD5_SHA1)); EXPECT_SUCCESS(s2n_hash_init(&tls10_two, S2N_HASH_MD5_SHA1)); EXPECT_SUCCESS(s2n_hash_init(&tls12_one, S2N_HASH_SHA1)); EXPECT_SUCCESS(s2n_hash_init(&tls12_two, S2N_HASH_SHA1)); EXPECT_SUCCESS(s2n_alloc(&signature, s2n_rsa_public_encrypted_size(&pub_key))); EXPECT_SUCCESS(s2n_hash_update(&tls10_one, inputpad, sizeof(inputpad))); EXPECT_SUCCESS(s2n_hash_update(&tls10_two, inputpad, sizeof(inputpad))); EXPECT_SUCCESS(s2n_rsa_sign(&priv_key, &tls10_one, &signature)); EXPECT_SUCCESS(s2n_rsa_verify(&pub_key, &tls10_two, &signature)); EXPECT_SUCCESS(s2n_hash_update(&tls12_one, inputpad, sizeof(inputpad))); EXPECT_SUCCESS(s2n_hash_update(&tls12_two, inputpad, sizeof(inputpad))); EXPECT_SUCCESS(s2n_rsa_sign(&priv_key, &tls12_one, &signature)); EXPECT_SUCCESS(s2n_rsa_verify(&pub_key, &tls12_two, &signature)); EXPECT_SUCCESS(s2n_dh_params_free(&dh_params)); EXPECT_SUCCESS(s2n_rsa_private_key_free(&priv_key)); EXPECT_SUCCESS(s2n_rsa_public_key_free(&pub_key)); EXPECT_SUCCESS(s2n_config_free_dhparams(conn->config)); EXPECT_SUCCESS(s2n_config_free_cert_chain_and_key(conn->config)); EXPECT_SUCCESS(s2n_connection_free(conn)); EXPECT_SUCCESS(s2n_free(&signature)); EXPECT_SUCCESS(s2n_stuffer_free(&certificate_in)); EXPECT_SUCCESS(s2n_stuffer_free(&certificate_out)); EXPECT_SUCCESS(s2n_stuffer_free(&dhparams_in)); EXPECT_SUCCESS(s2n_stuffer_free(&dhparams_out)); EXPECT_SUCCESS(s2n_stuffer_free(&rsa_key_in)); EXPECT_SUCCESS(s2n_stuffer_free(&rsa_key_out)); END_TEST(); }
int main(int argc, char **argv) { struct s2n_connection *conn; struct s2n_config *config; int status; pid_t pid; int server_to_client[2]; int client_to_server[2]; BEGIN_TEST(); EXPECT_SUCCESS(setenv("S2N_ENABLE_CLIENT_MODE", "1", 0)); /* Create a pipe */ EXPECT_SUCCESS(s2n_init()); for (int is_dh_key_exchange = 0; is_dh_key_exchange <= 1; is_dh_key_exchange++) { EXPECT_SUCCESS(pipe(server_to_client)); EXPECT_SUCCESS(pipe(client_to_server)); /* Create a child process */ pid = fork(); if (pid == 0) { /* This is the child process, close the read end of the pipe */ EXPECT_SUCCESS(close(client_to_server[0])); EXPECT_SUCCESS(close(server_to_client[1])); /* Write the fragmented hello message */ mock_client(client_to_server[1], server_to_client[0]); } /* This is the parent */ EXPECT_SUCCESS(close(client_to_server[1])); EXPECT_SUCCESS(close(server_to_client[0])); EXPECT_NOT_NULL(conn = s2n_connection_new(S2N_SERVER)); EXPECT_NOT_NULL(config = s2n_config_new()); EXPECT_SUCCESS(s2n_config_add_cert_chain_and_key(config, certificate, private_key)); if (is_dh_key_exchange) { EXPECT_SUCCESS(s2n_config_add_dhparams(config, dhparams)); } EXPECT_SUCCESS(s2n_connection_set_config(conn, config)); /* Set up the connection to read from the fd */ EXPECT_SUCCESS(s2n_connection_set_read_fd(conn, client_to_server[0])); EXPECT_SUCCESS(s2n_connection_set_write_fd(conn, server_to_client[1])); /* Negotiate the handshake. */ EXPECT_SUCCESS(s2n_negotiate(conn, &status)); char buffer[0xffff]; for (int i = 1; i < 0xffff; i += 100) { char * ptr = buffer; int bytes_read = 0; int size = i; do { EXPECT_SUCCESS(bytes_read = s2n_recv(conn, ptr, size, &status)); size -= bytes_read; ptr += bytes_read; } while(size); for (int j = 0; j < i; j++) { EXPECT_EQUAL(buffer[j], 33); } } /* Verify that read() returns EOF */ EXPECT_SUCCESS(s2n_recv(conn, buffer, 1, &status)); EXPECT_SUCCESS(s2n_shutdown(conn, &status)); EXPECT_SUCCESS(s2n_connection_free(conn)); EXPECT_SUCCESS(s2n_config_free(config)); /* Clean up */ EXPECT_EQUAL(waitpid(-1, &status, 0), pid); EXPECT_EQUAL(status, 0); } END_TEST(); return 0; }
int main(int argc, char **argv) { uint8_t data[10000000]; uint8_t *ptr = data; struct s2n_connection *conn; struct s2n_config *config; s2n_blocked_status blocked; int status; pid_t pid; int server_to_client[2]; int client_to_server[2]; struct s2n_blob blob = {.data = data, .size = sizeof(data)}; BEGIN_TEST(); EXPECT_SUCCESS(setenv("S2N_ENABLE_CLIENT_MODE", "1", 0)); EXPECT_NOT_NULL(config = s2n_config_new()); EXPECT_SUCCESS(s2n_config_add_cert_chain_and_key(config, certificate, private_key)); EXPECT_SUCCESS(s2n_config_add_dhparams(config, dhparams)); /* Get some random data to send/receive */ EXPECT_SUCCESS(s2n_get_urandom_data(&blob)); /* Create a pipe */ EXPECT_SUCCESS(pipe(server_to_client)); EXPECT_SUCCESS(pipe(client_to_server)); /* Create a child process */ pid = fork(); if (pid == 0) { /* This is the child process, close the read end of the pipe */ EXPECT_SUCCESS(close(client_to_server[0])); EXPECT_SUCCESS(close(server_to_client[1])); /* Run the client */ mock_client(client_to_server[1], server_to_client[0], data, sizeof(data)); } /* This is the parent */ EXPECT_SUCCESS(close(client_to_server[1])); EXPECT_SUCCESS(close(server_to_client[0])); EXPECT_NOT_NULL(conn = s2n_connection_new(S2N_SERVER)); EXPECT_SUCCESS(s2n_connection_set_config(conn, config)); /* Set up the connection to read from the fd */ EXPECT_SUCCESS(s2n_connection_set_read_fd(conn, client_to_server[0])); EXPECT_SUCCESS(s2n_connection_set_write_fd(conn, server_to_client[1])); /* Negotiate the handshake. */ EXPECT_SUCCESS(s2n_negotiate(conn, &blocked)); /* Pause the child process by sending it SIGSTP */ EXPECT_SUCCESS(kill(pid, SIGSTOP)); /* Make our pipes non-blocking */ EXPECT_NOT_EQUAL(fcntl(client_to_server[0], F_SETFL, fcntl(client_to_server[0], F_GETFL) | O_NONBLOCK), -1); EXPECT_NOT_EQUAL(fcntl(server_to_client[1], F_SETFL, fcntl(server_to_client[1], F_GETFL) | O_NONBLOCK), -1); /* Try to all 10MB of data, should be enough to fill PIPEBUF, so we'll get blocked at some point */ uint32_t remaining = sizeof(data); while (remaining) { int r = s2n_send(conn, ptr, remaining, &blocked); if (r < 0) { if (blocked) { /* We reached a blocked state */ break; } continue; } remaining -= r; ptr += r; } /* Remaining shouldn't have progressed at all */ EXPECT_EQUAL(remaining, sizeof(data)); /* Wake the child process by sending it SIGCONT */ EXPECT_SUCCESS(kill(pid, SIGCONT)); /* Make our sockets blocking again */ EXPECT_NOT_EQUAL(fcntl(client_to_server[0], F_SETFL, fcntl(client_to_server[0], F_GETFL) ^ O_NONBLOCK), -1); EXPECT_NOT_EQUAL(fcntl(server_to_client[1], F_SETFL, fcntl(server_to_client[1], F_GETFL) ^ O_NONBLOCK), -1); /* Actually send the remaining data */ while (remaining) { int r = s2n_send(conn, ptr, remaining, &blocked); if (r < 0) { continue; } remaining -= r; ptr += r; } EXPECT_SUCCESS(s2n_shutdown(conn, &blocked)); EXPECT_SUCCESS(s2n_connection_free(conn)); /* Clean up */ EXPECT_EQUAL(waitpid(-1, &status, 0), pid); EXPECT_EQUAL(status, 0); EXPECT_SUCCESS(s2n_config_free(config)); END_TEST(); return 0; }
int main(int argc, char **argv) { char buffer[0xffff]; struct s2n_connection *conn; struct s2n_config *config; s2n_blocked_status blocked; int status; pid_t pid; int server_to_client[2]; int client_to_server[2]; const char *protocols[] = { "http/1.1", "spdy/3.1" }; const char *mismatch_protocols[] = { "spdy/2" }; BEGIN_TEST(); EXPECT_SUCCESS(setenv("S2N_ENABLE_CLIENT_MODE", "1", 0)); EXPECT_NOT_NULL(config = s2n_config_new()); EXPECT_SUCCESS(s2n_config_set_protocol_preferences(config, protocols, 2)); EXPECT_SUCCESS(s2n_config_add_cert_chain_and_key(config, certificate, private_key)); EXPECT_SUCCESS(s2n_config_add_dhparams(config, dhparams)); /** Test no client ALPN request */ /* Create a pipe */ EXPECT_SUCCESS(pipe(server_to_client)); EXPECT_SUCCESS(pipe(client_to_server)); /* Create a child process */ pid = fork(); if (pid == 0) { /* This is the child process, close the read end of the pipe */ EXPECT_SUCCESS(close(client_to_server[0])); EXPECT_SUCCESS(close(server_to_client[1])); /* Send the client hello with no ALPN extensions, and validate we didn't * negotiate an application protocol */ mock_client(client_to_server[1], server_to_client[0], NULL, 0, NULL); } /* This is the parent */ EXPECT_SUCCESS(close(client_to_server[1])); EXPECT_SUCCESS(close(server_to_client[0])); EXPECT_NOT_NULL(conn = s2n_connection_new(S2N_SERVER)); EXPECT_SUCCESS(s2n_connection_set_config(conn, config)); /* Set up the connection to read from the fd */ EXPECT_SUCCESS(s2n_connection_set_read_fd(conn, client_to_server[0])); EXPECT_SUCCESS(s2n_connection_set_write_fd(conn, server_to_client[1])); /* Negotiate the handshake. */ EXPECT_SUCCESS(s2n_negotiate(conn, &blocked)); /* Expect NULL negotiated protocol */ EXPECT_EQUAL(s2n_get_application_protocol(conn), NULL); for (int i = 1; i < 0xffff; i += 100) { char * ptr = buffer; int bytes_read = 0; int size = i; do { EXPECT_SUCCESS(bytes_read = s2n_recv(conn, ptr, size, &blocked)); size -= bytes_read; ptr += bytes_read; } while(size); for (int j = 0; j < i; j++) { EXPECT_EQUAL(buffer[j], 33); } } EXPECT_SUCCESS(s2n_shutdown(conn, &blocked)); EXPECT_SUCCESS(s2n_connection_free(conn)); /* Clean up */ EXPECT_EQUAL(waitpid(-1, &status, 0), pid); EXPECT_EQUAL(status, 0); /* Test a matching ALPN request */ /* Create a pipe */ EXPECT_SUCCESS(pipe(server_to_client)); EXPECT_SUCCESS(pipe(client_to_server)); /* Create a child process */ pid = fork(); if (pid == 0) { /* This is the child process, close the read end of the pipe */ EXPECT_SUCCESS(close(client_to_server[0])); EXPECT_SUCCESS(close(server_to_client[1])); /* Clients ALPN preferences match our preferences, so we pick the * most preffered server one */ mock_client(client_to_server[1], server_to_client[0], protocols, 2, protocols[0]); } /* This is the parent */ EXPECT_SUCCESS(close(client_to_server[1])); EXPECT_SUCCESS(close(server_to_client[0])); EXPECT_NOT_NULL(conn = s2n_connection_new(S2N_SERVER)); EXPECT_SUCCESS(s2n_connection_set_config(conn, config)); /* Set up the connection to read from the fd */ EXPECT_SUCCESS(s2n_connection_set_read_fd(conn, client_to_server[0])); EXPECT_SUCCESS(s2n_connection_set_write_fd(conn, server_to_client[1])); /* Negotiate the handshake. */ EXPECT_SUCCESS(s2n_negotiate(conn, &blocked)); /* Expect our most prefered negotiated protocol */ EXPECT_STRING_EQUAL(s2n_get_application_protocol(conn), protocols[0]); for (int i = 1; i < 0xffff; i += 100) { char * ptr = buffer; int bytes_read = 0; int size = i; do { EXPECT_SUCCESS(bytes_read = s2n_recv(conn, ptr, size, &blocked)); size -= bytes_read; ptr += bytes_read; } while(size); for (int j = 0; j < i; j++) { EXPECT_EQUAL(buffer[j], 33); } } EXPECT_SUCCESS(s2n_shutdown(conn, &blocked)); EXPECT_SUCCESS(s2n_connection_free(conn)); /* Clean up */ EXPECT_EQUAL(waitpid(-1, &status, 0), pid); EXPECT_EQUAL(status, 0); /* Test a lower prefered matching ALPN request */ /* Create a pipe */ EXPECT_SUCCESS(pipe(server_to_client)); EXPECT_SUCCESS(pipe(client_to_server)); /* Create a child process */ pid = fork(); if (pid == 0) { /* This is the child process, close the read end of the pipe */ EXPECT_SUCCESS(close(client_to_server[0])); EXPECT_SUCCESS(close(server_to_client[1])); /* Client only advertises our second choice, so we should negotiate it */ mock_client(client_to_server[1], server_to_client[0], &protocols[1], 1, protocols[1]); } /* This is the parent */ EXPECT_SUCCESS(close(client_to_server[1])); EXPECT_SUCCESS(close(server_to_client[0])); EXPECT_NOT_NULL(conn = s2n_connection_new(S2N_SERVER)); EXPECT_SUCCESS(s2n_connection_set_config(conn, config)); /* Set up the connection to read from the fd */ EXPECT_SUCCESS(s2n_connection_set_read_fd(conn, client_to_server[0])); EXPECT_SUCCESS(s2n_connection_set_write_fd(conn, server_to_client[1])); /* Negotiate the handshake. */ EXPECT_SUCCESS(s2n_negotiate(conn, &blocked)); for (int i = 1; i < 0xffff; i += 100) { char * ptr = buffer; int bytes_read = 0; int size = i; do { EXPECT_SUCCESS(bytes_read = s2n_recv(conn, ptr, size, &blocked)); size -= bytes_read; ptr += bytes_read; } while(size); for (int j = 0; j < i; j++) { EXPECT_EQUAL(buffer[j], 33); } } /* Expect our least prefered negotiated protocol */ EXPECT_STRING_EQUAL(s2n_get_application_protocol(conn), protocols[1]); EXPECT_SUCCESS(s2n_shutdown(conn, &blocked)); EXPECT_SUCCESS(s2n_connection_free(conn)); /* Clean up */ EXPECT_EQUAL(waitpid(-1, &status, 0), pid); EXPECT_EQUAL(status, 0); /* Test a non-matching ALPN request */ /* Create a pipe */ EXPECT_SUCCESS(pipe(server_to_client)); EXPECT_SUCCESS(pipe(client_to_server)); /* Create a child process */ pid = fork(); if (pid == 0) { /* This is the child process, close the read end of the pipe */ EXPECT_SUCCESS(close(client_to_server[0])); EXPECT_SUCCESS(close(server_to_client[1])); /* Client doesn't support any of our protocols, so we shouldn't complete * the handshake */ mock_client(client_to_server[1], server_to_client[0], mismatch_protocols, 1, NULL); } /* This is the parent */ EXPECT_SUCCESS(close(client_to_server[1])); EXPECT_SUCCESS(close(server_to_client[0])); EXPECT_NOT_NULL(conn = s2n_connection_new(S2N_SERVER)); EXPECT_SUCCESS(s2n_connection_set_config(conn, config)); /* Set up the connection to read from the fd */ EXPECT_SUCCESS(s2n_connection_set_read_fd(conn, client_to_server[0])); EXPECT_SUCCESS(s2n_connection_set_write_fd(conn, server_to_client[1])); /* s2n_negotiate will fail, which ordinarily would delay with a sleep. * Remove the sleep and fake the delay with a mock time routine */ EXPECT_SUCCESS(s2n_connection_set_blinding(conn, S2N_SELF_SERVICE_BLINDING)); EXPECT_SUCCESS(s2n_config_set_nanoseconds_since_epoch_callback(config, mock_nanoseconds_since_epoch, NULL)); /* Negotiate the handshake. */ EXPECT_FAILURE(s2n_negotiate(conn, &blocked)); /* Expect NULL negotiated protocol */ EXPECT_EQUAL(s2n_get_application_protocol(conn), NULL); EXPECT_SUCCESS(s2n_shutdown(conn, &blocked)); EXPECT_SUCCESS(s2n_connection_free(conn)); /* Close the pipes */ EXPECT_SUCCESS(close(client_to_server[0])); EXPECT_SUCCESS(close(server_to_client[1])); /* Clean up */ EXPECT_EQUAL(waitpid(-1, &status, 0), pid); EXPECT_NOT_EQUAL(status, 0); EXPECT_SUCCESS(s2n_config_free(config)); END_TEST(); return 0; }