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Problem: test_security_zap not using a test framework

Browse Source 
Solution: migrate to unity
This commit is contained in:
Simon Giesecke 2019-03-20 12:34:47 +01:00
parent 99e53698c5
commit 669fc4df5a
2 changed files with 254 additions and 117 deletions
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3
Makefile.am
View File

@ -616,7 +616,8 @@ tests_test_security_zap_SOURCES = \
tests/testutil_monitoring.hpp \
tests/testutil_security.hpp \
tests/testutil.hpp
tests_test_security_zap_LDADD = src/libzmq.la
tests_test_security_zap_LDADD = src/libzmq.la ${UNITY_LIBS}
tests_test_security_zap_CPPFLAGS = ${UNITY_CPPFLAGS}
tests_test_spec_req_SOURCES = tests/test_spec_req.cpp
tests_test_spec_req_LDADD = src/libzmq.la ${UNITY_LIBS}

362
tests/test_security_zap.cpp
View File

@ -28,6 +28,17 @@
*/
#include "testutil_security.hpp"
#include "testutil_unity.hpp"
void setUp ()
{
setup_test_context ();
}
void tearDown ()
{
teardown_test_context ();
}
static void zap_handler_wrong_version (void *ctx_)
{
@ -118,7 +129,7 @@ void test_zap_unsuccessful (void *ctx_,
// there may be more than one ZAP request due to repeated attempts by the
// client (actually only in case if ZAP status code 300)
assert (server_events_received == 0
TEST_ASSERT_TRUE (server_events_received == 0
|| 1 <= zmq_atomic_counter_value (zap_requests_handled));
}
@ -132,14 +143,14 @@ void test_zap_unsuccessful_no_handler (void *ctx_,
void *socket_config_data_,
void **client_mon_ = NULL)
{
int events_received =
const int events_received =
expect_new_client_bounce_fail_and_count_monitor_events (
ctx_, my_endpoint_, server_, socket_config_, socket_config_data_,
client_mon_, server_mon_, expected_event_, expected_err_);
// there may be more than one ZAP request due to repeated attempts by the
// client
assert (events_received > 0);
TEST_ASSERT_GREATER_THAN_INT (0, events_received);
}
void test_zap_protocol_error (void *ctx_,
@ -170,8 +181,7 @@ void test_zap_unsuccessful_status_300 (void *ctx_,
// we can use a 0 timeout here, since the client socket is already closed
assert_no_more_monitor_events_with_timeout (client_mon, 0);
int rc = zmq_close (client_mon);
assert (rc == 0);
TEST_ASSERT_SUCCESS_ERRNO (zmq_close (client_mon));
}
void test_zap_unsuccessful_status_500 (void *ctx_,
@ -187,75 +197,86 @@ void test_zap_unsuccessful_status_500 (void *ctx_,
NULL, ZMQ_EVENT_HANDSHAKE_FAILED_AUTH, 500);
}
void test_zap_errors (socket_config_fn server_socket_config_,
void *server_socket_config_data_,
static void
test_zap_protocol_error_closure (socket_config_fn server_socket_config_,
socket_config_fn client_socket_config_,
void *client_socket_config_data_)
void *client_socket_config_data_,
void *server_socket_config_data_,
zmq_thread_fn zap_handler_,
int expected_failure_)
{
void *ctx;
void *handler;
void *zap_thread;
void *server;
void *server_mon;
void *ctx, *handler, *zap_thread, *server, *server_mon;
char my_endpoint[MAX_SOCKET_STRING];
// Invalid ZAP protocol tests
// wrong version
fprintf (stderr, "test_zap_protocol_error wrong_version\n");
setup_context_and_server_side (
&ctx, &handler, &zap_thread, &server, &server_mon, my_endpoint,
&zap_handler_wrong_version, server_socket_config_,
server_socket_config_data_);
zap_handler_, server_socket_config_, server_socket_config_data_);
test_zap_protocol_error (ctx, my_endpoint, server, server_mon,
client_socket_config_, client_socket_config_data_,
expected_failure_);
shutdown_context_and_server_side (ctx, zap_thread, server, server_mon,
handler);
}
static void
test_zap_protocol_error_wrong_version (socket_config_fn server_socket_config_,
socket_config_fn client_socket_config_,
void *client_socket_config_data_,
void *server_socket_config_data_)
{
test_zap_protocol_error_closure (
server_socket_config_, client_socket_config_, client_socket_config_data_,
server_socket_config_data_, &zap_handler_wrong_version,
ZMQ_PROTOCOL_ERROR_ZAP_BAD_VERSION);
shutdown_context_and_server_side (ctx, zap_thread, server, server_mon,
handler);
}
// wrong request id
fprintf (stderr, "test_zap_protocol_error wrong_request_id\n");
setup_context_and_server_side (
&ctx, &handler, &zap_thread, &server, &server_mon, my_endpoint,
&zap_handler_wrong_request_id, server_socket_config_,
server_socket_config_data_);
test_zap_protocol_error (ctx, my_endpoint, server, server_mon,
client_socket_config_, client_socket_config_data_,
static void test_zap_protocol_error_wrong_request_id (
socket_config_fn server_socket_config_,
socket_config_fn client_socket_config_,
void *client_socket_config_data_,
void *server_socket_config_data_)
{
test_zap_protocol_error_closure (
server_socket_config_, client_socket_config_, client_socket_config_data_,
server_socket_config_data_, &zap_handler_wrong_request_id,
ZMQ_PROTOCOL_ERROR_ZAP_BAD_REQUEST_ID);
shutdown_context_and_server_side (ctx, zap_thread, server, server_mon,
handler);
}
// status invalid (not a 3-digit number)
fprintf (stderr, "test_zap_protocol_error wrong_status_invalid\n");
setup_context_and_server_side (
&ctx, &handler, &zap_thread, &server, &server_mon, my_endpoint,
&zap_handler_wrong_status_invalid, server_socket_config_,
server_socket_config_data_);
test_zap_protocol_error (ctx, my_endpoint, server, server_mon,
client_socket_config_, client_socket_config_data_,
static void test_zap_protocol_error_wrong_status_invalid (
socket_config_fn server_socket_config_,
socket_config_fn client_socket_config_,
void *client_socket_config_data_,
void *server_socket_config_data_)
{
test_zap_protocol_error_closure (
server_socket_config_, client_socket_config_, client_socket_config_data_,
server_socket_config_data_, &zap_handler_wrong_status_invalid,
ZMQ_PROTOCOL_ERROR_ZAP_INVALID_STATUS_CODE);
shutdown_context_and_server_side (ctx, zap_thread, server, server_mon,
handler);
}
// too many parts
fprintf (stderr, "test_zap_protocol_error too_many_parts\n");
setup_context_and_server_side (
&ctx, &handler, &zap_thread, &server, &server_mon, my_endpoint,
&zap_handler_too_many_parts, server_socket_config_,
server_socket_config_data_);
test_zap_protocol_error (ctx, my_endpoint, server, server_mon,
client_socket_config_, client_socket_config_data_,
static void
test_zap_protocol_error_too_many_parts (socket_config_fn server_socket_config_,
socket_config_fn client_socket_config_,
void *client_socket_config_data_,
void *server_socket_config_data_)
{
test_zap_protocol_error_closure (
server_socket_config_, client_socket_config_, client_socket_config_data_,
server_socket_config_data_, &zap_handler_too_many_parts,
ZMQ_PROTOCOL_ERROR_ZAP_MALFORMED_REPLY);
shutdown_context_and_server_side (ctx, zap_thread, server, server_mon,
handler);
}
// ZAP non-standard cases
// TODO the failed status (300/500) should be observable as monitoring events on the client side as well (they are
// already transmitted as an ERROR message)
// TODO make these observable on the client side as well (they are
// transmitted as an ERROR message)
// status 300 temporary failure
fprintf (stderr, "test_zap_unsuccessful status 300\n");
static void
test_zap_wrong_status_temporary_failure (socket_config_fn server_socket_config_,
socket_config_fn client_socket_config_,
void *client_socket_config_data_,
void *server_socket_config_data_)
{
void *ctx, *handler, *zap_thread, *server, *server_mon;
char my_endpoint[MAX_SOCKET_STRING];
setup_context_and_server_side (
&ctx, &handler, &zap_thread, &server, &server_mon, my_endpoint,
&zap_handler_wrong_status_temporary_failure, server_socket_config_,
@ -265,9 +286,15 @@ void test_zap_errors (socket_config_fn server_socket_config_,
client_socket_config_data_);
shutdown_context_and_server_side (ctx, zap_thread, server, server_mon,
handler);
}
// status 500 internal error
fprintf (stderr, "test_zap_unsuccessful status 500\n");
static void
test_zap_wrong_status_internal_error (socket_config_fn server_socket_config_,
socket_config_fn client_socket_config_,
void *client_socket_config_data_)
{
void *ctx, *handler, *zap_thread, *server, *server_mon;
char my_endpoint[MAX_SOCKET_STRING];
setup_context_and_server_side (
&ctx, &handler, &zap_thread, &server, &server_mon, my_endpoint,
&zap_handler_wrong_status_internal_error, server_socket_config_);
@ -276,11 +303,21 @@ void test_zap_errors (socket_config_fn server_socket_config_,
client_socket_config_data_);
shutdown_context_and_server_side (ctx, zap_thread, server, server_mon,
handler);
}
static void
test_zap_unsuccesful_no_handler_started (socket_config_fn server_socket_config_,
socket_config_fn client_socket_config_,
void *client_socket_config_data_,
void *server_socket_config_data_)
{
#ifdef ZMQ_ZAP_ENFORCE_DOMAIN
void *ctx, *handler, *zap_thread, *server, *server_mon;
char my_endpoint[MAX_SOCKET_STRING];
// TODO this looks wrong, where will the enforce value be used?
// no ZAP handler
int enforce = 1;
fprintf (stderr, "test_zap_unsuccessful no ZAP handler started\n");
setup_context_and_server_side (
&ctx, &handler, &zap_thread, &server, &server_mon, my_endpoint, NULL,
server_socket_config_,
@ -292,65 +329,164 @@ void test_zap_errors (socket_config_fn server_socket_config_,
shutdown_context_and_server_side (ctx, zap_thread, server, server_mon,
handler);
#endif
// ZAP handler disconnecting on first message
fprintf (stderr, "test_zap_unsuccessful ZAP handler disconnects\n");
setup_context_and_server_side (
&ctx, &handler, &zap_thread, &server, &server_mon, my_endpoint,
&zap_handler_disconnect, server_socket_config_);
test_zap_unsuccessful_no_handler (ctx, my_endpoint, server, server_mon,
ZMQ_EVENT_HANDSHAKE_FAILED_NO_DETAIL,
EPIPE, client_socket_config_,
client_socket_config_data_);
shutdown_context_and_server_side (ctx, zap_thread, server, server_mon,
handler, true);
// ZAP handler does not read request
fprintf (stderr,
"test_zap_unsuccessful ZAP handler does not read request\n");
setup_context_and_server_side (
&ctx, &handler, &zap_thread, &server, &server_mon, my_endpoint,
&zap_handler_do_not_recv, server_socket_config_);
test_zap_unsuccessful_no_handler (ctx, my_endpoint, server, server_mon,
ZMQ_EVENT_HANDSHAKE_FAILED_NO_DETAIL,
EPIPE, client_socket_config_,
client_socket_config_data_);
shutdown_context_and_server_side (ctx, zap_thread, server, server_mon,
handler);
// ZAP handler does not send reply
fprintf (stderr,
"test_zap_unsuccessful ZAP handler does not write reply\n");
setup_context_and_server_side (
&ctx, &handler, &zap_thread, &server, &server_mon, my_endpoint,
&zap_handler_do_not_send, server_socket_config_);
test_zap_unsuccessful_no_handler (ctx, my_endpoint, server, server_mon,
ZMQ_EVENT_HANDSHAKE_FAILED_NO_DETAIL,
EPIPE, client_socket_config_,
client_socket_config_data_);
shutdown_context_and_server_side (ctx, zap_thread, server, server_mon,
handler);
}
int main (void)
static void
test_zap_unsuccesful_no_handler_closure (socket_config_fn server_socket_config_,
socket_config_fn client_socket_config_,
void *client_socket_config_data_,
zmq_thread_fn zap_handler_func_,
bool zap_handler_disconnected_ = false)
{
void *ctx, *handler, *zap_thread, *server, *server_mon;
char my_endpoint[MAX_SOCKET_STRING];
setup_context_and_server_side (&ctx, &handler, &zap_thread, &server,
&server_mon, my_endpoint, zap_handler_func_,
server_socket_config_);
test_zap_unsuccessful_no_handler (ctx, my_endpoint, server, server_mon,
ZMQ_EVENT_HANDSHAKE_FAILED_NO_DETAIL,
EPIPE, client_socket_config_,
client_socket_config_data_);
shutdown_context_and_server_side (ctx, zap_thread, server, server_mon,
handler, zap_handler_disconnected_);
}
static void
test_zap_unsuccesful_disconnect (socket_config_fn server_socket_config_,
socket_config_fn client_socket_config_,
void *client_socket_config_data_)
{
test_zap_unsuccesful_no_handler_closure (
server_socket_config_, client_socket_config_, client_socket_config_data_,
&zap_handler_disconnect, true);
}
static void
test_zap_unsuccesful_do_not_recv (socket_config_fn server_socket_config_,
socket_config_fn client_socket_config_,
void *client_socket_config_data_)
{
test_zap_unsuccesful_no_handler_closure (
server_socket_config_, client_socket_config_, client_socket_config_data_,
&zap_handler_do_not_recv);
}
static void
test_zap_unsuccesful_do_not_send (socket_config_fn server_socket_config_,
socket_config_fn client_socket_config_,
void *client_socket_config_data_)
{
test_zap_unsuccesful_no_handler_closure (
server_socket_config_, client_socket_config_, client_socket_config_data_,
&zap_handler_do_not_send);
}
#define DEFINE_ZAP_ERROR_TESTS( \
name_, server_socket_config_, server_socket_config_data_, \
client_socket_config_, client_socket_config_data_) \
void test_zap_protocol_error_wrong_version_##name_ () \
{ \
test_zap_protocol_error_wrong_version ( \
server_socket_config_, client_socket_config_, \
client_socket_config_data_, server_socket_config_data_); \
} \
void test_zap_protocol_error_wrong_request_id_##name_ () \
{ \
test_zap_protocol_error_wrong_request_id ( \
server_socket_config_, client_socket_config_, \
client_socket_config_data_, server_socket_config_data_); \
} \
void test_zap_protocol_error_wrong_status_invalid_##name_ () \
{ \
test_zap_protocol_error_wrong_status_invalid ( \
server_socket_config_, client_socket_config_, \
client_socket_config_data_, server_socket_config_data_); \
} \
void test_zap_protocol_error_too_many_parts_##name_ () \
{ \
test_zap_protocol_error_too_many_parts ( \
server_socket_config_, client_socket_config_, \
client_socket_config_data_, server_socket_config_data_); \
} \
void test_zap_wrong_status_temporary_failure_##name_ () \
{ \
test_zap_wrong_status_temporary_failure ( \
server_socket_config_, client_socket_config_, \
client_socket_config_data_, server_socket_config_data_); \
} \
void test_zap_wrong_status_internal_error_##name_ () \
{ \
test_zap_wrong_status_internal_error (server_socket_config_, \
client_socket_config_, \
client_socket_config_data_); \
} \
void test_zap_unsuccessful_no_handler_started_##name_ () \
{ \
test_zap_unsuccesful_no_handler_started ( \
server_socket_config_, client_socket_config_, \
client_socket_config_data_, server_socket_config_data_); \
} \
void test_zap_unsuccessful_disconnect_##name_ () \
{ \
test_zap_unsuccesful_disconnect (server_socket_config_, \
client_socket_config_, \
client_socket_config_data_); \
} \
void test_zap_unsuccessful_do_not_recv_##name_ () \
{ \
test_zap_unsuccesful_do_not_recv (server_socket_config_, \
client_socket_config_, \
client_socket_config_data_); \
} \
void test_zap_unsuccessful_do_not_send_##name_ () \
{ \
test_zap_unsuccesful_do_not_send (server_socket_config_, \
client_socket_config_, \
client_socket_config_data_); \
}
DEFINE_ZAP_ERROR_TESTS (
null, &socket_config_null_server, NULL, &socket_config_null_client, NULL)
DEFINE_ZAP_ERROR_TESTS (
plain, &socket_config_plain_server, NULL, &socket_config_plain_client, NULL)
static curve_client_data_t curve_client_data = {
valid_server_public, valid_client_public, valid_client_secret};
DEFINE_ZAP_ERROR_TESTS (curve,
&socket_config_curve_server,
valid_server_secret,
&socket_config_curve_client,
&curve_client_data)
#define RUN_ZAP_ERROR_TESTS(name_) \
{ \
RUN_TEST (test_zap_protocol_error_wrong_version_##name_); \
RUN_TEST (test_zap_protocol_error_wrong_request_id_##name_); \
RUN_TEST (test_zap_protocol_error_wrong_status_invalid_##name_); \
RUN_TEST (test_zap_protocol_error_too_many_parts_##name_); \
RUN_TEST (test_zap_wrong_status_temporary_failure_##name_); \
RUN_TEST (test_zap_wrong_status_internal_error_##name_); \
RUN_TEST (test_zap_unsuccessful_no_handler_started_##name_); \
RUN_TEST (test_zap_unsuccessful_disconnect_##name_); \
RUN_TEST (test_zap_unsuccessful_do_not_recv_##name_); \
RUN_TEST (test_zap_unsuccessful_do_not_send_##name_); \
}
int main ()
{
setup_test_environment ();
fprintf (stderr, "NULL mechanism\n");
test_zap_errors (&socket_config_null_server, NULL,
&socket_config_null_client, NULL);
fprintf (stderr, "PLAIN mechanism\n");
test_zap_errors (&socket_config_plain_server, NULL,
&socket_config_plain_client, NULL);
if (zmq_has ("curve")) {
fprintf (stderr, "CURVE mechanism\n");
setup_testutil_security_curve ();
curve_client_data_t curve_client_data = {
valid_server_public, valid_client_public, valid_client_secret};
test_zap_errors (&socket_config_curve_server, valid_server_secret,
&socket_config_curve_client, &curve_client_data);
}
UNITY_BEGIN ();
RUN_ZAP_ERROR_TESTS (null);
RUN_ZAP_ERROR_TESTS (plain);
if (zmq_has ("curve")) {
RUN_ZAP_ERROR_TESTS (curve);
}
return UNITY_END ();
}