int
zre_log_msg_send_again (zre_log_msg_t *self, void *output)
{
assert (self);
assert (output);
self = zre_log_msg_dup (self);
return zre_log_msg_send (&self, output);
}
int
zre_log_msg_test (bool verbose)
{
printf (" * zre_log_msg: ");
// @selftest
// Simple create/destroy test
zre_log_msg_t *self = zre_log_msg_new (0);
assert (self);
zre_log_msg_destroy (&self);
// Create pair of sockets we can send through
zctx_t *ctx = zctx_new ();
assert (ctx);
void *output = zsocket_new (ctx, ZMQ_DEALER);
assert (output);
zsocket_bind (output, "inproc://selftest");
void *input = zsocket_new (ctx, ZMQ_ROUTER);
assert (input);
zsocket_connect (input, "inproc://selftest");
// Encode/send/decode and verify each message type
self = zre_log_msg_new (ZRE_LOG_MSG_LOG);
zre_log_msg_set_level (self, 123);
zre_log_msg_set_event (self, 123);
zre_log_msg_set_node (self, 123);
zre_log_msg_set_peer (self, 123);
zre_log_msg_set_time (self, 123);
zre_log_msg_set_data (self, "Life is short but Now lasts for ever");
zre_log_msg_send (&self, output);
self = zre_log_msg_recv (input);
assert (self);
assert (zre_log_msg_level (self) == 123);
assert (zre_log_msg_event (self) == 123);
assert (zre_log_msg_node (self) == 123);
assert (zre_log_msg_peer (self) == 123);
assert (zre_log_msg_time (self) == 123);
assert (streq (zre_log_msg_data (self), "Life is short but Now lasts for ever"));
zre_log_msg_destroy (&self);
zctx_destroy (&ctx);
// @end
printf ("OK\n");
return 0;
}
int
zre_log_msg_send_log (
void *output,
byte level,
byte event,
uint16_t node,
uint16_t peer,
uint64_t time,
char *data)
{
zre_log_msg_t *self = zre_log_msg_new (ZRE_LOG_MSG_LOG);
zre_log_msg_set_level (self, level);
zre_log_msg_set_event (self, event);
zre_log_msg_set_node (self, node);
zre_log_msg_set_peer (self, peer);
zre_log_msg_set_time (self, time);
zre_log_msg_set_data (self, data);
return zre_log_msg_send (&self, output);
}
int
zre_log_msg_test (bool verbose)
{
printf (" * zre_log_msg: ");
// @selftest
// Simple create/destroy test
zre_log_msg_t *self = zre_log_msg_new (0);
assert (self);
zre_log_msg_destroy (&self);
// Create pair of sockets we can send through
zsock_t *input = zsock_new (ZMQ_ROUTER);
assert (input);
zsock_connect (input, "inproc://selftest");
zsock_t *output = zsock_new (ZMQ_DEALER);
assert (output);
zsock_bind (output, "inproc://selftest");
// Encode/send/decode and verify each message type
int instance;
zre_log_msg_t *copy;
self = zre_log_msg_new (ZRE_LOG_MSG_LOG);
// Check that _dup works on empty message
copy = zre_log_msg_dup (self);
assert (copy);
zre_log_msg_destroy (©);
zre_log_msg_set_level (self, 123);
zre_log_msg_set_event (self, 123);
zre_log_msg_set_node (self, 123);
zre_log_msg_set_peer (self, 123);
zre_log_msg_set_time (self, 123);
zre_log_msg_set_data (self, "Life is short but Now lasts for ever");
// Send twice from same object
zre_log_msg_send_again (self, output);
zre_log_msg_send (&self, output);
for (instance = 0; instance < 2; instance++) {
self = zre_log_msg_recv (input);
assert (self);
assert (zre_log_msg_routing_id (self));
assert (zre_log_msg_level (self) == 123);
assert (zre_log_msg_event (self) == 123);
assert (zre_log_msg_node (self) == 123);
assert (zre_log_msg_peer (self) == 123);
assert (zre_log_msg_time (self) == 123);
assert (streq (zre_log_msg_data (self), "Life is short but Now lasts for ever"));
zre_log_msg_destroy (&self);
}
zsock_destroy (&input);
zsock_destroy (&output);
// @end
printf ("OK\n");
return 0;
}