static void
deregister_the_client (client_t *self)
{
if (*self->address)
zsys_info ("client address='%s' - de-registering", self->address);
// Cancel all stream subscriptions
stream_t *stream = (stream_t *) zlistx_detach (self->readers, NULL);
while (stream) {
zsock_send (stream->actor, "sp", "CANCEL", self);
stream = (stream_t *) zlistx_detach (self->readers, NULL);
}
// Cancel all service offerings
service_t *service = (service_t *) zhashx_first (self->server->services);
while (service) {
offer_t *offer = (offer_t *) zlistx_first (service->offers);
while (offer) {
if (offer->client == self)
zlistx_delete (service->offers, zlistx_cursor (service->offers));
offer = (offer_t *) zlistx_next (service->offers);
}
service = (service_t *) zhashx_next (self->server->services);
}
if (*self->address)
zhashx_delete (self->server->clients, self->address);
mlm_proto_set_status_code (self->message, MLM_PROTO_SUCCESS);
}
static void
deregister_the_client (client_t *self)
{
// If the client never sent CONNECTION_OPEN then self->address was
// never set, so avoid trying to dereference it. Nothing needs to
// be cleaned up.
if (self->address) {
if (*self->address)
zsys_info ("client %u address='%s' - de-registering", self->unique_id, self->address);
// Cancel all stream subscriptions
stream_t *stream = (stream_t *) zlistx_detach (self->readers, NULL);
while (stream) {
zsock_send (stream->actor, "sp", "CANCEL", self);
stream = (stream_t *) zlistx_detach (self->readers, NULL);
}
// Cancel all service offerings
service_t *service = (service_t *) zhashx_first (self->server->services);
while (service) {
offer_t *offer = (offer_t *) zlistx_first (service->offers);
while (offer) {
if (offer->client == self)
zlistx_delete (service->offers, zlistx_cursor (service->offers));
offer = (offer_t *) zlistx_next (service->offers);
}
service = (service_t *) zhashx_next (self->server->services);
}
if (*self->address)
zhashx_delete (self->server->clients, self->address);
}
mlm_proto_set_status_code (self->message, MLM_PROTO_SUCCESS);
}
void
zloop_ticket_delete (zloop_t *self, void *handle)
{
s_ticket_t *ticket = (s_ticket_t *) handle;
assert (ticket->tag == TICKET_TAG);
zlistx_delete (self->tickets, ticket->list_handle);
}
void
zlistx_purge (zlistx_t *self)
{
assert (self);
while (zlistx_size (self) > 0)
zlistx_delete (self, NULL);
}
void
zloop_poller_end (zloop_t *self, zmq_pollitem_t *item)
{
assert (self);
s_poller_t *poller = (s_poller_t *) zlistx_first (self->pollers);
while (poller) {
bool match = false;
if (item->socket) {
if (item->socket == poller->item.socket)
match = true;
}
else {
if (item->fd == poller->item.fd)
match = true;
}
if (match) {
zlistx_delete (self->pollers, poller->list_handle);
// Force rebuild to avoid reading from freed poller
self->need_rebuild = true;
}
poller = (s_poller_t *) zlistx_next (self->pollers);
}
if (self->verbose)
zsys_debug ("zloop: cancel %s poller (%p, %d)",
item->socket ? zsys_sockname (zsock_type (item->socket)) : "FD",
item->socket, item->fd);
}
int
ztrie_remove_route (ztrie_t *self, const char *path)
{
assert (self);
ztrie_node_t *match = s_ztrie_parse_path (self, path, MODE_LOOKUP);
// The path did match a node which is endpoint to a route
if (match && match->endpoint) {
// This node is part of other routes, thus it cannot destroy it
if (zlistx_size (match->children) > 0) {
match->endpoint = false;
if (match->data && match->destroy_data_fn)
(match->destroy_data_fn) (&match->data);
}
// If this node is not part of other routes, destroy it
else {
// Delete match from parent's children before destroying
void *handle = zlistx_find (match->parent->children, match);
assert (handle);
zlistx_delete (match->parent->children, handle);
s_ztrie_node_destroy (&match);
}
return 0;
}
// If there is no match or the match is not endpoint to a route, fail
else
return -1;
}
static void
s_stream_engine_cancel (stream_engine_t *self, void *client)
{
selector_t *selector = (selector_t *) zlistx_first (self->selectors);
while (selector) {
void *handle = zlistx_find (selector->clients, client);
if (handle)
zlistx_delete (selector->clients, handle);
selector = (selector_t *) zlistx_next (self->selectors);
}
}
static void
s_timer_remove (zloop_t *self, int timer_id)
{
s_timer_t *timer = (s_timer_t *) zlistx_first (self->timers);
while (timer) {
if (timer->timer_id == timer_id) {
zlistx_delete (self->timers, timer->list_handle);
break;
}
timer = (s_timer_t *) zlistx_next (self->timers);
}
}
void
zloop_reader_end (zloop_t *self, zsock_t *sock)
{
assert (self);
assert (sock);
s_reader_t *reader = (s_reader_t *) zlistx_first (self->readers);
while (reader) {
if (reader->sock == sock) {
zlistx_delete (self->readers, reader->list_handle);
self->need_rebuild = true;
}
reader = (s_reader_t *) zlistx_next (self->readers);
}
if (self->verbose)
zsys_debug ("zloop: cancel %s reader", zsock_type_str (sock));
}
void
mlm_server_test (bool verbose)
{
printf (" * mlm_server: ");
if (verbose)
printf ("\n");
// @selftest
zactor_t *server = zactor_new (mlm_server, "mlm_server_test");
if (verbose)
zstr_send (server, "VERBOSE");
zstr_sendx (server, "BIND", "tcp://127.0.0.1:*", NULL);
zstr_sendx (server, "PORT", NULL);
char *command, *port;
int rc = zstr_recvx (server, &command, &port, NULL);
assert (rc == 2);
assert (streq (command, "PORT"));
assert (strlen (port) > 0 && strlen (port) < 6);
assert (!streq (port, "-1"));
zsock_t *reader = zsock_new (ZMQ_DEALER);
assert (reader);
zsock_connect (reader, "tcp://127.0.0.1:%s", port);
zsock_set_rcvtimeo (reader, 500);
mlm_proto_t *proto = mlm_proto_new ();
// Server insists that connection starts properly
mlm_proto_set_id (proto, MLM_PROTO_STREAM_WRITE);
mlm_proto_send (proto, reader);
zclock_sleep (500); // to calm things down && make memcheck pass. Thanks @malanka
mlm_proto_recv (proto, reader);
zclock_sleep (500); // detto as above
assert (mlm_proto_id (proto) == MLM_PROTO_ERROR);
assert (mlm_proto_status_code (proto) == MLM_PROTO_COMMAND_INVALID);
// Now do a stream publish-subscribe test
zsock_t *writer = zsock_new (ZMQ_DEALER);
assert (writer);
zsock_connect (writer, "tcp://127.0.0.1:%s", port);
zsock_set_rcvtimeo (reader, 500);
// Open connections from both reader and writer
mlm_proto_set_id (proto, MLM_PROTO_CONNECTION_OPEN);
mlm_proto_send (proto, reader);
mlm_proto_recv (proto, reader);
assert (mlm_proto_id (proto) == MLM_PROTO_OK);
mlm_proto_set_id (proto, MLM_PROTO_CONNECTION_OPEN);
mlm_proto_send (proto, writer);
mlm_proto_recv (proto, writer);
assert (mlm_proto_id (proto) == MLM_PROTO_OK);
// Prepare to write and read a "weather" stream
mlm_proto_set_id (proto, MLM_PROTO_STREAM_WRITE);
mlm_proto_set_stream (proto, "weather");
mlm_proto_send (proto, writer);
mlm_proto_recv (proto, writer);
assert (mlm_proto_id (proto) == MLM_PROTO_OK);
mlm_proto_set_id (proto, MLM_PROTO_STREAM_READ);
mlm_proto_set_pattern (proto, "temp.*");
mlm_proto_send (proto, reader);
mlm_proto_recv (proto, reader);
assert (mlm_proto_id (proto) == MLM_PROTO_OK);
// Now send some weather data, with null contents
mlm_proto_set_id (proto, MLM_PROTO_STREAM_SEND);
mlm_proto_set_subject (proto, "temp.moscow");
mlm_proto_send (proto, writer);
mlm_proto_set_subject (proto, "rain.moscow");
mlm_proto_send (proto, writer);
mlm_proto_set_subject (proto, "temp.chicago");
mlm_proto_send (proto, writer);
mlm_proto_set_subject (proto, "rain.chicago");
mlm_proto_send (proto, writer);
mlm_proto_set_subject (proto, "temp.london");
mlm_proto_send (proto, writer);
mlm_proto_set_subject (proto, "rain.london");
mlm_proto_send (proto, writer);
// We should receive exactly three deliveries, in order
mlm_proto_recv (proto, reader);
assert (mlm_proto_id (proto) == MLM_PROTO_STREAM_DELIVER);
assert (streq (mlm_proto_subject (proto), "temp.moscow"));
mlm_proto_recv (proto, reader);
assert (mlm_proto_id (proto) == MLM_PROTO_STREAM_DELIVER);
assert (streq (mlm_proto_subject (proto), "temp.chicago"));
mlm_proto_recv (proto, reader);
assert (mlm_proto_id (proto) == MLM_PROTO_STREAM_DELIVER);
assert (streq (mlm_proto_subject (proto), "temp.london"));
mlm_proto_destroy (&proto);
// Finished, we can clean up
zsock_destroy (&writer);
zsock_destroy (&reader);
zactor_destroy (&server);
zstr_free (&port);
zstr_free (&command);
// Test Case:
// CLIENTLIST command
{
const char *endpoint = "inproc://mlm_server_clientlist_test";
zactor_t *server = zactor_new (mlm_server, "mlm_server_clientlist_test");
if (verbose)
zstr_send (server, "VERBOSE");
zstr_sendx (server, "BIND", endpoint, NULL);
mlm_client_t *client_1 = mlm_client_new ();
int rv = mlm_client_connect (client_1, endpoint, 1000, "Karol");
assert (rv >= 0);
mlm_client_t *client_2 = mlm_client_new ();
rv = mlm_client_connect (client_2, endpoint, 1000, "Tomas");
assert (rv >= 0);
mlm_client_t *client_3 = mlm_client_new ();
rv = mlm_client_connect (client_3, endpoint, 1000, "Alenka");
assert (rv >= 0);
zclock_sleep (500);
zstr_sendx (server, "CLIENTLIST", NULL);
zmsg_t *message = zmsg_recv (server);
assert (message);
assert (zmsg_size (message) == 4);
char *pop = zmsg_popstr (message);
assert (streq (pop, "CLIENTLIST"));
zstr_free (&pop);
zlistx_t *expected_names = zlistx_new ();
assert (expected_names);
zlistx_set_destructor (expected_names, (czmq_destructor *) zstr_free);
zlistx_set_duplicator (expected_names, (czmq_duplicator *) strdup);
zlistx_set_comparator (expected_names, (czmq_comparator *) strcmp);
zlistx_add_end (expected_names, (void *) "Karol");
zlistx_add_end (expected_names, (void *) "Tomas");
zlistx_add_end (expected_names, (void *) "Alenka");
pop = zmsg_popstr (message);
assert (pop);
void *handle = zlistx_find (expected_names, pop);
assert (handle);
rv = zlistx_delete (expected_names, handle);
assert (rv == 0);
zstr_free (&pop);
pop = zmsg_popstr (message);
assert (pop);
handle = zlistx_find (expected_names, pop);
assert (handle);
rv = zlistx_delete (expected_names, handle);
assert (rv == 0);
zstr_free (&pop);
pop = zmsg_popstr (message);
assert (pop);
handle = zlistx_find (expected_names, pop);
assert (handle);
rv = zlistx_delete (expected_names, handle);
assert (rv == 0);
zstr_free (&pop);
pop = zmsg_popstr (message);
assert (pop == NULL);
assert (zlistx_size (expected_names) == 0);
zmsg_destroy (&message);
// remove a client Karol
mlm_client_destroy (&client_1);
zlistx_add_end (expected_names, (void *) "Tomas");
zlistx_add_end (expected_names, (void *) "Alenka");
zstr_sendx (server, "CLIENTLIST", NULL);
zclock_sleep (100);
message = zmsg_recv (server);
assert (message);
assert (zmsg_size (message) == 3);
pop = zmsg_popstr (message);
assert (streq (pop, "CLIENTLIST"));
zstr_free (&pop);
pop = zmsg_popstr (message);
assert (pop);
handle = zlistx_find (expected_names, pop);
assert (handle);
rv = zlistx_delete (expected_names, handle);
assert (rv == 0);
zstr_free (&pop);
pop = zmsg_popstr (message);
assert (pop);
handle = zlistx_find (expected_names, pop);
assert (handle);
rv = zlistx_delete (expected_names, handle);
assert (rv == 0);
zstr_free (&pop);
pop = zmsg_popstr (message);
assert (pop == NULL);
assert (zlistx_size (expected_names) == 0);
zlistx_destroy (&expected_names);
zmsg_destroy (&message);
mlm_client_destroy (&client_2);
mlm_client_destroy (&client_3);
zactor_destroy (&server);
}
// Test Case:
// STREAMLIST command
{
const char *endpoint = "inproc://mlm_server_streamlist_test";
zactor_t *server = zactor_new (mlm_server, "mlm_server_streamlist_test");
if (verbose)
zstr_send (server, "VERBOSE");
zstr_sendx (server, "BIND", endpoint, NULL);
mlm_client_t *client_1 = mlm_client_new ();
int rv = mlm_client_connect (client_1, endpoint, 1000, "Karol");
assert (rv != -1);
rv = mlm_client_set_producer (client_1, "STREAM_1");
assert (rv != -1);
mlm_client_t *client_2 = mlm_client_new ();
rv = mlm_client_connect (client_2, endpoint, 1000, "Tomas");
assert (rv != -1);
rv = mlm_client_set_producer (client_2, "STREAM_2");
assert (rv != -1);
mlm_client_t *client_3 = mlm_client_new ();
rv = mlm_client_connect (client_3, endpoint, 1000, "Alenka");
assert (rv != -1);
rv = mlm_client_set_consumer (client_3, "STREAM_2", ".*");
assert (rv != -1);
zclock_sleep (100);
zlistx_t *expected_streams = zlistx_new ();
assert (expected_streams);
zlistx_set_destructor (expected_streams, (czmq_destructor *) zstr_free);
zlistx_set_duplicator (expected_streams, (czmq_duplicator *) strdup);
zlistx_set_comparator (expected_streams, (czmq_comparator *) strcmp);
zlistx_add_end (expected_streams, (void *) "STREAM_1");
zlistx_add_end (expected_streams, (void *) "STREAM_2");
zstr_sendx (server, "STREAMLIST", NULL);
zmsg_t *message = zmsg_recv (server);
assert (message);
assert (zmsg_size (message) == 3);
char *pop = zmsg_popstr (message);
assert (streq (pop, "STREAMLIST"));
zstr_free (&pop);
pop = zmsg_popstr (message);
assert (pop);
void *handle = zlistx_find (expected_streams, pop);
assert (handle);
rv = zlistx_delete (expected_streams, handle);
assert (rv == 0);
zstr_free (&pop);
pop = zmsg_popstr (message);
assert (pop);
handle = zlistx_find (expected_streams, pop);
assert (handle);
rv = zlistx_delete (expected_streams, handle);
assert (rv == 0);
zstr_free (&pop);
pop = zmsg_popstr (message);
assert (pop == NULL);
assert (zlistx_size (expected_streams) == 0);
zmsg_destroy (&message);
// NOTE: Currently when producer disconnects, malamute does not destroy the stream
// Therefore it doesn't make sense to test removal of streams, but addition
mlm_client_t *client_4 = mlm_client_new ();
rv = mlm_client_connect (client_4, endpoint, 1000, "Michal");
assert (rv >= 0);
rv = mlm_client_set_producer (client_4, "New stream");
assert (rv >= 0);
zlistx_add_end (expected_streams, (void *) "STREAM_1");
zlistx_add_end (expected_streams, (void *) "STREAM_2");
zlistx_add_end (expected_streams, (void *) "New stream");
zclock_sleep (100);
zstr_sendx (server, "STREAMLIST", NULL);
zclock_sleep (100);
message = zmsg_recv (server);
assert (message);
assert (zmsg_size (message) == 4);
pop = zmsg_popstr (message);
assert (streq (pop, "STREAMLIST"));
zstr_free (&pop);
pop = zmsg_popstr (message);
assert (pop);
handle = zlistx_find (expected_streams, pop);
assert (handle);
rv = zlistx_delete (expected_streams, handle);
assert (rv == 0);
zstr_free (&pop);
pop = zmsg_popstr (message);
assert (pop);
handle = zlistx_find (expected_streams, pop);
assert (handle);
rv = zlistx_delete (expected_streams, handle);
assert (rv == 0);
zstr_free (&pop);
pop = zmsg_popstr (message);
assert (pop);
handle = zlistx_find (expected_streams, pop);
assert (handle);
rv = zlistx_delete (expected_streams, handle);
assert (rv == 0);
zstr_free (&pop);
pop = zmsg_popstr (message);
assert (pop == NULL);
assert (zlistx_size (expected_streams) == 0);
zlistx_destroy (&expected_streams);
zmsg_destroy (&message);
mlm_client_destroy (&client_1);
mlm_client_destroy (&client_2);
mlm_client_destroy (&client_3);
mlm_client_destroy (&client_4);
zactor_destroy (&server);
}
// Regression Test Case:
// Segfault from deregistering zombie connection
{
const char *endpoint = "inproc://mlm_server_deregister_zombie_connection_test";
zactor_t *server = zactor_new (mlm_server, "mlm_server_deregister_zombie_connection_test");
if (verbose)
zstr_send (server, "VERBOSE");
zstr_sendx (server, "BIND", endpoint, NULL);
zstr_sendx (server, "SET", "server/timeout", "3000", NULL); // 3 second client timeout
zsock_t *reader = zsock_new (ZMQ_DEALER);
assert (reader);
zsock_connect (reader, "inproc://mlm_server_deregister_zombie_connection_test");
zsock_set_rcvtimeo (reader, 500);
mlm_proto_t *proto = mlm_proto_new ();
// If the malamute server is restarted and clients have queued
// up ping messages, the'll be sent before any
// CONNECTION_OPEN. The server eventually tries to deregister
// this and (previously) would derefence a null pointer for
// the client address.
mlm_proto_set_id (proto, MLM_PROTO_CONNECTION_PING);
mlm_proto_send (proto, reader);
printf("Regression test for segfault due to leftover client messages after restart...\n");
// Give the server more than 3 seconds to time out the client...
zclock_sleep (3100);
printf("passed\n");
mlm_proto_destroy (&proto);
zsock_destroy (&reader);
zactor_destroy (&server);
}
{
const char *endpoint = "inproc://mlm_server_disconnect_pending_stream_traffic";
zactor_t *server = zactor_new (mlm_server, "mlm_server_disconnect_pending_stream_traffic");
if (verbose) {
zstr_send (server, "VERBOSE");
printf("Regression test for use-after-free with pending stream traffic after disconnect\n");
}
zstr_sendx (server, "BIND", endpoint, NULL);
mlm_client_t *producer = mlm_client_new ();
assert (mlm_client_connect (producer, endpoint, 1000, "producer") >= 0);
assert (mlm_client_set_producer (producer, "STREAM_TEST") >= 0);
zstr_sendx (server, "SLOW_TEST_MODE", NULL);
mlm_client_t *consumer = mlm_client_new ();
assert (mlm_client_connect (consumer, endpoint, 1000, "consumer") >= 0);
assert (mlm_client_set_consumer (consumer, "STREAM_TEST", ".*") >= 0);
zmsg_t *msg = zmsg_new ();
zmsg_addstr (msg, "world");
assert (mlm_client_send (producer, "hello", &msg) >= 0);
mlm_client_destroy (&consumer);
zclock_sleep (2000);
mlm_client_destroy (&producer);
zactor_destroy (&server);
}
// @end
printf ("OK\n");
}
static void handler (zsock_t *pipe, void *args) {
curl_global_init(CURL_GLOBAL_ALL);
CURLM *multi = curl_multi_init ();
CURLSH *share = curl_share_init ();
curl_share_setopt (share, CURLSHOPT_SHARE, CURL_LOCK_DATA_DNS);
curl_share_setopt (share, CURLSHOPT_SHARE, CURL_LOCK_DATA_SSL_SESSION);
curl_share_setopt (share, CURLSHOPT_SHARE, CURL_LOCK_DATA_CONNECT);
long verbose = (*(bool *) args) ? 1L : 0L;
long timeout = 30;
CURLMcode code;
SOCKET pipefd = zsock_fd (pipe);
struct curl_waitfd waitfd = {pipefd, CURL_WAIT_POLLIN};
// List to hold pending curl handles, in case we are destroy the client
// while request are inprogress
zlistx_t *pending_handles = zlistx_new ();
zlistx_set_destructor (pending_handles, (zlistx_destructor_fn *) curl_destructor);
zsock_signal (pipe, 0);
bool terminated = false;
while (!terminated) {
int events = zsock_events (pipe);
if ((events & ZMQ_POLLIN) == 0) {
code = curl_multi_wait (multi, &waitfd, 1, 1000, NULL);
assert (code == CURLM_OK);
}
events = zsock_events (pipe);
if (events & ZMQ_POLLIN) {
char* command = zstr_recv (pipe);
if (!command)
break; // Interrupted
// All actors must handle $TERM in this way
if (streq (command, "$TERM"))
terminated = true;
else if (streq (command, "GET")) {
char *url;
zlistx_t *headers;
void *userp;
int rc = zsock_recv (pipe, "slp", &url, &headers, &userp);
assert (rc == 0);
zchunk_t *data = zchunk_new (NULL, 100);
assert (data);
struct curl_slist *curl_headers = zlistx_to_slist (headers);
CURL *curl = curl_easy_init ();
zlistx_add_end (pending_handles, curl);
http_request *request = (http_request *) zmalloc (sizeof (http_request));
assert (request);
request->userp = userp;
request->curl = curl;
request->data = data;
request->headers = curl_headers;
curl_easy_setopt (curl, CURLOPT_SHARE, share);
curl_easy_setopt (curl, CURLOPT_TIMEOUT, timeout);
curl_easy_setopt (curl, CURLOPT_VERBOSE, verbose);
curl_easy_setopt (curl, CURLOPT_HTTPHEADER, curl_headers);
curl_easy_setopt (curl, CURLOPT_URL, url);
curl_easy_setopt (curl, CURLOPT_WRITEFUNCTION, write_data);
curl_easy_setopt (curl, CURLOPT_WRITEDATA, data);
curl_easy_setopt (curl, CURLOPT_PRIVATE, request);
code = curl_multi_add_handle (multi, curl);
assert (code == CURLM_OK);
zlistx_destroy (&headers);
zstr_free (&url);
}
else {
puts ("E: invalid message to actor");
assert (false);
}
zstr_free (&command);
}
int still_running;
code = curl_multi_perform (multi, &still_running);
assert (code == CURLM_OK);
int msgq = 0;
struct CURLMsg *msg = curl_multi_info_read(multi, &msgq);
while (msg) {
if(msg->msg == CURLMSG_DONE) {
CURL *curl = msg->easy_handle;
http_request *request;
curl_easy_getinfo(curl, CURLINFO_PRIVATE, &request);
long response_code_long;
curl_easy_getinfo (curl, CURLINFO_RESPONSE_CODE, &response_code_long);
int response_code = (int)response_code_long;
int rc = zsock_send (pipe, "icp", response_code, request->data, request->userp);
assert (rc == 0);
curl_multi_remove_handle (multi, curl);
// Remove curl from the pending handles and delete it
void *handle = zlistx_find (pending_handles, curl);
assert (handle);
rc = zlistx_delete (pending_handles, handle);
assert (rc == 0);
}
msg = curl_multi_info_read(multi, &msgq);
}
}
zlistx_destroy (&pending_handles);
curl_share_cleanup (share);
curl_multi_cleanup (multi);
curl_global_cleanup ();
}
int
zloop_start (zloop_t *self)
{
assert (self);
int rc = 0;
// Main reactor loop
while (!zsys_interrupted) {
if (self->need_rebuild) {
// If s_rebuild_pollset() fails, break out of the loop and
// return its error
rc = s_rebuild_pollset (self);
if (rc)
break;
}
rc = zmq_poll (self->pollset, (int) self->poll_size, s_tickless (self));
if (rc == -1 || zsys_interrupted) {
if (self->verbose)
zsys_debug ("zloop: interrupted");
rc = 0;
break; // Context has been shut down
}
// Handle any timers that have now expired
int64_t time_now = zclock_mono ();
s_timer_t *timer = (s_timer_t *) zlistx_first (self->timers);
while (timer) {
if (time_now >= timer->when) {
if (self->verbose)
zsys_debug ("zloop: call timer handler id=%d", timer->timer_id);
rc = timer->handler (self, timer->timer_id, timer->arg);
if (rc == -1)
break; // Timer handler signaled break
if (timer->times && --timer->times == 0)
zlistx_delete (self->timers, timer->list_handle);
else
timer->when += timer->delay;
}
timer = (s_timer_t *) zlistx_next (self->timers);
}
// Handle any tickets that have now expired
s_ticket_t *ticket = (s_ticket_t *) zlistx_first (self->tickets);
while (ticket && time_now >= ticket->when) {
if (self->verbose)
zsys_debug ("zloop: call ticket handler");
rc = ticket->handler (self, 0, ticket->arg);
if (rc == -1)
break; // Timer handler signaled break
zlistx_delete (self->tickets, ticket->list_handle);
ticket = (s_ticket_t *) zlistx_next (self->tickets);
}
// Handle any readers and pollers that are ready
size_t item_nbr;
for (item_nbr = 0; item_nbr < self->poll_size && rc >= 0; item_nbr++) {
s_reader_t *reader = &self->readact [item_nbr];
if (reader->handler) {
if ((self->pollset [item_nbr].revents & ZMQ_POLLERR)
&& !reader->tolerant) {
if (self->verbose)
zsys_warning ("zloop: can't read %s socket: %s",
zsock_type_str (reader->sock),
zmq_strerror (zmq_errno ()));
// Give handler one chance to handle error, then kill
// reader because it'll disrupt the reactor otherwise.
if (reader->errors++) {
zloop_reader_end (self, reader->sock);
self->pollset [item_nbr].revents = 0;
}
}
else
reader->errors = 0; // A non-error happened
if (self->pollset [item_nbr].revents) {
if (self->verbose)
zsys_debug ("zloop: call %s socket handler",
zsock_type_str (reader->sock));
rc = reader->handler (self, reader->sock, reader->arg);
if (rc == -1 || self->need_rebuild)
break;
}
}
else {
s_poller_t *poller = &self->pollact [item_nbr];
assert (self->pollset [item_nbr].socket == poller->item.socket);
if ((self->pollset [item_nbr].revents & ZMQ_POLLERR)
&& !poller->tolerant) {
if (self->verbose)
zsys_warning ("zloop: can't poll %s socket (%p, %d): %s",
poller->item.socket ?
zsys_sockname (zsock_type (poller->item.socket)) : "FD",
poller->item.socket, poller->item.fd,
zmq_strerror (zmq_errno ()));
// Give handler one chance to handle error, then kill
// poller because it'll disrupt the reactor otherwise.
if (poller->errors++) {
zloop_poller_end (self, &poller->item);
self->pollset [item_nbr].revents = 0;
}
}
else
poller->errors = 0; // A non-error happened
if (self->pollset [item_nbr].revents) {
if (self->verbose)
zsys_debug ("zloop: call %s socket handler (%p, %d)",
poller->item.socket ?
zsys_sockname (zsock_type (poller->item.socket)) : "FD",
poller->item.socket, poller->item.fd);
rc = poller->handler (self, &self->pollset [item_nbr], poller->arg);
if (rc == -1 || self->need_rebuild)
break;
}
}
}
// Now handle any timer zombies
// This is going to be slow if we have many timers; we might use
// a faster lookup on the timer list.
while (zlistx_first (self->zombies)) {
// Get timer_id back from pointer
int timer_id = (byte *) zlistx_detach (self->zombies, NULL) - (byte *) NULL;
s_timer_remove (self, timer_id);
}
if (rc == -1)
break;
}
self->terminated = true;
return rc;
}
void
zlistx_test (bool verbose)
{
printf (" * zlistx: ");
// @selftest
zlistx_t *list = zlistx_new ();
assert (list);
assert (zlistx_size (list) == 0);
// Test operations on an empty list
assert (zlistx_first (list) == NULL);
assert (zlistx_last (list) == NULL);
assert (zlistx_next (list) == NULL);
assert (zlistx_prev (list) == NULL);
assert (zlistx_find (list, "hello") == NULL);
assert (zlistx_delete (list, NULL) == -1);
assert (zlistx_detach (list, NULL) == NULL);
assert (zlistx_delete (list, NULL) == -1);
assert (zlistx_detach (list, NULL) == NULL);
zlistx_purge (list);
zlistx_sort (list);
// Use item handlers
zlistx_set_destructor (list, (zlistx_destructor_fn *) zstr_free);
zlistx_set_duplicator (list, (zlistx_duplicator_fn *) strdup);
zlistx_set_comparator (list, (zlistx_comparator_fn *) strcmp);
// Try simple insert/sort/delete/next
assert (zlistx_next (list) == NULL);
zlistx_add_end (list, "world");
assert (streq ((char *) zlistx_next (list), "world"));
zlistx_add_end (list, "hello");
assert (streq ((char *) zlistx_prev (list), "hello"));
zlistx_sort (list);
assert (zlistx_size (list) == 2);
void *handle = zlistx_find (list, "hello");
char *item1 = (char *) zlistx_item (list);
char *item2 = (char *) zlistx_handle_item (handle);
assert (item1 == item2);
assert (streq (item1, "hello"));
zlistx_delete (list, handle);
assert (zlistx_size (list) == 1);
char *string = (char *) zlistx_detach (list, NULL);
assert (streq (string, "world"));
free (string);
assert (zlistx_size (list) == 0);
// Check next/back work
// Now populate the list with items
zlistx_add_start (list, "five");
zlistx_add_end (list, "six");
zlistx_add_start (list, "four");
zlistx_add_end (list, "seven");
zlistx_add_start (list, "three");
zlistx_add_end (list, "eight");
zlistx_add_start (list, "two");
zlistx_add_end (list, "nine");
zlistx_add_start (list, "one");
zlistx_add_end (list, "ten");
// Test our navigation skills
assert (zlistx_size (list) == 10);
assert (streq ((char *) zlistx_last (list), "ten"));
assert (streq ((char *) zlistx_prev (list), "nine"));
assert (streq ((char *) zlistx_prev (list), "eight"));
assert (streq ((char *) zlistx_prev (list), "seven"));
assert (streq ((char *) zlistx_prev (list), "six"));
assert (streq ((char *) zlistx_prev (list), "five"));
assert (streq ((char *) zlistx_first (list), "one"));
assert (streq ((char *) zlistx_next (list), "two"));
assert (streq ((char *) zlistx_next (list), "three"));
assert (streq ((char *) zlistx_next (list), "four"));
// Sort by alphabetical order
zlistx_sort (list);
assert (streq ((char *) zlistx_first (list), "eight"));
assert (streq ((char *) zlistx_last (list), "two"));
// Moving items around
handle = zlistx_find (list, "six");
zlistx_move_start (list, handle);
assert (streq ((char *) zlistx_first (list), "six"));
zlistx_move_end (list, handle);
assert (streq ((char *) zlistx_last (list), "six"));
zlistx_sort (list);
assert (streq ((char *) zlistx_last (list), "two"));
// Copying a list
zlistx_t *copy = zlistx_dup (list);
assert (copy);
assert (zlistx_size (copy) == 10);
assert (streq ((char *) zlistx_first (copy), "eight"));
assert (streq ((char *) zlistx_last (copy), "two"));
zlistx_destroy (©);
// Delete items while iterating
string = (char *) zlistx_first (list);
assert (streq (string, "eight"));
string = (char *) zlistx_next (list);
assert (streq (string, "five"));
zlistx_delete (list, zlistx_cursor (list));
string = (char *) zlistx_next (list);
assert (streq (string, "four"));
zlistx_purge (list);
zlistx_destroy (&list);
// @end
printf ("OK\n");
}
///
// Delete an item, using its handle. Calls the item destructor is any is
// set. If handle is null, deletes the first item on the list. Returns 0
// if an item was deleted, -1 if not. If cursor was at item, moves cursor
// to previous item, so you can delete items while iterating forwards
// through a list.
int QZlistx::deleteNoConflict (void *handle)
{
int rv = zlistx_delete (self, handle);
return rv;
}
