/* Integration tests for the eavesdrop=true|false keyword in DBusMatchRule
*
* Author: Cosimo Alfarano <cosimo.alfarano@collabora.co.uk>
* Based on: tests/dbus-daemon.c by Simon McVittie
* Copyright © 2010-2011 Nokia Corporation
*
* Permission is hereby granted, free of charge, to any person
* obtaining a copy of this software and associated documentation files
* (the "Software"), to deal in the Software without restriction,
* including without limitation the rights to use, copy, modify, merge,
* publish, distribute, sublicense, and/or sell copies of the Software,
* and to permit persons to whom the Software is furnished to do so,
* subject to the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
#include <config.h>
#include <string.h>
#include "test-utils-glib.h"
#define SENDER_NAME "test.eavesdrop.sender"
#define SENDER_PATH "/test/eavesdrop/sender"
#define SENDER_IFACE SENDER_NAME
#define SENDER_SIGNAL_NAME "Signal"
#define SENDER_STOPPER_NAME "Stopper"
/* This rule is equivalent to the one added to a proxy connecting to
* SENDER_NAME+SENDER_IFACE, plus restricting on signal name.
* Being more restrictive, if the connection receives what we need, for sure
* the original proxy rule will match it */
#define RECEIVER_RULE "sender='" SENDER_NAME "'," \
"interface='" SENDER_IFACE "'," \
"type='signal'," \
"member='" SENDER_SIGNAL_NAME "'"
#define POLITELISTENER_RULE RECEIVER_RULE
#define EAVESDROPPER_RULE RECEIVER_RULE ",eavesdrop=true"
#define STOPPER_RULE "sender='" SENDER_NAME \
"',interface='" SENDER_IFACE "',type='signal',member='" SENDER_STOPPER_NAME "'"
/* a connection received a signal to whom? */
typedef enum {
NONE_YET = 0,
TO_ME,
TO_OTHER,
BROADCAST,
} SignalDst;
typedef struct {
TestMainContext *ctx;
DBusError e;
GError *ge;
GPid daemon_pid;
/* eavedrop keyword tests */
DBusConnection *sender;
DBusConnection *receiver;
SignalDst receiver_dst;
dbus_bool_t receiver_got_stopper;
DBusConnection *eavesdropper;
SignalDst eavesdropper_dst;
dbus_bool_t eavesdropper_got_stopper;
DBusConnection *politelistener;
SignalDst politelistener_dst;
dbus_bool_t politelistener_got_stopper;
} Fixture;
/* send a unicast signal to <self> to ensure that no other connection
* listening is the actual recipient for the signal */
static DBusHandlerResult
sender_send_unicast_to_sender (Fixture *f)
{
DBusMessage *signal;
signal = dbus_message_new_signal (SENDER_PATH, SENDER_IFACE,
SENDER_SIGNAL_NAME);
if (signal == NULL)
g_error ("OOM");
if (!dbus_message_set_destination (signal, dbus_bus_get_unique_name (f->sender)))
g_error ("OOM");
if (!dbus_connection_send (f->sender, signal, NULL))
g_error ("OOM");
dbus_message_unref (signal);
return DBUS_HANDLER_RESULT_HANDLED;
}
/* send a unicast signal to <receiver>, making <politelistener> and
* <eavesdropper> not a actual recipient for it */
static DBusHandlerResult
sender_send_unicast_to_receiver (Fixture *f)
{
DBusMessage *signal;
signal = dbus_message_new_signal (SENDER_PATH, SENDER_IFACE, SENDER_SIGNAL_NAME);
if (signal == NULL)
g_error ("OOM");
if (!dbus_message_set_destination (signal, dbus_bus_get_unique_name (f->receiver)))
g_error ("OOM");
if (!dbus_connection_send (f->sender, signal, NULL))
g_error ("OOM");
dbus_message_unref (signal);
return DBUS_HANDLER_RESULT_HANDLED;
}
static DBusHandlerResult
sender_send_broadcast (Fixture *f)
{
DBusMessage *signal;
signal = dbus_message_new_signal (SENDER_PATH, SENDER_IFACE, SENDER_SIGNAL_NAME);
if (signal == NULL)
g_error ("OOM");
if (!dbus_message_set_destination (signal, NULL))
g_error ("OOM");
if (!dbus_connection_send (f->sender, signal, NULL))
g_error ("OOM");
dbus_message_unref (signal);
return DBUS_HANDLER_RESULT_HANDLED;
}
/* Send special broadcast signal to indicate that the connections can "stop"
* listening and check their results.
* DBus does not re-order messages, so when the three connections have received
* this signal, we are sure that any message sent before it has also been
* dispatched. */
static DBusHandlerResult
sender_send_stopper (Fixture *f)
{
DBusMessage *signal;
signal = dbus_message_new_signal (SENDER_PATH, SENDER_IFACE, SENDER_STOPPER_NAME);
if (signal == NULL)
g_error ("OOM");
if (!dbus_message_set_destination (signal, NULL))
g_error ("OOM");
if (!dbus_connection_send (f->sender, signal, NULL))
g_error ("OOM");
dbus_message_unref (signal);
return DBUS_HANDLER_RESULT_HANDLED;
}
/* Ignore NameAcquired, then depending on the signal received:
* - updates f-><conn>_dst based on the destination of the message
* - asserts that <conn> received the stop signal
*/
static DBusHandlerResult
signal_filter (DBusConnection *connection,
DBusMessage *message,
void *user_data)
{
Fixture *f = user_data;
SignalDst *dst = NULL;
DBusConnection **conn;
dbus_bool_t *got_stopper;
if (0 == strcmp (dbus_message_get_member (message), "NameAcquired"))
return DBUS_HANDLER_RESULT_NOT_YET_HANDLED;
if (connection == f->receiver)
{
dst = &(f->receiver_dst);
conn = &(f->receiver);
got_stopper = &(f->receiver_got_stopper);
}
else if (connection == f->eavesdropper)
{
dst = &(f->eavesdropper_dst);
conn = &(f->eavesdropper);
got_stopper = &(f->eavesdropper_got_stopper);
}
else if (connection == f->politelistener)
{
dst = &(f->politelistener_dst);
conn = &(f->politelistener);
got_stopper = &(f->politelistener_got_stopper);
}
else
{
g_error ("connection not matching");
}
if (0 == strcmp (dbus_message_get_member (message), SENDER_SIGNAL_NAME))
{
if (dbus_message_get_destination (message) == NULL)
*dst = BROADCAST;
else if (0 == strcmp (dbus_message_get_destination (message), dbus_bus_get_unique_name (*conn)))
*dst = TO_ME;
else /* if (dbus_message_get_destination (message) != NULL) */
*dst = TO_OTHER;
}
else if (0 == strcmp (dbus_message_get_member (message), SENDER_STOPPER_NAME))
{
*got_stopper = TRUE;
}
else
{
g_error ("got unknown member from message: %s",
dbus_message_get_member (message));
}
return DBUS_HANDLER_RESULT_NOT_YET_HANDLED;
}
static void
add_receiver_filter (Fixture *f)
{
DBusError e = DBUS_ERROR_INIT;
dbus_bus_add_match (f->receiver, RECEIVER_RULE, &e);
test_assert_no_error (&e);
dbus_bus_add_match (f->receiver, STOPPER_RULE, &e);
test_assert_no_error (&e);
if (!dbus_connection_add_filter (f->receiver,
signal_filter, f, NULL))
g_error ("OOM");
}
static void
add_eavesdropper_filter (Fixture *f)
{
DBusError e = DBUS_ERROR_INIT;
dbus_bus_add_match (f->eavesdropper, EAVESDROPPER_RULE, &e);
test_assert_no_error (&e);
dbus_bus_add_match (f->eavesdropper, STOPPER_RULE, &e);
test_assert_no_error (&e);
if (!dbus_connection_add_filter (f->eavesdropper,
signal_filter, f, NULL))
g_error ("OOM");
}
static void
add_politelistener_filter (Fixture *f)
{
DBusError e = DBUS_ERROR_INIT;
dbus_bus_add_match (f->politelistener, POLITELISTENER_RULE, &e);
test_assert_no_error (&e);
dbus_bus_add_match (f->politelistener, STOPPER_RULE, &e);
test_assert_no_error (&e);
if (!dbus_connection_add_filter (f->politelistener,
signal_filter, f, NULL))
g_error ("OOM");
}
static void
setup (Fixture *f,
gconstpointer context G_GNUC_UNUSED)
{
gchar *address;
f->ctx = test_main_context_get ();
f->ge = NULL;
dbus_error_init (&f->e);
address = test_get_dbus_daemon (NULL, TEST_USER_ME, NULL, &f->daemon_pid);
f->sender = test_connect_to_bus (f->ctx, address);
dbus_bus_request_name (f->sender, SENDER_NAME, DBUS_NAME_FLAG_DO_NOT_QUEUE,
&(f->e));
f->receiver = test_connect_to_bus (f->ctx, address);
f->eavesdropper = test_connect_to_bus (f->ctx, address);
f->politelistener = test_connect_to_bus (f->ctx, address);
add_receiver_filter (f);
add_politelistener_filter (f);
add_eavesdropper_filter (f);
g_free (address);
}
static void
test_eavesdrop_broadcast (Fixture *f,
gconstpointer context G_GNUC_UNUSED)
{
sender_send_broadcast (f);
sender_send_stopper (f);
while (!f->receiver_got_stopper ||
!f->politelistener_got_stopper ||
!f->eavesdropper_got_stopper)
test_main_context_iterate (f->ctx, TRUE);
/* all the three connection can receive a broadcast */
g_assert_cmpint (f->receiver_dst, ==, BROADCAST);
g_assert_cmpint (f->politelistener_dst, ==, BROADCAST);
g_assert_cmpint (f->eavesdropper_dst, ==, BROADCAST);
}
/* a way to say that none of the listening connection are destination of the
* signal */
static void
test_eavesdrop_unicast_to_sender (Fixture *f,
gconstpointer context G_GNUC_UNUSED)
{
sender_send_unicast_to_sender (f);
sender_send_stopper (f);
while (!f->receiver_got_stopper ||
!f->politelistener_got_stopper ||
!f->eavesdropper_got_stopper)
test_main_context_iterate (f->ctx, TRUE);
/* not directed to it and not broadcasted, they cannot receive it */
g_assert_cmpint (f->receiver_dst, ==, NONE_YET);
g_assert_cmpint (f->politelistener_dst, ==, NONE_YET);
/* eavesdrop=true, it will receive the signal even though it's not directed
* to it */
g_assert_cmpint (f->eavesdropper_dst, ==, TO_OTHER);
}
static void
test_eavesdrop_unicast_to_receiver (Fixture *f,
gconstpointer context G_GNUC_UNUSED)
{
sender_send_unicast_to_receiver (f);
sender_send_stopper (f);
while (!f->receiver_got_stopper ||
!f->politelistener_got_stopper ||
!f->eavesdropper_got_stopper)
test_main_context_iterate (f->ctx, TRUE);
/* direct to him */
g_assert_cmpint (f->receiver_dst, ==, TO_ME);
/* not directed to it and not broadcasted, it cannot receive it */
g_assert_cmpint (f->politelistener_dst, ==, NONE_YET);
/* eavesdrop=true, it will receive the signal even though it's not directed
* to it */
g_assert_cmpint (f->eavesdropper_dst, ==, TO_OTHER);
}
static void
teardown (Fixture *f,
gconstpointer context G_GNUC_UNUSED)
{
dbus_error_free (&f->e);
g_clear_error (&f->ge);
if (f->sender != NULL)
{
dbus_connection_close (f->sender);
dbus_connection_unref (f->sender);
f->sender = NULL;
}
if (f->receiver != NULL)
{
dbus_connection_remove_filter (f->receiver,
signal_filter, f);
dbus_connection_close (f->receiver);
dbus_connection_unref (f->receiver);
f->receiver = NULL;
}
if (f->politelistener != NULL)
{
dbus_connection_remove_filter (f->politelistener,
signal_filter, f);
dbus_connection_close (f->politelistener);
dbus_connection_unref (f->politelistener);
f->politelistener = NULL;
}
if (f->eavesdropper != NULL)
{
dbus_connection_remove_filter (f->eavesdropper,
signal_filter, f);
dbus_connection_close (f->eavesdropper);
dbus_connection_unref (f->eavesdropper);
f->eavesdropper = NULL;
}
if (f->daemon_pid != 0)
{
test_kill_pid (f->daemon_pid);
g_spawn_close_pid (f->daemon_pid);
f->daemon_pid = 0;
}
test_main_context_unref (f->ctx);
}
int
main (int argc,
char **argv)
{
test_init (&argc, &argv);
g_test_add ("/eavedrop/match_keyword/broadcast", Fixture, NULL,
setup, test_eavesdrop_broadcast, teardown);
g_test_add ("/eavedrop/match_keyword/unicast_to_receiver", Fixture, NULL,
setup, test_eavesdrop_unicast_to_receiver,
teardown);
g_test_add ("/eavedrop/match_keyword/unicast_to_sender", Fixture, NULL,
setup, test_eavesdrop_unicast_to_sender, teardown);
return g_test_run ();
}