glib/gio/tests/gdbus-threading.c

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/* GLib testing framework examples and tests
*
2010-05-10 14:07:28 +02:00
* Copyright (C) 2008-2010 Red Hat, Inc.
*
* SPDX-License-Identifier: LGPL-2.1-or-later
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General
2014-01-23 12:58:29 +01:00
* Public License along with this library; if not, see <http://www.gnu.org/licenses/>.
*
* Author: David Zeuthen <davidz@redhat.com>
*/
#include <gio/gio.h>
#include <unistd.h>
#include <string.h>
#include "gdbus-tests.h"
/* all tests rely on a global connection */
static GDBusConnection *c = NULL;
typedef struct
{
GMainContext *context;
gboolean timed_out;
} TimeoutData;
static gboolean
timeout_cb (gpointer user_data)
{
TimeoutData *data = user_data;
data->timed_out = TRUE;
g_main_context_wakeup (data->context);
return G_SOURCE_REMOVE;
}
tests: Reduce wakeup interval in gdbus-threading When checking that the connection has the expected number of refs, the test would block on a `GMainContext` iteration for up to 3s before waking up and failing (if the refcount was still not as expected). This check was written in the expectation that changing the refcount of the connection would only happen due to dispatching a source on `GMainContext` — hence the `GMainContext` would wake up as the refcount changed. That’s probably not actually true though. It might be the case that the connection’s refcount is changed on from the GDBus worker thread, which would not cause any wakeups on the main thread’s `GMainContext`. In this case, the `GMainContext` iteration in `assert_connection_has_one_ref()` would block for the full 3s, and then wake up and notice the refcount is correct (then the test would proceed). That’s fine, apart from the fact that `test_threaded_singleton()` does this 1000 times. If the slow case is hit on a significant number of those test runs, the test will take around 3000s to complete, which is significantly more than meson’s test timeout of 360s. So the test fails with something like: ``` 220/266 glib:gio+slow / gdbus-threading TIMEOUT 360.07 s --- command --- G_TEST_SRCDIR='/builds/GNOME/glib/gio/tests' GIO_MODULE_DIR='' G_TEST_BUILDDIR='/builds/GNOME/glib/_build/gio/tests' /builds/GNOME/glib/_build/gio/tests/gdbus-threading --- stdout --- \# random seed: R02S83fe8de22db4d4f376e6d179e2bdd601 1..3 \# Start of gdbus tests ok 1 /gdbus/delivery-in-thread ok 2 /gdbus/method-calls-in-thread \# GLib-GIO-DEBUG: refcount of 0x5602de913660 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913660 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913c60 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913c60 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913260 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913260 is not right (3 rather than 1) in test_threaded_singleton(), sleeping ``` From this log, it can be seen that the sleep is happening on a different `GMainContext` every other time, so the test *is* making progress. Assuming this is a correct diagnosis (it’s a lot of guessing), this commit tries to fix the test by adding a wakeup timeout to the `GMainContext` in `assert_connection_has_one_ref()`, which will wake it up every 50ms to re-check the exit condition. This polling approach has been taken because it doesn’t seem feasible to make sure that every `g_object_ref()`/`g_object_unref()` call on a `GDBusConnection` causes the main context to wake up. Signed-off-by: Philip Withnall <pwithnall@endlessos.org>
2022-04-12 15:39:43 +02:00
static gboolean
wakeup_cb (gpointer user_data)
{
/* nothing to do here */
return G_SOURCE_CONTINUE;
}
/* Check that the given @connection has only one ref, waiting to let any pending
* unrefs complete first. This is typically used on the shared connection, to
* ensure its in a correct state before beginning the next test. */
static void
(assert_connection_has_one_ref) (GDBusConnection *connection,
GMainContext *context,
const gchar *calling_function)
{
GSource *timeout_source = NULL;
tests: Reduce wakeup interval in gdbus-threading When checking that the connection has the expected number of refs, the test would block on a `GMainContext` iteration for up to 3s before waking up and failing (if the refcount was still not as expected). This check was written in the expectation that changing the refcount of the connection would only happen due to dispatching a source on `GMainContext` — hence the `GMainContext` would wake up as the refcount changed. That’s probably not actually true though. It might be the case that the connection’s refcount is changed on from the GDBus worker thread, which would not cause any wakeups on the main thread’s `GMainContext`. In this case, the `GMainContext` iteration in `assert_connection_has_one_ref()` would block for the full 3s, and then wake up and notice the refcount is correct (then the test would proceed). That’s fine, apart from the fact that `test_threaded_singleton()` does this 1000 times. If the slow case is hit on a significant number of those test runs, the test will take around 3000s to complete, which is significantly more than meson’s test timeout of 360s. So the test fails with something like: ``` 220/266 glib:gio+slow / gdbus-threading TIMEOUT 360.07 s --- command --- G_TEST_SRCDIR='/builds/GNOME/glib/gio/tests' GIO_MODULE_DIR='' G_TEST_BUILDDIR='/builds/GNOME/glib/_build/gio/tests' /builds/GNOME/glib/_build/gio/tests/gdbus-threading --- stdout --- \# random seed: R02S83fe8de22db4d4f376e6d179e2bdd601 1..3 \# Start of gdbus tests ok 1 /gdbus/delivery-in-thread ok 2 /gdbus/method-calls-in-thread \# GLib-GIO-DEBUG: refcount of 0x5602de913660 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913660 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913c60 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913c60 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913260 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913260 is not right (3 rather than 1) in test_threaded_singleton(), sleeping ``` From this log, it can be seen that the sleep is happening on a different `GMainContext` every other time, so the test *is* making progress. Assuming this is a correct diagnosis (it’s a lot of guessing), this commit tries to fix the test by adding a wakeup timeout to the `GMainContext` in `assert_connection_has_one_ref()`, which will wake it up every 50ms to re-check the exit condition. This polling approach has been taken because it doesn’t seem feasible to make sure that every `g_object_ref()`/`g_object_unref()` call on a `GDBusConnection` causes the main context to wake up. Signed-off-by: Philip Withnall <pwithnall@endlessos.org>
2022-04-12 15:39:43 +02:00
GSource *wakeup_source = NULL;
TimeoutData data = { context, FALSE };
if (g_atomic_int_get (&G_OBJECT (connection)->ref_count) == 1)
return;
tests: Reduce wakeup interval in gdbus-threading When checking that the connection has the expected number of refs, the test would block on a `GMainContext` iteration for up to 3s before waking up and failing (if the refcount was still not as expected). This check was written in the expectation that changing the refcount of the connection would only happen due to dispatching a source on `GMainContext` — hence the `GMainContext` would wake up as the refcount changed. That’s probably not actually true though. It might be the case that the connection’s refcount is changed on from the GDBus worker thread, which would not cause any wakeups on the main thread’s `GMainContext`. In this case, the `GMainContext` iteration in `assert_connection_has_one_ref()` would block for the full 3s, and then wake up and notice the refcount is correct (then the test would proceed). That’s fine, apart from the fact that `test_threaded_singleton()` does this 1000 times. If the slow case is hit on a significant number of those test runs, the test will take around 3000s to complete, which is significantly more than meson’s test timeout of 360s. So the test fails with something like: ``` 220/266 glib:gio+slow / gdbus-threading TIMEOUT 360.07 s --- command --- G_TEST_SRCDIR='/builds/GNOME/glib/gio/tests' GIO_MODULE_DIR='' G_TEST_BUILDDIR='/builds/GNOME/glib/_build/gio/tests' /builds/GNOME/glib/_build/gio/tests/gdbus-threading --- stdout --- \# random seed: R02S83fe8de22db4d4f376e6d179e2bdd601 1..3 \# Start of gdbus tests ok 1 /gdbus/delivery-in-thread ok 2 /gdbus/method-calls-in-thread \# GLib-GIO-DEBUG: refcount of 0x5602de913660 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913660 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913c60 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913c60 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913260 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913260 is not right (3 rather than 1) in test_threaded_singleton(), sleeping ``` From this log, it can be seen that the sleep is happening on a different `GMainContext` every other time, so the test *is* making progress. Assuming this is a correct diagnosis (it’s a lot of guessing), this commit tries to fix the test by adding a wakeup timeout to the `GMainContext` in `assert_connection_has_one_ref()`, which will wake it up every 50ms to re-check the exit condition. This polling approach has been taken because it doesn’t seem feasible to make sure that every `g_object_ref()`/`g_object_unref()` call on a `GDBusConnection` causes the main context to wake up. Signed-off-by: Philip Withnall <pwithnall@endlessos.org>
2022-04-12 15:39:43 +02:00
/* Use two timeout sources: @timeout_source to set a deadline after which the
* test will fail if the @connection doesnt have the right number of refs;
* and @wakeup_source to periodically wake the @context up to allow the
* termination condition to be checked. This allows the termination condition
* to be fulfilled by something which doesnt wake @context up, such as an
* unref happening in the GDBus worker thread. */
timeout_source = g_timeout_source_new_seconds (3);
g_source_set_callback (timeout_source, timeout_cb, &data, NULL);
g_source_attach (timeout_source, context);
tests: Reduce wakeup interval in gdbus-threading When checking that the connection has the expected number of refs, the test would block on a `GMainContext` iteration for up to 3s before waking up and failing (if the refcount was still not as expected). This check was written in the expectation that changing the refcount of the connection would only happen due to dispatching a source on `GMainContext` — hence the `GMainContext` would wake up as the refcount changed. That’s probably not actually true though. It might be the case that the connection’s refcount is changed on from the GDBus worker thread, which would not cause any wakeups on the main thread’s `GMainContext`. In this case, the `GMainContext` iteration in `assert_connection_has_one_ref()` would block for the full 3s, and then wake up and notice the refcount is correct (then the test would proceed). That’s fine, apart from the fact that `test_threaded_singleton()` does this 1000 times. If the slow case is hit on a significant number of those test runs, the test will take around 3000s to complete, which is significantly more than meson’s test timeout of 360s. So the test fails with something like: ``` 220/266 glib:gio+slow / gdbus-threading TIMEOUT 360.07 s --- command --- G_TEST_SRCDIR='/builds/GNOME/glib/gio/tests' GIO_MODULE_DIR='' G_TEST_BUILDDIR='/builds/GNOME/glib/_build/gio/tests' /builds/GNOME/glib/_build/gio/tests/gdbus-threading --- stdout --- \# random seed: R02S83fe8de22db4d4f376e6d179e2bdd601 1..3 \# Start of gdbus tests ok 1 /gdbus/delivery-in-thread ok 2 /gdbus/method-calls-in-thread \# GLib-GIO-DEBUG: refcount of 0x5602de913660 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913660 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913c60 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913c60 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913260 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913260 is not right (3 rather than 1) in test_threaded_singleton(), sleeping ``` From this log, it can be seen that the sleep is happening on a different `GMainContext` every other time, so the test *is* making progress. Assuming this is a correct diagnosis (it’s a lot of guessing), this commit tries to fix the test by adding a wakeup timeout to the `GMainContext` in `assert_connection_has_one_ref()`, which will wake it up every 50ms to re-check the exit condition. This polling approach has been taken because it doesn’t seem feasible to make sure that every `g_object_ref()`/`g_object_unref()` call on a `GDBusConnection` causes the main context to wake up. Signed-off-by: Philip Withnall <pwithnall@endlessos.org>
2022-04-12 15:39:43 +02:00
wakeup_source = g_timeout_source_new (50 /* ms */);
g_source_set_callback (wakeup_source, wakeup_cb, NULL, NULL);
g_source_attach (wakeup_source, context);
while (g_atomic_int_get (&G_OBJECT (connection)->ref_count) != 1 && !data.timed_out)
{
g_debug ("refcount of %p is not right (%u rather than 1) in %s(), sleeping",
connection, g_atomic_int_get (&G_OBJECT (connection)->ref_count), calling_function);
g_main_context_iteration (NULL, TRUE);
}
tests: Reduce wakeup interval in gdbus-threading When checking that the connection has the expected number of refs, the test would block on a `GMainContext` iteration for up to 3s before waking up and failing (if the refcount was still not as expected). This check was written in the expectation that changing the refcount of the connection would only happen due to dispatching a source on `GMainContext` — hence the `GMainContext` would wake up as the refcount changed. That’s probably not actually true though. It might be the case that the connection’s refcount is changed on from the GDBus worker thread, which would not cause any wakeups on the main thread’s `GMainContext`. In this case, the `GMainContext` iteration in `assert_connection_has_one_ref()` would block for the full 3s, and then wake up and notice the refcount is correct (then the test would proceed). That’s fine, apart from the fact that `test_threaded_singleton()` does this 1000 times. If the slow case is hit on a significant number of those test runs, the test will take around 3000s to complete, which is significantly more than meson’s test timeout of 360s. So the test fails with something like: ``` 220/266 glib:gio+slow / gdbus-threading TIMEOUT 360.07 s --- command --- G_TEST_SRCDIR='/builds/GNOME/glib/gio/tests' GIO_MODULE_DIR='' G_TEST_BUILDDIR='/builds/GNOME/glib/_build/gio/tests' /builds/GNOME/glib/_build/gio/tests/gdbus-threading --- stdout --- \# random seed: R02S83fe8de22db4d4f376e6d179e2bdd601 1..3 \# Start of gdbus tests ok 1 /gdbus/delivery-in-thread ok 2 /gdbus/method-calls-in-thread \# GLib-GIO-DEBUG: refcount of 0x5602de913660 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913660 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913c60 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913c60 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913260 is not right (3 rather than 1) in test_threaded_singleton(), sleeping \# GLib-GIO-DEBUG: refcount of 0x5602de913260 is not right (3 rather than 1) in test_threaded_singleton(), sleeping ``` From this log, it can be seen that the sleep is happening on a different `GMainContext` every other time, so the test *is* making progress. Assuming this is a correct diagnosis (it’s a lot of guessing), this commit tries to fix the test by adding a wakeup timeout to the `GMainContext` in `assert_connection_has_one_ref()`, which will wake it up every 50ms to re-check the exit condition. This polling approach has been taken because it doesn’t seem feasible to make sure that every `g_object_ref()`/`g_object_unref()` call on a `GDBusConnection` causes the main context to wake up. Signed-off-by: Philip Withnall <pwithnall@endlessos.org>
2022-04-12 15:39:43 +02:00
g_source_destroy (wakeup_source);
g_source_unref (wakeup_source);
g_source_destroy (timeout_source);
g_source_unref (timeout_source);
if (g_atomic_int_get (&G_OBJECT (connection)->ref_count) != 1)
g_error ("connection %p had too many refs (%u rather than 1) in %s()",
connection, g_atomic_int_get (&G_OBJECT (connection)->ref_count), calling_function);
}
/* Macro wrapper to add in the calling function name */
#define assert_connection_has_one_ref(connection, context) \
(assert_connection_has_one_ref) (connection, context, G_STRFUNC)
/* ---------------------------------------------------------------------------------------------------- */
/* Ensure that signal and method replies are delivered in the right thread */
/* ---------------------------------------------------------------------------------------------------- */
typedef struct {
GThread *thread;
GMainContext *context;
guint signal_count;
gboolean unsubscribe_complete;
GAsyncResult *async_result;
} DeliveryData;
static void
async_result_cb (GDBusConnection *connection,
GAsyncResult *res,
gpointer user_data)
{
DeliveryData *data = user_data;
data->async_result = g_object_ref (res);
g_assert_true (g_thread_self () == data->thread);
g_main_context_wakeup (data->context);
}
static void
signal_handler (GDBusConnection *connection,
const gchar *sender_name,
const gchar *object_path,
const gchar *interface_name,
const gchar *signal_name,
GVariant *parameters,
gpointer user_data)
{
DeliveryData *data = user_data;
g_assert_true (g_thread_self () == data->thread);
data->signal_count++;
g_main_context_wakeup (data->context);
}
static void
signal_data_free_cb (gpointer user_data)
{
DeliveryData *data = user_data;
g_assert_true (g_thread_self () == data->thread);
data->unsubscribe_complete = TRUE;
g_main_context_wakeup (data->context);
}
static gpointer
test_delivery_in_thread_func (gpointer _data)
{
GMainContext *thread_context;
DeliveryData data;
GCancellable *ca;
guint subscription_id;
GError *error = NULL;
GVariant *result_variant = NULL;
thread_context = g_main_context_new ();
g_main_context_push_thread_default (thread_context);
data.thread = g_thread_self ();
data.context = thread_context;
data.signal_count = 0;
data.unsubscribe_complete = FALSE;
data.async_result = NULL;
/* ---------------------------------------------------------------------------------------------------- */
/*
* Check that we get a reply to the GetId() method call.
*/
g_dbus_connection_call (c,
"org.freedesktop.DBus", /* bus_name */
"/org/freedesktop/DBus", /* object path */
"org.freedesktop.DBus", /* interface name */
"GetId", /* method name */
NULL, NULL,
G_DBUS_CALL_FLAGS_NONE,
-1,
NULL,
(GAsyncReadyCallback) async_result_cb,
&data);
while (data.async_result == NULL)
g_main_context_iteration (thread_context, TRUE);
result_variant = g_dbus_connection_call_finish (c, data.async_result, &error);
g_assert_no_error (error);
g_assert_nonnull (result_variant);
g_clear_pointer (&result_variant, g_variant_unref);
g_clear_object (&data.async_result);
/*
* Check that we never actually send a message if the GCancellable
* is already cancelled - i.e. we should get G_IO_ERROR_CANCELLED
* when the actual connection is not up.
*/
ca = g_cancellable_new ();
g_cancellable_cancel (ca);
g_dbus_connection_call (c,
"org.freedesktop.DBus", /* bus_name */
"/org/freedesktop/DBus", /* object path */
"org.freedesktop.DBus", /* interface name */
"GetId", /* method name */
NULL, NULL,
G_DBUS_CALL_FLAGS_NONE,
-1,
ca,
(GAsyncReadyCallback) async_result_cb,
&data);
while (data.async_result == NULL)
g_main_context_iteration (thread_context, TRUE);
result_variant = g_dbus_connection_call_finish (c, data.async_result, &error);
g_assert_error (error, G_IO_ERROR, G_IO_ERROR_CANCELLED);
g_assert_false (g_dbus_error_is_remote_error (error));
g_clear_error (&error);
g_assert_null (result_variant);
g_clear_object (&data.async_result);
g_object_unref (ca);
/*
* Check that cancellation works when the message is already in flight.
*/
ca = g_cancellable_new ();
g_dbus_connection_call (c,
"org.freedesktop.DBus", /* bus_name */
"/org/freedesktop/DBus", /* object path */
"org.freedesktop.DBus", /* interface name */
"GetId", /* method name */
NULL, NULL,
G_DBUS_CALL_FLAGS_NONE,
-1,
ca,
(GAsyncReadyCallback) async_result_cb,
&data);
g_cancellable_cancel (ca);
while (data.async_result == NULL)
g_main_context_iteration (thread_context, TRUE);
result_variant = g_dbus_connection_call_finish (c, data.async_result, &error);
g_assert_error (error, G_IO_ERROR, G_IO_ERROR_CANCELLED);
g_assert_false (g_dbus_error_is_remote_error (error));
g_clear_error (&error);
g_assert_null (result_variant);
g_clear_object (&data.async_result);
g_object_unref (ca);
/*
* Check that signals are delivered to the correct thread.
*
* First we subscribe to the signal, then we call EmitSignal(). This should
* cause a TestSignal emission from the testserver.
*/
subscription_id = g_dbus_connection_signal_subscribe (c,
"com.example.TestService", /* sender */
"com.example.Frob", /* interface */
"TestSignal", /* member */
"/com/example/TestObject", /* path */
NULL,
G_DBUS_SIGNAL_FLAGS_NONE,
signal_handler,
&data,
signal_data_free_cb);
g_assert_cmpuint (subscription_id, !=, 0);
g_assert_cmpuint (data.signal_count, ==, 0);
g_dbus_connection_call (c,
"com.example.TestService", /* bus_name */
"/com/example/TestObject", /* object path */
"com.example.Frob", /* interface name */
"EmitSignal", /* method name */
g_variant_new_parsed ("('hello', @o '/com/example/TestObject')"),
NULL,
G_DBUS_CALL_FLAGS_NONE,
-1,
NULL,
(GAsyncReadyCallback) async_result_cb,
&data);
while (data.async_result == NULL || data.signal_count < 1)
g_main_context_iteration (thread_context, TRUE);
result_variant = g_dbus_connection_call_finish (c, data.async_result, &error);
g_assert_no_error (error);
g_assert_nonnull (result_variant);
g_clear_pointer (&result_variant, g_variant_unref);
g_clear_object (&data.async_result);
g_assert_cmpuint (data.signal_count, ==, 1);
g_dbus_connection_signal_unsubscribe (c, subscription_id);
subscription_id = 0;
while (!data.unsubscribe_complete)
g_main_context_iteration (thread_context, TRUE);
g_assert_true (data.unsubscribe_complete);
/* ---------------------------------------------------------------------------------------------------- */
g_main_context_pop_thread_default (thread_context);
g_main_context_unref (thread_context);
return NULL;
}
static void
test_delivery_in_thread (void)
{
GThread *thread;
thread = g_thread_new ("deliver",
test_delivery_in_thread_func,
NULL);
g_thread_join (thread);
assert_connection_has_one_ref (c, NULL);
}
/* ---------------------------------------------------------------------------------------------------- */
typedef struct {
GDBusProxy *proxy;
gint msec;
guint num;
gboolean async;
GMainLoop *thread_loop;
GThread *thread;
} SyncThreadData;
static void
sleep_cb (GDBusProxy *proxy,
GAsyncResult *res,
gpointer user_data)
{
SyncThreadData *data = user_data;
GError *error;
GVariant *result;
error = NULL;
result = g_dbus_proxy_call_finish (proxy,
res,
&error);
g_assert_no_error (error);
g_assert_nonnull (result);
g_assert_cmpstr (g_variant_get_type_string (result), ==, "()");
g_variant_unref (result);
g_assert_true (data->thread == g_thread_self ());
g_main_loop_quit (data->thread_loop);
//g_debug ("async cb (%p)", g_thread_self ());
}
static gpointer
test_sleep_in_thread_func (gpointer _data)
{
SyncThreadData *data = _data;
GMainContext *thread_context;
guint n;
thread_context = g_main_context_new ();
data->thread_loop = g_main_loop_new (thread_context, FALSE);
g_main_context_push_thread_default (thread_context);
data->thread = g_thread_self ();
for (n = 0; n < data->num; n++)
{
if (data->async)
{
//g_debug ("invoking async (%p)", g_thread_self ());
g_dbus_proxy_call (data->proxy,
"Sleep",
g_variant_new ("(i)", data->msec),
G_DBUS_CALL_FLAGS_NONE,
-1,
NULL,
(GAsyncReadyCallback) sleep_cb,
data);
g_main_loop_run (data->thread_loop);
if (g_test_verbose ())
g_printerr ("A");
//g_debug ("done invoking async (%p)", g_thread_self ());
}
else
{
GError *error;
GVariant *result;
error = NULL;
//g_debug ("invoking sync (%p)", g_thread_self ());
result = g_dbus_proxy_call_sync (data->proxy,
"Sleep",
g_variant_new ("(i)", data->msec),
G_DBUS_CALL_FLAGS_NONE,
-1,
NULL,
&error);
if (g_test_verbose ())
g_printerr ("S");
//g_debug ("done invoking sync (%p)", g_thread_self ());
g_assert_no_error (error);
g_assert_nonnull (result);
g_assert_cmpstr (g_variant_get_type_string (result), ==, "()");
g_variant_unref (result);
}
}
g_main_context_pop_thread_default (thread_context);
g_main_loop_unref (data->thread_loop);
g_main_context_unref (thread_context);
return NULL;
}
static void
test_method_calls_on_proxy (GDBusProxy *proxy)
{
guint n, divisor;
/*
* Check that multiple threads can do calls without interfering with
* each other. We do this by creating three threads that call the
* Sleep() method on the server (which handles it asynchronously, e.g.
* it won't block other requests) with different sleep durations and
* a number of times. We do this so each set of calls add up to 4000
* milliseconds.
*
* The dbus test server that this code calls into uses glib timeouts
* to do the sleeping which have only a granularity of 1ms. It is
* therefore possible to lose as much as 40ms; the test could finish
* in slightly less than 4 seconds.
*
* We run this test twice - first with async calls in each thread, then
* again with sync calls
*/
if (g_test_thorough ())
divisor = 1;
else
divisor = 10;
for (n = 0; n < 2; n++)
{
gboolean do_async;
GThread *thread1;
GThread *thread2;
GThread *thread3;
SyncThreadData data1;
SyncThreadData data2;
SyncThreadData data3;
gint64 start_time, end_time;
guint elapsed_msec;
do_async = (n == 0);
start_time = g_get_real_time ();
data1.proxy = proxy;
data1.msec = 40;
data1.num = 100 / divisor;
data1.async = do_async;
thread1 = g_thread_new ("sleep",
test_sleep_in_thread_func,
&data1);
data2.proxy = proxy;
data2.msec = 20;
data2.num = 200 / divisor;
data2.async = do_async;
thread2 = g_thread_new ("sleep2",
test_sleep_in_thread_func,
&data2);
data3.proxy = proxy;
data3.msec = 100;
data3.num = 40 / divisor;
data3.async = do_async;
thread3 = g_thread_new ("sleep3",
test_sleep_in_thread_func,
&data3);
g_thread_join (thread1);
g_thread_join (thread2);
g_thread_join (thread3);
end_time = g_get_real_time ();
elapsed_msec = (end_time - start_time) / 1000;
//g_debug ("Elapsed time for %s = %d msec", n == 0 ? "async" : "sync", elapsed_msec);
/* elapsed_msec should be 4000 msec +/- change for overhead/inaccuracy */
g_assert_cmpint (elapsed_msec, >=, 3950 / divisor);
g_assert_cmpint (elapsed_msec, <, 30000 / divisor);
if (g_test_verbose ())
g_printerr (" ");
}
}
static void
test_method_calls_in_thread (void)
{
GDBusProxy *proxy;
GDBusConnection *connection;
GError *error;
error = NULL;
connection = g_bus_get_sync (G_BUS_TYPE_SESSION,
NULL,
&error);
g_assert_no_error (error);
error = NULL;
proxy = g_dbus_proxy_new_sync (connection,
G_DBUS_PROXY_FLAGS_NONE,
NULL, /* GDBusInterfaceInfo */
"com.example.TestService", /* name */
"/com/example/TestObject", /* object path */
"com.example.Frob", /* interface */
NULL, /* GCancellable */
&error);
g_assert_no_error (error);
test_method_calls_on_proxy (proxy);
g_object_unref (proxy);
g_object_unref (connection);
if (g_test_verbose ())
g_printerr ("\n");
assert_connection_has_one_ref (c, NULL);
}
#define SLEEP_MIN_USEC 1
#define SLEEP_MAX_USEC 10
/* Can run in any thread */
static void
ensure_connection_works (GDBusConnection *conn)
{
GVariant *v;
GError *error = NULL;
v = g_dbus_connection_call_sync (conn, "org.freedesktop.DBus",
"/org/freedesktop/DBus", "org.freedesktop.DBus", "GetId", NULL, NULL, 0, -1,
NULL, &error);
g_assert_no_error (error);
g_assert_nonnull (v);
g_assert_true (g_variant_is_of_type (v, G_VARIANT_TYPE ("(s)")));
g_variant_unref (v);
}
2014-08-18 14:08:41 +02:00
/**
* get_sync_in_thread:
* @data: (type guint): delay in microseconds
*
* Sleep for a short time, then get a session bus connection and call
* a method on it.
*
* Runs in a non-main thread.
*
* Returns: (transfer full): the connection
*/
static gpointer
get_sync_in_thread (gpointer data)
{
guint delay = GPOINTER_TO_UINT (data);
GError *error = NULL;
GDBusConnection *conn;
g_usleep (delay);
conn = g_bus_get_sync (G_BUS_TYPE_SESSION, NULL, &error);
g_assert_no_error (error);
ensure_connection_works (conn);
return conn;
}
static void
test_threaded_singleton (void)
{
guint i, n;
guint unref_wins = 0;
guint get_wins = 0;
if (g_test_thorough ())
n = 100000;
else
n = 1000;
for (i = 0; i < n; i++)
{
GThread *thread;
guint unref_delay, get_delay;
GDBusConnection *new_conn;
/* We want to be the last ref, so let it finish setting up */
assert_connection_has_one_ref (c, NULL);
if (g_test_verbose () && (i % (n/50)) == 0)
g_printerr ("%u%%\n", ((i * 100) / n));
/* Delay for a random time on each side of the race, to perturb the
* timing. Ideally, we want each side to win half the races; these
* timings are about right on smcv's laptop.
*/
unref_delay = g_random_int_range (SLEEP_MIN_USEC, SLEEP_MAX_USEC);
get_delay = g_random_int_range (SLEEP_MIN_USEC / 2, SLEEP_MAX_USEC / 2);
/* One half of the race is to call g_bus_get_sync... */
thread = g_thread_new ("get_sync_in_thread", get_sync_in_thread,
GUINT_TO_POINTER (get_delay));
/* ... and the other half is to unref the shared connection, which must
* have exactly one ref at this point
*/
g_usleep (unref_delay);
g_object_unref (c);
/* Wait for the thread to run; see what it got */
new_conn = g_thread_join (thread);
/* If the thread won the race, it will have kept the same connection,
* and it'll have one ref
*/
if (new_conn == c)
{
get_wins++;
}
else
{
unref_wins++;
/* c is invalid now, but new_conn is suitable for the
* next round
*/
c = new_conn;
}
ensure_connection_works (c);
}
if (g_test_verbose ())
g_printerr ("Unref won %u races; Get won %u races\n", unref_wins, get_wins);
}
/* ---------------------------------------------------------------------------------------------------- */
int
main (int argc,
char *argv[])
{
GError *error;
gint ret;
gchar *path;
g_test_init (&argc, &argv, NULL);
session_bus_up ();
/* this is safe; testserver will exit once the bus goes away */
path = g_test_build_filename (G_TEST_BUILT, "gdbus-testserver", NULL);
g_assert_true (g_spawn_command_line_async (path, NULL));
g_free (path);
/* Create the connection in the main thread */
error = NULL;
c = g_bus_get_sync (G_BUS_TYPE_SESSION, NULL, &error);
g_assert_no_error (error);
g_assert_nonnull (c);
ensure_gdbus_testserver_up (c, NULL);
g_test_add_func ("/gdbus/delivery-in-thread", test_delivery_in_thread);
g_test_add_func ("/gdbus/method-calls-in-thread", test_method_calls_in_thread);
g_test_add_func ("/gdbus/threaded-singleton", test_threaded_singleton);
ret = g_test_run();
g_object_unref (c);
/* tear down bus */
session_bus_down ();
return ret;
}