wayland/tests/display-test.c
Simon Ser 2fb4cdebbe tests: add a test for dynamic filtered globals
Ensure dynamically created and destroyed globals which are filtered
don't trigger any global/global_remove event.

Signed-off-by: Simon Ser <contact@emersion.fr>
2022-06-15 07:53:19 +00:00

1713 lines
40 KiB
C

/*
* Copyright © 2012 Intel Corporation
* Copyright © 2013 Jason Ekstrand
*
* 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 (including the
* next paragraph) 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.
*/
#define _GNU_SOURCE
#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdarg.h>
#include <stdint.h>
#include <string.h>
#include <assert.h>
#include <sys/socket.h>
#include <unistd.h>
#include <errno.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/mman.h>
#include <pthread.h>
#include <poll.h>
#include "wayland-private.h"
#include "wayland-server.h"
#include "wayland-client.h"
#include "test-runner.h"
#include "test-compositor.h"
#include "tests-server-protocol.h"
#include "tests-client-protocol.h"
struct display_destroy_listener {
struct wl_listener listener;
int done;
};
static void
display_destroy_notify(struct wl_listener *l, void *data)
{
struct display_destroy_listener *listener;
listener = wl_container_of(l, listener, listener);
listener->done = 1;
}
TEST(display_destroy_listener)
{
struct wl_display *display;
struct display_destroy_listener a, b;
display = wl_display_create();
assert(display);
a.listener.notify = &display_destroy_notify;
a.done = 0;
wl_display_add_destroy_listener(display, &a.listener);
assert(wl_display_get_destroy_listener(display, display_destroy_notify) ==
&a.listener);
b.listener.notify = display_destroy_notify;
b.done = 0;
wl_display_add_destroy_listener(display, &b.listener);
wl_list_remove(&a.listener.link);
wl_display_destroy(display);
assert(!a.done);
assert(b.done);
}
/* Fake 'client' which does not use wl_display_connect, and thus leaves the
* file descriptor passed through WAYLAND_SOCKET intact. This should not
* trigger an assertion in the leak check. */
static void
empty_client(void)
{
return;
}
TEST(tc_leaks_tests)
{
struct display *d = display_create();
client_create_noarg(d, empty_client);
display_run(d);
display_destroy(d);
}
/* This is how pre proxy-version registry binds worked,
* this should create a proxy that shares the display's
* version number: 0 */
static void *
old_registry_bind(struct wl_registry *wl_registry,
uint32_t name,
const struct wl_interface *interface,
uint32_t version)
{
struct wl_proxy *id;
id = wl_proxy_marshal_constructor(
(struct wl_proxy *) wl_registry, WL_REGISTRY_BIND,
interface, name, interface->name, version, NULL);
return (void *) id;
}
struct handler_info {
struct wl_seat *seat;
uint32_t bind_version;
bool use_unversioned;
};
static void
registry_handle_globals(void *data, struct wl_registry *registry,
uint32_t id, const char *intf, uint32_t ver)
{
struct handler_info *hi = data;
/* This is only for the proxy version test */
if (hi->bind_version)
ver = hi->bind_version;
if (strcmp(intf, "wl_seat") == 0) {
if (hi->use_unversioned)
hi->seat = old_registry_bind(registry, id,
&wl_seat_interface, ver);
else
hi->seat = wl_registry_bind(registry, id,
&wl_seat_interface, ver);
assert(hi->seat);
}
}
static const struct wl_registry_listener registry_listener = {
registry_handle_globals,
NULL
};
static struct wl_seat *
client_get_seat_with_info(struct client *c, struct handler_info *hi)
{
struct wl_registry *reg = wl_display_get_registry(c->wl_display);
assert(reg);
assert(hi);
hi->seat = NULL;
wl_registry_add_listener(reg, &registry_listener, hi);
wl_display_roundtrip(c->wl_display);
assert(hi->seat);
wl_registry_destroy(reg);
return hi->seat;
}
static struct wl_seat *
client_get_seat(struct client *c)
{
struct handler_info hi;
hi.use_unversioned = false;
hi.bind_version = 0;
return client_get_seat_with_info(c, &hi);
}
static void
check_pending_error(struct client *c, struct wl_proxy *proxy)
{
uint32_t ec, id;
int err;
const struct wl_interface *intf;
err = wl_display_get_error(c->wl_display);
assert(err == EPROTO);
ec = wl_display_get_protocol_error(c->wl_display, &intf, &id);
assert(ec == 23);
assert(intf == &wl_seat_interface);
assert(id == wl_proxy_get_id(proxy));
}
static void
check_for_error(struct client *c, struct wl_proxy *proxy)
{
/* client should be disconnected */
assert(wl_display_roundtrip(c->wl_display) == -1);
check_pending_error(c, proxy);
}
static struct client_info *
find_client_info(struct display *d, struct wl_client *client)
{
struct client_info *ci;
wl_list_for_each(ci, &d->clients, link) {
if (ci->wl_client == client)
return ci;
}
return NULL;
}
static void
bind_seat(struct wl_client *client, void *data,
uint32_t vers, uint32_t id)
{
struct display *d = data;
struct client_info *ci;
struct wl_resource *res;
ci = find_client_info(d, client);
assert(ci);
res = wl_resource_create(client, &wl_seat_interface, vers, id);
assert(res);
/* save the resource as client's info data,
* so that we can use it later */
ci->data = res;
}
static void
client_disconnect_nocheck(struct client *c)
{
wl_proxy_destroy((struct wl_proxy *) c->tc);
wl_display_disconnect(c->wl_display);
free(c);
}
static void
post_error_main(void)
{
struct client *c = client_connect();
struct wl_seat *seat = client_get_seat(c);
/* stop display so that it can post the error.
* The function should return -1, because of the posted error */
assert(stop_display(c, 1) == -1);
/* display should have posted error, check it! */
check_for_error(c, (struct wl_proxy *) seat);
/* don't call client_disconnect(c), because then the test would be
* aborted due to checks for error in this function */
wl_proxy_destroy((struct wl_proxy *) seat);
client_disconnect_nocheck(c);
}
TEST(post_error_to_one_client)
{
struct display *d = display_create();
struct client_info *cl;
wl_global_create(d->wl_display, &wl_seat_interface,
1, d, bind_seat);
cl = client_create_noarg(d, post_error_main);
display_run(d);
/* the display was stopped by client, so it can
* proceed in the code and post an error */
assert(cl->data);
wl_resource_post_error((struct wl_resource *) cl->data,
23, "Dummy error");
/* this one should be ignored */
wl_resource_post_error((struct wl_resource *) cl->data,
21, "Dummy error (ignore)");
display_resume(d);
display_destroy(d);
}
static void
post_error_main2(void)
{
struct client *c = client_connect();
struct wl_seat *seat = client_get_seat(c);
/* the error should not be posted for this client */
assert(stop_display(c, 2) >= 0);
wl_proxy_destroy((struct wl_proxy *) seat);
client_disconnect(c);
}
static void
post_error_main3(void)
{
struct client *c = client_connect();
struct wl_seat *seat = client_get_seat(c);
assert(stop_display(c, 2) == -1);
check_for_error(c, (struct wl_proxy *) seat);
/* don't call client_disconnect(c), because then the test would be
* aborted due to checks for error in this function */
wl_proxy_destroy((struct wl_proxy *) seat);
client_disconnect_nocheck(c);
}
/* all the testcases could be in one TEST, but splitting it
* apart is better for debugging when the test fails */
TEST(post_error_to_one_from_two_clients)
{
struct display *d = display_create();
struct client_info *cl;
wl_global_create(d->wl_display, &wl_seat_interface,
1, d, bind_seat);
client_create_noarg(d, post_error_main2);
cl = client_create_noarg(d, post_error_main3);
display_run(d);
/* post error only to the second client */
assert(cl->data);
wl_resource_post_error((struct wl_resource *) cl->data,
23, "Dummy error");
wl_resource_post_error((struct wl_resource *) cl->data,
21, "Dummy error (ignore)");
display_resume(d);
display_destroy(d);
}
/* all the testcases could be in one TEST, but splitting it
* apart is better for debugging when the test fails */
TEST(post_error_to_two_clients)
{
struct display *d = display_create();
struct client_info *cl, *cl2;
wl_global_create(d->wl_display, &wl_seat_interface,
1, d, bind_seat);
cl = client_create_noarg(d, post_error_main3);
cl2 = client_create_noarg(d, post_error_main3);
display_run(d);
/* Try to send the error to both clients */
assert(cl->data && cl2->data);
wl_resource_post_error((struct wl_resource *) cl->data,
23, "Dummy error");
wl_resource_post_error((struct wl_resource *) cl->data,
21, "Dummy error (ignore)");
wl_resource_post_error((struct wl_resource *) cl2->data,
23, "Dummy error");
wl_resource_post_error((struct wl_resource *) cl2->data,
21, "Dummy error (ignore)");
display_resume(d);
display_destroy(d);
}
static void
post_nomem_main(void)
{
struct client *c = client_connect();
struct wl_seat *seat = client_get_seat(c);
assert(stop_display(c, 1) == -1);
assert(wl_display_get_error(c->wl_display) == ENOMEM);
wl_proxy_destroy((struct wl_proxy *) seat);
client_disconnect_nocheck(c);
}
TEST(post_nomem_tst)
{
struct display *d = display_create();
struct client_info *cl;
wl_global_create(d->wl_display, &wl_seat_interface,
1, d, bind_seat);
cl = client_create_noarg(d, post_nomem_main);
display_run(d);
assert(cl->data);
wl_resource_post_no_memory((struct wl_resource *) cl->data);
display_resume(d);
/* first client terminated. Run it again,
* but post no memory to client */
cl = client_create_noarg(d, post_nomem_main);
display_run(d);
assert(cl->data);
wl_client_post_no_memory(cl->wl_client);
display_resume(d);
display_destroy(d);
}
static void
post_implementation_error_main(void)
{
struct client *c = client_connect();
struct wl_seat *seat = client_get_seat(c);
uint32_t object_id, protocol_error;
const struct wl_interface *interface;
assert(stop_display(c, 1) == -1);
int err = wl_display_get_error(c->wl_display);
fprintf(stderr, "Err is %i\n", err);
assert(err == EPROTO);
protocol_error = wl_display_get_protocol_error(c->wl_display,
&interface,
&object_id);
assert(protocol_error == WL_DISPLAY_ERROR_IMPLEMENTATION);
assert(interface == &wl_display_interface);
wl_proxy_destroy((struct wl_proxy *) seat);
client_disconnect_nocheck(c);
}
TEST(post_internal_error_tst)
{
struct display *d = display_create();
struct client_info *cl;
wl_global_create(d->wl_display, &wl_seat_interface,
1, d, bind_seat);
cl = client_create_noarg(d, post_implementation_error_main);
display_run(d);
wl_client_post_implementation_error(cl->wl_client, "Error %i", 20);
display_resume(d);
display_destroy(d);
}
static void
register_reading(struct wl_display *display)
{
while(wl_display_prepare_read(display) != 0 && errno == EAGAIN)
assert(wl_display_dispatch_pending(display) >= 0);
assert(wl_display_flush(display) >= 0);
}
/* create thread that will call prepare+read so that
* it will block */
static pthread_t
create_thread(struct client *c, void *(*func)(void*))
{
pthread_t thread;
c->display_stopped = 0;
/* func must set display->stopped to 1 before sleeping */
assert(pthread_create(&thread, NULL, func, c) == 0);
/* make sure the thread is sleeping. It's a little bit racy
* (setting display_stopped to 1 and calling wl_display_read_events)
* so call usleep once again after the loop ends - it should
* be sufficient... */
while (c->display_stopped == 0)
test_usleep(500);
test_usleep(10000);
return thread;
}
static void *
thread_read_error(void *data)
{
struct client *c = data;
register_reading(c->wl_display);
/*
* Calling the read right now will block this thread
* until the other thread will read the data.
* However, after invoking an error, this
* thread should be woken up or it will block indefinitely.
*/
c->display_stopped = 1;
assert(wl_display_read_events(c->wl_display) == -1);
assert(wl_display_dispatch_pending(c->wl_display) == -1);
assert(wl_display_get_error(c->wl_display));
pthread_exit(NULL);
}
/* test posting an error in multi-threaded environment. */
static void
threading_post_err(void)
{
DISABLE_LEAK_CHECKS;
struct client *c = client_connect();
pthread_t thread;
/* register read intention */
register_reading(c->wl_display);
/* use this var as an indicator that thread is sleeping */
c->display_stopped = 0;
/* create new thread that will register its intention too */
thread = create_thread(c, thread_read_error);
/* so now we have sleeping thread waiting for a pthread_cond signal.
* The main thread must call wl_display_read_events().
* If this call fails, then it won't call broadcast at the
* end of the function and the sleeping thread will block indefinitely.
* Make the call fail and watch if libwayland will unblock the thread! */
/* create error on fd, so that wl_display_read_events will fail.
* The same can happen when server hangs up */
close(wl_display_get_fd(c->wl_display));
/* this read events will fail and will
* post an error that should wake the sleeping thread
* and dispatch the incoming events */
assert(wl_display_read_events(c->wl_display) == -1);
/* kill test in 3 seconds. This should be enough time for the
* thread to exit if it's not blocking. If everything is OK, than
* the thread was woken up and the test will end before the SIGALRM */
test_set_timeout(3);
pthread_join(thread, NULL);
client_disconnect_nocheck(c);
}
TEST(threading_errors_tst)
{
struct display *d = display_create();
client_create_noarg(d, threading_post_err);
display_run(d);
display_destroy(d);
}
static void *
thread_prepare_and_read(void *data)
{
struct client *c = data;
register_reading(c->wl_display);
c->display_stopped = 1;
assert(wl_display_read_events(c->wl_display) == 0);
assert(wl_display_dispatch_pending(c->wl_display) == 0);
pthread_exit(NULL);
}
/* test cancel read*/
static void
threading_cancel_read(void)
{
DISABLE_LEAK_CHECKS;
struct client *c = client_connect();
pthread_t th1, th2, th3;
register_reading(c->wl_display);
th1 = create_thread(c, thread_prepare_and_read);
th2 = create_thread(c, thread_prepare_and_read);
th3 = create_thread(c, thread_prepare_and_read);
/* all the threads are sleeping, waiting until read or cancel
* is called. Cancel the read and let the threads proceed */
wl_display_cancel_read(c->wl_display);
/* kill test in 3 seconds. This should be enough time for the
* thread to exit if it's not blocking. If everything is OK, than
* the thread was woken up and the test will end before the SIGALRM */
test_set_timeout(3);
pthread_join(th1, NULL);
pthread_join(th2, NULL);
pthread_join(th3, NULL);
client_disconnect(c);
}
TEST(threading_cancel_read_tst)
{
struct display *d = display_create();
client_create_noarg(d, threading_cancel_read);
display_run(d);
display_destroy(d);
}
static void
threading_read_eagain(void)
{
DISABLE_LEAK_CHECKS;
struct client *c = client_connect();
pthread_t th1, th2, th3;
register_reading(c->wl_display);
th1 = create_thread(c, thread_prepare_and_read);
th2 = create_thread(c, thread_prepare_and_read);
th3 = create_thread(c, thread_prepare_and_read);
/* All the threads are sleeping, waiting until read or cancel
* is called. Since we have no data on socket waiting,
* the wl_connection_read should end up with error and set errno
* to EAGAIN. Check if the threads are woken up in this case. */
assert(wl_display_read_events(c->wl_display) == 0);
/* errno should be still set to EAGAIN if wl_connection_read
* set it - check if we're testing the right case */
assert(errno == EAGAIN);
test_set_timeout(3);
pthread_join(th1, NULL);
pthread_join(th2, NULL);
pthread_join(th3, NULL);
client_disconnect(c);
}
TEST(threading_read_eagain_tst)
{
struct display *d = display_create();
client_create_noarg(d, threading_read_eagain);
display_run(d);
display_destroy(d);
}
static void *
thread_prepare_and_read2(void *data)
{
struct client *c = data;
while(wl_display_prepare_read(c->wl_display) != 0 && errno == EAGAIN)
assert(wl_display_dispatch_pending(c->wl_display) == -1);
assert(wl_display_flush(c->wl_display) == -1);
c->display_stopped = 1;
assert(wl_display_read_events(c->wl_display) == -1);
assert(wl_display_dispatch_pending(c->wl_display) == -1);
pthread_exit(NULL);
}
static void
threading_read_after_error(void)
{
DISABLE_LEAK_CHECKS;
struct client *c = client_connect();
pthread_t thread;
/* create an error */
close(wl_display_get_fd(c->wl_display));
assert(wl_display_dispatch(c->wl_display) == -1);
/* try to prepare for reading */
while(wl_display_prepare_read(c->wl_display) != 0 && errno == EAGAIN)
assert(wl_display_dispatch_pending(c->wl_display) == -1);
assert(wl_display_flush(c->wl_display) == -1);
assert(pthread_create(&thread, NULL,
thread_prepare_and_read2, c) == 0);
/* make sure thread is sleeping */
while (c->display_stopped == 0)
test_usleep(500);
test_usleep(10000);
assert(wl_display_read_events(c->wl_display) == -1);
/* kill test in 3 seconds */
test_set_timeout(3);
pthread_join(thread, NULL);
client_disconnect_nocheck(c);
}
TEST(threading_read_after_error_tst)
{
struct display *d = display_create();
client_create_noarg(d, threading_read_after_error);
display_run(d);
display_destroy(d);
}
static void
wait_for_error_using_dispatch(struct client *c, struct wl_proxy *proxy)
{
int ret;
while (true) {
/* Dispatching should eventually hit the protocol error before
* any other error. */
ret = wl_display_dispatch(c->wl_display);
if (ret == 0) {
continue;
} else {
assert(errno == EPROTO);
break;
}
}
check_pending_error(c, proxy);
}
static void
wait_for_error_using_prepare_read(struct client *c, struct wl_proxy *proxy)
{
int ret = 0;
struct pollfd pfd[2];
while (true) {
while (wl_display_prepare_read(c->wl_display) != 0 &&
errno == EAGAIN) {
assert(wl_display_dispatch_pending(c->wl_display) >= 0);
}
/* Flush may fail due to EPIPE if the connection is broken, but
* this must not set a fatal display error because that would
* result in it being impossible to read a potential protocol
* error. */
do {
ret = wl_display_flush(c->wl_display);
} while (ret == -1 && (errno == EINTR || errno == EAGAIN));
assert(ret >= 0 || errno == EPIPE);
assert(wl_display_get_error(c->wl_display) == 0);
pfd[0].fd = wl_display_get_fd(c->wl_display);
pfd[0].events = POLLIN;
do {
ret = poll(pfd, 1, -1);
} while (ret == -1 && errno == EINTR);
assert(ret != -1);
/* We should always manage to read the error before the EPIPE
* comes this way. */
assert(wl_display_read_events(c->wl_display) == 0);
/* Dispatching should eventually hit the protocol error before
* any other error. */
ret = wl_display_dispatch_pending(c->wl_display);
if (ret == 0) {
continue;
} else {
assert(errno == EPROTO);
break;
}
}
check_pending_error(c, proxy);
}
static void
check_error_after_epipe(void *data)
{
bool use_dispatch_helpers = *(bool *) data;
struct client *client;
struct wl_seat *seat;
struct wl_callback *callback;
client = client_connect();
/* This will, according to the implementation below, cause the server
* to post an error. */
seat = client_get_seat(client);
wl_display_flush(client->wl_display);
/* The server will not actually destroy the client until it receives
* input, so send something to trigger the client destruction. */
callback = wl_display_sync(client->wl_display);
wl_callback_destroy(callback);
/* Sleep some to give the server a chance to react and destroy the
* client. */
test_usleep(200000);
/* Wait for the protocol error and check that we reached it before
* EPIPE. */
if (use_dispatch_helpers) {
wait_for_error_using_dispatch(client, (struct wl_proxy *) seat);
} else {
wait_for_error_using_prepare_read(client,
(struct wl_proxy *) seat);
}
wl_seat_destroy(seat);
client_disconnect_nocheck(client);
}
static void
bind_seat_and_post_error(struct wl_client *client, void *data,
uint32_t version, uint32_t id)
{
struct display *d = data;
struct client_info *ci;
struct wl_resource *resource;
ci = find_client_info(d, client);
assert(ci);
resource = wl_resource_create(client, &wl_seat_interface, version, id);
assert(resource);
ci->data = resource;
wl_resource_post_error(ci->data, 23, "Dummy error");
}
TEST(error_code_after_epipe)
{
struct display *d = display_create();
bool use_dispatch_helpers;
wl_global_create(d->wl_display, &wl_seat_interface,
1, d, bind_seat_and_post_error);
use_dispatch_helpers = true;
client_create(d, check_error_after_epipe, &use_dispatch_helpers);
display_run(d);
use_dispatch_helpers = false;
client_create(d, check_error_after_epipe, &use_dispatch_helpers);
display_run(d);
display_destroy(d);
}
static void
check_seat_versions(struct wl_seat *seat, uint32_t ev)
{
struct wl_pointer *pointer;
assert(wl_proxy_get_version((struct wl_proxy *) seat) == ev);
assert(wl_seat_get_version(seat) == ev);
pointer = wl_seat_get_pointer(seat);
assert(wl_pointer_get_version(pointer) == ev);
assert(wl_proxy_get_version((struct wl_proxy *) pointer) == ev);
wl_proxy_destroy((struct wl_proxy *) pointer);
}
/* Normal client with proxy versions available. */
static void
seat_version(void *data)
{
struct handler_info *hi = data;
struct client *c = client_connect();
struct wl_seat *seat;
/* display proxy should always be version 0 */
assert(wl_proxy_get_version((struct wl_proxy *) c->wl_display) == 0);
seat = client_get_seat_with_info(c, hi);
if (hi->use_unversioned)
check_seat_versions(seat, 0);
else
check_seat_versions(seat, hi->bind_version);
wl_proxy_destroy((struct wl_proxy *) seat);
client_disconnect_nocheck(c);
}
TEST(versions)
{
struct display *d = display_create();
struct wl_global *global;
int i;
global = wl_global_create(d->wl_display, &wl_seat_interface,
5, d, bind_seat);
for (i = 1; i <= 5; i++) {
struct handler_info hi;
hi.bind_version = i;
hi.use_unversioned = false;
client_create(d, seat_version, &hi);
hi.use_unversioned = true;
client_create(d, seat_version, &hi);
}
display_run(d);
wl_global_destroy(global);
display_destroy(d);
}
static void
check_error_on_destroyed_object(void *data)
{
struct client *c;
struct wl_seat *seat;
uint32_t id;
const struct wl_interface *intf;
c = client_connect();
seat = client_get_seat(c);
/* destroy the seat proxy. The display won't know
* about it yet, so it will post the error as usual */
wl_proxy_destroy((struct wl_proxy *) seat);
/* let display post the error. The error will
* be caught in stop_display while dispatching */
assert(stop_display(c, 1) == -1);
/* check the returned error. Since the object was destroyed,
* we don't know the interface and id */
assert(wl_display_get_error(c->wl_display) == EPROTO);
assert(wl_display_get_protocol_error(c->wl_display, &intf, &id) == 23);
assert(intf == NULL);
assert(id == 0);
client_disconnect_nocheck(c);
}
TEST(error_on_destroyed_object)
{
struct client_info *cl;
struct display *d = display_create();
wl_global_create(d->wl_display, &wl_seat_interface,
1, d, bind_seat);
cl = client_create_noarg(d, check_error_on_destroyed_object);
display_run(d);
/* did client bind to the seat? */
assert(cl->data);
/* post error on the destroyed object */
wl_resource_post_error((struct wl_resource *) cl->data,
23, "Dummy error");
display_resume(d);
display_destroy(d);
}
static bool
global_filter(const struct wl_client *client,
const struct wl_global *global,
void *data)
{
/* Hide the wl_data_offer interface if no data was provided */
if (wl_global_get_interface(global) == &wl_data_offer_interface)
return data != NULL;
/* Show all the others */
return true;
}
static void
bind_data_offer(struct wl_client *client, void *data,
uint32_t vers, uint32_t id)
{
/* Client should not be able to bind to this interface! */
assert(false);
}
static void
registry_handle_filtered(void *data, struct wl_registry *registry,
uint32_t id, const char *intf, uint32_t ver)
{
uint32_t *name = data;
if (strcmp (intf, "wl_data_offer") == 0) {
assert(name);
*name = id;
}
}
static void
registry_handle_remove_filtered(void *data, struct wl_registry *registry,
uint32_t id)
{
assert(false);
}
static const struct wl_registry_listener registry_listener_filtered = {
registry_handle_filtered,
registry_handle_remove_filtered,
};
static void
get_globals(void *data)
{
struct client *c = client_connect();
struct wl_registry *registry;
registry = wl_display_get_registry(c->wl_display);
wl_registry_add_listener(registry, &registry_listener_filtered, data);
wl_display_roundtrip(c->wl_display);
wl_registry_destroy(registry);
client_disconnect_nocheck(c);
}
TEST(filtered_global_is_hidden)
{
struct display *d;
struct wl_global *g;
d = display_create();
g = wl_global_create(d->wl_display, &wl_data_offer_interface,
1, d, bind_data_offer);
wl_display_set_global_filter(d->wl_display, global_filter, NULL);
client_create_noarg(d, get_globals);
display_run(d);
wl_global_destroy(g);
display_destroy(d);
}
static void
get_dynamic_globals(void *data)
{
struct client *c = client_connect();
struct wl_registry *registry;
registry = wl_display_get_registry(c->wl_display);
wl_registry_add_listener(registry, &registry_listener_filtered, data);
wl_display_roundtrip(c->wl_display);
/* Wait for the server to create a new global */
assert(stop_display(c, 1) >= 0);
/* Check that we don't see it */
wl_display_roundtrip(c->wl_display);
/* Wait for the server to remove that global */
assert(stop_display(c, 1) >= 0);
/* Check that we don't get a global_remove event */
wl_display_roundtrip(c->wl_display);
wl_registry_destroy(registry);
client_disconnect_nocheck(c);
}
TEST(filtered_dynamic_global_is_hidden)
{
struct display *d;
struct wl_global *g;
d = display_create();
wl_display_set_global_filter(d->wl_display, global_filter, NULL);
/* Create a client and let it enumerate the globals */
client_create_noarg(d, get_dynamic_globals);
display_run(d);
/* Dynamically create a new global */
g = wl_global_create(d->wl_display, &wl_data_offer_interface,
1, d, bind_data_offer);
display_resume(d);
/* Dynamically remove the global */
wl_global_destroy(g);
display_resume(d);
display_destroy(d);
}
static void
check_bind_error(struct client *c)
{
uint32_t errorcode, id;
int err;
const struct wl_interface *intf;
err = wl_display_get_error(c->wl_display);
assert(err == EPROTO);
errorcode = wl_display_get_protocol_error(c->wl_display, &intf, &id);
assert(errorcode == WL_DISPLAY_ERROR_INVALID_OBJECT);
}
static void
force_bind(void *data)
{
struct client *c = client_connect();
struct wl_registry *registry;
void *ptr;
uint32_t *name = data;
registry = wl_display_get_registry(c->wl_display);
ptr = wl_registry_bind (registry, *name, &wl_data_offer_interface, 1);
wl_display_roundtrip(c->wl_display);
check_bind_error(c);
wl_proxy_destroy((struct wl_proxy *) ptr);
wl_registry_destroy(registry);
client_disconnect_nocheck(c);
}
TEST(bind_fails_on_filtered_global)
{
struct display *d;
struct wl_global *g;
uint32_t *name;
/* Create a anonymous shared memory to pass the interface name */
name = mmap(NULL, sizeof(uint32_t),
PROT_READ|PROT_WRITE, MAP_SHARED|MAP_ANONYMOUS, -1, 0);
d = display_create();
g = wl_global_create(d->wl_display, &wl_data_offer_interface,
1, d, bind_data_offer);
wl_display_set_global_filter(d->wl_display, global_filter, name);
client_create(d, get_globals, name);
*name = 0;
display_run(d);
/* wl_data_offer should be 2 */
assert(*name == 2);
wl_display_set_global_filter(d->wl_display, global_filter, NULL);
/* Try to bind to the interface name when a global filter is in place */
client_create(d, force_bind, name);
display_run(d);
wl_global_destroy(g);
display_destroy(d);
}
static void
pre_fd(void *data, struct fd_passer *fdp)
{
fd_passer_destroy(fdp);
}
static void
fd(void *data, struct fd_passer *fdp, int32_t fd)
{
/* We destroyed the resource before this event */
assert(false);
}
struct fd_passer_listener fd_passer_listener = {
pre_fd,
fd,
};
static void
zombie_fd_handle_globals(void *data, struct wl_registry *registry,
uint32_t id, const char *intf, uint32_t ver)
{
struct fd_passer *fdp;
if (!strcmp(intf, "fd_passer")) {
fdp = wl_registry_bind(registry, id, &fd_passer_interface, 1);
fd_passer_add_listener(fdp, &fd_passer_listener, NULL);
}
}
static const struct wl_registry_listener zombie_fd_registry_listener = {
zombie_fd_handle_globals,
NULL
};
static void
zombie_client(void *data)
{
struct client *c = client_connect();
struct wl_registry *registry;
registry = wl_display_get_registry(c->wl_display);
wl_registry_add_listener(registry, &zombie_fd_registry_listener, NULL);
/* Gets the registry */
wl_display_roundtrip(c->wl_display);
/* push out the fd_passer bind */
wl_display_roundtrip(c->wl_display);
/* push out our fd_passer.destroy */
wl_display_roundtrip(c->wl_display);
wl_registry_destroy(registry);
client_disconnect_nocheck(c);
}
struct passer_data {
struct wl_resource *conjoined_passer;
};
static void
feed_pipe(int fd, char tosend)
{
int count;
do {
count = write(fd, &tosend, 1);
} while (count != 1 && errno == EAGAIN);
assert(count == 1);
close(fd);
}
static void
fd_passer_clobber(struct wl_client *client, struct wl_resource *res)
{
struct passer_data *pdata = wl_resource_get_user_data(res);
int pipes1[2], pipes2[2], ret;
if (pdata->conjoined_passer) {
ret = pipe(pipes1);
assert(ret == 0);
ret = pipe(pipes2);
assert(ret == 0);
wl_resource_queue_event(res, FD_PASSER_FD, pipes1[0]);
fd_passer_send_fd(pdata->conjoined_passer, pipes2[0]);
feed_pipe(pipes1[1], '1');
feed_pipe(pipes2[1], '2');
close(pipes1[0]);
close(pipes2[0]);
}
wl_resource_destroy(res);
}
static void
fd_passer_twin(struct wl_client *client, struct wl_resource *res, struct wl_resource *passer)
{
struct passer_data *pdata = wl_resource_get_user_data(res);
pdata->conjoined_passer = passer;
}
static const struct fd_passer_interface fdp_interface = {
fd_passer_clobber,
fd_passer_twin
};
static void
pdata_destroy(struct wl_resource *res)
{
struct passer_data *pdata = wl_resource_get_user_data(res);
free(pdata);
}
static void
bind_fd_passer(struct wl_client *client, void *data,
uint32_t vers, uint32_t id)
{
struct wl_resource *res;
struct passer_data *pdata;
pdata = malloc(sizeof(*pdata));
assert(pdata);
pdata->conjoined_passer = NULL;
res = wl_resource_create(client, &fd_passer_interface, vers, id);
wl_resource_set_implementation(res, &fdp_interface, pdata, pdata_destroy);
assert(res);
if (vers == 1) {
fd_passer_send_pre_fd(res);
fd_passer_send_fd(res, fileno(stdin));
}
}
TEST(zombie_fd)
{
struct display *d;
struct wl_global *g;
d = display_create();
g = wl_global_create(d->wl_display, &fd_passer_interface,
1, d, bind_fd_passer);
client_create_noarg(d, zombie_client);
display_run(d);
wl_global_destroy(g);
display_destroy(d);
}
static void
double_pre_fd(void *data, struct fd_passer *fdp)
{
assert(false);
}
static void
double_fd(void *data, struct fd_passer *fdp, int32_t fd)
{
char buf;
int count;
do {
count = read(fd, &buf, 1);
} while (count != 1 && errno == EAGAIN);
assert(count == 1);
close(fd);
fd_passer_destroy(fdp);
assert(buf == '2');
}
struct fd_passer_listener double_fd_passer_listener = {
double_pre_fd,
double_fd,
};
static void
double_zombie_fd_handle_globals(void *data, struct wl_registry *registry,
uint32_t id, const char *intf, uint32_t ver)
{
struct fd_passer *fdp1, *fdp2;
if (!strcmp(intf, "fd_passer")) {
fdp1 = wl_registry_bind(registry, id, &fd_passer_interface, 2);
fd_passer_add_listener(fdp1, &double_fd_passer_listener, NULL);
fdp2 = wl_registry_bind(registry, id, &fd_passer_interface, 2);
fd_passer_add_listener(fdp2, &double_fd_passer_listener, NULL);
fd_passer_conjoin(fdp1, fdp2);
fd_passer_destroy(fdp1);
}
}
static const struct wl_registry_listener double_zombie_fd_registry_listener = {
double_zombie_fd_handle_globals,
NULL
};
static void
double_zombie_client(void *data)
{
struct client *c = client_connect();
struct wl_registry *registry;
registry = wl_display_get_registry(c->wl_display);
wl_registry_add_listener(registry, &double_zombie_fd_registry_listener, NULL);
/* Gets the registry */
wl_display_roundtrip(c->wl_display);
/* One more so server can respond to conjoin+destroy */
wl_display_roundtrip(c->wl_display);
/* And finally push out our last fd_passer.destroy */
wl_display_roundtrip(c->wl_display);
wl_registry_destroy(registry);
client_disconnect_nocheck(c);
}
TEST(zombie_fd_errant_consumption)
{
struct display *d;
struct wl_global *g;
d = display_create();
g = wl_global_create(d->wl_display, &fd_passer_interface,
2, d, bind_fd_passer);
client_create_noarg(d, double_zombie_client);
display_run(d);
wl_global_destroy(g);
display_destroy(d);
}
static void
registry_bind_interface_mismatch_handle_global(void *data,
struct wl_registry *registry,
uint32_t id, const char *intf,
uint32_t ver)
{
uint32_t *seat_id_ptr = data;
if (strcmp(intf, wl_seat_interface.name) == 0) {
*seat_id_ptr = id;
}
}
static const struct wl_registry_listener bind_interface_mismatch_registry_listener = {
registry_bind_interface_mismatch_handle_global,
NULL
};
static void
registry_bind_interface_mismatch_client(void *data)
{
struct client *c = client_connect();
struct wl_registry *registry;
uint32_t seat_id = 0;
void *ptr;
int ret;
registry = wl_display_get_registry(c->wl_display);
wl_registry_add_listener(registry,
&bind_interface_mismatch_registry_listener,
&seat_id);
ret = wl_display_roundtrip(c->wl_display);
assert(ret >= 0);
assert(seat_id != 0);
/* Bind with a different interface */
ptr = wl_registry_bind(registry, seat_id, &wl_output_interface, 1);
ret = wl_display_roundtrip(c->wl_display);
assert(ret < 0);
check_bind_error(c);
wl_proxy_destroy((struct wl_proxy *) ptr);
wl_registry_destroy(registry);
client_disconnect_nocheck(c);
}
TEST(registry_bind_interface_mismatch)
{
struct display *d;
struct wl_global *seat_global;
d = display_create();
seat_global = wl_global_create(d->wl_display, &wl_seat_interface,
1, NULL, NULL);
client_create_noarg(d, registry_bind_interface_mismatch_client);
display_run(d);
wl_global_destroy(seat_global);
display_destroy(d);
}
static void
send_overflow_client(void *data)
{
struct client *c = client_connect();
int i, err = 0;
int *pipes = data;
char tmp = '\0';
int sock, optval = 16384;
/* Limit the send buffer size for the display socket to guarantee
* that the test will cause an overflow. */
sock = wl_display_get_fd(c->wl_display);
assert(setsockopt(sock, SOL_SOCKET, SO_SNDBUF, &optval, sizeof(optval)) == 0);
/* Request to break out of 'display_run' in the main process */
assert(stop_display(c, 1) >= 0);
/* On Linux, the actual socket data + metadata space is twice `optval`;
* since each noop request requires 8 bytes, the buffer should overflow
* within <=4096 iterations. */
for (i = 0; i < 1000000; i++) {
noop_request(c);
err = wl_display_get_error(c->wl_display);
if (err)
break;
}
/* Do not close the pipe file descriptors afterwards, because the leak
* check verifies that the initial/final FD counts are the same */
assert(write(pipes[1], &tmp, sizeof(tmp)) == (ssize_t)sizeof(tmp));
/* Expect an error */
fprintf(stderr, "Send loop failed on try %d, err = %d, %s\n", i, err, strerror(err));
assert(err == EAGAIN);
client_disconnect_nocheck(c);
}
TEST(send_overflow_disconnection)
{
struct display *d;
char tmp;
int rpipe[2];
ssize_t ret;
assert(pipe(rpipe) != -1);
d = display_create();
(void) client_create(d, send_overflow_client, &rpipe);
/* Close write end of the pipe, so that the later read() call gets
* interrupted if the client dies */
close(rpipe[1]);
/* Run the display until the client sends a `stop_display`, then
* send a resume message but don't actually look at new messages */
display_run(d);
display_post_resume_events(d);
wl_display_flush_clients(d->wl_display);
/* Wait until all noop requests have been sent (read returns 1), or
* until client process aborts (read returns 0) */
do {
ret = read(rpipe[0], &tmp, sizeof(tmp));
} while (ret == -1 && errno == EINTR);
assert(ret != -1);
close(rpipe[0]);
/* For a clean shutdown */
display_run(d);
display_destroy(d);
}
static void
registry_global_remove_before_handle_global(void *data,
struct wl_registry *registry,
uint32_t id, const char *intf,
uint32_t ver)
{
uint32_t *id_ptr = data;
if (strcmp(intf, wl_seat_interface.name) == 0) {
assert(*id_ptr == 0);
*id_ptr = id;
}
}
static void
registry_global_remove_before_handle_global_remove(void *data,
struct wl_registry *registry,
uint32_t id)
{
uint32_t *id_ptr = data;
if (*id_ptr == id) {
*id_ptr = 0;
}
}
/* This listener expects a uint32_t user data pointer, sets it to the wl_seat
* global ID when receiving a "global" event, and sets it to zero when receiving
* a "global_remove" event. */
static const struct wl_registry_listener global_remove_before_registry_listener = {
registry_global_remove_before_handle_global,
registry_global_remove_before_handle_global_remove,
};
static void
global_remove_before_client(void *data)
{
struct client *c = client_connect();
struct wl_registry *registry;
uint32_t global_id = 0, saved_global_id;
struct wl_seat *seat;
int ret;
registry = wl_display_get_registry(c->wl_display);
wl_registry_add_listener(registry,
&global_remove_before_registry_listener,
&global_id);
ret = wl_display_roundtrip(c->wl_display);
assert(ret >= 0);
assert(global_id != 0);
saved_global_id = global_id;
/* Wait for the compositor to remove the global */
assert(stop_display(c, 1) >= 0);
/* Check binding still works after the global has been removed. Also
* check we get the global_remove event. */
seat = wl_registry_bind(registry, saved_global_id, &wl_seat_interface, 1);
ret = wl_display_roundtrip(c->wl_display);
assert(ret >= 0);
assert(global_id == 0);
wl_seat_destroy(seat);
wl_registry_destroy(registry);
client_disconnect(c);
}
static void
registry_global_remove_after_handle_global(void *data,
struct wl_registry *registry,
uint32_t id, const char *intf,
uint32_t ver)
{
/* Make sure the global isn't advertised anymore after being removed */
assert(strcmp(intf, wl_seat_interface.name) != 0);
}
static const struct wl_registry_listener global_remove_after_registry_listener = {
registry_global_remove_after_handle_global,
NULL,
};
static void
global_remove_after_client(void *data)
{
struct client *c = client_connect();
struct wl_registry *registry;
uint32_t global_id = 0;
int ret;
registry = wl_display_get_registry(c->wl_display);
wl_registry_add_listener(registry,
&global_remove_after_registry_listener,
&global_id);
ret = wl_display_roundtrip(c->wl_display);
assert(ret >= 0);
wl_registry_destroy(registry);
client_disconnect(c);
}
TEST(global_remove)
{
struct display *d;
struct wl_global *global;
d = display_create();
global = wl_global_create(d->wl_display, &wl_seat_interface,
1, d, bind_seat);
/* Create a client before removing the global */
client_create_noarg(d, global_remove_before_client);
display_run(d);
wl_global_remove(global);
/* Create another client after removing the global */
client_create_noarg(d, global_remove_after_client);
display_resume(d);
wl_global_destroy(global);
display_destroy(d);
}
static void
terminate_display(void *arg)
{
struct wl_display *wl_display = arg;
wl_display_terminate(wl_display);
}
TEST(no_source_terminate)
{
struct display *d;
struct wl_event_loop *loop;
d = display_create();
loop = wl_display_get_event_loop(d->wl_display);
wl_event_loop_add_idle(loop, terminate_display, d->wl_display);
display_run(d);
display_destroy(d);
}