tests/connection-test.c - platform/external/wayland - Git at Google

 /*
  * Copyright © 2012 Intel 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 (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.
  */

 #include <math.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 <poll.h>

 #include "wayland-private.h"
 #include "test-runner.h"
 #include "test-compositor.h"

 static const char message[] = "Hello, world";

 static struct wl_connection *
 setup(int *s)
 {
 	struct wl_connection *connection;

 	assert(socketpair(AF_UNIX, SOCK_STREAM | SOCK_CLOEXEC, 0, s) == 0);

 	connection = wl_connection_create(s[0]);
 	assert(connection);

 	return connection;
 }

 TEST(connection_create)
 {
 	struct wl_connection *connection;
 	int s[2];

 	connection = setup(s);
 	wl_connection_destroy(connection);
 	close(s[0]);
 	close(s[1]);
 }

 TEST(connection_write)
 {
 	struct wl_connection *connection;
 	int s[2];
 	char buffer[64];

 	connection = setup(s);

 	assert(wl_connection_write(connection, message, sizeof message) == 0);
 	assert(wl_connection_flush(connection) == sizeof message);
 	assert(read(s[1], buffer, sizeof buffer) == sizeof message);
 	assert(memcmp(message, buffer, sizeof message) == 0);

 	wl_connection_destroy(connection);
 	close(s[0]);
 	close(s[1]);
 }

 TEST(connection_data)
 {
 	struct wl_connection *connection;
 	int s[2];
 	char buffer[64];

 	connection = setup(s);

 	assert(write(s[1], message, sizeof message) == sizeof message);
 	assert(wl_connection_read(connection) == sizeof message);
 	wl_connection_copy(connection, buffer, sizeof message);
 	assert(memcmp(message, buffer, sizeof message) == 0);
 	wl_connection_consume(connection, sizeof message);

 	wl_connection_destroy(connection);
 	close(s[0]);
 	close(s[1]);
 }

 TEST(connection_queue)
 {
 	struct wl_connection *connection;
 	int s[2];
 	char buffer[64];

 	connection = setup(s);

 	/* Test that wl_connection_queue() puts data in the output
 	 * buffer without flush it.  Verify that the data did get in
 	 * the buffer by writing another message and making sure that
 	 * we receive the two messages on the other fd. */

 	assert(wl_connection_queue(connection, message, sizeof message) == 0);
 	assert(wl_connection_flush(connection) == 0);
 	assert(wl_connection_write(connection, message, sizeof message) == 0);
 	assert(wl_connection_flush(connection) == 2 * sizeof message);
 	assert(read(s[1], buffer, sizeof buffer) == 2 * sizeof message);
 	assert(memcmp(message, buffer, sizeof message) == 0);
 	assert(memcmp(message, buffer + sizeof message, sizeof message) == 0);

 	wl_connection_destroy(connection);
 	close(s[0]);
 	close(s[1]);
 }

 struct marshal_data {
 	struct wl_connection *read_connection;
 	struct wl_connection *write_connection;
 	int s[2];
 	uint32_t buffer[10];
 	union {
 		uint32_t u;
 		int32_t i;
 		const char *s;
 		int h;
 	} value;
 };

 static void
 setup_marshal_data(struct marshal_data *data)
 {
 	assert(socketpair(AF_UNIX,
 			  SOCK_STREAM | SOCK_CLOEXEC, 0, data->s) == 0);
 	data->read_connection = wl_connection_create(data->s[0]);
 	assert(data->read_connection);
 	data->write_connection = wl_connection_create(data->s[1]);
 	assert(data->write_connection);
 }

 static void
 release_marshal_data(struct marshal_data *data)
 {
 	close(wl_connection_destroy(data->read_connection));
 	close(wl_connection_destroy(data->write_connection));
 }

 static void
 marshal(struct marshal_data *data, const char *format, int size, ...)
 {
 	struct wl_closure *closure;
 	static const uint32_t opcode = 4444;
 	static struct wl_object sender = { NULL, NULL, 1234 };
 	struct wl_message message = { "test", format, NULL };
 	va_list ap;

 	va_start(ap, size);
 	closure = wl_closure_vmarshal(&sender, opcode, ap, &message);
 	va_end(ap);

 	assert(closure);
 	assert(wl_closure_send(closure, data->write_connection) == 0);
 	wl_closure_destroy(closure);
 	assert(wl_connection_flush(data->write_connection) == size);
 	assert(read(data->s[0], data->buffer, sizeof data->buffer) == size);

 	assert(data->buffer[0] == sender.id);
 	assert(data->buffer[1] == (opcode | (size << 16)));
 }

 TEST(connection_marshal)
 {
 	struct marshal_data data;
 	struct wl_object object;
 	struct wl_array array;
 	static const char text[] = "curry";

 	setup_marshal_data(&data);

 	marshal(&data, "i", 12, 42);
 	assert(data.buffer[2] == 42);

 	marshal(&data, "u", 12, 55);
 	assert(data.buffer[2] == 55);

 	marshal(&data, "s", 20, "frappo");
 	assert(data.buffer[2] == 7);
 	assert(strcmp((char *) &data.buffer[3], "frappo") == 0);

 	object.id = 557799;
 	marshal(&data, "o", 12, &object);
 	assert(data.buffer[2] == object.id);

 	marshal(&data, "n", 12, &object);
 	assert(data.buffer[2] == object.id);

 	marshal(&data, "?n", 12, NULL);
 	assert(data.buffer[2] == 0);

 	array.data = (void *) text;
 	array.size = sizeof text;
 	marshal(&data, "a", 20, &array);
 	assert(data.buffer[2] == array.size);
 	assert(memcmp(&data.buffer[3], text, array.size) == 0);

 	release_marshal_data(&data);
 }

 static void
 expected_fail_marshal(int expected_error, const char *format, ...)
 {
 	struct wl_closure *closure;
 	static const uint32_t opcode = 4444;
 	static const struct wl_interface test_interface = {
 		.name = "test_object"
 	};
 	static struct wl_object sender = { 0 };
 	struct wl_message message = { "test", format, NULL };

 	sender.interface = &test_interface;
 	sender.id = 1234;
 	va_list ap;

 	va_start(ap, format);
 	closure = wl_closure_vmarshal(&sender, opcode, ap, &message);
 	va_end(ap);

 	assert(closure == NULL);
 	assert(errno == expected_error);
 }

 static void
 expected_fail_marshal_send(struct marshal_data *data, int expected_error,
 			   const char *format, ...)
 {
 	struct wl_closure *closure;
 	static const uint32_t opcode = 4444;
 	static struct wl_object sender = { NULL, NULL, 1234 };
 	struct wl_message message = { "test", format, NULL };
 	va_list ap;

 	va_start(ap, format);
 	closure = wl_closure_vmarshal(&sender, opcode, ap, &message);
 	va_end(ap);

 	assert(closure);
 	assert(wl_closure_send(closure, data->write_connection) < 0);
 	assert(errno == expected_error);

 	wl_closure_destroy(closure);
 }

 TEST(connection_marshal_nullables)
 {
 	struct marshal_data data;
 	struct wl_object object;
 	struct wl_array array;
 	const char text[] = "curry";

 	setup_marshal_data(&data);

 	expected_fail_marshal(EINVAL, "o", NULL);
 	expected_fail_marshal(EINVAL, "s", NULL);
 	expected_fail_marshal(EINVAL, "a", NULL);

 	marshal(&data, "?o", 12, NULL);
 	assert(data.buffer[2] == 0);

 	marshal(&data, "?a", 12, NULL);
 	assert(data.buffer[2] == 0);

 	marshal(&data, "?s", 12, NULL);
 	assert(data.buffer[2] == 0);

 	object.id = 55293;
 	marshal(&data, "?o", 12, &object);
 	assert(data.buffer[2] == object.id);

 	array.data = (void *) text;
 	array.size = sizeof text;
 	marshal(&data, "?a", 20, &array);
 	assert(data.buffer[2] == array.size);
 	assert(memcmp(&data.buffer[3], text, array.size) == 0);

 	marshal(&data, "?s", 20, text);
 	assert(data.buffer[2] == sizeof text);
 	assert(strcmp((char *) &data.buffer[3], text) == 0);

 	release_marshal_data(&data);
 }

 static void
 validate_demarshal_u(struct marshal_data *data,
 		     struct wl_object *object, uint32_t u)
 {
 	assert(data->value.u == u);
 }

 static void
 validate_demarshal_i(struct marshal_data *data,
 		     struct wl_object *object, int32_t i)
 {
 	assert(data->value.i == i);
 }

 static void
 validate_demarshal_s(struct marshal_data *data,
 		     struct wl_object *object, const char *s)
 {
 	if (data->value.s != NULL)
 		assert(strcmp(data->value.s, s) == 0);
 	else
 		assert(s == NULL);
 }

 static void
 validate_demarshal_h(struct marshal_data *data,
 		     struct wl_object *object, int fd)
 {
 	struct stat buf1, buf2;

 	assert(fd != data->value.h);
 	fstat(fd, &buf1);
 	fstat(data->value.h, &buf2);
 	assert(buf1.st_dev == buf2.st_dev);
 	assert(buf1.st_ino == buf2.st_ino);
 	close(fd);
 	close(data->value.h);
 }

 static void
 validate_demarshal_f(struct marshal_data *data,
 		     struct wl_object *object, wl_fixed_t f)
 {
 	assert(data->value.i == f);
 }

 static void
 demarshal(struct marshal_data *data, const char *format,
 	  uint32_t *msg, void (*func)(void))
 {
 	struct wl_message message = { "test", format, NULL };
 	struct wl_closure *closure;
 	struct wl_map objects;
 	struct wl_object object = { NULL, &func, 0 };
 	int size = msg[1];

 	assert(write(data->s[1], msg, size) == size);
 	assert(wl_connection_read(data->read_connection) == size);

 	wl_map_init(&objects, WL_MAP_SERVER_SIDE);
 	object.id = msg[0];
 	closure = wl_connection_demarshal(data->read_connection,
 					  size, &objects, &message);
 	assert(closure);
 	wl_closure_invoke(closure, WL_CLOSURE_INVOKE_SERVER, &object, 0, data);
 	wl_closure_destroy(closure);
 }

 TEST(connection_demarshal)
 {
 	struct marshal_data data;
 	uint32_t msg[10];

 	setup_marshal_data(&data);

 	data.value.u = 8000;
 	msg[0] = 400200;	/* object id */
 	msg[1] = 12;		/* size = 12, opcode = 0 */
 	msg[2] = data.value.u;
 	demarshal(&data, "u", msg, (void *) validate_demarshal_u);

 	data.value.i = -557799;
 	msg[0] = 400200;
 	msg[1] = 12;
 	msg[2] = data.value.i;
 	demarshal(&data, "i", msg, (void *) validate_demarshal_i);

 	data.value.s = "superdude";
 	msg[0] = 400200;
 	msg[1] = 24;
 	msg[2] = 10;
 	memcpy(&msg[3], data.value.s, msg[2]);
 	demarshal(&data, "s", msg, (void *) validate_demarshal_s);

 	data.value.s = "superdude";
 	msg[0] = 400200;
 	msg[1] = 24;
 	msg[2] = 10;
 	memcpy(&msg[3], data.value.s, msg[2]);
 	demarshal(&data, "?s", msg, (void *) validate_demarshal_s);

 	data.value.i = wl_fixed_from_double(-90000.2390);
 	msg[0] = 400200;
 	msg[1] = 12;
 	msg[2] = data.value.i;
 	demarshal(&data, "f", msg, (void *) validate_demarshal_f);

 	data.value.s = NULL;
 	msg[0] = 400200;
 	msg[1] = 12;
 	msg[2] = 0;
 	demarshal(&data, "?s", msg, (void *) validate_demarshal_s);

 	release_marshal_data(&data);
 }

 static void
 marshal_demarshal(struct marshal_data *data,
 		  void (*func)(void), int size, const char *format, ...)
 {
 	struct wl_closure *closure;
 	static const int opcode = 4444;
 	static struct wl_object sender = { NULL, NULL, 1234 };
 	struct wl_message message = { "test", format, NULL };
 	struct wl_map objects;
 	struct wl_object object = { NULL, &func, 0 };
 	va_list ap;
 	uint32_t msg[1] = { 1234 };

 	va_start(ap, format);
 	closure = wl_closure_vmarshal(&sender, opcode, ap, &message);
 	va_end(ap);

 	assert(closure);
 	assert(wl_closure_send(closure, data->write_connection) == 0);
 	wl_closure_destroy(closure);
 	assert(wl_connection_flush(data->write_connection) == size);

 	assert(wl_connection_read(data->read_connection) == size);

 	wl_map_init(&objects, WL_MAP_SERVER_SIDE);
 	object.id = msg[0];
 	closure = wl_connection_demarshal(data->read_connection,
 					  size, &objects, &message);
 	assert(closure);
 	wl_closure_invoke(closure, WL_CLOSURE_INVOKE_SERVER, &object, 0, data);
 	wl_closure_destroy(closure);
 }

 TEST(connection_marshal_demarshal)
 {
 	struct marshal_data data;
 	char f[] = "/tmp/wayland-tests-XXXXXX";

 	setup_marshal_data(&data);

 	data.value.u = 889911;
 	marshal_demarshal(&data, (void *) validate_demarshal_u,
 			  12, "u", data.value.u);

 	data.value.i = -13;
 	marshal_demarshal(&data, (void *) validate_demarshal_i,
 			  12, "i", data.value.i);

 	data.value.s = "cookie robots";
 	marshal_demarshal(&data, (void *) validate_demarshal_s,
 			  28, "s", data.value.s);

 	data.value.s = "cookie robots";
 	marshal_demarshal(&data, (void *) validate_demarshal_s,
 			  28, "?s", data.value.s);

 	data.value.h = mkstemp(f);
 	assert(data.value.h >= 0);
 	unlink(f);
 	marshal_demarshal(&data, (void *) validate_demarshal_h,
 			  8, "h", data.value.h);

 	data.value.i = wl_fixed_from_double(1234.5678);
 	marshal_demarshal(&data, (void *) validate_demarshal_f,
 	                  12, "f", data.value.i);

 	data.value.i = wl_fixed_from_double(-90000.2390);
 	marshal_demarshal(&data, (void *) validate_demarshal_f,
 	                  12, "f", data.value.i);

 	data.value.i = wl_fixed_from_double((1 << 23) - 1 + 0.0941);
 	marshal_demarshal(&data, (void *) validate_demarshal_f,
 	                  12, "f", data.value.i);

 	release_marshal_data(&data);
 }

 TEST(connection_marshal_alot)
 {
 	struct marshal_data data;
 	char f[64];
 	int i;

 	setup_marshal_data(&data);

 	/* We iterate enough to make sure we wrap the circular buffers
 	 * for both regular data an fds. */

 	for (i = 0; i < 2000; i++) {
 		strcpy(f, "/tmp/wayland-tests-XXXXXX");
 		data.value.h = mkstemp(f);
 		assert(data.value.h >= 0);
 		unlink(f);
 		marshal_demarshal(&data, (void *) validate_demarshal_h,
 				  8, "h", data.value.h);
 	}

 	release_marshal_data(&data);
 }

 TEST(connection_marshal_too_big)
 {
 	struct marshal_data data;
 	char *big_string = malloc(5000);

 	assert(big_string);

 	memset(big_string, ' ', 4999);
 	big_string[4999] = '\0';

 	setup_marshal_data(&data);

 	expected_fail_marshal_send(&data, E2BIG, "s", big_string);

 	release_marshal_data(&data);
 	free(big_string);
 }

 static void
 marshal_helper(const char *format, void *handler, ...)
 {
 	struct wl_closure *closure;
 	static struct wl_object sender = { NULL, NULL, 1234 };
 	struct wl_object object = { NULL, &handler, 0 };
 	static const int opcode = 4444;
 	struct wl_message message = { "test", format, NULL };
 	va_list ap;
 	int done;

 	va_start(ap, handler);
 	closure = wl_closure_vmarshal(&sender, opcode, ap, &message);
 	va_end(ap);

 	assert(closure);
 	done = 0;
 	wl_closure_invoke(closure, WL_CLOSURE_INVOKE_SERVER, &object, 0, &done);
 	wl_closure_destroy(closure);
 	assert(done);
 }

 static void
 suu_handler(void *data, struct wl_object *object,
 	    const char *s, uint32_t u1, uint32_t u2)
 {
 	int *done = data;

 	assert(strcmp(s, "foo") == 0);
 	assert(u1 = 500);
 	assert(u2 = 404040);
 	*done = 1;
 }

 TEST(invoke_closure)
 {
 	marshal_helper("suu", suu_handler, "foo", 500, 404040);
 }

 static void
 leak_closure(void)
 {
 	struct wl_callback *cb;
 	struct pollfd pfd;
 	struct client *c = client_connect();

 	cb = wl_display_sync(c->wl_display);
 	assert(cb);
 	assert(wl_display_flush(c->wl_display) > 0);

 	/* we don't need it, it is referenced */
 	wl_callback_destroy(cb);

 	pfd.fd = wl_display_get_fd(c->wl_display);
 	pfd.events = POLLIN;

 	test_set_timeout(2);
 	assert(poll(&pfd, 1, -1) == 1);

 	/* read events, but do not dispatch them */
 	assert(wl_display_prepare_read(c->wl_display) == 0);
 	assert(wl_display_read_events(c->wl_display) == 0);

 	/*
 	 * now we have wl_callback.done and wl_display.delete_id queued;
 	 * if we now release the queue (in wl_display_disconnect())
 	 * we should not leak memory
 	 */

 	client_disconnect(c);
 }

 TEST(closure_leaks)
 {
 	struct display *d = display_create();

 	client_create_noarg(d, leak_closure);
 	display_run(d);

 	display_destroy(d);
 }

 static void
 leak_after_error(void)
 {
 	struct client *c = client_connect();

 	/* this should return -1, because we'll send error
 	 * from server. */
 	assert(stop_display(c, 1) == -1);
 	assert(wl_display_dispatch_pending(c->wl_display) == -1);
 	assert(wl_display_get_error(c->wl_display) == ENOMEM);

 	/* after we got error, we have display_resume event
 	 * in the queue. It should be freed in wl_display_disconnect().
 	 * Let's see! */

 	wl_proxy_destroy((struct wl_proxy *) c->tc);
 	wl_display_disconnect(c->wl_display);
 	free(c);
 }

 TEST(closure_leaks_after_error)
 {
 	struct display *d = display_create();
 	struct client_info *cl;

 	cl = client_create_noarg(d, leak_after_error);
 	display_run(d);

 	wl_client_post_no_memory(cl->wl_client);
 	display_resume(d);

 	display_destroy(d);
 }
	/*
	* Copyright © 2012 Intel 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 (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.
	*/

	#include <math.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 <poll.h>

	#include "wayland-private.h"
	#include "test-runner.h"
	#include "test-compositor.h"

	static const char message[] = "Hello, world";

	static struct wl_connection *
	setup(int *s)
	{
	struct wl_connection *connection;

	assert(socketpair(AF_UNIX, SOCK_STREAM \| SOCK_CLOEXEC, 0, s) == 0);

	connection = wl_connection_create(s[0]);
	assert(connection);

	return connection;
	}

	TEST(connection_create)
	{
	struct wl_connection *connection;
	int s[2];

	connection = setup(s);
	wl_connection_destroy(connection);
	close(s[0]);
	close(s[1]);
	}

	TEST(connection_write)
	{
	struct wl_connection *connection;
	int s[2];
	char buffer[64];

	connection = setup(s);

	assert(wl_connection_write(connection, message, sizeof message) == 0);
	assert(wl_connection_flush(connection) == sizeof message);
	assert(read(s[1], buffer, sizeof buffer) == sizeof message);
	assert(memcmp(message, buffer, sizeof message) == 0);

	wl_connection_destroy(connection);
	close(s[0]);
	close(s[1]);
	}

	TEST(connection_data)
	{
	struct wl_connection *connection;
	int s[2];
	char buffer[64];

	connection = setup(s);

	assert(write(s[1], message, sizeof message) == sizeof message);
	assert(wl_connection_read(connection) == sizeof message);
	wl_connection_copy(connection, buffer, sizeof message);
	assert(memcmp(message, buffer, sizeof message) == 0);
	wl_connection_consume(connection, sizeof message);

	wl_connection_destroy(connection);
	close(s[0]);
	close(s[1]);
	}

	TEST(connection_queue)
	{
	struct wl_connection *connection;
	int s[2];
	char buffer[64];

	connection = setup(s);

	/* Test that wl_connection_queue() puts data in the output
	* buffer without flush it. Verify that the data did get in
	* the buffer by writing another message and making sure that
	* we receive the two messages on the other fd. */

	assert(wl_connection_queue(connection, message, sizeof message) == 0);
	assert(wl_connection_flush(connection) == 0);
	assert(wl_connection_write(connection, message, sizeof message) == 0);
	assert(wl_connection_flush(connection) == 2 * sizeof message);
	assert(read(s[1], buffer, sizeof buffer) == 2 * sizeof message);
	assert(memcmp(message, buffer, sizeof message) == 0);
	assert(memcmp(message, buffer + sizeof message, sizeof message) == 0);

	wl_connection_destroy(connection);
	close(s[0]);
	close(s[1]);
	}

	struct marshal_data {
	struct wl_connection *read_connection;
	struct wl_connection *write_connection;
	int s[2];
	uint32_t buffer[10];
	union {
	uint32_t u;
	int32_t i;
	const char *s;
	int h;
	} value;
	};

	static void
	setup_marshal_data(struct marshal_data *data)
	{
	assert(socketpair(AF_UNIX,
	SOCK_STREAM \| SOCK_CLOEXEC, 0, data->s) == 0);
	data->read_connection = wl_connection_create(data->s[0]);
	assert(data->read_connection);
	data->write_connection = wl_connection_create(data->s[1]);
	assert(data->write_connection);
	}

	static void
	release_marshal_data(struct marshal_data *data)
	{
	close(wl_connection_destroy(data->read_connection));
	close(wl_connection_destroy(data->write_connection));
	}

	static void
	marshal(struct marshal_data data, const char format, int size, ...)
	{
	struct wl_closure *closure;
	static const uint32_t opcode = 4444;
	static struct wl_object sender = { NULL, NULL, 1234 };
	struct wl_message message = { "test", format, NULL };
	va_list ap;

	va_start(ap, size);
	closure = wl_closure_vmarshal(&sender, opcode, ap, &message);
	va_end(ap);

	assert(closure);
	assert(wl_closure_send(closure, data->write_connection) == 0);
	wl_closure_destroy(closure);
	assert(wl_connection_flush(data->write_connection) == size);
	assert(read(data->s[0], data->buffer, sizeof data->buffer) == size);

	assert(data->buffer[0] == sender.id);
	assert(data->buffer[1] == (opcode \| (size << 16)));
	}

	TEST(connection_marshal)
	{
	struct marshal_data data;
	struct wl_object object;
	struct wl_array array;
	static const char text[] = "curry";

	setup_marshal_data(&data);

	marshal(&data, "i", 12, 42);
	assert(data.buffer[2] == 42);

	marshal(&data, "u", 12, 55);
	assert(data.buffer[2] == 55);

	marshal(&data, "s", 20, "frappo");
	assert(data.buffer[2] == 7);
	assert(strcmp((char *) &data.buffer[3], "frappo") == 0);

	object.id = 557799;
	marshal(&data, "o", 12, &object);
	assert(data.buffer[2] == object.id);

	marshal(&data, "n", 12, &object);
	assert(data.buffer[2] == object.id);

	marshal(&data, "?n", 12, NULL);
	assert(data.buffer[2] == 0);

	array.data = (void *) text;
	array.size = sizeof text;
	marshal(&data, "a", 20, &array);
	assert(data.buffer[2] == array.size);
	assert(memcmp(&data.buffer[3], text, array.size) == 0);

	release_marshal_data(&data);
	}

	static void
	expected_fail_marshal(int expected_error, const char *format, ...)
	{
	struct wl_closure *closure;
	static const uint32_t opcode = 4444;
	static const struct wl_interface test_interface = {
	.name = "test_object"
	};
	static struct wl_object sender = { 0 };
	struct wl_message message = { "test", format, NULL };

	sender.interface = &test_interface;
	sender.id = 1234;
	va_list ap;

	va_start(ap, format);
	closure = wl_closure_vmarshal(&sender, opcode, ap, &message);
	va_end(ap);

	assert(closure == NULL);
	assert(errno == expected_error);
	}

	static void
	expected_fail_marshal_send(struct marshal_data *data, int expected_error,
	const char *format, ...)
	{
	struct wl_closure *closure;
	static const uint32_t opcode = 4444;
	static struct wl_object sender = { NULL, NULL, 1234 };
	struct wl_message message = { "test", format, NULL };
	va_list ap;

	va_start(ap, format);
	closure = wl_closure_vmarshal(&sender, opcode, ap, &message);
	va_end(ap);

	assert(closure);
	assert(wl_closure_send(closure, data->write_connection) < 0);
	assert(errno == expected_error);

	wl_closure_destroy(closure);
	}

	TEST(connection_marshal_nullables)
	{
	struct marshal_data data;
	struct wl_object object;
	struct wl_array array;
	const char text[] = "curry";

	setup_marshal_data(&data);

	expected_fail_marshal(EINVAL, "o", NULL);
	expected_fail_marshal(EINVAL, "s", NULL);
	expected_fail_marshal(EINVAL, "a", NULL);

	marshal(&data, "?o", 12, NULL);
	assert(data.buffer[2] == 0);

	marshal(&data, "?a", 12, NULL);
	assert(data.buffer[2] == 0);

	marshal(&data, "?s", 12, NULL);
	assert(data.buffer[2] == 0);

	object.id = 55293;
	marshal(&data, "?o", 12, &object);
	assert(data.buffer[2] == object.id);

	array.data = (void *) text;
	array.size = sizeof text;
	marshal(&data, "?a", 20, &array);
	assert(data.buffer[2] == array.size);
	assert(memcmp(&data.buffer[3], text, array.size) == 0);

	marshal(&data, "?s", 20, text);
	assert(data.buffer[2] == sizeof text);
	assert(strcmp((char *) &data.buffer[3], text) == 0);

	release_marshal_data(&data);
	}

	static void
	validate_demarshal_u(struct marshal_data *data,
	struct wl_object *object, uint32_t u)
	{
	assert(data->value.u == u);
	}

	static void
	validate_demarshal_i(struct marshal_data *data,
	struct wl_object *object, int32_t i)
	{
	assert(data->value.i == i);
	}

	static void
	validate_demarshal_s(struct marshal_data *data,
	struct wl_object object, const char s)
	{
	if (data->value.s != NULL)
	assert(strcmp(data->value.s, s) == 0);
	else
	assert(s == NULL);
	}

	static void
	validate_demarshal_h(struct marshal_data *data,
	struct wl_object *object, int fd)
	{
	struct stat buf1, buf2;

	assert(fd != data->value.h);
	fstat(fd, &buf1);
	fstat(data->value.h, &buf2);
	assert(buf1.st_dev == buf2.st_dev);
	assert(buf1.st_ino == buf2.st_ino);
	close(fd);
	close(data->value.h);
	}

	static void
	validate_demarshal_f(struct marshal_data *data,
	struct wl_object *object, wl_fixed_t f)
	{
	assert(data->value.i == f);
	}

	static void
	demarshal(struct marshal_data data, const char format,
	uint32_t msg, void (func)(void))
	{
	struct wl_message message = { "test", format, NULL };
	struct wl_closure *closure;
	struct wl_map objects;
	struct wl_object object = { NULL, &func, 0 };
	int size = msg[1];

	assert(write(data->s[1], msg, size) == size);
	assert(wl_connection_read(data->read_connection) == size);

	wl_map_init(&objects, WL_MAP_SERVER_SIDE);
	object.id = msg[0];
	closure = wl_connection_demarshal(data->read_connection,
	size, &objects, &message);
	assert(closure);
	wl_closure_invoke(closure, WL_CLOSURE_INVOKE_SERVER, &object, 0, data);
	wl_closure_destroy(closure);
	}

	TEST(connection_demarshal)
	{
	struct marshal_data data;
	uint32_t msg[10];

	setup_marshal_data(&data);

	data.value.u = 8000;
	msg[0] = 400200; /* object id */
	msg[1] = 12; /* size = 12, opcode = 0 */
	msg[2] = data.value.u;
	demarshal(&data, "u", msg, (void *) validate_demarshal_u);

	data.value.i = -557799;
	msg[0] = 400200;
	msg[1] = 12;
	msg[2] = data.value.i;
	demarshal(&data, "i", msg, (void *) validate_demarshal_i);

	data.value.s = "superdude";
	msg[0] = 400200;
	msg[1] = 24;
	msg[2] = 10;
	memcpy(&msg[3], data.value.s, msg[2]);
	demarshal(&data, "s", msg, (void *) validate_demarshal_s);

	data.value.s = "superdude";
	msg[0] = 400200;
	msg[1] = 24;
	msg[2] = 10;
	memcpy(&msg[3], data.value.s, msg[2]);
	demarshal(&data, "?s", msg, (void *) validate_demarshal_s);

	data.value.i = wl_fixed_from_double(-90000.2390);
	msg[0] = 400200;
	msg[1] = 12;
	msg[2] = data.value.i;
	demarshal(&data, "f", msg, (void *) validate_demarshal_f);

	data.value.s = NULL;
	msg[0] = 400200;
	msg[1] = 12;
	msg[2] = 0;
	demarshal(&data, "?s", msg, (void *) validate_demarshal_s);

	release_marshal_data(&data);
	}

	static void
	marshal_demarshal(struct marshal_data *data,
	void (func)(void), int size, const char format, ...)
	{
	struct wl_closure *closure;
	static const int opcode = 4444;
	static struct wl_object sender = { NULL, NULL, 1234 };
	struct wl_message message = { "test", format, NULL };
	struct wl_map objects;
	struct wl_object object = { NULL, &func, 0 };
	va_list ap;
	uint32_t msg[1] = { 1234 };

	va_start(ap, format);
	closure = wl_closure_vmarshal(&sender, opcode, ap, &message);
	va_end(ap);

	assert(closure);
	assert(wl_closure_send(closure, data->write_connection) == 0);
	wl_closure_destroy(closure);
	assert(wl_connection_flush(data->write_connection) == size);

	assert(wl_connection_read(data->read_connection) == size);

	wl_map_init(&objects, WL_MAP_SERVER_SIDE);
	object.id = msg[0];
	closure = wl_connection_demarshal(data->read_connection,
	size, &objects, &message);
	assert(closure);
	wl_closure_invoke(closure, WL_CLOSURE_INVOKE_SERVER, &object, 0, data);
	wl_closure_destroy(closure);
	}

	TEST(connection_marshal_demarshal)
	{
	struct marshal_data data;
	char f[] = "/tmp/wayland-tests-XXXXXX";

	setup_marshal_data(&data);

	data.value.u = 889911;
	marshal_demarshal(&data, (void *) validate_demarshal_u,
	12, "u", data.value.u);

	data.value.i = -13;
	marshal_demarshal(&data, (void *) validate_demarshal_i,
	12, "i", data.value.i);

	data.value.s = "cookie robots";
	marshal_demarshal(&data, (void *) validate_demarshal_s,
	28, "s", data.value.s);

	data.value.s = "cookie robots";
	marshal_demarshal(&data, (void *) validate_demarshal_s,
	28, "?s", data.value.s);

	data.value.h = mkstemp(f);
	assert(data.value.h >= 0);
	unlink(f);
	marshal_demarshal(&data, (void *) validate_demarshal_h,
	8, "h", data.value.h);

	data.value.i = wl_fixed_from_double(1234.5678);
	marshal_demarshal(&data, (void *) validate_demarshal_f,
	12, "f", data.value.i);

	data.value.i = wl_fixed_from_double(-90000.2390);
	marshal_demarshal(&data, (void *) validate_demarshal_f,
	12, "f", data.value.i);

	data.value.i = wl_fixed_from_double((1 << 23) - 1 + 0.0941);
	marshal_demarshal(&data, (void *) validate_demarshal_f,
	12, "f", data.value.i);

	release_marshal_data(&data);
	}

	TEST(connection_marshal_alot)
	{
	struct marshal_data data;
	char f[64];
	int i;

	setup_marshal_data(&data);

	/* We iterate enough to make sure we wrap the circular buffers
	* for both regular data an fds. */

	for (i = 0; i < 2000; i++) {
	strcpy(f, "/tmp/wayland-tests-XXXXXX");
	data.value.h = mkstemp(f);
	assert(data.value.h >= 0);
	unlink(f);
	marshal_demarshal(&data, (void *) validate_demarshal_h,
	8, "h", data.value.h);
	}

	release_marshal_data(&data);
	}

	TEST(connection_marshal_too_big)
	{
	struct marshal_data data;
	char *big_string = malloc(5000);

	assert(big_string);

	memset(big_string, ' ', 4999);
	big_string[4999] = '\0';

	setup_marshal_data(&data);

	expected_fail_marshal_send(&data, E2BIG, "s", big_string);

	release_marshal_data(&data);
	free(big_string);
	}

	static void
	marshal_helper(const char format, void handler, ...)
	{
	struct wl_closure *closure;
	static struct wl_object sender = { NULL, NULL, 1234 };
	struct wl_object object = { NULL, &handler, 0 };
	static const int opcode = 4444;
	struct wl_message message = { "test", format, NULL };
	va_list ap;
	int done;

	va_start(ap, handler);
	closure = wl_closure_vmarshal(&sender, opcode, ap, &message);
	va_end(ap);

	assert(closure);
	done = 0;
	wl_closure_invoke(closure, WL_CLOSURE_INVOKE_SERVER, &object, 0, &done);
	wl_closure_destroy(closure);
	assert(done);
	}

	static void
	suu_handler(void data, struct wl_object object,
	const char *s, uint32_t u1, uint32_t u2)
	{
	int *done = data;

	assert(strcmp(s, "foo") == 0);
	assert(u1 = 500);
	assert(u2 = 404040);
	*done = 1;
	}

	TEST(invoke_closure)
	{
	marshal_helper("suu", suu_handler, "foo", 500, 404040);
	}

	static void
	leak_closure(void)
	{
	struct wl_callback *cb;
	struct pollfd pfd;
	struct client *c = client_connect();

	cb = wl_display_sync(c->wl_display);
	assert(cb);
	assert(wl_display_flush(c->wl_display) > 0);

	/* we don't need it, it is referenced */
	wl_callback_destroy(cb);

	pfd.fd = wl_display_get_fd(c->wl_display);
	pfd.events = POLLIN;

	test_set_timeout(2);
	assert(poll(&pfd, 1, -1) == 1);

	/* read events, but do not dispatch them */
	assert(wl_display_prepare_read(c->wl_display) == 0);
	assert(wl_display_read_events(c->wl_display) == 0);

	/*
	* now we have wl_callback.done and wl_display.delete_id queued;
	* if we now release the queue (in wl_display_disconnect())
	* we should not leak memory
	*/

	client_disconnect(c);
	}

	TEST(closure_leaks)
	{
	struct display *d = display_create();

	client_create_noarg(d, leak_closure);
	display_run(d);

	display_destroy(d);
	}

	static void
	leak_after_error(void)
	{
	struct client *c = client_connect();

	/* this should return -1, because we'll send error
	* from server. */
	assert(stop_display(c, 1) == -1);
	assert(wl_display_dispatch_pending(c->wl_display) == -1);
	assert(wl_display_get_error(c->wl_display) == ENOMEM);

	/* after we got error, we have display_resume event
	* in the queue. It should be freed in wl_display_disconnect().
	* Let's see! */

	wl_proxy_destroy((struct wl_proxy *) c->tc);
	wl_display_disconnect(c->wl_display);
	free(c);
	}

	TEST(closure_leaks_after_error)
	{
	struct display *d = display_create();
	struct client_info *cl;

	cl = client_create_noarg(d, leak_after_error);
	display_run(d);

	wl_client_post_no_memory(cl->wl_client);
	display_resume(d);

	display_destroy(d);
	}