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|
// Copyright 2013 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// TODO(vtl): Factor out the POSIX-specific bits of this test (once we have a
// non-POSIX implementation).
#include "mojo/system/message_pipe.h"
#include <fcntl.h>
#include <stdint.h>
#include <string.h>
#include <sys/socket.h>
#include <sys/types.h>
#include <unistd.h>
#include "base/basictypes.h"
#include "base/bind.h"
#include "base/callback.h"
#include "base/location.h"
#include "base/logging.h"
#include "base/message_loop/message_loop.h"
#include "base/synchronization/waitable_event.h"
#include "base/threading/thread.h"
#include "mojo/system/channel.h"
#include "mojo/system/local_message_pipe_endpoint.h"
#include "mojo/system/platform_channel_handle.h"
#include "mojo/system/proxy_message_pipe_endpoint.h"
#include "mojo/system/test_utils.h"
#include "mojo/system/waiter.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace mojo {
namespace system {
namespace {
class RemoteMessagePipeTest : public testing::Test {
public:
RemoteMessagePipeTest() : io_thread_("io_thread") {
}
virtual ~RemoteMessagePipeTest() {
}
virtual void SetUp() OVERRIDE {
io_thread_.StartWithOptions(
base::Thread::Options(base::MessageLoop::TYPE_IO, 0));
test::PostTaskAndWait(io_thread_task_runner(),
FROM_HERE,
base::Bind(&RemoteMessagePipeTest::SetUpOnIOThread,
base::Unretained(this)));
}
virtual void TearDown() OVERRIDE {
test::PostTaskAndWait(io_thread_task_runner(),
FROM_HERE,
base::Bind(&RemoteMessagePipeTest::TearDownOnIOThread,
base::Unretained(this)));
io_thread_.Stop();
}
// This connects MP 0, port 1 and MP 1, port 0 (leaving MP 0, port 0 and MP 1,
// port 1 as the user-visible endpoints) to channel 0 and 1, respectively. MP
// 0, port 1 and MP 1, port 0 must have |ProxyMessagePipeEndpoint|s.
void ConnectMessagePipesOnIOThread(scoped_refptr<MessagePipe> mp_0,
scoped_refptr<MessagePipe> mp_1) {
CHECK_EQ(base::MessageLoop::current(), io_thread_message_loop());
MessageInTransit::EndpointId local_id_0 =
channels_[0]->AttachMessagePipeEndpoint(mp_0, 1);
MessageInTransit::EndpointId local_id_1 =
channels_[1]->AttachMessagePipeEndpoint(mp_1, 0);
channels_[0]->RunMessagePipeEndpoint(local_id_0, local_id_1);
channels_[1]->RunMessagePipeEndpoint(local_id_1, local_id_0);
}
protected:
base::MessageLoop* io_thread_message_loop() {
return io_thread_.message_loop();
}
scoped_refptr<base::TaskRunner> io_thread_task_runner() {
return io_thread_message_loop()->message_loop_proxy();
}
private:
void SetUpOnIOThread() {
CHECK_EQ(base::MessageLoop::current(), io_thread_message_loop());
// Create the socket.
int fds[2];
PCHECK(socketpair(AF_UNIX, SOCK_STREAM, 0, fds) == 0);
// Set the ends to non-blocking.
PCHECK(fcntl(fds[0], F_SETFL, O_NONBLOCK) == 0);
PCHECK(fcntl(fds[1], F_SETFL, O_NONBLOCK) == 0);
// Create and initialize |Channel|s.
channels_[0] = new Channel();
CHECK(channels_[0]->Init(PlatformChannelHandle(fds[0])));
channels_[1] = new Channel();
CHECK(channels_[1]->Init(PlatformChannelHandle(fds[1])));
}
void TearDownOnIOThread() {
channels_[1]->Shutdown();
channels_[1] = NULL;
channels_[0]->Shutdown();
channels_[0] = NULL;
}
base::Thread io_thread_;
scoped_refptr<Channel> channels_[2];
DISALLOW_COPY_AND_ASSIGN(RemoteMessagePipeTest);
};
TEST_F(RemoteMessagePipeTest, Basic) {
const char hello[] = "hello";
const char world[] = "world!!!1!!!1!";
char buffer[100] = { 0 };
uint32_t buffer_size = static_cast<uint32_t>(sizeof(buffer));
Waiter waiter;
// Connect message pipes. MP 0, port 1 will be attached to channel 0 and
// connected to MP 1, port 0, which will be attached to channel 1. This leaves
// MP 0, port 0 and MP 1, port 1 as the "user-facing" endpoints.
scoped_refptr<MessagePipe> mp_0(new MessagePipe(
scoped_ptr<MessagePipeEndpoint>(new LocalMessagePipeEndpoint()),
scoped_ptr<MessagePipeEndpoint>(new ProxyMessagePipeEndpoint())));
scoped_refptr<MessagePipe> mp_1(new MessagePipe(
scoped_ptr<MessagePipeEndpoint>(new ProxyMessagePipeEndpoint()),
scoped_ptr<MessagePipeEndpoint>(new LocalMessagePipeEndpoint())));
test::PostTaskAndWait(
io_thread_task_runner(),
FROM_HERE,
base::Bind(&RemoteMessagePipeTest::ConnectMessagePipesOnIOThread,
base::Unretained(this), mp_0, mp_1));
// Write in one direction: MP 0, port 0 -> ... -> MP 1, port 1.
// Prepare to wait on MP 1, port 1. (Add the waiter now. Otherwise, if we do
// it later, it might already be readable.)
waiter.Init();
EXPECT_EQ(MOJO_RESULT_OK,
mp_1->AddWaiter(1, &waiter, MOJO_WAIT_FLAG_READABLE, 123));
// Write to MP 0, port 0.
EXPECT_EQ(MOJO_RESULT_OK,
mp_0->WriteMessage(0,
hello, sizeof(hello),
NULL,
MOJO_WRITE_MESSAGE_FLAG_NONE));
// Wait.
EXPECT_EQ(123, waiter.Wait(MOJO_DEADLINE_INDEFINITE));
mp_1->RemoveWaiter(1, &waiter);
// Read from MP 1, port 1.
EXPECT_EQ(MOJO_RESULT_OK,
mp_1->ReadMessage(1,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
EXPECT_EQ(sizeof(hello), static_cast<size_t>(buffer_size));
EXPECT_EQ(0, strcmp(buffer, hello));
// Write in the other direction: MP 1, port 1 -> ... -> MP 0, port 0.
waiter.Init();
EXPECT_EQ(MOJO_RESULT_OK,
mp_0->AddWaiter(0, &waiter, MOJO_WAIT_FLAG_READABLE, 456));
EXPECT_EQ(MOJO_RESULT_OK,
mp_1->WriteMessage(1,
world, sizeof(world),
NULL,
MOJO_WRITE_MESSAGE_FLAG_NONE));
EXPECT_EQ(456, waiter.Wait(MOJO_DEADLINE_INDEFINITE));
mp_0->RemoveWaiter(0, &waiter);
buffer_size = static_cast<uint32_t>(sizeof(buffer));
EXPECT_EQ(MOJO_RESULT_OK,
mp_0->ReadMessage(0,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
EXPECT_EQ(sizeof(world), static_cast<size_t>(buffer_size));
EXPECT_EQ(0, strcmp(buffer, world));
// Close MP 0, port 0.
mp_0->Close(0);
// Try to wait for MP 1, port 1 to become readable. This will eventually fail
// when it realizes that MP 0, port 0 has been closed. (It may also fail
// immediately.)
waiter.Init();
MojoResult result = mp_1->AddWaiter(1, &waiter, MOJO_WAIT_FLAG_READABLE, 789);
if (result == MOJO_RESULT_OK) {
EXPECT_EQ(MOJO_RESULT_FAILED_PRECONDITION,
waiter.Wait(MOJO_DEADLINE_INDEFINITE));
mp_1->RemoveWaiter(1, &waiter);
} else {
EXPECT_EQ(MOJO_RESULT_FAILED_PRECONDITION, result);
}
// And MP 1, port 1.
mp_1->Close(1);
}
TEST_F(RemoteMessagePipeTest, Multiplex) {
const char hello[] = "hello";
const char world[] = "world!!!1!!!1!";
char buffer[100] = { 0 };
uint32_t buffer_size = static_cast<uint32_t>(sizeof(buffer));
Waiter waiter;
// Connect message pipes as in the |Basic| test.
scoped_refptr<MessagePipe> mp_0(new MessagePipe(
scoped_ptr<MessagePipeEndpoint>(new LocalMessagePipeEndpoint()),
scoped_ptr<MessagePipeEndpoint>(new ProxyMessagePipeEndpoint())));
scoped_refptr<MessagePipe> mp_1(new MessagePipe(
scoped_ptr<MessagePipeEndpoint>(new ProxyMessagePipeEndpoint()),
scoped_ptr<MessagePipeEndpoint>(new LocalMessagePipeEndpoint())));
test::PostTaskAndWait(
io_thread_task_runner(),
FROM_HERE,
base::Bind(&RemoteMessagePipeTest::ConnectMessagePipesOnIOThread,
base::Unretained(this), mp_0, mp_1));
// Now put another message pipe on the channel.
scoped_refptr<MessagePipe> mp_2(new MessagePipe(
scoped_ptr<MessagePipeEndpoint>(new LocalMessagePipeEndpoint()),
scoped_ptr<MessagePipeEndpoint>(new ProxyMessagePipeEndpoint())));
scoped_refptr<MessagePipe> mp_3(new MessagePipe(
scoped_ptr<MessagePipeEndpoint>(new ProxyMessagePipeEndpoint()),
scoped_ptr<MessagePipeEndpoint>(new LocalMessagePipeEndpoint())));
test::PostTaskAndWait(
io_thread_task_runner(),
FROM_HERE,
base::Bind(&RemoteMessagePipeTest::ConnectMessagePipesOnIOThread,
base::Unretained(this), mp_2, mp_3));
// Write: MP 2, port 0 -> MP 3, port 1.
waiter.Init();
EXPECT_EQ(MOJO_RESULT_OK,
mp_3->AddWaiter(1, &waiter, MOJO_WAIT_FLAG_READABLE, 789));
EXPECT_EQ(MOJO_RESULT_OK,
mp_2->WriteMessage(0,
hello, sizeof(hello),
NULL,
MOJO_WRITE_MESSAGE_FLAG_NONE));
EXPECT_EQ(789, waiter.Wait(MOJO_DEADLINE_INDEFINITE));
mp_3->RemoveWaiter(1, &waiter);
// Make sure there's nothing on MP 0, port 0 or MP 1, port 1 or MP 2, port 0.
buffer_size = static_cast<uint32_t>(sizeof(buffer));
EXPECT_EQ(MOJO_RESULT_NOT_FOUND,
mp_0->ReadMessage(0,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
buffer_size = static_cast<uint32_t>(sizeof(buffer));
EXPECT_EQ(MOJO_RESULT_NOT_FOUND,
mp_1->ReadMessage(1,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
buffer_size = static_cast<uint32_t>(sizeof(buffer));
EXPECT_EQ(MOJO_RESULT_NOT_FOUND,
mp_2->ReadMessage(0,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
// Read from MP 3, port 1.
buffer_size = static_cast<uint32_t>(sizeof(buffer));
EXPECT_EQ(MOJO_RESULT_OK,
mp_3->ReadMessage(1,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
EXPECT_EQ(sizeof(hello), static_cast<size_t>(buffer_size));
EXPECT_EQ(0, strcmp(buffer, hello));
// Write: MP 0, port 0 -> MP 1, port 1 again.
waiter.Init();
EXPECT_EQ(MOJO_RESULT_OK,
mp_1->AddWaiter(1, &waiter, MOJO_WAIT_FLAG_READABLE, 123));
EXPECT_EQ(MOJO_RESULT_OK,
mp_0->WriteMessage(0,
world, sizeof(world),
NULL,
MOJO_WRITE_MESSAGE_FLAG_NONE));
EXPECT_EQ(123, waiter.Wait(MOJO_DEADLINE_INDEFINITE));
mp_1->RemoveWaiter(1, &waiter);
// Make sure there's nothing on the other ports.
buffer_size = static_cast<uint32_t>(sizeof(buffer));
EXPECT_EQ(MOJO_RESULT_NOT_FOUND,
mp_0->ReadMessage(0,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
buffer_size = static_cast<uint32_t>(sizeof(buffer));
EXPECT_EQ(MOJO_RESULT_NOT_FOUND,
mp_2->ReadMessage(0,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
buffer_size = static_cast<uint32_t>(sizeof(buffer));
EXPECT_EQ(MOJO_RESULT_NOT_FOUND,
mp_3->ReadMessage(1,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
buffer_size = static_cast<uint32_t>(sizeof(buffer));
EXPECT_EQ(MOJO_RESULT_OK,
mp_1->ReadMessage(1,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
EXPECT_EQ(sizeof(world), static_cast<size_t>(buffer_size));
EXPECT_EQ(0, strcmp(buffer, world));
}
} // namespace
} // namespace system
} // namespace mojo
|
