// Copyright (c) 2012 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. // These tests are POSIX only. #include "ipc/ipc_channel_posix.h" #include <fcntl.h> #include <sys/socket.h> #include <sys/un.h> #include <unistd.h> #include "base/basictypes.h" #include "base/file_util.h" #include "base/files/file_path.h" #include "base/memory/scoped_ptr.h" #include "base/message_loop/message_loop.h" #include "base/path_service.h" #include "base/posix/eintr_wrapper.h" #include "base/process/kill.h" #include "base/test/multiprocess_test.h" #include "base/test/test_timeouts.h" #include "ipc/ipc_listener.h" #include "ipc/unix_domain_socket_util.h" #include "testing/multiprocess_func_list.h" namespace { static const uint32 kQuitMessage = 47; class IPCChannelPosixTestListener : public IPC::Listener { public: enum STATUS { DISCONNECTED, MESSAGE_RECEIVED, CHANNEL_ERROR, CONNECTED, DENIED, LISTEN_ERROR }; IPCChannelPosixTestListener(bool quit_only_on_message) : status_(DISCONNECTED), quit_only_on_message_(quit_only_on_message) {} virtual ~IPCChannelPosixTestListener() {} virtual bool OnMessageReceived(const IPC::Message& message) OVERRIDE { EXPECT_EQ(message.type(), kQuitMessage); status_ = MESSAGE_RECEIVED; QuitRunLoop(); return true; } virtual void OnChannelConnected(int32 peer_pid) OVERRIDE { status_ = CONNECTED; if (!quit_only_on_message_) { QuitRunLoop(); } } virtual void OnChannelError() OVERRIDE { status_ = CHANNEL_ERROR; if (!quit_only_on_message_) { QuitRunLoop(); } } virtual void OnChannelDenied() OVERRIDE { status_ = DENIED; if (!quit_only_on_message_) { QuitRunLoop(); } } virtual void OnChannelListenError() OVERRIDE { status_ = LISTEN_ERROR; if (!quit_only_on_message_) { QuitRunLoop(); } } STATUS status() { return status_; } void QuitRunLoop() { base::MessageLoopForIO::current()->QuitNow(); } private: // The current status of the listener. STATUS status_; // If |quit_only_on_message_| then the listener will only break out of // the run loop when kQuitMessage is received. bool quit_only_on_message_; }; class IPCChannelPosixTest : public base::MultiProcessTest { public: static void SetUpSocket(IPC::ChannelHandle *handle, IPC::Channel::Mode mode); static void SpinRunLoop(base::TimeDelta delay); static const std::string GetConnectionSocketName(); static const std::string GetChannelDirName(); protected: virtual void SetUp(); virtual void TearDown(); private: scoped_ptr<base::MessageLoopForIO> message_loop_; }; const std::string IPCChannelPosixTest::GetChannelDirName() { #if defined(OS_ANDROID) base::FilePath tmp_dir; PathService::Get(base::DIR_CACHE, &tmp_dir); return tmp_dir.value(); #else return "/var/tmp"; #endif } const std::string IPCChannelPosixTest::GetConnectionSocketName() { return GetChannelDirName() + "/chrome_IPCChannelPosixTest__ConnectionSocket"; } void IPCChannelPosixTest::SetUp() { MultiProcessTest::SetUp(); // Construct a fresh IO Message loop for the duration of each test. message_loop_.reset(new base::MessageLoopForIO()); } void IPCChannelPosixTest::TearDown() { message_loop_.reset(NULL); MultiProcessTest::TearDown(); } // Create up a socket and bind and listen to it, or connect it // depending on the |mode|. void IPCChannelPosixTest::SetUpSocket(IPC::ChannelHandle *handle, IPC::Channel::Mode mode) { const std::string& name = handle->name; int socket_fd = socket(PF_UNIX, SOCK_STREAM, 0); ASSERT_GE(socket_fd, 0) << name; ASSERT_GE(fcntl(socket_fd, F_SETFL, O_NONBLOCK), 0); struct sockaddr_un server_address = { 0 }; memset(&server_address, 0, sizeof(server_address)); server_address.sun_family = AF_UNIX; int path_len = snprintf(server_address.sun_path, IPC::kMaxSocketNameLength, "%s", name.c_str()); DCHECK_EQ(static_cast<int>(name.length()), path_len); size_t server_address_len = offsetof(struct sockaddr_un, sun_path) + path_len + 1; if (mode == IPC::Channel::MODE_NAMED_SERVER) { // Only one server at a time. Cleanup garbage if it exists. unlink(name.c_str()); // Make sure the path we need exists. base::FilePath path(name); base::FilePath dir_path = path.DirName(); ASSERT_TRUE(base::CreateDirectory(dir_path)); ASSERT_GE(bind(socket_fd, reinterpret_cast<struct sockaddr *>(&server_address), server_address_len), 0) << server_address.sun_path << ": " << strerror(errno) << "(" << errno << ")"; ASSERT_GE(listen(socket_fd, SOMAXCONN), 0) << server_address.sun_path << ": " << strerror(errno) << "(" << errno << ")"; } else if (mode == IPC::Channel::MODE_NAMED_CLIENT) { ASSERT_GE(connect(socket_fd, reinterpret_cast<struct sockaddr *>(&server_address), server_address_len), 0) << server_address.sun_path << ": " << strerror(errno) << "(" << errno << ")"; } else { FAIL() << "Unknown mode " << mode; } handle->socket.fd = socket_fd; } void IPCChannelPosixTest::SpinRunLoop(base::TimeDelta delay) { base::MessageLoopForIO* loop = base::MessageLoopForIO::current(); // Post a quit task so that this loop eventually ends and we don't hang // in the case of a bad test. Usually, the run loop will quit sooner than // that because all tests use a IPCChannelPosixTestListener which quits the // current run loop on any channel activity. loop->PostDelayedTask(FROM_HERE, base::MessageLoop::QuitClosure(), delay); loop->Run(); } TEST_F(IPCChannelPosixTest, BasicListen) { const std::string kChannelName = GetChannelDirName() + "/IPCChannelPosixTest_BasicListen"; // Test creating a socket that is listening. IPC::ChannelHandle handle(kChannelName); SetUpSocket(&handle, IPC::Channel::MODE_NAMED_SERVER); unlink(handle.name.c_str()); IPC::Channel channel(handle, IPC::Channel::MODE_NAMED_SERVER, NULL); ASSERT_TRUE(channel.Connect()); ASSERT_TRUE(channel.AcceptsConnections()); ASSERT_FALSE(channel.HasAcceptedConnection()); channel.ResetToAcceptingConnectionState(); ASSERT_FALSE(channel.HasAcceptedConnection()); } TEST_F(IPCChannelPosixTest, BasicConnected) { // Test creating a socket that is connected. int pipe_fds[2]; ASSERT_EQ(0, socketpair(AF_UNIX, SOCK_STREAM, 0, pipe_fds)); std::string socket_name("/var/tmp/IPCChannelPosixTest_BasicConnected"); ASSERT_GE(fcntl(pipe_fds[0], F_SETFL, O_NONBLOCK), 0); base::FileDescriptor fd(pipe_fds[0], false); IPC::ChannelHandle handle(socket_name, fd); IPC::Channel channel(handle, IPC::Channel::MODE_SERVER, NULL); ASSERT_TRUE(channel.Connect()); ASSERT_FALSE(channel.AcceptsConnections()); channel.Close(); ASSERT_TRUE(IGNORE_EINTR(close(pipe_fds[1])) == 0); // Make sure that we can use the socket that is created for us by // a standard channel. IPC::Channel channel2(socket_name, IPC::Channel::MODE_SERVER, NULL); ASSERT_TRUE(channel2.Connect()); ASSERT_FALSE(channel2.AcceptsConnections()); } TEST_F(IPCChannelPosixTest, AdvancedConnected) { // Test creating a connection to an external process. IPCChannelPosixTestListener listener(false); IPC::ChannelHandle chan_handle(GetConnectionSocketName()); SetUpSocket(&chan_handle, IPC::Channel::MODE_NAMED_SERVER); IPC::Channel channel(chan_handle, IPC::Channel::MODE_NAMED_SERVER, &listener); ASSERT_TRUE(channel.Connect()); ASSERT_TRUE(channel.AcceptsConnections()); ASSERT_FALSE(channel.HasAcceptedConnection()); base::ProcessHandle handle = SpawnChild("IPCChannelPosixTestConnectionProc", false); ASSERT_TRUE(handle); SpinRunLoop(TestTimeouts::action_max_timeout()); ASSERT_EQ(IPCChannelPosixTestListener::CONNECTED, listener.status()); ASSERT_TRUE(channel.HasAcceptedConnection()); IPC::Message* message = new IPC::Message(0, // routing_id kQuitMessage, // message type IPC::Message::PRIORITY_NORMAL); channel.Send(message); SpinRunLoop(TestTimeouts::action_timeout()); int exit_code = 0; EXPECT_TRUE(base::WaitForExitCode(handle, &exit_code)); EXPECT_EQ(0, exit_code); ASSERT_EQ(IPCChannelPosixTestListener::CHANNEL_ERROR, listener.status()); ASSERT_FALSE(channel.HasAcceptedConnection()); } TEST_F(IPCChannelPosixTest, ResetState) { // Test creating a connection to an external process. Close the connection, // but continue to listen and make sure another external process can connect // to us. IPCChannelPosixTestListener listener(false); IPC::ChannelHandle chan_handle(GetConnectionSocketName()); SetUpSocket(&chan_handle, IPC::Channel::MODE_NAMED_SERVER); IPC::Channel channel(chan_handle, IPC::Channel::MODE_NAMED_SERVER, &listener); ASSERT_TRUE(channel.Connect()); ASSERT_TRUE(channel.AcceptsConnections()); ASSERT_FALSE(channel.HasAcceptedConnection()); base::ProcessHandle handle = SpawnChild("IPCChannelPosixTestConnectionProc", false); ASSERT_TRUE(handle); SpinRunLoop(TestTimeouts::action_max_timeout()); ASSERT_EQ(IPCChannelPosixTestListener::CONNECTED, listener.status()); ASSERT_TRUE(channel.HasAcceptedConnection()); channel.ResetToAcceptingConnectionState(); ASSERT_FALSE(channel.HasAcceptedConnection()); base::ProcessHandle handle2 = SpawnChild("IPCChannelPosixTestConnectionProc", false); ASSERT_TRUE(handle2); SpinRunLoop(TestTimeouts::action_max_timeout()); ASSERT_EQ(IPCChannelPosixTestListener::CONNECTED, listener.status()); ASSERT_TRUE(channel.HasAcceptedConnection()); IPC::Message* message = new IPC::Message(0, // routing_id kQuitMessage, // message type IPC::Message::PRIORITY_NORMAL); channel.Send(message); SpinRunLoop(TestTimeouts::action_timeout()); EXPECT_TRUE(base::KillProcess(handle, 0, false)); int exit_code = 0; EXPECT_TRUE(base::WaitForExitCode(handle2, &exit_code)); EXPECT_EQ(0, exit_code); ASSERT_EQ(IPCChannelPosixTestListener::CHANNEL_ERROR, listener.status()); ASSERT_FALSE(channel.HasAcceptedConnection()); } TEST_F(IPCChannelPosixTest, BadChannelName) { // Test empty name IPC::ChannelHandle handle(""); IPC::Channel channel(handle, IPC::Channel::MODE_NAMED_SERVER, NULL); ASSERT_FALSE(channel.Connect()); // Test name that is too long. const char *kTooLongName = "This_is_a_very_long_name_to_proactively_implement" "client-centered_synergy_through_top-line" "platforms_Phosfluorescently_disintermediate_" "clicks-and-mortar_best_practices_without_" "future-proof_growth_strategies_Continually" "pontificate_proactive_potentialities_before" "leading-edge_processes"; EXPECT_GE(strlen(kTooLongName), IPC::kMaxSocketNameLength); IPC::ChannelHandle handle2(kTooLongName); IPC::Channel channel2(handle2, IPC::Channel::MODE_NAMED_SERVER, NULL); EXPECT_FALSE(channel2.Connect()); } TEST_F(IPCChannelPosixTest, MultiConnection) { // Test setting up a connection to an external process, and then have // another external process attempt to connect to us. IPCChannelPosixTestListener listener(false); IPC::ChannelHandle chan_handle(GetConnectionSocketName()); SetUpSocket(&chan_handle, IPC::Channel::MODE_NAMED_SERVER); IPC::Channel channel(chan_handle, IPC::Channel::MODE_NAMED_SERVER, &listener); ASSERT_TRUE(channel.Connect()); ASSERT_TRUE(channel.AcceptsConnections()); ASSERT_FALSE(channel.HasAcceptedConnection()); base::ProcessHandle handle = SpawnChild("IPCChannelPosixTestConnectionProc", false); ASSERT_TRUE(handle); SpinRunLoop(TestTimeouts::action_max_timeout()); ASSERT_EQ(IPCChannelPosixTestListener::CONNECTED, listener.status()); ASSERT_TRUE(channel.HasAcceptedConnection()); base::ProcessHandle handle2 = SpawnChild("IPCChannelPosixFailConnectionProc", false); ASSERT_TRUE(handle2); SpinRunLoop(TestTimeouts::action_max_timeout()); int exit_code = 0; EXPECT_TRUE(base::WaitForExitCode(handle2, &exit_code)); EXPECT_EQ(exit_code, 0); ASSERT_EQ(IPCChannelPosixTestListener::DENIED, listener.status()); ASSERT_TRUE(channel.HasAcceptedConnection()); IPC::Message* message = new IPC::Message(0, // routing_id kQuitMessage, // message type IPC::Message::PRIORITY_NORMAL); channel.Send(message); SpinRunLoop(TestTimeouts::action_timeout()); EXPECT_TRUE(base::WaitForExitCode(handle, &exit_code)); EXPECT_EQ(exit_code, 0); ASSERT_EQ(IPCChannelPosixTestListener::CHANNEL_ERROR, listener.status()); ASSERT_FALSE(channel.HasAcceptedConnection()); } TEST_F(IPCChannelPosixTest, DoubleServer) { // Test setting up two servers with the same name. IPCChannelPosixTestListener listener(false); IPCChannelPosixTestListener listener2(false); IPC::ChannelHandle chan_handle(GetConnectionSocketName()); IPC::Channel channel(chan_handle, IPC::Channel::MODE_SERVER, &listener); IPC::Channel channel2(chan_handle, IPC::Channel::MODE_SERVER, &listener2); ASSERT_TRUE(channel.Connect()); ASSERT_FALSE(channel2.Connect()); } TEST_F(IPCChannelPosixTest, BadMode) { // Test setting up two servers with a bad mode. IPCChannelPosixTestListener listener(false); IPC::ChannelHandle chan_handle(GetConnectionSocketName()); IPC::Channel channel(chan_handle, IPC::Channel::MODE_NONE, &listener); ASSERT_FALSE(channel.Connect()); } TEST_F(IPCChannelPosixTest, IsNamedServerInitialized) { const std::string& connection_socket_name = GetConnectionSocketName(); IPCChannelPosixTestListener listener(false); IPC::ChannelHandle chan_handle(connection_socket_name); ASSERT_TRUE(base::DeleteFile(base::FilePath(connection_socket_name), false)); ASSERT_FALSE(IPC::Channel::IsNamedServerInitialized( connection_socket_name)); IPC::Channel channel(chan_handle, IPC::Channel::MODE_NAMED_SERVER, &listener); ASSERT_TRUE(IPC::Channel::IsNamedServerInitialized( connection_socket_name)); channel.Close(); ASSERT_FALSE(IPC::Channel::IsNamedServerInitialized( connection_socket_name)); } // A long running process that connects to us MULTIPROCESS_TEST_MAIN(IPCChannelPosixTestConnectionProc) { base::MessageLoopForIO message_loop; IPCChannelPosixTestListener listener(true); IPC::ChannelHandle handle(IPCChannelPosixTest::GetConnectionSocketName()); IPCChannelPosixTest::SetUpSocket(&handle, IPC::Channel::MODE_NAMED_CLIENT); IPC::Channel channel(handle, IPC::Channel::MODE_NAMED_CLIENT, &listener); EXPECT_TRUE(channel.Connect()); IPCChannelPosixTest::SpinRunLoop(TestTimeouts::action_max_timeout()); EXPECT_EQ(IPCChannelPosixTestListener::MESSAGE_RECEIVED, listener.status()); return 0; } // Simple external process that shouldn't be able to connect to us. MULTIPROCESS_TEST_MAIN(IPCChannelPosixFailConnectionProc) { base::MessageLoopForIO message_loop; IPCChannelPosixTestListener listener(false); IPC::ChannelHandle handle(IPCChannelPosixTest::GetConnectionSocketName()); IPCChannelPosixTest::SetUpSocket(&handle, IPC::Channel::MODE_NAMED_CLIENT); IPC::Channel channel(handle, IPC::Channel::MODE_NAMED_CLIENT, &listener); // In this case connect may succeed or fail depending on if the packet // actually gets sent at sendmsg. Since we never delay on send, we may not // see the error. However even if connect succeeds, eventually we will get an // error back since the channel will be closed when we attempt to read from // it. bool connected = channel.Connect(); if (connected) { IPCChannelPosixTest::SpinRunLoop(TestTimeouts::action_max_timeout()); EXPECT_EQ(IPCChannelPosixTestListener::CHANNEL_ERROR, listener.status()); } else { EXPECT_EQ(IPCChannelPosixTestListener::DISCONNECTED, listener.status()); } return 0; } } // namespace