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// Copyright 2020 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include <memory>
#include "base/run_loop.h"
#include "base/test/task_environment.h"
#include "build/build_config.h"
#include "components/cast/message_port/blink_message_port_adapter.h"
#include "components/cast/message_port/cast/message_port_cast.h"
#include "components/cast/message_port/cast_core/create_message_port_core.h"
#include "components/cast/message_port/message_port.h"
#include "components/cast/message_port/message_port_buildflags.h"
#include "components/cast/message_port/platform_message_port.h"
#include "components/cast/message_port/test_message_port_receiver.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "third_party/blink/public/common/messaging/web_message_port.h"
#if BUILDFLAG(IS_FUCHSIA)
#include "components/cast/message_port/fuchsia/message_port_fuchsia.h"
#endif // BUILDFLAG(IS_FUCHSIA)
#ifdef PostMessage
#undef PostMessage
#endif
namespace cast_api_bindings {
using CreatePairFunction = void (*)(std::unique_ptr<MessagePort>*,
std::unique_ptr<MessagePort>*);
// Creates a PlatformMessagePort |client | talking to MessagePortCast |server|
static void CreatePlatformToBlinkPair(std::unique_ptr<MessagePort>* client,
std::unique_ptr<MessagePort>* server) {
std::unique_ptr<MessagePort> server_adapter;
MessagePortCast::CreatePair(&server_adapter, server);
*client = BlinkMessagePortAdapter::ToClientPlatformMessagePort(
MessagePortCast::FromMessagePort(server_adapter.get())->TakePort());
}
// Creates a MessagePortCast |client | talking to PlatformMessagePort |server|
static void CreateBlinkToPlatformPair(std::unique_ptr<MessagePort>* client,
std::unique_ptr<MessagePort>* server) {
std::unique_ptr<MessagePort> server_adapter;
CreatePlatformMessagePortPair(&server_adapter, server);
*client = std::make_unique<MessagePortCast>(
BlinkMessagePortAdapter::FromServerPlatformMessagePort(
std::move(server_adapter)));
}
class MessagePortTest : public ::testing::Test {
public:
MessagePortTest() : MessagePortTest(&CreatePlatformMessagePortPair) {}
// Allows parameterized tests to modify which ports are created.
explicit MessagePortTest(CreatePairFunction create_pair)
: task_environment_(base::test::TaskEnvironment::MainThreadType::IO),
create_pair_(create_pair) {
CreatePair(&client_, &server_);
}
~MessagePortTest() override = default;
void CreatePair(std::unique_ptr<MessagePort>* client,
std::unique_ptr<MessagePort>* server) {
create_pair_(client, server);
}
void SetDefaultReceivers() {
client_->SetReceiver(&client_receiver_);
server_->SetReceiver(&server_receiver_);
}
// Posts multiple |messages| from |sender| to |receiver| and validates their
// arrival order
void PostMessages(const std::vector<std::string>& messages,
MessagePort* sender,
TestMessagePortReceiver* receiver) {
for (const auto& message : messages) {
sender->PostMessage(message);
}
EXPECT_TRUE(receiver->RunUntilMessageCountEqual(messages.size()));
for (size_t i = 0; i < messages.size(); i++) {
EXPECT_EQ(receiver->buffer()[i].first, messages[i]);
}
}
// Posts a |port| from |sender| to |receiver| and validates its arrival.
// Returns the transferred |port|.
std::unique_ptr<MessagePort> PostMessageWithTransferables(
std::unique_ptr<MessagePort> port,
MessagePort* sender,
TestMessagePortReceiver* receiver) {
std::vector<std::unique_ptr<MessagePort>> ports;
ports.emplace_back(std::move(port));
sender->PostMessageWithTransferables("", std::move(ports));
EXPECT_TRUE(receiver->RunUntilMessageCountEqual(1));
EXPECT_EQ(receiver->buffer()[0].second.size(), (size_t)1);
return std::move(receiver->buffer()[0].second[0]);
}
void TestPostMessage() {
SetDefaultReceivers();
PostMessages({"from client"}, client_.get(), &server_receiver_);
PostMessages({"from server"}, server_.get(), &client_receiver_);
}
protected:
std::unique_ptr<MessagePort> client_;
std::unique_ptr<MessagePort> server_;
TestMessagePortReceiver client_receiver_;
TestMessagePortReceiver server_receiver_;
private:
const base::test::TaskEnvironment task_environment_;
CreatePairFunction create_pair_;
};
TEST_F(MessagePortTest, WrapPlatformPort) {
// Initialize ports from the platform type instead of agnostic CreatePair
#if BUILDFLAG(USE_MESSAGE_PORT_CORE)
cast_api_bindings::CreateMessagePortCorePair(&client_, &server_);
#elif BUILDFLAG(IS_FUCHSIA)
fidl::InterfaceHandle<fuchsia::web::MessagePort> port0;
fidl::InterfaceRequest<fuchsia::web::MessagePort> port1 = port0.NewRequest();
client_ = MessagePortFuchsia::Create(std::move(port0));
server_ = MessagePortFuchsia::Create(std::move(port1));
#else
auto pair = blink::WebMessagePort::CreatePair();
client_ = MessagePortCast::Create(std::move(pair.first));
server_ = MessagePortCast::Create(std::move(pair.second));
#endif // BUILDFLAG(IS_FUCHSIA)
TestPostMessage();
}
// Test unwrapping via TakePort (rewrapped for test methods)
TEST_F(MessagePortTest, UnwrapPlatformPort) {
// Workaround for parameterized tests which would create the
// wrong port type
CreatePlatformMessagePortPair(&client_, &server_);
#if BUILDFLAG(USE_MESSAGE_PORT_CORE)
client_.reset(
cast_api_bindings::MessagePortCore::FromMessagePort(client_.release()));
server_.reset(
cast_api_bindings::MessagePortCore::FromMessagePort(server_.release()));
#elif BUILDFLAG(IS_FUCHSIA)
client_ = MessagePortFuchsia::Create(
MessagePortFuchsia::FromMessagePort(client_.get())->TakeClientHandle());
server_ = MessagePortFuchsia::Create(
MessagePortFuchsia::FromMessagePort(server_.get())->TakeServiceRequest());
#else
client_ = MessagePortCast::Create(
MessagePortCast::FromMessagePort(client_.get())->TakePort());
server_ = MessagePortCast::Create(
MessagePortCast::FromMessagePort(server_.get())->TakePort());
#endif // BUILDFLAG(IS_FUCHSIA)
TestPostMessage();
}
enum MessagePortTestType {
PLATFORM,
PLATFORM_TO_BLINK,
BLINK_TO_PLATFORM,
FUCHSIA,
CORE,
CAST
};
struct MessagePortTestParam {
MessagePortTestType type;
CreatePairFunction func;
};
const MessagePortTestParam MessagePortTestParams[] = {
{MessagePortTestType::PLATFORM, &CreatePlatformMessagePortPair},
{MessagePortTestType::PLATFORM_TO_BLINK, &CreatePlatformToBlinkPair},
{MessagePortTestType::BLINK_TO_PLATFORM, &CreateBlinkToPlatformPair},
#if BUILDFLAG(IS_FUCHSIA)
{MessagePortTestType::FUCHSIA, &MessagePortFuchsia::CreatePair},
#endif // BUILDFLAG(IS_FUCHSIA)
{MessagePortTestType::CORE, &CreateMessagePortCorePair},
{MessagePortTestType::CAST, &MessagePortCast::CreatePair}};
class ParameterizedMessagePortTest
: public MessagePortTest,
public ::testing::WithParamInterface<MessagePortTestParam> {
public:
ParameterizedMessagePortTest() : MessagePortTest(GetParam().func) {}
~ParameterizedMessagePortTest() override = default;
};
// Run the tests on all port types supported by the platform.
INSTANTIATE_TEST_SUITE_P(ParameterizedMessagePortTest,
ParameterizedMessagePortTest,
testing::ValuesIn(MessagePortTestParams));
TEST_P(ParameterizedMessagePortTest, Close) {
SetDefaultReceivers();
ASSERT_TRUE(client_->CanPostMessage());
ASSERT_TRUE(server_->CanPostMessage());
server_->Close();
// cast_api_bindings::MessagePort reports closure PostMessage is attempted,
// but other ports report it proactively
client_->PostMessage("");
client_receiver_.RunUntilDisconnected();
ASSERT_FALSE(client_->CanPostMessage());
ASSERT_FALSE(server_->CanPostMessage());
}
TEST_P(ParameterizedMessagePortTest, OnError) {
server_receiver_.SetOnMessageResult(false);
SetDefaultReceivers();
client_->PostMessage("");
#if BUILDFLAG(IS_FUCHSIA)
// blink::WebMessagePort reports failure when PostMessage returns false, but
// fuchsia::web::MessagePort will not report the error until the port closes
server_receiver_.RunUntilMessageCountEqual(1);
server_.reset();
#endif
client_receiver_.RunUntilDisconnected();
}
TEST_P(ParameterizedMessagePortTest, OnErrorOnClose) {
SetDefaultReceivers();
server_.reset();
client_receiver_.RunUntilDisconnected();
}
TEST_P(ParameterizedMessagePortTest, PostMessage) {
TestPostMessage();
}
TEST_P(ParameterizedMessagePortTest, PostMessageMultiple) {
SetDefaultReceivers();
PostMessages({"c1", "c2", "c3"}, client_.get(), &server_receiver_);
PostMessages({"s1", "s2", "s3"}, server_.get(), &client_receiver_);
}
TEST_P(ParameterizedMessagePortTest, PostMessageWithTransferables) {
std::unique_ptr<MessagePort> port0;
std::unique_ptr<MessagePort> port1;
TestMessagePortReceiver port0_receiver;
TestMessagePortReceiver port1_receiver;
// For the adapter tests, the ports being passed are inverted:
// - CreateBlinkToPlatformPair gives a client blink and server platform port,
// but port0 needs to be server blink and port1 client platform
// - CreatePlatformToBlinkPair gives a client platform and server blink port,
// but port0 needs to be server platform and port1 client blink
MessagePortTestType t = GetParam().type;
if (t == MessagePortTestType::BLINK_TO_PLATFORM) {
CreatePlatformToBlinkPair(&port1, &port0);
} else if (t == MessagePortTestType::PLATFORM_TO_BLINK) {
CreateBlinkToPlatformPair(&port1, &port0);
} else {
CreatePair(&port1, &port0);
}
// If the ports are represented by multiple types as in the case of
// MessagePortFuchsia, make sure both are transferrable
SetDefaultReceivers();
port0 = PostMessageWithTransferables(std::move(port0), client_.get(),
&server_receiver_);
port1 = PostMessageWithTransferables(std::move(port1), server_.get(),
&client_receiver_);
// Make sure the ports are still usable
port0->SetReceiver(&port0_receiver);
port1->SetReceiver(&port1_receiver);
PostMessages({"from port0"}, port0.get(), &port1_receiver);
PostMessages({"from port1"}, port1.get(), &port0_receiver);
}
} // namespace cast_api_bindings
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