blob: b027eff1028ff62c33f063ade6e57c1dc4217d29 [file] [log] [blame]
// 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.
#include <stdint.h>
#include "base/bind.h"
#include "base/bind_helpers.h"
#include "base/location.h"
#include "base/run_loop.h"
#include "base/single_thread_task_runner.h"
#include "base/synchronization/waitable_event.h"
#include "base/test/task_environment.h"
#include "base/threading/thread.h"
#include "base/threading/thread_task_runner_handle.h"
#include "ipc/ipc_message.h"
#include "ppapi/c/pp_errors.h"
#include "ppapi/host/host_message_context.h"
#include "ppapi/host/resource_host.h"
#include "ppapi/host/resource_message_filter.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace ppapi {
namespace host {
namespace {
base::WaitableEvent g_handler_completion(
base::WaitableEvent::ResetPolicy::MANUAL,
base::WaitableEvent::InitialState::NOT_SIGNALED);
enum TestMessageTypes {
MSG1_TYPE = 1,
MSG2_TYPE,
MSG3_TYPE,
REPLY_MSG1_TYPE,
REPLY_MSG2_TYPE,
REPLY_MSG3_TYPE,
};
// Dummy resource host which simply stores a copy of messages it handles.
// |SendReply| is overridden to store a copy of the outgoing message and the
// message loop on which it was sent.
class MyResourceHost : public ResourceHost {
public:
// Messages of type |msg_type| will be handled (simply by replying with a
// message of type |reply_msg_type|).
MyResourceHost(PpapiHost* host,
PP_Instance instance,
PP_Resource resource,
uint32_t msg_type,
uint32_t reply_msg_type)
: ResourceHost(host, instance, resource),
msg_type_(msg_type),
reply_msg_type_(reply_msg_type),
last_reply_task_runner_(nullptr) {}
const IPC::Message& last_handled_msg() const { return last_handled_msg_; }
const IPC::Message& last_reply_msg() const { return last_reply_msg_; }
scoped_refptr<base::SingleThreadTaskRunner> last_reply_task_runner() const {
return last_reply_task_runner_;
}
void AddMessageFilter(scoped_refptr<ResourceMessageFilter> filter) {
AddFilter(filter);
}
int32_t OnResourceMessageReceived(const IPC::Message& msg,
HostMessageContext* context) override {
last_handled_msg_ = msg;
if (msg.type() == msg_type_) {
context->reply_msg = IPC::Message(0, reply_msg_type_,
IPC::Message::PRIORITY_NORMAL);
return PP_OK;
}
return PP_ERROR_FAILED;
}
void SendReply(const ReplyMessageContext& context,
const IPC::Message& msg) override {
last_reply_msg_ = msg;
last_reply_task_runner_ = base::ThreadTaskRunnerHandle::Get();
g_handler_completion.Signal();
}
private:
uint32_t msg_type_;
uint32_t reply_msg_type_;
IPC::Message last_handled_msg_;
IPC::Message last_reply_msg_;
scoped_refptr<base::SingleThreadTaskRunner> last_reply_task_runner_;
};
// Dummy message filter which simply stores a copy of messages it handles.
// The message loop on which the message is handled is also stored for checking
// later.
class MyResourceFilter : public ResourceMessageFilter {
public:
// Messages of type |msg_type| will be handled (simply by replying with a
// message of type |reply_msg_type|). |io_thread| is the thread on which
// replies should be sent. |bg_thread| is the thread on which the message
// should be handled.
MyResourceFilter(const base::Thread& io_thread,
const base::Thread& bg_thread,
uint32_t msg_type,
uint32_t reply_msg_type)
: ResourceMessageFilter(io_thread.task_runner()),
task_runner_(bg_thread.task_runner()),
msg_type_(msg_type),
reply_msg_type_(reply_msg_type) {}
const IPC::Message& last_handled_msg() const { return last_handled_msg_; }
scoped_refptr<base::SingleThreadTaskRunner> last_task_runner() const {
return last_task_runner_;
}
scoped_refptr<base::TaskRunner> OverrideTaskRunnerForMessage(
const IPC::Message& msg) override {
if (msg.type() == msg_type_)
return task_runner_;
return nullptr;
}
int32_t OnResourceMessageReceived(
const IPC::Message& msg,
HostMessageContext* context) override {
last_handled_msg_ = msg;
last_task_runner_ = base::ThreadTaskRunnerHandle::Get();
if (msg.type() == msg_type_) {
context->reply_msg = IPC::Message(0, reply_msg_type_,
IPC::Message::PRIORITY_NORMAL);
return PP_OK;
}
return PP_ERROR_FAILED;
}
private:
scoped_refptr<base::SingleThreadTaskRunner> task_runner_;
uint32_t msg_type_;
uint32_t reply_msg_type_;
IPC::Message last_handled_msg_;
scoped_refptr<base::SingleThreadTaskRunner> last_task_runner_;
};
} // namespace
class ResourceMessageFilterTest : public testing::Test {
public:
void TestHandleMessageImpl() {
base::Thread io_thread("test_io_thread");
ASSERT_TRUE(io_thread.Start());
base::Thread bg_thread1("test_background_thread1");
ASSERT_TRUE(bg_thread1.Start());
scoped_refptr<MyResourceFilter> filter1 =
new MyResourceFilter(io_thread, bg_thread1, MSG1_TYPE, REPLY_MSG1_TYPE);
base::Thread bg_thread2("test_background_thread2");
ASSERT_TRUE(bg_thread2.Start());
scoped_refptr<MyResourceFilter> filter2 =
new MyResourceFilter(io_thread, bg_thread2, MSG2_TYPE, REPLY_MSG2_TYPE);
PP_Instance instance = 12345;
PP_Resource resource = 67890;
MyResourceHost host(nullptr, instance, resource, MSG3_TYPE,
REPLY_MSG3_TYPE);
host.AddMessageFilter(filter1);
host.AddMessageFilter(filter2);
proxy::ResourceMessageCallParams params(resource, 1);
params.set_has_callback();
HostMessageContext context(params);
IPC::Message message1(0, MSG1_TYPE, IPC::Message::PRIORITY_NORMAL);
IPC::Message message2(0, MSG2_TYPE, IPC::Message::PRIORITY_NORMAL);
IPC::Message message3(0, MSG3_TYPE, IPC::Message::PRIORITY_NORMAL);
// Message 1 handled by the first filter.
host.HandleMessage(message1, &context);
g_handler_completion.Wait();
EXPECT_EQ(filter1->last_handled_msg().type(), message1.type());
EXPECT_EQ(filter1->last_task_runner(), bg_thread1.task_runner());
EXPECT_EQ(host.last_reply_msg().type(),
static_cast<uint32_t>(REPLY_MSG1_TYPE));
EXPECT_EQ(host.last_reply_task_runner(), io_thread.task_runner());
g_handler_completion.Reset();
// Message 2 handled by the second filter.
host.HandleMessage(message2, &context);
g_handler_completion.Wait();
EXPECT_EQ(filter2->last_handled_msg().type(), message2.type());
EXPECT_EQ(filter2->last_task_runner(), bg_thread2.task_runner());
EXPECT_EQ(host.last_reply_msg().type(),
static_cast<uint32_t>(REPLY_MSG2_TYPE));
EXPECT_EQ(host.last_reply_task_runner(), io_thread.task_runner());
g_handler_completion.Reset();
// Message 3 handled by the resource host.
host.HandleMessage(message3, &context);
EXPECT_EQ(host.last_handled_msg().type(), message3.type());
EXPECT_EQ(host.last_reply_msg().type(),
static_cast<uint32_t>(REPLY_MSG3_TYPE));
io_thread.Stop();
bg_thread1.Stop();
bg_thread2.Stop();
}
};
// Test that messages are filtered correctly and handlers are run on the correct
// threads.
TEST_F(ResourceMessageFilterTest, TestHandleMessage) {
// ResourceMessageFilter instances need to be created on a thread with message
// loop. Therefore, we create a message loop and run the testing logic as a
// task on it.
base::test::SingleThreadTaskEnvironment task_environment;
// It should be safe to use base::Unretained() because the object won't be
// destroyed before the task is run.
task_environment.GetMainThreadTaskRunner()->PostTask(
FROM_HERE,
base::BindOnce(&ResourceMessageFilterTest::TestHandleMessageImpl,
base::Unretained(this)));
base::RunLoop().RunUntilIdle();
}
} // namespace proxy
} // namespace ppapi