// Copyright (c) 2011 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 #include "base/memory/scoped_ptr.h" #include "base/stl_util.h" #include "base/strings/string_number_conversions.h" #include "remoting/proto/event.pb.h" #include "remoting/proto/internal.pb.h" #include "remoting/protocol/message_decoder.h" #include "remoting/protocol/message_serialization.h" #include "testing/gtest/include/gtest/gtest.h" namespace remoting { namespace protocol { static const unsigned int kTestKey = 142; static void AppendMessage(const EventMessage& msg, std::string* buffer) { // Contains one encoded message. scoped_refptr encoded_msg; encoded_msg = SerializeAndFrameMessage(msg); buffer->append(encoded_msg->data(), encoded_msg->size()); } // Construct and prepare data in the |output_stream|. static void PrepareData(uint8** buffer, int* size) { // Contains all encoded messages. std::string encoded_data; // Then append 10 update sequences to the data. for (int i = 0; i < 10; ++i) { EventMessage msg; msg.set_timestamp(i); msg.mutable_key_event()->set_usb_keycode(kTestKey + i); msg.mutable_key_event()->set_pressed((i % 2) != 0); AppendMessage(msg, &encoded_data); } *size = encoded_data.length(); *buffer = new uint8[*size]; memcpy(*buffer, encoded_data.c_str(), *size); } void SimulateReadSequence(const int read_sequence[], int sequence_size) { // Prepare encoded data for testing. int size; uint8* test_data; PrepareData(&test_data, &size); scoped_ptr memory_deleter(test_data); // Then simulate using MessageDecoder to decode variable // size of encoded data. // The first thing to do is to generate a variable size of data. This is done // by iterating the following array for read sizes. MessageDecoder decoder; // Then feed the protocol decoder using the above generated data and the // read pattern. std::list message_list; for (int pos = 0; pos < size;) { SCOPED_TRACE("Input position: " + base::IntToString(pos)); // First generate the amount to feed the decoder. int read = std::min(size - pos, read_sequence[pos % sequence_size]); // And then prepare an IOBuffer for feeding it. scoped_refptr buffer(new net::IOBuffer(read)); memcpy(buffer->data(), test_data + pos, read); decoder.AddData(buffer, read); while (true) { scoped_ptr message(decoder.GetNextMessage()); if (!message.get()) break; EventMessage* event = new EventMessage(); CompoundBufferInputStream stream(message.get()); ASSERT_TRUE(event->ParseFromZeroCopyStream(&stream)); message_list.push_back(event); } pos += read; } // Then verify the decoded messages. EXPECT_EQ(10u, message_list.size()); unsigned int index = 0; for (std::list::iterator it = message_list.begin(); it != message_list.end(); ++it) { SCOPED_TRACE("Message " + base::IntToString(index)); EventMessage* message = *it; // Partial update stream. EXPECT_TRUE(message->has_key_event()); // TODO(sergeyu): Don't use index here. Instead store the expected values // in an array. EXPECT_EQ(kTestKey + index, message->key_event().usb_keycode()); EXPECT_EQ((index % 2) != 0, message->key_event().pressed()); ++index; } STLDeleteElements(&message_list); } TEST(MessageDecoderTest, SmallReads) { const int kReads[] = {1, 2, 3, 1}; SimulateReadSequence(kReads, arraysize(kReads)); } TEST(MessageDecoderTest, LargeReads) { const int kReads[] = {50, 50, 5}; SimulateReadSequence(kReads, arraysize(kReads)); } TEST(MessageDecoderTest, EmptyReads) { const int kReads[] = {4, 0, 50, 0}; SimulateReadSequence(kReads, arraysize(kReads)); } } // namespace protocol } // namespace remoting