532 lines
21 KiB
C++
532 lines
21 KiB
C++
/*
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* Copyright (C) 2015 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include "udp.h"
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#include <gtest/gtest.h>
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#include "socket.h"
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#include "socket_mock.h"
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using namespace udp;
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using namespace udp::internal;
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// Some possible corner case sequence numbers we want to check.
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static const uint16_t kTestSequenceNumbers[] = {0x0000, 0x0001, 0x00FF, 0x0100,
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0x7FFF, 0x8000, 0xFFFF};
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// Converts |value| to a binary big-endian string.
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static std::string PacketValue(uint16_t value) {
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return std::string{static_cast<char>(value >> 8), static_cast<char>(value)};
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}
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// Returns an Error packet.
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static std::string ErrorPacket(uint16_t sequence, const std::string& message = "",
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char flags = kFlagNone) {
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return std::string{kIdError, flags} + PacketValue(sequence) + message;
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}
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// Returns a Query packet with no data.
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static std::string QueryPacket(uint16_t sequence) {
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return std::string{kIdDeviceQuery, kFlagNone} + PacketValue(sequence);
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}
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// Returns a Query packet with a 2-byte |new_sequence|.
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static std::string QueryPacket(uint16_t sequence, uint16_t new_sequence) {
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return std::string{kIdDeviceQuery, kFlagNone} + PacketValue(sequence) +
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PacketValue(new_sequence);
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}
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// Returns an Init packet with a 2-byte |version| and |max_packet_size|.
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static std::string InitPacket(uint16_t sequence, uint16_t version, uint16_t max_packet_size) {
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return std::string{kIdInitialization, kFlagNone} + PacketValue(sequence) +
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PacketValue(version) + PacketValue(max_packet_size);
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}
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// Returns a Fastboot packet with |data|.
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static std::string FastbootPacket(uint16_t sequence, const std::string& data = "",
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char flags = kFlagNone) {
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return std::string{kIdFastboot, flags} + PacketValue(sequence) + data;
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}
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// Fixture class to test protocol initialization. Usage is to set up the expected calls to the
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// SocketMock object then call UdpConnect() and check the result.
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class UdpConnectTest : public ::testing::Test {
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public:
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UdpConnectTest() : mock_socket_(new SocketMock) {}
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// Run the initialization, return whether it was successful or not. This passes ownership of
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// the current |mock_socket_| but allocates a new one for re-use.
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bool UdpConnect(std::string* error = nullptr) {
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std::string local_error;
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if (error == nullptr) {
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error = &local_error;
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}
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std::unique_ptr<Transport> transport(Connect(std::move(mock_socket_), error));
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mock_socket_.reset(new SocketMock);
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return transport != nullptr && error->empty();
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}
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protected:
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std::unique_ptr<SocketMock> mock_socket_;
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};
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// Tests a successful protocol initialization with various starting sequence numbers.
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TEST_F(UdpConnectTest, InitializationSuccess) {
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for (uint16_t seq : kTestSequenceNumbers) {
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mock_socket_->ExpectSend(QueryPacket(0));
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mock_socket_->AddReceive(QueryPacket(0, seq));
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mock_socket_->ExpectSend(InitPacket(seq, kProtocolVersion, kHostMaxPacketSize));
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mock_socket_->AddReceive(InitPacket(seq, kProtocolVersion, 1024));
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EXPECT_TRUE(UdpConnect());
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}
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}
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// Tests continuation packets during initialization.
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TEST_F(UdpConnectTest, InitializationContinuationSuccess) {
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mock_socket_->ExpectSend(QueryPacket(0));
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mock_socket_->AddReceive(std::string{kIdDeviceQuery, kFlagContinuation, 0, 0, 0x44});
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mock_socket_->ExpectSend(std::string{kIdDeviceQuery, kFlagNone, 0, 1});
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mock_socket_->AddReceive(std::string{kIdDeviceQuery, kFlagNone, 0, 1, 0x55});
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mock_socket_->ExpectSend(InitPacket(0x4455, kProtocolVersion, kHostMaxPacketSize));
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mock_socket_->AddReceive(std::string{kIdInitialization, kFlagContinuation, 0x44, 0x55, 0});
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mock_socket_->ExpectSend(std::string{kIdInitialization, kFlagNone, 0x44, 0x56});
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mock_socket_->AddReceive(std::string{kIdInitialization, kFlagContinuation, 0x44, 0x56, 1});
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mock_socket_->ExpectSend(std::string{kIdInitialization, kFlagNone, 0x44, 0x57});
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mock_socket_->AddReceive(std::string{kIdInitialization, kFlagContinuation, 0x44, 0x57, 2});
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mock_socket_->ExpectSend(std::string{kIdInitialization, kFlagNone, 0x44, 0x58});
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mock_socket_->AddReceive(std::string{kIdInitialization, kFlagNone, 0x44, 0x58, 0});
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EXPECT_TRUE(UdpConnect());
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}
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// Tests a mismatched version number; as long as the minimum of the two versions is supported
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// we should allow the connection.
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TEST_F(UdpConnectTest, InitializationVersionMismatch) {
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mock_socket_->ExpectSend(QueryPacket(0));
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mock_socket_->AddReceive(QueryPacket(0, 0));
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mock_socket_->ExpectSend(InitPacket(0, kProtocolVersion, kHostMaxPacketSize));
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mock_socket_->AddReceive(InitPacket(0, 2, 1024));
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EXPECT_TRUE(UdpConnect());
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mock_socket_->ExpectSend(QueryPacket(0));
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mock_socket_->AddReceive(QueryPacket(0, 0));
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mock_socket_->ExpectSend(InitPacket(0, kProtocolVersion, kHostMaxPacketSize));
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mock_socket_->AddReceive(InitPacket(0, 0, 1024));
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EXPECT_FALSE(UdpConnect());
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}
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TEST_F(UdpConnectTest, QueryResponseTimeoutFailure) {
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for (int i = 0; i < kMaxConnectAttempts; ++i) {
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mock_socket_->ExpectSend(QueryPacket(0));
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mock_socket_->AddReceiveTimeout();
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}
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EXPECT_FALSE(UdpConnect());
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}
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TEST_F(UdpConnectTest, QueryResponseReceiveFailure) {
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mock_socket_->ExpectSend(QueryPacket(0));
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mock_socket_->AddReceiveFailure();
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EXPECT_FALSE(UdpConnect());
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}
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TEST_F(UdpConnectTest, InitResponseTimeoutFailure) {
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mock_socket_->ExpectSend(QueryPacket(0));
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mock_socket_->AddReceive(QueryPacket(0, 0));
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for (int i = 0; i < kMaxTransmissionAttempts; ++i) {
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mock_socket_->ExpectSend(InitPacket(0, kProtocolVersion, kHostMaxPacketSize));
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mock_socket_->AddReceiveTimeout();
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}
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EXPECT_FALSE(UdpConnect());
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}
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TEST_F(UdpConnectTest, InitResponseReceiveFailure) {
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mock_socket_->ExpectSend(QueryPacket(0));
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mock_socket_->AddReceive(QueryPacket(0, 0));
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mock_socket_->ExpectSend(InitPacket(0, kProtocolVersion, kHostMaxPacketSize));
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mock_socket_->AddReceiveFailure();
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EXPECT_FALSE(UdpConnect());
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}
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// Tests that we can recover up to the maximum number of allowed retries.
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TEST_F(UdpConnectTest, ResponseRecovery) {
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// The device query packet can recover from up to (kMaxConnectAttempts - 1) timeouts.
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for (int i = 0; i < kMaxConnectAttempts - 1; ++i) {
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mock_socket_->ExpectSend(QueryPacket(0));
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mock_socket_->AddReceiveTimeout();
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}
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mock_socket_->ExpectSend(QueryPacket(0));
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mock_socket_->AddReceive(QueryPacket(0, 0));
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// Subsequent packets try up to (kMaxTransmissionAttempts - 1) times.
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for (int i = 0; i < kMaxTransmissionAttempts - 1; ++i) {
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mock_socket_->ExpectSend(InitPacket(0, kProtocolVersion, kHostMaxPacketSize));
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mock_socket_->AddReceiveTimeout();
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}
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mock_socket_->ExpectSend(InitPacket(0, kProtocolVersion, kHostMaxPacketSize));
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mock_socket_->AddReceive(InitPacket(0, kProtocolVersion, 1024));
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EXPECT_TRUE(UdpConnect());
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}
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// Tests that the host can handle receiving additional bytes for forward compatibility.
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TEST_F(UdpConnectTest, ExtraResponseDataSuccess) {
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mock_socket_->ExpectSend(QueryPacket(0));
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mock_socket_->AddReceive(QueryPacket(0, 0) + "foo");
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mock_socket_->ExpectSend(InitPacket(0, kProtocolVersion, kHostMaxPacketSize));
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mock_socket_->AddReceive(InitPacket(0, kProtocolVersion, 1024) + "bar");
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EXPECT_TRUE(UdpConnect());
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}
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// Tests mismatched response sequence numbers. A wrong sequence number is interpreted as a previous
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// retransmission and just ignored so we should be able to recover.
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TEST_F(UdpConnectTest, WrongSequenceRecovery) {
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mock_socket_->ExpectSend(QueryPacket(0));
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mock_socket_->AddReceive(QueryPacket(1, 0));
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mock_socket_->AddReceive(QueryPacket(0, 0));
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mock_socket_->ExpectSend(InitPacket(0, kProtocolVersion, kHostMaxPacketSize));
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mock_socket_->AddReceive(InitPacket(1, kProtocolVersion, 1024));
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mock_socket_->AddReceive(InitPacket(0, kProtocolVersion, 1024));
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EXPECT_TRUE(UdpConnect());
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}
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// Tests mismatched response IDs. This should also be interpreted as a retransmission and ignored.
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TEST_F(UdpConnectTest, WrongIdRecovery) {
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mock_socket_->ExpectSend(QueryPacket(0));
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mock_socket_->AddReceive(FastbootPacket(0));
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mock_socket_->AddReceive(QueryPacket(0, 0));
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mock_socket_->ExpectSend(InitPacket(0, kProtocolVersion, kHostMaxPacketSize));
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mock_socket_->AddReceive(FastbootPacket(0));
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mock_socket_->AddReceive(InitPacket(0, kProtocolVersion, 1024));
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EXPECT_TRUE(UdpConnect());
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}
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// Tests an invalid query response. Query responses must have at least 2 bytes of data.
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TEST_F(UdpConnectTest, InvalidQueryResponseFailure) {
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std::string error;
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mock_socket_->ExpectSend(QueryPacket(0));
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mock_socket_->AddReceive(QueryPacket(0));
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EXPECT_FALSE(UdpConnect(&error));
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EXPECT_EQ("invalid query response from target", error);
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mock_socket_->ExpectSend(QueryPacket(0));
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mock_socket_->AddReceive(QueryPacket(0) + std::string{0x00});
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EXPECT_FALSE(UdpConnect(&error));
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EXPECT_EQ("invalid query response from target", error);
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}
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// Tests an invalid initialization response. Max packet size must be at least 512 bytes.
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TEST_F(UdpConnectTest, InvalidInitResponseFailure) {
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std::string error;
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mock_socket_->ExpectSend(QueryPacket(0));
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mock_socket_->AddReceive(QueryPacket(0, 0));
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mock_socket_->ExpectSend(InitPacket(0, kProtocolVersion, kHostMaxPacketSize));
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mock_socket_->AddReceive(InitPacket(0, kProtocolVersion, 511));
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EXPECT_FALSE(UdpConnect(&error));
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EXPECT_EQ("target reported invalid packet size 511", error);
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mock_socket_->ExpectSend(QueryPacket(0));
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mock_socket_->AddReceive(QueryPacket(0, 0));
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mock_socket_->ExpectSend(InitPacket(0, kProtocolVersion, kHostMaxPacketSize));
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mock_socket_->AddReceive(InitPacket(0, 0, 1024));
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EXPECT_FALSE(UdpConnect(&error));
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EXPECT_EQ("target reported invalid protocol version 0", error);
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}
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TEST_F(UdpConnectTest, ErrorResponseFailure) {
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std::string error;
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mock_socket_->ExpectSend(QueryPacket(0));
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mock_socket_->AddReceive(ErrorPacket(0, "error1"));
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EXPECT_FALSE(UdpConnect(&error));
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EXPECT_NE(std::string::npos, error.find("error1"));
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mock_socket_->ExpectSend(QueryPacket(0));
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mock_socket_->AddReceive(QueryPacket(0, 0));
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mock_socket_->ExpectSend(InitPacket(0, kProtocolVersion, kHostMaxPacketSize));
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mock_socket_->AddReceive(ErrorPacket(0, "error2"));
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EXPECT_FALSE(UdpConnect(&error));
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EXPECT_NE(std::string::npos, error.find("error2"));
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}
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// Tests an error response with continuation flag.
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TEST_F(UdpConnectTest, ErrorContinuationFailure) {
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std::string error;
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mock_socket_->ExpectSend(QueryPacket(0));
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mock_socket_->AddReceive(ErrorPacket(0, "error1", kFlagContinuation));
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mock_socket_->ExpectSend(ErrorPacket(1));
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mock_socket_->AddReceive(ErrorPacket(1, " ", kFlagContinuation));
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mock_socket_->ExpectSend(ErrorPacket(2));
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mock_socket_->AddReceive(ErrorPacket(2, "error2"));
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EXPECT_FALSE(UdpConnect(&error));
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EXPECT_NE(std::string::npos, error.find("error1 error2"));
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}
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// Fixture class to test UDP Transport read/write functionality.
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class UdpTest : public ::testing::Test {
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public:
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void SetUp() override {
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// Create |transport_| starting at sequence 0 with 512 byte max packet size. Tests can call
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// InitializeTransport() again to change settings.
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ASSERT_TRUE(InitializeTransport(0, 512));
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}
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// Sets up |mock_socket_| to correctly initialize the protocol and creates |transport_|. This
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// can be called multiple times in a test if needed.
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bool InitializeTransport(uint16_t starting_sequence, int device_max_packet_size = 512) {
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mock_socket_ = new SocketMock;
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mock_socket_->ExpectSend(QueryPacket(0));
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mock_socket_->AddReceive(QueryPacket(0, starting_sequence));
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mock_socket_->ExpectSend(
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InitPacket(starting_sequence, kProtocolVersion, kHostMaxPacketSize));
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mock_socket_->AddReceive(
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InitPacket(starting_sequence, kProtocolVersion, device_max_packet_size));
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std::string error;
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transport_ = Connect(std::unique_ptr<Socket>(mock_socket_), &error);
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return transport_ != nullptr && error.empty();
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}
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// Writes |message| to |transport_|, returns true on success.
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bool Write(const std::string& message) {
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return transport_->Write(message.data(), message.length()) ==
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static_cast<ssize_t>(message.length());
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}
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// Reads from |transport_|, returns true if it matches |message|.
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bool Read(const std::string& message) {
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std::string buffer(message.length(), '\0');
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return transport_->Read(&buffer[0], buffer.length()) ==
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static_cast<ssize_t>(message.length()) && buffer == message;
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}
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protected:
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// |mock_socket_| is a raw pointer here because we transfer ownership to |transport_| but we
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// need to retain a pointer to set send and receive expectations.
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SocketMock* mock_socket_ = nullptr;
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std::unique_ptr<Transport> transport_;
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};
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// Tests sequence behavior with various starting sequence numbers.
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TEST_F(UdpTest, SequenceIncrementCheck) {
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for (uint16_t seq : kTestSequenceNumbers) {
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ASSERT_TRUE(InitializeTransport(seq));
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for (int i = 0; i < 10; ++i) {
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mock_socket_->ExpectSend(FastbootPacket(++seq, "foo"));
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mock_socket_->AddReceive(FastbootPacket(seq, ""));
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mock_socket_->ExpectSend(FastbootPacket(++seq, ""));
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mock_socket_->AddReceive(FastbootPacket(seq, "bar"));
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EXPECT_TRUE(Write("foo"));
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EXPECT_TRUE(Read("bar"));
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}
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}
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}
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// Tests sending and receiving a few small packets.
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TEST_F(UdpTest, ReadAndWriteSmallPackets) {
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mock_socket_->ExpectSend(FastbootPacket(1, "foo"));
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mock_socket_->AddReceive(FastbootPacket(1, ""));
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mock_socket_->ExpectSend(FastbootPacket(2, ""));
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mock_socket_->AddReceive(FastbootPacket(2, "bar"));
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EXPECT_TRUE(Write("foo"));
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EXPECT_TRUE(Read("bar"));
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mock_socket_->ExpectSend(FastbootPacket(3, "12345 67890"));
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mock_socket_->AddReceive(FastbootPacket(3));
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mock_socket_->ExpectSend(FastbootPacket(4, "\x01\x02\x03\x04\x05"));
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mock_socket_->AddReceive(FastbootPacket(4));
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EXPECT_TRUE(Write("12345 67890"));
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EXPECT_TRUE(Write("\x01\x02\x03\x04\x05"));
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// Reads are done by sending empty packets.
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mock_socket_->ExpectSend(FastbootPacket(5));
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mock_socket_->AddReceive(FastbootPacket(5, "foo bar baz"));
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mock_socket_->ExpectSend(FastbootPacket(6));
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mock_socket_->AddReceive(FastbootPacket(6, "\x01\x02\x03\x04\x05"));
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EXPECT_TRUE(Read("foo bar baz"));
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EXPECT_TRUE(Read("\x01\x02\x03\x04\x05"));
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}
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TEST_F(UdpTest, ResponseTimeoutFailure) {
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for (int i = 0; i < kMaxTransmissionAttempts; ++i) {
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mock_socket_->ExpectSend(FastbootPacket(1, "foo"));
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mock_socket_->AddReceiveTimeout();
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}
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EXPECT_FALSE(Write("foo"));
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}
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TEST_F(UdpTest, ResponseReceiveFailure) {
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mock_socket_->ExpectSend(FastbootPacket(1, "foo"));
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mock_socket_->AddReceiveFailure();
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EXPECT_FALSE(Write("foo"));
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}
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TEST_F(UdpTest, ResponseTimeoutRecovery) {
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for (int i = 0; i < kMaxTransmissionAttempts - 1; ++i) {
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mock_socket_->ExpectSend(FastbootPacket(1, "foo"));
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mock_socket_->AddReceiveTimeout();
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}
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mock_socket_->ExpectSend(FastbootPacket(1, "foo"));
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mock_socket_->AddReceive(FastbootPacket(1, ""));
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EXPECT_TRUE(Write("foo"));
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}
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// Tests continuation packets for various max packet sizes.
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// The important part of this test is that regardless of what kind of packet fragmentation happens
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// at the socket layer, a single call to Transport::Read() and Transport::Write() is all the
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// fastboot code needs to do.
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TEST_F(UdpTest, ContinuationPackets) {
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for (uint16_t max_packet_size : {512, 1024, 1200}) {
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ASSERT_TRUE(InitializeTransport(0, max_packet_size));
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// Initialize the data we want to send. Use (size - 4) to leave room for the header.
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size_t max_data_size = max_packet_size - 4;
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std::string data(max_data_size * 3, '\0');
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for (size_t i = 0; i < data.length(); ++i) {
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data[i] = i;
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}
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std::string chunks[] = {data.substr(0, max_data_size),
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data.substr(max_data_size, max_data_size),
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data.substr(max_data_size * 2, max_data_size)};
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// Write data: split into 3 UDP packets, each of which will be ACKed.
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mock_socket_->ExpectSend(FastbootPacket(1, chunks[0], kFlagContinuation));
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mock_socket_->AddReceive(FastbootPacket(1));
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mock_socket_->ExpectSend(FastbootPacket(2, chunks[1], kFlagContinuation));
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mock_socket_->AddReceive(FastbootPacket(2));
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mock_socket_->ExpectSend(FastbootPacket(3, chunks[2]));
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mock_socket_->AddReceive(FastbootPacket(3));
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EXPECT_TRUE(Write(data));
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// Same thing for reading the data.
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mock_socket_->ExpectSend(FastbootPacket(4));
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mock_socket_->AddReceive(FastbootPacket(4, chunks[0], kFlagContinuation));
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mock_socket_->ExpectSend(FastbootPacket(5));
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mock_socket_->AddReceive(FastbootPacket(5, chunks[1], kFlagContinuation));
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mock_socket_->ExpectSend(FastbootPacket(6));
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mock_socket_->AddReceive(FastbootPacket(6, chunks[2]));
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EXPECT_TRUE(Read(data));
|
|
}
|
|
}
|
|
|
|
// Tests that the continuation bit is respected even if the packet isn't max size.
|
|
TEST_F(UdpTest, SmallContinuationPackets) {
|
|
mock_socket_->ExpectSend(FastbootPacket(1));
|
|
mock_socket_->AddReceive(FastbootPacket(1, "foo", kFlagContinuation));
|
|
mock_socket_->ExpectSend(FastbootPacket(2));
|
|
mock_socket_->AddReceive(FastbootPacket(2, "bar"));
|
|
|
|
EXPECT_TRUE(Read("foobar"));
|
|
}
|
|
|
|
// Tests receiving an error packet mid-continuation.
|
|
TEST_F(UdpTest, ContinuationPacketError) {
|
|
mock_socket_->ExpectSend(FastbootPacket(1));
|
|
mock_socket_->AddReceive(FastbootPacket(1, "foo", kFlagContinuation));
|
|
mock_socket_->ExpectSend(FastbootPacket(2));
|
|
mock_socket_->AddReceive(ErrorPacket(2, "test error"));
|
|
|
|
EXPECT_FALSE(Read("foo"));
|
|
}
|
|
|
|
// Tests timeout during a continuation sequence.
|
|
TEST_F(UdpTest, ContinuationTimeoutRecovery) {
|
|
mock_socket_->ExpectSend(FastbootPacket(1));
|
|
mock_socket_->AddReceive(FastbootPacket(1, "foo", kFlagContinuation));
|
|
mock_socket_->ExpectSend(FastbootPacket(2));
|
|
mock_socket_->AddReceiveTimeout();
|
|
mock_socket_->ExpectSend(FastbootPacket(2));
|
|
mock_socket_->AddReceive(FastbootPacket(2, "bar"));
|
|
|
|
EXPECT_TRUE(Read("foobar"));
|
|
}
|
|
|
|
// Tests read overflow returns -1 to indicate the failure.
|
|
TEST_F(UdpTest, MultipleReadPacket) {
|
|
mock_socket_->ExpectSend(FastbootPacket(1));
|
|
mock_socket_->AddReceive(FastbootPacket(1, "foobarbaz"));
|
|
|
|
char buffer[3];
|
|
EXPECT_EQ(-1, transport_->Read(buffer, 3));
|
|
}
|
|
|
|
// Tests that packets arriving out-of-order are ignored.
|
|
TEST_F(UdpTest, IgnoreOutOfOrderPackets) {
|
|
mock_socket_->ExpectSend(FastbootPacket(1));
|
|
mock_socket_->AddReceive(FastbootPacket(0, "sequence too low"));
|
|
mock_socket_->AddReceive(FastbootPacket(2, "sequence too high"));
|
|
mock_socket_->AddReceive(QueryPacket(1));
|
|
mock_socket_->AddReceive(FastbootPacket(1, "correct"));
|
|
|
|
EXPECT_TRUE(Read("correct"));
|
|
}
|
|
|
|
// Tests that an error response with the correct sequence number causes immediate failure.
|
|
TEST_F(UdpTest, ErrorResponse) {
|
|
// Error packets with the wrong sequence number should be ignored like any other packet.
|
|
mock_socket_->ExpectSend(FastbootPacket(1, "foo"));
|
|
mock_socket_->AddReceive(ErrorPacket(0, "ignored error"));
|
|
mock_socket_->AddReceive(FastbootPacket(1));
|
|
|
|
EXPECT_TRUE(Write("foo"));
|
|
|
|
// Error packets with the correct sequence should abort immediately without retransmission.
|
|
mock_socket_->ExpectSend(FastbootPacket(2, "foo"));
|
|
mock_socket_->AddReceive(ErrorPacket(2, "test error"));
|
|
|
|
EXPECT_FALSE(Write("foo"));
|
|
}
|
|
|
|
// Tests that attempting to use a closed transport returns -1 without making any socket calls.
|
|
TEST_F(UdpTest, CloseTransport) {
|
|
char buffer[32];
|
|
EXPECT_EQ(0, transport_->Close());
|
|
EXPECT_EQ(-1, transport_->Write("foo", 3));
|
|
EXPECT_EQ(-1, transport_->Read(buffer, sizeof(buffer)));
|
|
}
|