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webrtc/talk/p2p/base/turnport_unittest.cc
wu@webrtc.org 97077a3ab2 Update libjingle to 55618622. 
Update libyuv to r826.

TEST=try bots
R=niklas.enbom@webrtc.org

Review URL: https://webrtc-codereview.appspot.com/2889004

git-svn-id: http://webrtc.googlecode.com/svn/trunk@5038 4adac7df-926f-26a2-2b94-8c16560cd09d
2013-10-25 21:18:33 +00:00

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/*
* libjingle
* Copyright 2012, Google Inc.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO
* EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
* OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
* OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "talk/base/asynctcpsocket.h"
#include "talk/base/buffer.h"
#include "talk/base/dscp.h"
#include "talk/base/firewallsocketserver.h"
#include "talk/base/logging.h"
#include "talk/base/gunit.h"
#include "talk/base/helpers.h"
#include "talk/base/physicalsocketserver.h"
#include "talk/base/scoped_ptr.h"
#include "talk/base/socketaddress.h"
#include "talk/base/thread.h"
#include "talk/base/virtualsocketserver.h"
#include "talk/p2p/base/basicpacketsocketfactory.h"
#include "talk/p2p/base/constants.h"
#include "talk/p2p/base/tcpport.h"
#include "talk/p2p/base/testturnserver.h"
#include "talk/p2p/base/turnport.h"
#include "talk/p2p/base/udpport.h"
using talk_base::SocketAddress;
using cricket::Connection;
using cricket::Port;
using cricket::PortInterface;
using cricket::TurnPort;
using cricket::UDPPort;
static const SocketAddress kLocalAddr1("11.11.11.11", 0);
static const SocketAddress kLocalAddr2("22.22.22.22", 0);
static const SocketAddress kLocalIPv6Addr(
"2401:fa00:4:1000:be30:5bff:fee5:c3", 0);
static const SocketAddress kTurnUdpIntAddr("99.99.99.3",
cricket::TURN_SERVER_PORT);
static const SocketAddress kTurnTcpIntAddr("99.99.99.4",
cricket::TURN_SERVER_PORT);
static const SocketAddress kTurnUdpExtAddr("99.99.99.5", 0);
static const SocketAddress kTurnUdpIPv6IntAddr(
"2400:4030:1:2c00:be30:abcd:efab:cdef", cricket::TURN_SERVER_PORT);
static const SocketAddress kTurnUdpIPv6ExtAddr(
"2620:0:1000:1b03:2e41:38ff:fea6:f2a4", 0);
static const char kIceUfrag1[] = "TESTICEUFRAG0001";
static const char kIceUfrag2[] = "TESTICEUFRAG0002";
static const char kIcePwd1[] = "TESTICEPWD00000000000001";
static const char kIcePwd2[] = "TESTICEPWD00000000000002";
static const char kTurnUsername[] = "test";
static const char kTurnPassword[] = "test";
static const int kTimeout = 1000;
static const cricket::ProtocolAddress kTurnUdpProtoAddr(
kTurnUdpIntAddr, cricket::PROTO_UDP);
static const cricket::ProtocolAddress kTurnTcpProtoAddr(
kTurnTcpIntAddr, cricket::PROTO_TCP);
static const cricket::ProtocolAddress kTurnUdpIPv6ProtoAddr(
kTurnUdpIPv6IntAddr, cricket::PROTO_UDP);
class TurnPortTest : public testing::Test,
public sigslot::has_slots<> {
public:
TurnPortTest()
: main_(talk_base::Thread::Current()),
pss_(new talk_base::PhysicalSocketServer),
ss_(new talk_base::VirtualSocketServer(pss_.get())),
ss_scope_(ss_.get()),
network_("unittest", "unittest", talk_base::IPAddress(INADDR_ANY), 32),
socket_factory_(talk_base::Thread::Current()),
turn_server_(main_, kTurnUdpIntAddr, kTurnUdpExtAddr),
turn_ready_(false),
turn_error_(false),
turn_unknown_address_(false),
turn_create_permission_success_(false),
udp_ready_(false) {
network_.AddIP(talk_base::IPAddress(INADDR_ANY));
}
void OnTurnPortComplete(Port* port) {
turn_ready_ = true;
}
void OnTurnPortError(Port* port) {
turn_error_ = true;
}
void OnTurnUnknownAddress(PortInterface* port, const SocketAddress& addr,
cricket::ProtocolType proto,
cricket::IceMessage* msg, const std::string& rf,
bool /*port_muxed*/) {
turn_unknown_address_ = true;
}
void OnTurnCreatePermissionResult(TurnPort* port, const SocketAddress& addr,
int code) {
// Ignoring the address.
if (code == 0) {
turn_create_permission_success_ = true;
}
}
void OnTurnReadPacket(Connection* conn, const char* data, size_t size) {
turn_packets_.push_back(talk_base::Buffer(data, size));
}
void OnUdpPortComplete(Port* port) {
udp_ready_ = true;
}
void OnUdpReadPacket(Connection* conn, const char* data, size_t size) {
udp_packets_.push_back(talk_base::Buffer(data, size));
}
talk_base::AsyncSocket* CreateServerSocket(const SocketAddress addr) {
talk_base::AsyncSocket* socket = ss_->CreateAsyncSocket(SOCK_STREAM);
EXPECT_GE(socket->Bind(addr), 0);
EXPECT_GE(socket->Listen(5), 0);
return socket;
}
void CreateTurnPort(const std::string& username,
const std::string& password,
const cricket::ProtocolAddress& server_address) {
CreateTurnPort(kLocalAddr1, username, password, server_address);
}
void CreateTurnPort(const talk_base::SocketAddress& local_address,
const std::string& username,
const std::string& password,
const cricket::ProtocolAddress& server_address) {
cricket::RelayCredentials credentials(username, password);
turn_port_.reset(TurnPort::Create(main_, &socket_factory_, &network_,
local_address.ipaddr(), 0, 0,
kIceUfrag1, kIcePwd1,
server_address, credentials));
turn_port_->SignalPortComplete.connect(this,
&TurnPortTest::OnTurnPortComplete);
turn_port_->SignalPortError.connect(this,
&TurnPortTest::OnTurnPortError);
turn_port_->SignalUnknownAddress.connect(this,
&TurnPortTest::OnTurnUnknownAddress);
turn_port_->SignalCreatePermissionResult.connect(this,
&TurnPortTest::OnTurnCreatePermissionResult);
}
void CreateUdpPort() {
udp_port_.reset(UDPPort::Create(main_, &socket_factory_, &network_,
kLocalAddr2.ipaddr(), 0, 0,
kIceUfrag2, kIcePwd2));
udp_port_->SignalPortComplete.connect(
this, &TurnPortTest::OnUdpPortComplete);
}
void TestTurnConnection() {
// Create ports and prepare addresses.
ASSERT_TRUE(turn_port_ != NULL);
turn_port_->PrepareAddress();
ASSERT_TRUE_WAIT(turn_ready_, kTimeout);
CreateUdpPort();
udp_port_->PrepareAddress();
ASSERT_TRUE_WAIT(udp_ready_, kTimeout);
// Send ping from UDP to TURN.
Connection* conn1 = udp_port_->CreateConnection(
turn_port_->Candidates()[0], Port::ORIGIN_MESSAGE);
ASSERT_TRUE(conn1 != NULL);
conn1->Ping(0);
WAIT(!turn_unknown_address_, kTimeout);
EXPECT_FALSE(turn_unknown_address_);
EXPECT_EQ(Connection::STATE_READ_INIT, conn1->read_state());
EXPECT_EQ(Connection::STATE_WRITE_INIT, conn1->write_state());
// Send ping from TURN to UDP.
Connection* conn2 = turn_port_->CreateConnection(
udp_port_->Candidates()[0], Port::ORIGIN_MESSAGE);
ASSERT_TRUE(conn2 != NULL);
ASSERT_TRUE_WAIT(turn_create_permission_success_, kTimeout);
conn2->Ping(0);
EXPECT_EQ_WAIT(Connection::STATE_WRITABLE, conn2->write_state(), kTimeout);
EXPECT_EQ(Connection::STATE_READABLE, conn1->read_state());
EXPECT_EQ(Connection::STATE_READ_INIT, conn2->read_state());
EXPECT_EQ(Connection::STATE_WRITE_INIT, conn1->write_state());
// Send another ping from UDP to TURN.
conn1->Ping(0);
EXPECT_EQ_WAIT(Connection::STATE_WRITABLE, conn1->write_state(), kTimeout);
EXPECT_EQ(Connection::STATE_READABLE, conn2->read_state());
}
void TestTurnSendData() {
turn_port_->PrepareAddress();
EXPECT_TRUE_WAIT(turn_ready_, kTimeout);
CreateUdpPort();
udp_port_->PrepareAddress();
EXPECT_TRUE_WAIT(udp_ready_, kTimeout);
// Create connections and send pings.
Connection* conn1 = turn_port_->CreateConnection(
udp_port_->Candidates()[0], Port::ORIGIN_MESSAGE);
Connection* conn2 = udp_port_->CreateConnection(
turn_port_->Candidates()[0], Port::ORIGIN_MESSAGE);
ASSERT_TRUE(conn1 != NULL);
ASSERT_TRUE(conn2 != NULL);
conn1->SignalReadPacket.connect(static_cast<TurnPortTest*>(this),
&TurnPortTest::OnTurnReadPacket);
conn2->SignalReadPacket.connect(static_cast<TurnPortTest*>(this),
&TurnPortTest::OnUdpReadPacket);
conn1->Ping(0);
EXPECT_EQ_WAIT(Connection::STATE_WRITABLE, conn1->write_state(), kTimeout);
conn2->Ping(0);
EXPECT_EQ_WAIT(Connection::STATE_WRITABLE, conn2->write_state(), kTimeout);
// Send some data.
size_t num_packets = 256;
for (size_t i = 0; i < num_packets; ++i) {
char buf[256];
for (size_t j = 0; j < i + 1; ++j) {
buf[j] = 0xFF - j;
}
conn1->Send(buf, i + 1, talk_base::DSCP_NO_CHANGE);
conn2->Send(buf, i + 1, talk_base::DSCP_NO_CHANGE);
main_->ProcessMessages(0);
}
// Check the data.
ASSERT_EQ_WAIT(num_packets, turn_packets_.size(), kTimeout);
ASSERT_EQ_WAIT(num_packets, udp_packets_.size(), kTimeout);
for (size_t i = 0; i < num_packets; ++i) {
EXPECT_EQ(i + 1, turn_packets_[i].length());
EXPECT_EQ(i + 1, udp_packets_[i].length());
EXPECT_EQ(turn_packets_[i], udp_packets_[i]);
}
}
protected:
talk_base::Thread* main_;
talk_base::scoped_ptr<talk_base::PhysicalSocketServer> pss_;
talk_base::scoped_ptr<talk_base::VirtualSocketServer> ss_;
talk_base::SocketServerScope ss_scope_;
talk_base::Network network_;
talk_base::BasicPacketSocketFactory socket_factory_;
cricket::TestTurnServer turn_server_;
talk_base::scoped_ptr<TurnPort> turn_port_;
talk_base::scoped_ptr<UDPPort> udp_port_;
bool turn_ready_;
bool turn_error_;
bool turn_unknown_address_;
bool turn_create_permission_success_;
bool udp_ready_;
std::vector<talk_base::Buffer> turn_packets_;
std::vector<talk_base::Buffer> udp_packets_;
};
// Do a normal TURN allocation.
TEST_F(TurnPortTest, TestTurnAllocate) {
CreateTurnPort(kTurnUsername, kTurnPassword, kTurnUdpProtoAddr);
EXPECT_EQ(0, turn_port_->SetOption(talk_base::Socket::OPT_SNDBUF, 10*1024));
turn_port_->PrepareAddress();
EXPECT_TRUE_WAIT(turn_ready_, kTimeout);
ASSERT_EQ(1U, turn_port_->Candidates().size());
EXPECT_EQ(kTurnUdpExtAddr.ipaddr(),
turn_port_->Candidates()[0].address().ipaddr());
EXPECT_NE(0, turn_port_->Candidates()[0].address().port());
}
TEST_F(TurnPortTest, TestTurnTcpAllocate) {
turn_server_.AddInternalSocket(kTurnTcpIntAddr, cricket::PROTO_TCP);
CreateTurnPort(kTurnUsername, kTurnPassword, kTurnTcpProtoAddr);
EXPECT_EQ(0, turn_port_->SetOption(talk_base::Socket::OPT_SNDBUF, 10*1024));
turn_port_->PrepareAddress();
EXPECT_TRUE_WAIT(turn_ready_, kTimeout);
ASSERT_EQ(1U, turn_port_->Candidates().size());
EXPECT_EQ(kTurnUdpExtAddr.ipaddr(),
turn_port_->Candidates()[0].address().ipaddr());
EXPECT_NE(0, turn_port_->Candidates()[0].address().port());
}
// Try to do a TURN allocation with an invalid password.
TEST_F(TurnPortTest, TestTurnAllocateBadPassword) {
CreateTurnPort(kTurnUsername, "bad", kTurnUdpProtoAddr);
turn_port_->PrepareAddress();
EXPECT_TRUE_WAIT(turn_error_, kTimeout);
ASSERT_EQ(0U, turn_port_->Candidates().size());
}
// Do a TURN allocation and try to send a packet to it from the outside.
// The packet should be dropped. Then, try to send a packet from TURN to the
// outside. It should reach its destination. Finally, try again from the
// outside. It should now work as well.
TEST_F(TurnPortTest, TestTurnConnection) {
CreateTurnPort(kTurnUsername, kTurnPassword, kTurnUdpProtoAddr);
TestTurnConnection();
}
// Test that we can establish a TCP connection with TURN server.
TEST_F(TurnPortTest, TestTurnTcpConnection) {
turn_server_.AddInternalSocket(kTurnTcpIntAddr, cricket::PROTO_TCP);
CreateTurnPort(kTurnUsername, kTurnPassword, kTurnTcpProtoAddr);
TestTurnConnection();
}
// Test that we fail to create a connection when we want to use TLS over TCP.
// This test should be removed once we have TLS support.
TEST_F(TurnPortTest, TestTurnTlsTcpConnectionFails) {
cricket::ProtocolAddress secure_addr(kTurnTcpProtoAddr.address,
kTurnTcpProtoAddr.proto,
true);
CreateTurnPort(kTurnUsername, kTurnPassword, secure_addr);
turn_port_->PrepareAddress();
EXPECT_TRUE_WAIT(turn_error_, kTimeout);
ASSERT_EQ(0U, turn_port_->Candidates().size());
}
// Run TurnConnectionTest with one-time-use nonce feature.
// Here server will send a 438 STALE_NONCE error message for
// every TURN transaction.
TEST_F(TurnPortTest, TestTurnConnectionUsingOTUNonce) {
turn_server_.set_enable_otu_nonce(true);
CreateTurnPort(kTurnUsername, kTurnPassword, kTurnUdpProtoAddr);
TestTurnConnection();
}
// Do a TURN allocation, establish a UDP connection, and send some data.
TEST_F(TurnPortTest, TestTurnSendDataTurnUdpToUdp) {
// Create ports and prepare addresses.
CreateTurnPort(kTurnUsername, kTurnPassword, kTurnUdpProtoAddr);
TestTurnSendData();
}
// Do a TURN allocation, establish a TCP connection, and send some data.
TEST_F(TurnPortTest, TestTurnSendDataTurnTcpToUdp) {
turn_server_.AddInternalSocket(kTurnTcpIntAddr, cricket::PROTO_TCP);
// Create ports and prepare addresses.
CreateTurnPort(kTurnUsername, kTurnPassword, kTurnTcpProtoAddr);
TestTurnSendData();
}
// Test TURN fails to make a connection from IPv6 address to a server which has
// IPv4 address.
TEST_F(TurnPortTest, TestTurnLocalIPv6AddressServerIPv4) {
turn_server_.AddInternalSocket(kTurnUdpIPv6IntAddr, cricket::PROTO_UDP);
CreateTurnPort(kLocalIPv6Addr, kTurnUsername, kTurnPassword,
kTurnUdpProtoAddr);
turn_port_->PrepareAddress();
ASSERT_TRUE_WAIT(turn_error_, kTimeout);
EXPECT_TRUE(turn_port_->Candidates().empty());
}
// Test TURN make a connection from IPv6 address to a server which has
// IPv6 intenal address. But in this test external address is a IPv4 address,
// hence allocated address will be a IPv4 address.
TEST_F(TurnPortTest, TestTurnLocalIPv6AddressServerIPv6ExtenalIPv4) {
turn_server_.AddInternalSocket(kTurnUdpIPv6IntAddr, cricket::PROTO_UDP);
CreateTurnPort(kLocalIPv6Addr, kTurnUsername, kTurnPassword,
kTurnUdpIPv6ProtoAddr);
turn_port_->PrepareAddress();
EXPECT_TRUE_WAIT(turn_ready_, kTimeout);
ASSERT_EQ(1U, turn_port_->Candidates().size());
EXPECT_EQ(kTurnUdpExtAddr.ipaddr(),
turn_port_->Candidates()[0].address().ipaddr());
EXPECT_NE(0, turn_port_->Candidates()[0].address().port());
}
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