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// 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 "net/dns/address_sorter_posix.h"
#include "base/bind.h"
#include "base/logging.h"
#include "net/base/net_errors.h"
#include "net/base/net_util.h"
#include "net/base/test_completion_callback.h"
#include "net/socket/client_socket_factory.h"
#include "net/socket/ssl_client_socket.h"
#include "net/socket/stream_socket.h"
#include "net/udp/datagram_client_socket.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace net {
namespace {
// Used to map destination address to source address.
typedef std::map<IPAddressNumber, IPAddressNumber> AddressMapping;
IPAddressNumber ParseIP(const std::string& str) {
IPAddressNumber addr;
CHECK(ParseIPLiteralToNumber(str, &addr));
return addr;
}
// A mock socket which binds to source address according to AddressMapping.
class TestUDPClientSocket : public DatagramClientSocket {
public:
explicit TestUDPClientSocket(const AddressMapping* mapping)
: mapping_(mapping), connected_(false) {}
virtual ~TestUDPClientSocket() {}
virtual int Read(IOBuffer*, int, const CompletionCallback&) OVERRIDE {
NOTIMPLEMENTED();
return OK;
}
virtual int Write(IOBuffer*, int, const CompletionCallback&) OVERRIDE {
NOTIMPLEMENTED();
return OK;
}
virtual bool SetReceiveBufferSize(int32) OVERRIDE {
return true;
}
virtual bool SetSendBufferSize(int32) OVERRIDE {
return true;
}
virtual void Close() OVERRIDE {}
virtual int GetPeerAddress(IPEndPoint* address) const OVERRIDE {
NOTIMPLEMENTED();
return OK;
}
virtual int GetLocalAddress(IPEndPoint* address) const OVERRIDE {
if (!connected_)
return ERR_UNEXPECTED;
*address = local_endpoint_;
return OK;
}
virtual int Connect(const IPEndPoint& remote) OVERRIDE {
if (connected_)
return ERR_UNEXPECTED;
AddressMapping::const_iterator it = mapping_->find(remote.address());
if (it == mapping_->end())
return ERR_FAILED;
connected_ = true;
local_endpoint_ = IPEndPoint(it->second, 39874 /* arbitrary port */);
return OK;
}
virtual const BoundNetLog& NetLog() const OVERRIDE {
return net_log_;
}
private:
BoundNetLog net_log_;
const AddressMapping* mapping_;
bool connected_;
IPEndPoint local_endpoint_;
DISALLOW_COPY_AND_ASSIGN(TestUDPClientSocket);
};
// Creates TestUDPClientSockets and maintains an AddressMapping.
class TestSocketFactory : public ClientSocketFactory {
public:
TestSocketFactory() {}
virtual ~TestSocketFactory() {}
virtual scoped_ptr<DatagramClientSocket> CreateDatagramClientSocket(
DatagramSocket::BindType,
const RandIntCallback&,
NetLog*,
const NetLog::Source&) OVERRIDE {
return scoped_ptr<DatagramClientSocket>(new TestUDPClientSocket(&mapping_));
}
virtual scoped_ptr<StreamSocket> CreateTransportClientSocket(
const AddressList&,
NetLog*,
const NetLog::Source&) OVERRIDE {
NOTIMPLEMENTED();
return scoped_ptr<StreamSocket>();
}
virtual scoped_ptr<SSLClientSocket> CreateSSLClientSocket(
scoped_ptr<ClientSocketHandle>,
const HostPortPair&,
const SSLConfig&,
const SSLClientSocketContext&) OVERRIDE {
NOTIMPLEMENTED();
return scoped_ptr<SSLClientSocket>();
}
virtual void ClearSSLSessionCache() OVERRIDE {
NOTIMPLEMENTED();
}
void AddMapping(const IPAddressNumber& dst, const IPAddressNumber& src) {
mapping_[dst] = src;
}
private:
AddressMapping mapping_;
DISALLOW_COPY_AND_ASSIGN(TestSocketFactory);
};
void OnSortComplete(AddressList* result_buf,
const CompletionCallback& callback,
bool success,
const AddressList& result) {
EXPECT_TRUE(success);
if (success)
*result_buf = result;
callback.Run(OK);
}
} // namespace
class AddressSorterPosixTest : public testing::Test {
protected:
AddressSorterPosixTest() : sorter_(&socket_factory_) {}
void AddMapping(const std::string& dst, const std::string& src) {
socket_factory_.AddMapping(ParseIP(dst), ParseIP(src));
}
AddressSorterPosix::SourceAddressInfo* GetSourceInfo(
const std::string& addr) {
IPAddressNumber address = ParseIP(addr);
AddressSorterPosix::SourceAddressInfo* info = &sorter_.source_map_[address];
if (info->scope == AddressSorterPosix::SCOPE_UNDEFINED)
sorter_.FillPolicy(address, info);
return info;
}
// Verify that NULL-terminated |addresses| matches (-1)-terminated |order|
// after sorting.
void Verify(const char* addresses[], const int order[]) {
AddressList list;
for (const char** addr = addresses; *addr != NULL; ++addr)
list.push_back(IPEndPoint(ParseIP(*addr), 80));
for (size_t i = 0; order[i] >= 0; ++i)
CHECK_LT(order[i], static_cast<int>(list.size()));
AddressList result;
TestCompletionCallback callback;
sorter_.Sort(list, base::Bind(&OnSortComplete, &result,
callback.callback()));
callback.WaitForResult();
for (size_t i = 0; (i < result.size()) || (order[i] >= 0); ++i) {
IPEndPoint expected = order[i] >= 0 ? list[order[i]] : IPEndPoint();
IPEndPoint actual = i < result.size() ? result[i] : IPEndPoint();
EXPECT_TRUE(expected.address() == actual.address()) <<
"Address out of order at position " << i << "\n" <<
" Actual: " << actual.ToStringWithoutPort() << "\n" <<
"Expected: " << expected.ToStringWithoutPort();
}
}
TestSocketFactory socket_factory_;
AddressSorterPosix sorter_;
};
// Rule 1: Avoid unusable destinations.
TEST_F(AddressSorterPosixTest, Rule1) {
AddMapping("10.0.0.231", "10.0.0.1");
const char* addresses[] = { "::1", "10.0.0.231", "127.0.0.1", NULL };
const int order[] = { 1, -1 };
Verify(addresses, order);
}
// Rule 2: Prefer matching scope.
TEST_F(AddressSorterPosixTest, Rule2) {
AddMapping("3002::1", "4000::10"); // matching global
AddMapping("ff32::1", "fe81::10"); // matching link-local
AddMapping("fec1::1", "fec1::10"); // matching node-local
AddMapping("3002::2", "::1"); // global vs. link-local
AddMapping("fec1::2", "fe81::10"); // site-local vs. link-local
AddMapping("8.0.0.1", "169.254.0.10"); // global vs. link-local
// In all three cases, matching scope is preferred.
const int order[] = { 1, 0, -1 };
const char* addresses1[] = { "3002::2", "3002::1", NULL };
Verify(addresses1, order);
const char* addresses2[] = { "fec1::2", "ff32::1", NULL };
Verify(addresses2, order);
const char* addresses3[] = { "8.0.0.1", "fec1::1", NULL };
Verify(addresses3, order);
}
// Rule 3: Avoid deprecated addresses.
TEST_F(AddressSorterPosixTest, Rule3) {
// Matching scope.
AddMapping("3002::1", "4000::10");
GetSourceInfo("4000::10")->deprecated = true;
AddMapping("3002::2", "4000::20");
const char* addresses[] = { "3002::1", "3002::2", NULL };
const int order[] = { 1, 0, -1 };
Verify(addresses, order);
}
// Rule 4: Prefer home addresses.
TEST_F(AddressSorterPosixTest, Rule4) {
AddMapping("3002::1", "4000::10");
AddMapping("3002::2", "4000::20");
GetSourceInfo("4000::20")->home = true;
const char* addresses[] = { "3002::1", "3002::2", NULL };
const int order[] = { 1, 0, -1 };
Verify(addresses, order);
}
// Rule 5: Prefer matching label.
TEST_F(AddressSorterPosixTest, Rule5) {
AddMapping("::1", "::1"); // matching loopback
AddMapping("::ffff:1234:1", "::ffff:1234:10"); // matching IPv4-mapped
AddMapping("2001::1", "::ffff:1234:10"); // Teredo vs. IPv4-mapped
AddMapping("2002::1", "2001::10"); // 6to4 vs. Teredo
const int order[] = { 1, 0, -1 };
{
const char* addresses[] = { "2001::1", "::1", NULL };
Verify(addresses, order);
}
{
const char* addresses[] = { "2002::1", "::ffff:1234:1", NULL };
Verify(addresses, order);
}
}
// Rule 6: Prefer higher precedence.
TEST_F(AddressSorterPosixTest, Rule6) {
AddMapping("::1", "::1"); // loopback
AddMapping("ff32::1", "fe81::10"); // multicast
AddMapping("::ffff:1234:1", "::ffff:1234:10"); // IPv4-mapped
AddMapping("2001::1", "2001::10"); // Teredo
const char* addresses[] = { "2001::1", "::ffff:1234:1", "ff32::1", "::1",
NULL };
const int order[] = { 3, 2, 1, 0, -1 };
Verify(addresses, order);
}
// Rule 7: Prefer native transport.
TEST_F(AddressSorterPosixTest, Rule7) {
AddMapping("3002::1", "4000::10");
AddMapping("3002::2", "4000::20");
GetSourceInfo("4000::20")->native = true;
const char* addresses[] = { "3002::1", "3002::2", NULL };
const int order[] = { 1, 0, -1 };
Verify(addresses, order);
}
// Rule 8: Prefer smaller scope.
TEST_F(AddressSorterPosixTest, Rule8) {
// Matching scope. Should precede the others by Rule 2.
AddMapping("fe81::1", "fe81::10"); // link-local
AddMapping("3000::1", "4000::10"); // global
// Mismatched scope.
AddMapping("ff32::1", "4000::10"); // link-local
AddMapping("ff35::1", "4000::10"); // site-local
AddMapping("ff38::1", "4000::10"); // org-local
const char* addresses[] = { "ff38::1", "3000::1", "ff35::1", "ff32::1",
"fe81::1", NULL };
const int order[] = { 4, 1, 3, 2, 0, -1 };
Verify(addresses, order);
}
// Rule 9: Use longest matching prefix.
TEST_F(AddressSorterPosixTest, Rule9) {
AddMapping("3000::1", "3000:ffff::10"); // 16 bit match
GetSourceInfo("3000:ffff::10")->prefix_length = 16;
AddMapping("4000::1", "4000::10"); // 123 bit match, limited to 15
GetSourceInfo("4000::10")->prefix_length = 15;
AddMapping("4002::1", "4000::10"); // 14 bit match
AddMapping("4080::1", "4000::10"); // 8 bit match
const char* addresses[] = { "4080::1", "4002::1", "4000::1", "3000::1",
NULL };
const int order[] = { 3, 2, 1, 0, -1 };
Verify(addresses, order);
}
// Rule 10: Leave the order unchanged.
TEST_F(AddressSorterPosixTest, Rule10) {
AddMapping("4000::1", "4000::10");
AddMapping("4000::2", "4000::10");
AddMapping("4000::3", "4000::10");
const char* addresses[] = { "4000::1", "4000::2", "4000::3", NULL };
const int order[] = { 0, 1, 2, -1 };
Verify(addresses, order);
}
TEST_F(AddressSorterPosixTest, MultipleRules) {
AddMapping("::1", "::1"); // loopback
AddMapping("ff32::1", "fe81::10"); // link-local multicast
AddMapping("ff3e::1", "4000::10"); // global multicast
AddMapping("4000::1", "4000::10"); // global unicast
AddMapping("ff32::2", "fe81::20"); // deprecated link-local multicast
GetSourceInfo("fe81::20")->deprecated = true;
const char* addresses[] = { "ff3e::1", "ff32::2", "4000::1", "ff32::1", "::1",
"8.0.0.1", NULL };
const int order[] = { 4, 3, 0, 2, 1, -1 };
Verify(addresses, order);
}
} // namespace net
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