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chromium / chromium / src / 40.0.2214.42 / . / net / socket / ssl_server_socket_unittest.cc
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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.
// This test suite uses SSLClientSocket to test the implementation of
// SSLServerSocket. In order to establish connections between the sockets
// we need two additional classes:
// 1. FakeSocket
// Connects SSL socket to FakeDataChannel. This class is just a stub.
//
// 2. FakeDataChannel
// Implements the actual exchange of data between two FakeSockets.
//
// Implementations of these two classes are included in this file.
#include "net/socket/ssl_server_socket.h"
#include <stdlib.h>
#include <queue>
#include "base/compiler_specific.h"
#include "base/files/file_path.h"
#include "base/files/file_util.h"
#include "base/message_loop/message_loop.h"
#include "crypto/nss_util.h"
#include "crypto/rsa_private_key.h"
#include "net/base/address_list.h"
#include "net/base/completion_callback.h"
#include "net/base/host_port_pair.h"
#include "net/base/io_buffer.h"
#include "net/base/ip_endpoint.h"
#include "net/base/net_errors.h"
#include "net/base/net_log.h"
#include "net/base/test_data_directory.h"
#include "net/cert/cert_status_flags.h"
#include "net/cert/mock_cert_verifier.h"
#include "net/cert/x509_certificate.h"
#include "net/http/transport_security_state.h"
#include "net/socket/client_socket_factory.h"
#include "net/socket/socket_test_util.h"
#include "net/socket/ssl_client_socket.h"
#include "net/socket/stream_socket.h"
#include "net/ssl/ssl_config_service.h"
#include "net/ssl/ssl_info.h"
#include "net/test/cert_test_util.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "testing/platform_test.h"
namespace net {
namespace {
class FakeDataChannel {
public:
FakeDataChannel()
: read_buf_len_(0),
closed_(false),
write_called_after_close_(false),
weak_factory_(this) {
}
int Read(IOBuffer* buf, int buf_len, const CompletionCallback& callback) {
DCHECK(read_callback_.is_null());
DCHECK(!read_buf_.get());
if (closed_)
return 0;
if (data_.empty()) {
read_callback_ = callback;
read_buf_ = buf;
read_buf_len_ = buf_len;
return ERR_IO_PENDING;
}
return PropogateData(buf, buf_len);
}
int Write(IOBuffer* buf, int buf_len, const CompletionCallback& callback) {
DCHECK(write_callback_.is_null());
if (closed_) {
if (write_called_after_close_)
return ERR_CONNECTION_RESET;
write_called_after_close_ = true;
write_callback_ = callback;
base::MessageLoop::current()->PostTask(
FROM_HERE, base::Bind(&FakeDataChannel::DoWriteCallback,
weak_factory_.GetWeakPtr()));
return ERR_IO_PENDING;
}
// This function returns synchronously, so make a copy of the buffer.
data_.push(new DrainableIOBuffer(
new StringIOBuffer(std::string(buf->data(), buf_len)),
buf_len));
base::MessageLoop::current()->PostTask(
FROM_HERE, base::Bind(&FakeDataChannel::DoReadCallback,
weak_factory_.GetWeakPtr()));
return buf_len;
}
// Closes the FakeDataChannel. After Close() is called, Read() returns 0,
// indicating EOF, and Write() fails with ERR_CONNECTION_RESET. Note that
// after the FakeDataChannel is closed, the first Write() call completes
// asynchronously, which is necessary to reproduce bug 127822.
void Close() {
closed_ = true;
}
private:
void DoReadCallback() {
if (read_callback_.is_null() || data_.empty())
return;
int copied = PropogateData(read_buf_, read_buf_len_);
CompletionCallback callback = read_callback_;
read_callback_.Reset();
read_buf_ = NULL;
read_buf_len_ = 0;
callback.Run(copied);
}
void DoWriteCallback() {
if (write_callback_.is_null())
return;
CompletionCallback callback = write_callback_;
write_callback_.Reset();
callback.Run(ERR_CONNECTION_RESET);
}
int PropogateData(scoped_refptr<IOBuffer> read_buf, int read_buf_len) {
scoped_refptr<DrainableIOBuffer> buf = data_.front();
int copied = std::min(buf->BytesRemaining(), read_buf_len);
memcpy(read_buf->data(), buf->data(), copied);
buf->DidConsume(copied);
if (!buf->BytesRemaining())
data_.pop();
return copied;
}
CompletionCallback read_callback_;
scoped_refptr<IOBuffer> read_buf_;
int read_buf_len_;
CompletionCallback write_callback_;
std::queue<scoped_refptr<DrainableIOBuffer> > data_;
// True if Close() has been called.
bool closed_;
// Controls the completion of Write() after the FakeDataChannel is closed.
// After the FakeDataChannel is closed, the first Write() call completes
// asynchronously.
bool write_called_after_close_;
base::WeakPtrFactory<FakeDataChannel> weak_factory_;
DISALLOW_COPY_AND_ASSIGN(FakeDataChannel);
};
class FakeSocket : public StreamSocket {
public:
FakeSocket(FakeDataChannel* incoming_channel,
FakeDataChannel* outgoing_channel)
: incoming_(incoming_channel),
outgoing_(outgoing_channel) {
}
~FakeSocket() override {}
int Read(IOBuffer* buf,
int buf_len,
const CompletionCallback& callback) override {
// Read random number of bytes.
buf_len = rand() % buf_len + 1;
return incoming_->Read(buf, buf_len, callback);
}
int Write(IOBuffer* buf,
int buf_len,
const CompletionCallback& callback) override {
// Write random number of bytes.
buf_len = rand() % buf_len + 1;
return outgoing_->Write(buf, buf_len, callback);
}
int SetReceiveBufferSize(int32 size) override { return OK; }
int SetSendBufferSize(int32 size) override { return OK; }
int Connect(const CompletionCallback& callback) override { return OK; }
void Disconnect() override {
incoming_->Close();
outgoing_->Close();
}
bool IsConnected() const override { return true; }
bool IsConnectedAndIdle() const override { return true; }
int GetPeerAddress(IPEndPoint* address) const override {
IPAddressNumber ip_address(kIPv4AddressSize);
*address = IPEndPoint(ip_address, 0 /*port*/);
return OK;
}
int GetLocalAddress(IPEndPoint* address) const override {
IPAddressNumber ip_address(4);
*address = IPEndPoint(ip_address, 0);
return OK;
}
const BoundNetLog& NetLog() const override { return net_log_; }
void SetSubresourceSpeculation() override {}
void SetOmniboxSpeculation() override {}
bool WasEverUsed() const override { return true; }
bool UsingTCPFastOpen() const override { return false; }
bool WasNpnNegotiated() const override { return false; }
NextProto GetNegotiatedProtocol() const override { return kProtoUnknown; }
bool GetSSLInfo(SSLInfo* ssl_info) override { return false; }
private:
BoundNetLog net_log_;
FakeDataChannel* incoming_;
FakeDataChannel* outgoing_;
DISALLOW_COPY_AND_ASSIGN(FakeSocket);
};
} // namespace
// Verify the correctness of the test helper classes first.
TEST(FakeSocketTest, DataTransfer) {
// Establish channels between two sockets.
FakeDataChannel channel_1;
FakeDataChannel channel_2;
FakeSocket client(&channel_1, &channel_2);
FakeSocket server(&channel_2, &channel_1);
const char kTestData[] = "testing123";
const int kTestDataSize = strlen(kTestData);
const int kReadBufSize = 1024;
scoped_refptr<IOBuffer> write_buf = new StringIOBuffer(kTestData);
scoped_refptr<IOBuffer> read_buf = new IOBuffer(kReadBufSize);
// Write then read.
int written =
server.Write(write_buf.get(), kTestDataSize, CompletionCallback());
EXPECT_GT(written, 0);
EXPECT_LE(written, kTestDataSize);
int read = client.Read(read_buf.get(), kReadBufSize, CompletionCallback());
EXPECT_GT(read, 0);
EXPECT_LE(read, written);
EXPECT_EQ(0, memcmp(kTestData, read_buf->data(), read));
// Read then write.
TestCompletionCallback callback;
EXPECT_EQ(ERR_IO_PENDING,
server.Read(read_buf.get(), kReadBufSize, callback.callback()));
written = client.Write(write_buf.get(), kTestDataSize, CompletionCallback());
EXPECT_GT(written, 0);
EXPECT_LE(written, kTestDataSize);
read = callback.WaitForResult();
EXPECT_GT(read, 0);
EXPECT_LE(read, written);
EXPECT_EQ(0, memcmp(kTestData, read_buf->data(), read));
}
class SSLServerSocketTest : public PlatformTest {
public:
SSLServerSocketTest()
: socket_factory_(ClientSocketFactory::GetDefaultFactory()),
cert_verifier_(new MockCertVerifier()),
transport_security_state_(new TransportSecurityState) {
cert_verifier_->set_default_result(CERT_STATUS_AUTHORITY_INVALID);
}
protected:
void Initialize() {
scoped_ptr<ClientSocketHandle> client_connection(new ClientSocketHandle);
client_connection->SetSocket(
scoped_ptr<StreamSocket>(new FakeSocket(&channel_1_, &channel_2_)));
scoped_ptr<StreamSocket> server_socket(
new FakeSocket(&channel_2_, &channel_1_));
base::FilePath certs_dir(GetTestCertsDirectory());
base::FilePath cert_path = certs_dir.AppendASCII("unittest.selfsigned.der");
std::string cert_der;
ASSERT_TRUE(base::ReadFileToString(cert_path, &cert_der));
scoped_refptr<X509Certificate> cert =
X509Certificate::CreateFromBytes(cert_der.data(), cert_der.size());
base::FilePath key_path = certs_dir.AppendASCII("unittest.key.bin");
std::string key_string;
ASSERT_TRUE(base::ReadFileToString(key_path, &key_string));
std::vector<uint8> key_vector(
reinterpret_cast<const uint8*>(key_string.data()),
reinterpret_cast<const uint8*>(key_string.data() +
key_string.length()));
scoped_ptr<crypto::RSAPrivateKey> private_key(
crypto::RSAPrivateKey::CreateFromPrivateKeyInfo(key_vector));
SSLConfig ssl_config;
ssl_config.false_start_enabled = false;
ssl_config.channel_id_enabled = false;
// Certificate provided by the host doesn't need authority.
SSLConfig::CertAndStatus cert_and_status;
cert_and_status.cert_status = CERT_STATUS_AUTHORITY_INVALID;
cert_and_status.der_cert = cert_der;
ssl_config.allowed_bad_certs.push_back(cert_and_status);
HostPortPair host_and_pair("unittest", 0);
SSLClientSocketContext context;
context.cert_verifier = cert_verifier_.get();
context.transport_security_state = transport_security_state_.get();
client_socket_ =
socket_factory_->CreateSSLClientSocket(
client_connection.Pass(), host_and_pair, ssl_config, context);
server_socket_ = CreateSSLServerSocket(
server_socket.Pass(),
cert.get(), private_key.get(), SSLConfig());
}
FakeDataChannel channel_1_;
FakeDataChannel channel_2_;
scoped_ptr<SSLClientSocket> client_socket_;
scoped_ptr<SSLServerSocket> server_socket_;
ClientSocketFactory* socket_factory_;
scoped_ptr<MockCertVerifier> cert_verifier_;
scoped_ptr<TransportSecurityState> transport_security_state_;
};
// This test only executes creation of client and server sockets. This is to
// test that creation of sockets doesn't crash and have minimal code to run
// under valgrind in order to help debugging memory problems.
TEST_F(SSLServerSocketTest, Initialize) {
Initialize();
}
// This test executes Connect() on SSLClientSocket and Handshake() on
// SSLServerSocket to make sure handshaking between the two sockets is
// completed successfully.
TEST_F(SSLServerSocketTest, Handshake) {
Initialize();
TestCompletionCallback connect_callback;
TestCompletionCallback handshake_callback;
int server_ret = server_socket_->Handshake(handshake_callback.callback());
EXPECT_TRUE(server_ret == OK || server_ret == ERR_IO_PENDING);
int client_ret = client_socket_->Connect(connect_callback.callback());
EXPECT_TRUE(client_ret == OK || client_ret == ERR_IO_PENDING);
if (client_ret == ERR_IO_PENDING) {
EXPECT_EQ(OK, connect_callback.WaitForResult());
}
if (server_ret == ERR_IO_PENDING) {
EXPECT_EQ(OK, handshake_callback.WaitForResult());
}
// Make sure the cert status is expected.
SSLInfo ssl_info;
client_socket_->GetSSLInfo(&ssl_info);
EXPECT_EQ(CERT_STATUS_AUTHORITY_INVALID, ssl_info.cert_status);
}
TEST_F(SSLServerSocketTest, DataTransfer) {
Initialize();
TestCompletionCallback connect_callback;
TestCompletionCallback handshake_callback;
// Establish connection.
int client_ret = client_socket_->Connect(connect_callback.callback());
ASSERT_TRUE(client_ret == OK || client_ret == ERR_IO_PENDING);
int server_ret = server_socket_->Handshake(handshake_callback.callback());
ASSERT_TRUE(server_ret == OK || server_ret == ERR_IO_PENDING);
client_ret = connect_callback.GetResult(client_ret);
ASSERT_EQ(OK, client_ret);
server_ret = handshake_callback.GetResult(server_ret);
ASSERT_EQ(OK, server_ret);
const int kReadBufSize = 1024;
scoped_refptr<StringIOBuffer> write_buf =
new StringIOBuffer("testing123");
scoped_refptr<DrainableIOBuffer> read_buf =
new DrainableIOBuffer(new IOBuffer(kReadBufSize), kReadBufSize);
// Write then read.
TestCompletionCallback write_callback;
TestCompletionCallback read_callback;
server_ret = server_socket_->Write(
write_buf.get(), write_buf->size(), write_callback.callback());
EXPECT_TRUE(server_ret > 0 || server_ret == ERR_IO_PENDING);
client_ret = client_socket_->Read(
read_buf.get(), read_buf->BytesRemaining(), read_callback.callback());
EXPECT_TRUE(client_ret > 0 || client_ret == ERR_IO_PENDING);
server_ret = write_callback.GetResult(server_ret);
EXPECT_GT(server_ret, 0);
client_ret = read_callback.GetResult(client_ret);
ASSERT_GT(client_ret, 0);
read_buf->DidConsume(client_ret);
while (read_buf->BytesConsumed() < write_buf->size()) {
client_ret = client_socket_->Read(
read_buf.get(), read_buf->BytesRemaining(), read_callback.callback());
EXPECT_TRUE(client_ret > 0 || client_ret == ERR_IO_PENDING);
client_ret = read_callback.GetResult(client_ret);
ASSERT_GT(client_ret, 0);
read_buf->DidConsume(client_ret);
}
EXPECT_EQ(write_buf->size(), read_buf->BytesConsumed());
read_buf->SetOffset(0);
EXPECT_EQ(0, memcmp(write_buf->data(), read_buf->data(), write_buf->size()));
// Read then write.
write_buf = new StringIOBuffer("hello123");
server_ret = server_socket_->Read(
read_buf.get(), read_buf->BytesRemaining(), read_callback.callback());
EXPECT_TRUE(server_ret > 0 || server_ret == ERR_IO_PENDING);
client_ret = client_socket_->Write(
write_buf.get(), write_buf->size(), write_callback.callback());
EXPECT_TRUE(client_ret > 0 || client_ret == ERR_IO_PENDING);
server_ret = read_callback.GetResult(server_ret);
ASSERT_GT(server_ret, 0);
client_ret = write_callback.GetResult(client_ret);
EXPECT_GT(client_ret, 0);
read_buf->DidConsume(server_ret);
while (read_buf->BytesConsumed() < write_buf->size()) {
server_ret = server_socket_->Read(
read_buf.get(), read_buf->BytesRemaining(), read_callback.callback());
EXPECT_TRUE(server_ret > 0 || server_ret == ERR_IO_PENDING);
server_ret = read_callback.GetResult(server_ret);
ASSERT_GT(server_ret, 0);
read_buf->DidConsume(server_ret);
}
EXPECT_EQ(write_buf->size(), read_buf->BytesConsumed());
read_buf->SetOffset(0);
EXPECT_EQ(0, memcmp(write_buf->data(), read_buf->data(), write_buf->size()));
}
// A regression test for bug 127822 (http://crbug.com/127822).
// If the server closes the connection after the handshake is finished,
// the client's Write() call should not cause an infinite loop.
// NOTE: this is a test for SSLClientSocket rather than SSLServerSocket.
TEST_F(SSLServerSocketTest, ClientWriteAfterServerClose) {
Initialize();
TestCompletionCallback connect_callback;
TestCompletionCallback handshake_callback;
// Establish connection.
int client_ret = client_socket_->Connect(connect_callback.callback());
ASSERT_TRUE(client_ret == OK || client_ret == ERR_IO_PENDING);
int server_ret = server_socket_->Handshake(handshake_callback.callback());
ASSERT_TRUE(server_ret == OK || server_ret == ERR_IO_PENDING);
client_ret = connect_callback.GetResult(client_ret);
ASSERT_EQ(OK, client_ret);
server_ret = handshake_callback.GetResult(server_ret);
ASSERT_EQ(OK, server_ret);
scoped_refptr<StringIOBuffer> write_buf = new StringIOBuffer("testing123");
// The server closes the connection. The server needs to write some
// data first so that the client's Read() calls from the transport
// socket won't return ERR_IO_PENDING. This ensures that the client
// will call Read() on the transport socket again.
TestCompletionCallback write_callback;
server_ret = server_socket_->Write(
write_buf.get(), write_buf->size(), write_callback.callback());
EXPECT_TRUE(server_ret > 0 || server_ret == ERR_IO_PENDING);
server_ret = write_callback.GetResult(server_ret);
EXPECT_GT(server_ret, 0);
server_socket_->Disconnect();
// The client writes some data. This should not cause an infinite loop.
client_ret = client_socket_->Write(
write_buf.get(), write_buf->size(), write_callback.callback());
EXPECT_TRUE(client_ret > 0 || client_ret == ERR_IO_PENDING);
client_ret = write_callback.GetResult(client_ret);
EXPECT_GT(client_ret, 0);
base::MessageLoop::current()->PostDelayedTask(
FROM_HERE, base::MessageLoop::QuitClosure(),
base::TimeDelta::FromMilliseconds(10));
base::MessageLoop::current()->Run();
}
// This test executes ExportKeyingMaterial() on the client and server sockets,
// after connecting them, and verifies that the results match.
// This test will fail if False Start is enabled (see crbug.com/90208).
TEST_F(SSLServerSocketTest, ExportKeyingMaterial) {
Initialize();
TestCompletionCallback connect_callback;
TestCompletionCallback handshake_callback;
int client_ret = client_socket_->Connect(connect_callback.callback());
ASSERT_TRUE(client_ret == OK || client_ret == ERR_IO_PENDING);
int server_ret = server_socket_->Handshake(handshake_callback.callback());
ASSERT_TRUE(server_ret == OK || server_ret == ERR_IO_PENDING);
if (client_ret == ERR_IO_PENDING) {
ASSERT_EQ(OK, connect_callback.WaitForResult());
}
if (server_ret == ERR_IO_PENDING) {
ASSERT_EQ(OK, handshake_callback.WaitForResult());
}
const int kKeyingMaterialSize = 32;
const char* kKeyingLabel = "EXPERIMENTAL-server-socket-test";
const char* kKeyingContext = "";
unsigned char server_out[kKeyingMaterialSize];
int rv = server_socket_->ExportKeyingMaterial(kKeyingLabel,
false, kKeyingContext,
server_out, sizeof(server_out));
ASSERT_EQ(OK, rv);
unsigned char client_out[kKeyingMaterialSize];
rv = client_socket_->ExportKeyingMaterial(kKeyingLabel,
false, kKeyingContext,
client_out, sizeof(client_out));
ASSERT_EQ(OK, rv);
EXPECT_EQ(0, memcmp(server_out, client_out, sizeof(server_out)));
const char* kKeyingLabelBad = "EXPERIMENTAL-server-socket-test-bad";
unsigned char client_bad[kKeyingMaterialSize];
rv = client_socket_->ExportKeyingMaterial(kKeyingLabelBad,
false, kKeyingContext,
client_bad, sizeof(client_bad));
ASSERT_EQ(rv, OK);
EXPECT_NE(0, memcmp(server_out, client_bad, sizeof(server_out)));
}
} // namespace net