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chromium / chromiumos / platform2 / 4f0d6ca9b80c7c8f2bff049420cb29ce1354b22c / . / shill / dns_client_unittest.cc
blob: 4092744fccdb282f5d60f0683035395b106b62d4 [file] [log] [blame]
// Copyright (c) 2012 The Chromium OS 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 "shill/dns_client.h"
#include <netdb.h>
#include <memory>
#include <string>
#include <vector>
#include <base/bind.h>
#include "shill/error.h"
#include "shill/event_dispatcher.h"
#include "shill/io_handler.h"
#include "shill/mock_ares.h"
#include "shill/mock_control.h"
#include "shill/mock_event_dispatcher.h"
#include "shill/mock_time.h"
#include "shill/testing.h"
using base::Bind;
using base::Unretained;
using std::string;
using std::vector;
using testing::_;
using testing::DoAll;
using testing::Not;
using testing::Return;
using testing::ReturnArg;
using testing::ReturnNew;
using testing::Test;
using testing::SetArgumentPointee;
using testing::StrEq;
using testing::StrictMock;
namespace shill {
namespace {
const char kGoodName[] = "all-systems.mcast.net";
const char kResult[] = "224.0.0.1";
const char kGoodServer[] = "8.8.8.8";
const char kBadServer[] = "10.9xx8.7";
const char kNetworkInterface[] = "eth0";
char kReturnAddressList0[] = { static_cast<char>(224), 0, 0, 1 };
char *kReturnAddressList[] = { kReturnAddressList0, nullptr };
char kFakeAresChannelData = 0;
const ares_channel kAresChannel =
reinterpret_cast<ares_channel>(&kFakeAresChannelData);
const int kAresFd = 10203;
const int kAresTimeoutMS = 2000; // ARES transaction timeout
const int kAresWaitMS = 1000; // Time period ARES asks caller to wait
} // namespace
class DNSClientTest : public Test {
public:
DNSClientTest()
: ares_result_(ARES_SUCCESS), address_result_(IPAddress::kFamilyUnknown) {
time_val_.tv_sec = 0;
time_val_.tv_usec = 0;
ares_timeout_.tv_sec = kAresWaitMS / 1000;
ares_timeout_.tv_usec = (kAresWaitMS % 1000) * 1000;
hostent_.h_addrtype = IPAddress::kFamilyIPv4;
hostent_.h_length = sizeof(kReturnAddressList0);
hostent_.h_addr_list = kReturnAddressList;
}
virtual void SetUp() {
EXPECT_CALL(time_, GetTimeMonotonic(_))
.WillRepeatedly(DoAll(SetArgumentPointee<0>(time_val_), Return(0)));
SetInActive();
}
virtual void TearDown() {
// We need to make sure the dns_client instance releases ares_
// before the destructor for DNSClientTest deletes ares_.
if (dns_client_.get()) {
dns_client_->Stop();
}
}
void AdvanceTime(int time_ms) {
struct timeval adv_time = { time_ms/1000, (time_ms % 1000) * 1000 };
timeradd(&time_val_, &adv_time, &time_val_);
EXPECT_CALL(time_, GetTimeMonotonic(_))
.WillRepeatedly(DoAll(SetArgumentPointee<0>(time_val_), Return(0)));
}
void CallReplyCB() {
dns_client_->ReceiveDNSReplyCB(dns_client_.get(), ares_result_, 0,
&hostent_);
}
void CallDNSRead() {
dns_client_->HandleDNSRead(kAresFd);
}
void CallDNSWrite() {
dns_client_->HandleDNSWrite(kAresFd);
}
void CallTimeout() {
dns_client_->HandleTimeout();
}
void CallCompletion() {
dns_client_->HandleCompletion();
}
void CreateClient(const vector<string> &dns_servers, int timeout_ms) {
dns_client_.reset(new DNSClient(IPAddress::kFamilyIPv4,
kNetworkInterface,
dns_servers,
timeout_ms,
&dispatcher_,
callback_target_.callback()));
dns_client_->ares_ = &ares_;
dns_client_->time_ = &time_;
}
void SetActive() {
// Returns that socket kAresFd is readable.
EXPECT_CALL(ares_, GetSock(_, _, _))
.WillRepeatedly(DoAll(SetArgumentPointee<1>(kAresFd), Return(1)));
EXPECT_CALL(ares_, Timeout(_, _, _))
.WillRepeatedly(
DoAll(SetArgumentPointee<2>(ares_timeout_), ReturnArg<2>()));
}
void SetInActive() {
EXPECT_CALL(ares_, GetSock(_, _, _))
.WillRepeatedly(Return(0));
EXPECT_CALL(ares_, Timeout(_, _, _))
.WillRepeatedly(ReturnArg<1>());
}
void SetupRequest(const string &name, const string &server) {
vector<string> dns_servers;
dns_servers.push_back(server);
CreateClient(dns_servers, kAresTimeoutMS);
// These expectations are fulfilled when dns_client_->Start() is called.
EXPECT_CALL(ares_, InitOptions(_, _, _))
.WillOnce(DoAll(SetArgumentPointee<0>(kAresChannel),
Return(ARES_SUCCESS)));
EXPECT_CALL(ares_, SetServersCsv(_, _))
.WillOnce(Return(ARES_SUCCESS));
EXPECT_CALL(ares_, SetLocalDev(kAresChannel, StrEq(kNetworkInterface)))
.Times(1);
EXPECT_CALL(ares_, GetHostByName(kAresChannel, StrEq(name), _, _, _));
}
void StartValidRequest() {
SetupRequest(kGoodName, kGoodServer);
EXPECT_CALL(dispatcher_,
CreateReadyHandler(kAresFd, IOHandler::kModeInput, _))
.WillOnce(ReturnNew<IOHandler>());
SetActive();
EXPECT_CALL(dispatcher_, PostDelayedTask(_, kAresWaitMS));
Error error;
ASSERT_TRUE(dns_client_->Start(kGoodName, &error));
EXPECT_TRUE(error.IsSuccess());
EXPECT_CALL(ares_, Destroy(kAresChannel));
}
void TestValidCompletion() {
EXPECT_CALL(ares_, ProcessFd(kAresChannel, kAresFd, ARES_SOCKET_BAD))
.WillOnce(InvokeWithoutArgs(this, &DNSClientTest::CallReplyCB));
ExpectPostCompletionTask();
CallDNSRead();
// Make sure that the address value is correct as held in the DNSClient.
ASSERT_TRUE(dns_client_->address_.IsValid());
IPAddress ipaddr(dns_client_->address_.family());
ASSERT_TRUE(ipaddr.SetAddressFromString(kResult));
EXPECT_TRUE(ipaddr.Equals(dns_client_->address_));
// Make sure the callback gets called with a success result, and save
// the callback address argument in |address_result_|.
EXPECT_CALL(callback_target_, CallTarget(IsSuccess(), _))
.WillOnce(Invoke(this, &DNSClientTest::SaveCallbackArgs));
CallCompletion();
// Make sure the address was successfully passed to the callback.
EXPECT_TRUE(ipaddr.Equals(address_result_));
EXPECT_TRUE(dns_client_->address_.IsDefault());
}
void SaveCallbackArgs(const Error &error, const IPAddress &address) {
error_result_.CopyFrom(error);
address_result_ = address;
}
void ExpectPostCompletionTask() {
EXPECT_CALL(dispatcher_, PostTask(_));
}
void ExpectReset() {
EXPECT_TRUE(dns_client_->address_.family() == IPAddress::kFamilyIPv4);
EXPECT_TRUE(dns_client_->address_.IsDefault());
EXPECT_FALSE(dns_client_->resolver_state_.get());
}
protected:
class DNSCallbackTarget {
public:
DNSCallbackTarget()
: callback_(Bind(&DNSCallbackTarget::CallTarget, Unretained(this))) {}
MOCK_METHOD2(CallTarget, void(const Error &error,
const IPAddress &address));
const DNSClient::ClientCallback &callback() { return callback_; }
private:
DNSClient::ClientCallback callback_;
};
std::unique_ptr<DNSClient> dns_client_;
StrictMock<MockEventDispatcher> dispatcher_;
string queued_request_;
StrictMock<DNSCallbackTarget> callback_target_;
StrictMock<MockAres> ares_;
StrictMock<MockTime> time_;
struct timeval time_val_;
struct timeval ares_timeout_;
struct hostent hostent_;
int ares_result_;
Error error_result_;
IPAddress address_result_;
};
class SentinelIOHandler : public IOHandler {
public:
MOCK_METHOD0(Die, void());
virtual ~SentinelIOHandler() { Die(); }
};
TEST_F(DNSClientTest, Constructor) {
vector<string> dns_servers;
dns_servers.push_back(kGoodServer);
CreateClient(dns_servers, kAresTimeoutMS);
ExpectReset();
}
// Receive error because no DNS servers were specified.
TEST_F(DNSClientTest, NoServers) {
CreateClient(vector<string>(), kAresTimeoutMS);
Error error;
EXPECT_FALSE(dns_client_->Start(kGoodName, &error));
EXPECT_EQ(Error::kInvalidArguments, error.type());
}
// Setup error because SetServersCsv failed due to invalid DNS servers.
TEST_F(DNSClientTest, SetServersCsvInvalidServer) {
vector<string> dns_servers;
dns_servers.push_back(kBadServer);
CreateClient(dns_servers, kAresTimeoutMS);
EXPECT_CALL(ares_, InitOptions(_, _, _))
.WillOnce(Return(ARES_SUCCESS));
EXPECT_CALL(ares_, SetServersCsv(_, _))
.WillOnce(Return(ARES_EBADSTR));
Error error;
EXPECT_FALSE(dns_client_->Start(kGoodName, &error));
EXPECT_EQ(Error::kOperationFailed, error.type());
}
// Setup error because InitOptions failed.
TEST_F(DNSClientTest, InitOptionsFailure) {
vector<string> dns_servers;
dns_servers.push_back(kGoodServer);
CreateClient(dns_servers, kAresTimeoutMS);
EXPECT_CALL(ares_, InitOptions(_, _, _))
.WillOnce(Return(ARES_EBADFLAGS));
Error error;
EXPECT_FALSE(dns_client_->Start(kGoodName, &error));
EXPECT_EQ(Error::kOperationFailed, error.type());
}
// Fail a second request because one is already in progress.
TEST_F(DNSClientTest, MultipleRequest) {
StartValidRequest();
Error error;
ASSERT_FALSE(dns_client_->Start(kGoodName, &error));
EXPECT_EQ(Error::kInProgress, error.type());
}
TEST_F(DNSClientTest, GoodRequest) {
StartValidRequest();
TestValidCompletion();
}
TEST_F(DNSClientTest, GoodRequestWithTimeout) {
StartValidRequest();
// Insert an intermediate HandleTimeout callback.
AdvanceTime(kAresWaitMS);
EXPECT_CALL(ares_, ProcessFd(kAresChannel, ARES_SOCKET_BAD, ARES_SOCKET_BAD));
EXPECT_CALL(dispatcher_, PostDelayedTask(_, kAresWaitMS));
CallTimeout();
AdvanceTime(kAresWaitMS);
TestValidCompletion();
}
TEST_F(DNSClientTest, GoodRequestWithDNSRead) {
StartValidRequest();
// Insert an intermediate HandleDNSRead callback.
AdvanceTime(kAresWaitMS);
EXPECT_CALL(ares_, ProcessFd(kAresChannel, kAresFd, ARES_SOCKET_BAD));
EXPECT_CALL(dispatcher_, PostDelayedTask(_, kAresWaitMS));
CallDNSRead();
AdvanceTime(kAresWaitMS);
TestValidCompletion();
}
TEST_F(DNSClientTest, GoodRequestWithDNSWrite) {
StartValidRequest();
// Insert an intermediate HandleDNSWrite callback.
AdvanceTime(kAresWaitMS);
EXPECT_CALL(ares_, ProcessFd(kAresChannel, ARES_SOCKET_BAD, kAresFd));
EXPECT_CALL(dispatcher_, PostDelayedTask(_, kAresWaitMS));
CallDNSWrite();
AdvanceTime(kAresWaitMS);
TestValidCompletion();
}
// Failure due to the timeout occurring during first call to RefreshHandles.
TEST_F(DNSClientTest, TimeoutFirstRefresh) {
SetupRequest(kGoodName, kGoodServer);
struct timeval init_time_val = time_val_;
AdvanceTime(kAresTimeoutMS);
EXPECT_CALL(time_, GetTimeMonotonic(_))
.WillOnce(DoAll(SetArgumentPointee<0>(init_time_val), Return(0)))
.WillRepeatedly(DoAll(SetArgumentPointee<0>(time_val_), Return(0)));
EXPECT_CALL(callback_target_, CallTarget(Not(IsSuccess()), _))
.Times(0);
EXPECT_CALL(ares_, Destroy(kAresChannel));
Error error;
// Expect the DNSClient to post a completion task. However this task will
// never run since the Stop() gets called before returning. We confirm
// that the task indeed gets canceled below in ExpectReset().
ExpectPostCompletionTask();
ASSERT_FALSE(dns_client_->Start(kGoodName, &error));
EXPECT_EQ(Error::kOperationTimeout, error.type());
EXPECT_EQ(string(DNSClient::kErrorTimedOut), error.message());
ExpectReset();
}
// Failed request due to timeout within the dns_client.
TEST_F(DNSClientTest, TimeoutDispatcherEvent) {
StartValidRequest();
EXPECT_CALL(ares_, ProcessFd(kAresChannel,
ARES_SOCKET_BAD, ARES_SOCKET_BAD));
AdvanceTime(kAresTimeoutMS);
ExpectPostCompletionTask();
CallTimeout();
EXPECT_CALL(callback_target_, CallTarget(
ErrorIs(Error::kOperationTimeout, DNSClient::kErrorTimedOut), _));
CallCompletion();
}
// Failed request due to timeout reported by ARES.
TEST_F(DNSClientTest, TimeoutFromARES) {
StartValidRequest();
AdvanceTime(kAresWaitMS);
ares_result_ = ARES_ETIMEOUT;
EXPECT_CALL(ares_, ProcessFd(kAresChannel, ARES_SOCKET_BAD, ARES_SOCKET_BAD))
.WillOnce(InvokeWithoutArgs(this, &DNSClientTest::CallReplyCB));
ExpectPostCompletionTask();
CallTimeout();
EXPECT_CALL(callback_target_, CallTarget(
ErrorIs(Error::kOperationTimeout, DNSClient::kErrorTimedOut), _));
CallCompletion();
}
// Failed request due to "host not found" reported by ARES.
TEST_F(DNSClientTest, HostNotFound) {
StartValidRequest();
AdvanceTime(kAresWaitMS);
ares_result_ = ARES_ENOTFOUND;
EXPECT_CALL(ares_, ProcessFd(kAresChannel, kAresFd, ARES_SOCKET_BAD))
.WillOnce(InvokeWithoutArgs(this, &DNSClientTest::CallReplyCB));
ExpectPostCompletionTask();
CallDNSRead();
EXPECT_CALL(callback_target_, CallTarget(
ErrorIs(Error::kOperationFailed, DNSClient::kErrorNotFound), _));
CallCompletion();
}
// Make sure IOHandles are deallocated when GetSock() reports them gone.
TEST_F(DNSClientTest, IOHandleDeallocGetSock) {
SetupRequest(kGoodName, kGoodServer);
// This isn't any kind of scoped/ref pointer because we are tracking dealloc.
SentinelIOHandler *io_handler = new SentinelIOHandler();
EXPECT_CALL(dispatcher_,
CreateReadyHandler(kAresFd, IOHandler::kModeInput, _))
.WillOnce(Return(io_handler));
EXPECT_CALL(dispatcher_, PostDelayedTask(_, kAresWaitMS));
SetActive();
Error error;
ASSERT_TRUE(dns_client_->Start(kGoodName, &error));
AdvanceTime(kAresWaitMS);
SetInActive();
EXPECT_CALL(*io_handler, Die());
EXPECT_CALL(ares_, ProcessFd(kAresChannel, kAresFd, ARES_SOCKET_BAD));
EXPECT_CALL(dispatcher_, PostDelayedTask(_, kAresWaitMS));
CallDNSRead();
EXPECT_CALL(ares_, Destroy(kAresChannel));
}
// Make sure IOHandles are deallocated when Stop() is called.
TEST_F(DNSClientTest, IOHandleDeallocStop) {
SetupRequest(kGoodName, kGoodServer);
// This isn't any kind of scoped/ref pointer because we are tracking dealloc.
SentinelIOHandler *io_handler = new SentinelIOHandler();
EXPECT_CALL(dispatcher_,
CreateReadyHandler(kAresFd, IOHandler::kModeInput, _))
.WillOnce(Return(io_handler));
EXPECT_CALL(dispatcher_, PostDelayedTask(_, kAresWaitMS));
SetActive();
Error error;
ASSERT_TRUE(dns_client_->Start(kGoodName, &error));
EXPECT_CALL(*io_handler, Die());
EXPECT_CALL(ares_, Destroy(kAresChannel));
dns_client_->Stop();
}
} // namespace shill