components/certificate_transparency/log_proof_fetcher_unittest.cc - chromium/src - Git at Google

 // Copyright 2015 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 "components/certificate_transparency/log_proof_fetcher.h"

 #include <string>
 #include <utility>

 #include "base/format_macros.h"
 #include "base/macros.h"
 #include "base/run_loop.h"
 #include "base/strings/stringprintf.h"
 #include "components/safe_json/testing_json_parser.h"
 #include "net/base/net_errors.h"
 #include "net/base/network_delegate.h"
 #include "net/cert/signed_tree_head.h"
 #include "net/http/http_status_code.h"
 #include "net/test/ct_test_util.h"
 #include "net/url_request/url_request_context.h"
 #include "net/url_request/url_request_filter.h"
 #include "net/url_request/url_request_interceptor.h"
 #include "net/url_request/url_request_job.h"
 #include "net/url_request/url_request_test_job.h"
 #include "net/url_request/url_request_test_util.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace certificate_transparency {

 namespace {

 const char kGetResponseHeaders[] =
     "HTTP/1.1 200 OK\n"
     "Content-Type: application/json; charset=ISO-8859-1\n";

 const char kGetResponseNotFoundHeaders[] =
     "HTTP/1.1 404 Not Found\n"
     "Content-Type: text/html; charset=iso-8859-1\n";

 const char kLogSchema[] = "https";
 const char kLogHost[] = "ct.log.example.com";
 const char kLogPathPrefix[] = "somelog";
 const char kLogID[] = "some_id";

 // Gets a dummy consistency proof for the given |node_id|.
 std::string GetDummyConsistencyProofNode(uint64_t node_id) {
   // Take the low 8 bits and repeat them as a string. This
   // has no special meaning, other than making it easier to
   // debug which consistency proof was used.
   return std::string(32, static_cast<char>(node_id));
 }

 // Number of nodes in a dummy consistency proof.
 const size_t kDummyConsistencyProofNumNodes = 4;

 class LogFetchTestJob : public net::URLRequestTestJob {
  public:
   LogFetchTestJob(const std::string& get_log_data,
                   const std::string& get_log_headers,
                   net::URLRequest* request,
                   net::NetworkDelegate* network_delegate)
       : URLRequestTestJob(request,
                           network_delegate,
                           get_log_headers,
                           get_log_data,
                           true),
         async_io_(false) {}

   void set_async_io(bool async_io) { async_io_ = async_io; }

  private:
   ~LogFetchTestJob() override {}

   bool NextReadAsync() override {
     // Response with indication of async IO only once, otherwise the final
     // Read would (incorrectly) be classified as async, causing the
     // URLRequestJob to try reading another time and failing on a CHECK
     // that the raw_read_buffer_ is not null.
     // According to mmenke@, this is a bug in the URLRequestTestJob code.
     // TODO(eranm): Once said bug is fixed, switch most tests to using async
     // IO.
     if (async_io_) {
       async_io_ = false;
       return true;
     }
     return false;
   }

   bool async_io_;

   DISALLOW_COPY_AND_ASSIGN(LogFetchTestJob);
 };

 class LogGetResponseHandler : public net::URLRequestInterceptor {
  public:
   LogGetResponseHandler()
       : async_io_(false),
         response_headers_(
             std::string(kGetResponseHeaders, arraysize(kGetResponseHeaders))) {}
   ~LogGetResponseHandler() override {}

   // URLRequestInterceptor implementation:
   net::URLRequestJob* MaybeInterceptRequest(
       net::URLRequest* request,
       net::NetworkDelegate* network_delegate) const override {
     EXPECT_EQ(expected_url_, request->url());

     LogFetchTestJob* job = new LogFetchTestJob(
         response_body_, response_headers_, request, network_delegate);
     job->set_async_io(async_io_);
     return job;
   }

   void set_response_body(const std::string& response_body) {
     response_body_ = response_body;
   }

   void set_response_headers(const std::string& response_headers) {
     response_headers_ = response_headers;
   }

   void set_async_io(bool async_io) { async_io_ = async_io; }

   void set_expected_url(const GURL& url) { expected_url_ = url; }

  private:
   bool async_io_;
   std::string response_body_;
   std::string response_headers_;

   // Stored for test body to assert on
   GURL expected_url_;

   DISALLOW_COPY_AND_ASSIGN(LogGetResponseHandler);
 };

 enum InterceptedResultType {
   NOTHING,
   FAILURE,
   STH_FETCH,
   CONSISTENCY_PROOF_FETCH
 };

 class RecordFetchCallbackInvocations {
  public:
   RecordFetchCallbackInvocations(bool expect_success)
       : expect_success_(expect_success),
         net_error_(net::OK),
         http_response_code_(-1),
         request_type_(NOTHING) {}

   void STHFetched(base::Closure quit_closure,
                   const std::string& log_id,
                   const net::ct::SignedTreeHead& sth) {
     ASSERT_TRUE(expect_success_);
     ASSERT_EQ(NOTHING, request_type_);
     request_type_ = STH_FETCH;
     sth_ = sth;
     log_id_ = log_id;
     quit_closure.Run();
   }

   void ConsistencyProofFetched(
       base::Closure quit_closure,
       const std::string& log_id,
       const std::vector<std::string>& consistency_proof) {
     ASSERT_TRUE(expect_success_);
     ASSERT_EQ(NOTHING, request_type_);
     request_type_ = CONSISTENCY_PROOF_FETCH;
     consistency_proof_.assign(consistency_proof.begin(),
                               consistency_proof.end());
     log_id_ = log_id;
     quit_closure.Run();
   }

   void FetchingFailed(base::Closure quit_closure,
                       const std::string& log_id,
                       int net_error,
                       int http_response_code) {
     ASSERT_FALSE(expect_success_);
     ASSERT_EQ(NOTHING, request_type_);
     request_type_ = FAILURE;
     net_error_ = net_error;
     http_response_code_ = http_response_code;
     if (net_error_ == net::OK) {
       EXPECT_NE(net::HTTP_OK, http_response_code_);
     }

     quit_closure.Run();
   }

   InterceptedResultType intercepted_result_type() const {
     return request_type_;
   }

   int net_error() const { return net_error_; }

   int http_response_code() const { return http_response_code_; }

   const net::ct::SignedTreeHead& intercepted_sth() const { return sth_; }

   const std::string& intercepted_log_id() const { return log_id_; }

   const std::vector<std::string>& intercepted_proof() const {
     return consistency_proof_;
   }

  private:
   const bool expect_success_;
   int net_error_;
   int http_response_code_;
   InterceptedResultType request_type_;
   net::ct::SignedTreeHead sth_;
   std::string log_id_;
   std::vector<std::string> consistency_proof_;
 };

 class LogProofFetcherTest : public ::testing::Test {
  public:
   LogProofFetcherTest()
       : log_url_(base::StringPrintf("%s://%s/%s/",
                                     kLogSchema,
                                     kLogHost,
                                     kLogPathPrefix)) {
     scoped_ptr<LogGetResponseHandler> handler(new LogGetResponseHandler());
     handler_ = handler.get();

     net::URLRequestFilter::GetInstance()->AddHostnameInterceptor(
         kLogSchema, kLogHost, std::move(handler));

     fetcher_.reset(new LogProofFetcher(&context_));
   }

   ~LogProofFetcherTest() override {
     net::URLRequestFilter::GetInstance()->RemoveHostnameHandler(kLogSchema,
                                                                 kLogHost);
   }

  protected:
   void SetValidSTHJSONResponse() {
     std::string sth_json_reply_data = net::ct::GetSampleSTHAsJson();
     handler_->set_response_body(sth_json_reply_data);
     handler_->set_expected_url(log_url_.Resolve("ct/v1/get-sth"));
   }

   void RunFetcherWithCallback(RecordFetchCallbackInvocations* callback) {
     fetcher_->FetchSignedTreeHead(
         log_url_, kLogID,
         base::Bind(&RecordFetchCallbackInvocations::STHFetched,
                    base::Unretained(callback), run_loop_.QuitClosure()),
         base::Bind(&RecordFetchCallbackInvocations::FetchingFailed,
                    base::Unretained(callback), run_loop_.QuitClosure()));
     run_loop_.Run();
   }

   void RunGetConsistencyFetcherWithCallback(
       RecordFetchCallbackInvocations* callback) {
     const uint64_t kOldTree = 5;
     const uint64_t kNewTree = 8;
     handler_->set_expected_url(log_url_.Resolve(base::StringPrintf(
         "ct/v1/get-sth-consistency?first=%" PRIu64 "&second=%" PRIu64, kOldTree,
         kNewTree)));
     fetcher_->FetchConsistencyProof(
         log_url_, kLogID, kOldTree, kNewTree,
         base::Bind(&RecordFetchCallbackInvocations::ConsistencyProofFetched,
                    base::Unretained(callback), run_loop_.QuitClosure()),
         base::Bind(&RecordFetchCallbackInvocations::FetchingFailed,
                    base::Unretained(callback), run_loop_.QuitClosure()));
     run_loop_.Run();
   }

   void VerifyReceivedSTH(const std::string& log_id,
                          const net::ct::SignedTreeHead& sth) {
     net::ct::SignedTreeHead expected_sth;
     net::ct::GetSampleSignedTreeHead(&expected_sth);

     EXPECT_EQ(kLogID, log_id);
     EXPECT_EQ(expected_sth.version, sth.version);
     EXPECT_EQ(expected_sth.timestamp, sth.timestamp);
     EXPECT_EQ(expected_sth.tree_size, sth.tree_size);
     EXPECT_STREQ(expected_sth.sha256_root_hash, sth.sha256_root_hash);
     EXPECT_EQ(expected_sth.signature.hash_algorithm,
               sth.signature.hash_algorithm);
     EXPECT_EQ(expected_sth.signature.signature_algorithm,
               sth.signature.signature_algorithm);
     EXPECT_EQ(expected_sth.signature.signature_data,
               sth.signature.signature_data);
     EXPECT_EQ(kLogID, sth.log_id);
   }

   void VerifyConsistencyProof(
       const std::string& log_id,
       const std::vector<std::string>& consistency_proof) {
     EXPECT_EQ(kLogID, log_id);
     EXPECT_EQ(kDummyConsistencyProofNumNodes, consistency_proof.size());
     for (uint64_t i = 0; i < kDummyConsistencyProofNumNodes; ++i) {
       EXPECT_EQ(GetDummyConsistencyProofNode(i), consistency_proof[i])
           << " node: " << i;
     }
   }

   // The |message_loop_|, while seemingly unused, is necessary
   // for URL request interception. That is the message loop that
   // will be used by the RunLoop.
   base::MessageLoopForIO message_loop_;
   base::RunLoop run_loop_;
   net::TestURLRequestContext context_;
   safe_json::TestingJsonParser::ScopedFactoryOverride factory_override_;
   scoped_ptr<LogProofFetcher> fetcher_;
   const GURL log_url_;
   LogGetResponseHandler* handler_;
 };

 TEST_F(LogProofFetcherTest, TestValidGetReply) {
   SetValidSTHJSONResponse();

   RecordFetchCallbackInvocations callback(true);

   RunFetcherWithCallback(&callback);

   ASSERT_EQ(STH_FETCH, callback.intercepted_result_type());
   VerifyReceivedSTH(callback.intercepted_log_id(), callback.intercepted_sth());
 }

 TEST_F(LogProofFetcherTest, TestValidGetReplyAsyncIO) {
   SetValidSTHJSONResponse();
   handler_->set_async_io(true);

   RecordFetchCallbackInvocations callback(true);
   RunFetcherWithCallback(&callback);

   ASSERT_EQ(STH_FETCH, callback.intercepted_result_type());
   VerifyReceivedSTH(callback.intercepted_log_id(), callback.intercepted_sth());
 }

 TEST_F(LogProofFetcherTest, TestInvalidGetReplyIncompleteJSON) {
   std::string sth_json_reply_data = net::ct::CreateSignedTreeHeadJsonString(
       21 /* tree_size */, 123456u /* timestamp */, std::string(),
       std::string());
   handler_->set_response_body(sth_json_reply_data);
   handler_->set_expected_url(log_url_.Resolve("ct/v1/get-sth"));

   RecordFetchCallbackInvocations callback(false);
   RunFetcherWithCallback(&callback);

   ASSERT_EQ(FAILURE, callback.intercepted_result_type());
   EXPECT_EQ(net::ERR_CT_STH_INCOMPLETE, callback.net_error());
   EXPECT_EQ(net::HTTP_OK, callback.http_response_code());
 }

 TEST_F(LogProofFetcherTest, TestInvalidGetReplyInvalidJSON) {
   std::string sth_json_reply_data = "{\"tree_size\":21,\"timestamp\":}";
   handler_->set_response_body(sth_json_reply_data);
   handler_->set_expected_url(log_url_.Resolve("ct/v1/get-sth"));

   RecordFetchCallbackInvocations callback(false);
   RunFetcherWithCallback(&callback);

   ASSERT_EQ(FAILURE, callback.intercepted_result_type());
   EXPECT_EQ(net::ERR_CT_STH_PARSING_FAILED, callback.net_error());
   EXPECT_EQ(net::HTTP_OK, callback.http_response_code());
 }

 TEST_F(LogProofFetcherTest, TestLogReplyIsTooLong) {
   std::string sth_json_reply_data = net::ct::GetSampleSTHAsJson();
   // Add kMaxLogResponseSizeInBytes to make sure the response is too big.
   sth_json_reply_data.append(
       std::string(LogProofFetcher::kMaxLogResponseSizeInBytes, ' '));
   handler_->set_response_body(sth_json_reply_data);
   handler_->set_expected_url(log_url_.Resolve("ct/v1/get-sth"));

   RecordFetchCallbackInvocations callback(false);
   RunFetcherWithCallback(&callback);

   ASSERT_EQ(FAILURE, callback.intercepted_result_type());
   EXPECT_EQ(net::ERR_FILE_TOO_BIG, callback.net_error());
   EXPECT_EQ(net::HTTP_OK, callback.http_response_code());
 }

 TEST_F(LogProofFetcherTest, TestLogReplyIsExactlyMaxSize) {
   std::string sth_json_reply_data = net::ct::GetSampleSTHAsJson();
   // Extend the reply to be exactly kMaxLogResponseSizeInBytes.
   sth_json_reply_data.append(std::string(
       LogProofFetcher::kMaxLogResponseSizeInBytes - sth_json_reply_data.size(),
       ' '));
   handler_->set_response_body(sth_json_reply_data);
   handler_->set_expected_url(log_url_.Resolve("ct/v1/get-sth"));

   RecordFetchCallbackInvocations callback(true);
   RunFetcherWithCallback(&callback);

   ASSERT_EQ(STH_FETCH, callback.intercepted_result_type());
   VerifyReceivedSTH(callback.intercepted_log_id(), callback.intercepted_sth());
 }

 TEST_F(LogProofFetcherTest, TestLogRepliesWithHttpError) {
   handler_->set_response_headers(std::string(
       kGetResponseNotFoundHeaders, arraysize(kGetResponseNotFoundHeaders)));
   handler_->set_expected_url(log_url_.Resolve("ct/v1/get-sth"));

   RecordFetchCallbackInvocations callback(false);
   RunFetcherWithCallback(&callback);

   ASSERT_EQ(FAILURE, callback.intercepted_result_type());
   EXPECT_EQ(net::OK, callback.net_error());
   EXPECT_EQ(net::HTTP_NOT_FOUND, callback.http_response_code());
 }

 TEST_F(LogProofFetcherTest, TestValidGetConsistencyValidReply) {
   std::vector<std::string> proof;
   for (uint64_t i = 0; i < kDummyConsistencyProofNumNodes; ++i)
     proof.push_back(GetDummyConsistencyProofNode(i));

   std::string consistency_proof_reply_data =
       net::ct::CreateConsistencyProofJsonString(proof);
   handler_->set_response_body(consistency_proof_reply_data);

   RecordFetchCallbackInvocations callback(true);
   RunGetConsistencyFetcherWithCallback(&callback);

   ASSERT_EQ(CONSISTENCY_PROOF_FETCH, callback.intercepted_result_type());
   VerifyConsistencyProof(callback.intercepted_log_id(),
                          callback.intercepted_proof());
 }

 TEST_F(LogProofFetcherTest, TestInvalidGetConsistencyReplyInvalidJSON) {
   std::string consistency_proof_reply_data = "{\"consistency\": [1,2]}";
   handler_->set_response_body(consistency_proof_reply_data);

   RecordFetchCallbackInvocations callback(false);
   RunGetConsistencyFetcherWithCallback(&callback);

   ASSERT_EQ(FAILURE, callback.intercepted_result_type());
   EXPECT_EQ(net::ERR_CT_CONSISTENCY_PROOF_PARSING_FAILED, callback.net_error());
   EXPECT_EQ(net::HTTP_OK, callback.http_response_code());
 }

 }  // namespace

 }  // namespace certificate_transparency
	// Copyright 2015 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 "components/certificate_transparency/log_proof_fetcher.h"

	#include <string>
	#include <utility>

	#include "base/format_macros.h"
	#include "base/macros.h"
	#include "base/run_loop.h"
	#include "base/strings/stringprintf.h"
	#include "components/safe_json/testing_json_parser.h"
	#include "net/base/net_errors.h"
	#include "net/base/network_delegate.h"
	#include "net/cert/signed_tree_head.h"
	#include "net/http/http_status_code.h"
	#include "net/test/ct_test_util.h"
	#include "net/url_request/url_request_context.h"
	#include "net/url_request/url_request_filter.h"
	#include "net/url_request/url_request_interceptor.h"
	#include "net/url_request/url_request_job.h"
	#include "net/url_request/url_request_test_job.h"
	#include "net/url_request/url_request_test_util.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace certificate_transparency {

	namespace {

	const char kGetResponseHeaders[] =
	"HTTP/1.1 200 OK\n"
	"Content-Type: application/json; charset=ISO-8859-1\n";

	const char kGetResponseNotFoundHeaders[] =
	"HTTP/1.1 404 Not Found\n"
	"Content-Type: text/html; charset=iso-8859-1\n";

	const char kLogSchema[] = "https";
	const char kLogHost[] = "ct.log.example.com";
	const char kLogPathPrefix[] = "somelog";
	const char kLogID[] = "some_id";

	// Gets a dummy consistency proof for the given \|node_id\|.
	std::string GetDummyConsistencyProofNode(uint64_t node_id) {
	// Take the low 8 bits and repeat them as a string. This
	// has no special meaning, other than making it easier to
	// debug which consistency proof was used.
	return std::string(32, static_cast<char>(node_id));
	}

	// Number of nodes in a dummy consistency proof.
	const size_t kDummyConsistencyProofNumNodes = 4;

	class LogFetchTestJob : public net::URLRequestTestJob {
	public:
	LogFetchTestJob(const std::string& get_log_data,
	const std::string& get_log_headers,
	net::URLRequest* request,
	net::NetworkDelegate* network_delegate)
	: URLRequestTestJob(request,
	network_delegate,
	get_log_headers,
	get_log_data,
	true),
	async_io_(false) {}

	void set_async_io(bool async_io) { async_io_ = async_io; }

	private:
	~LogFetchTestJob() override {}

	bool NextReadAsync() override {
	// Response with indication of async IO only once, otherwise the final
	// Read would (incorrectly) be classified as async, causing the
	// URLRequestJob to try reading another time and failing on a CHECK
	// that the raw_read_buffer_ is not null.
	// According to mmenke@, this is a bug in the URLRequestTestJob code.
	// TODO(eranm): Once said bug is fixed, switch most tests to using async
	// IO.
	if (async_io_) {
	async_io_ = false;
	return true;
	}
	return false;
	}

	bool async_io_;

	DISALLOW_COPY_AND_ASSIGN(LogFetchTestJob);
	};

	class LogGetResponseHandler : public net::URLRequestInterceptor {
	public:
	LogGetResponseHandler()
	: async_io_(false),
	response_headers_(
	std::string(kGetResponseHeaders, arraysize(kGetResponseHeaders))) {}
	~LogGetResponseHandler() override {}

	// URLRequestInterceptor implementation:
	net::URLRequestJob* MaybeInterceptRequest(
	net::URLRequest* request,
	net::NetworkDelegate* network_delegate) const override {
	EXPECT_EQ(expected_url_, request->url());

	LogFetchTestJob* job = new LogFetchTestJob(
	response_body_, response_headers_, request, network_delegate);
	job->set_async_io(async_io_);
	return job;
	}

	void set_response_body(const std::string& response_body) {
	response_body_ = response_body;
	}

	void set_response_headers(const std::string& response_headers) {
	response_headers_ = response_headers;
	}

	void set_async_io(bool async_io) { async_io_ = async_io; }

	void set_expected_url(const GURL& url) { expected_url_ = url; }

	private:
	bool async_io_;
	std::string response_body_;
	std::string response_headers_;

	// Stored for test body to assert on
	GURL expected_url_;

	DISALLOW_COPY_AND_ASSIGN(LogGetResponseHandler);
	};

	enum InterceptedResultType {
	NOTHING,
	FAILURE,
	STH_FETCH,
	CONSISTENCY_PROOF_FETCH
	};

	class RecordFetchCallbackInvocations {
	public:
	RecordFetchCallbackInvocations(bool expect_success)
	: expect_success_(expect_success),
	net_error_(net::OK),
	http_response_code_(-1),
	request_type_(NOTHING) {}

	void STHFetched(base::Closure quit_closure,
	const std::string& log_id,
	const net::ct::SignedTreeHead& sth) {
	ASSERT_TRUE(expect_success_);
	ASSERT_EQ(NOTHING, request_type_);
	request_type_ = STH_FETCH;
	sth_ = sth;
	log_id_ = log_id;
	quit_closure.Run();
	}

	void ConsistencyProofFetched(
	base::Closure quit_closure,
	const std::string& log_id,
	const std::vector<std::string>& consistency_proof) {
	ASSERT_TRUE(expect_success_);
	ASSERT_EQ(NOTHING, request_type_);
	request_type_ = CONSISTENCY_PROOF_FETCH;
	consistency_proof_.assign(consistency_proof.begin(),
	consistency_proof.end());
	log_id_ = log_id;
	quit_closure.Run();
	}

	void FetchingFailed(base::Closure quit_closure,
	const std::string& log_id,
	int net_error,
	int http_response_code) {
	ASSERT_FALSE(expect_success_);
	ASSERT_EQ(NOTHING, request_type_);
	request_type_ = FAILURE;
	net_error_ = net_error;
	http_response_code_ = http_response_code;
	if (net_error_ == net::OK) {
	EXPECT_NE(net::HTTP_OK, http_response_code_);
	}

	quit_closure.Run();
	}

	InterceptedResultType intercepted_result_type() const {
	return request_type_;
	}

	int net_error() const { return net_error_; }

	int http_response_code() const { return http_response_code_; }

	const net::ct::SignedTreeHead& intercepted_sth() const { return sth_; }

	const std::string& intercepted_log_id() const { return log_id_; }

	const std::vector<std::string>& intercepted_proof() const {
	return consistency_proof_;
	}

	private:
	const bool expect_success_;
	int net_error_;
	int http_response_code_;
	InterceptedResultType request_type_;
	net::ct::SignedTreeHead sth_;
	std::string log_id_;
	std::vector<std::string> consistency_proof_;
	};

	class LogProofFetcherTest : public ::testing::Test {
	public:
	LogProofFetcherTest()
	: log_url_(base::StringPrintf("%s://%s/%s/",
	kLogSchema,
	kLogHost,
	kLogPathPrefix)) {
	scoped_ptr<LogGetResponseHandler> handler(new LogGetResponseHandler());
	handler_ = handler.get();

	net::URLRequestFilter::GetInstance()->AddHostnameInterceptor(
	kLogSchema, kLogHost, std::move(handler));

	fetcher_.reset(new LogProofFetcher(&context_));
	}

	~LogProofFetcherTest() override {
	net::URLRequestFilter::GetInstance()->RemoveHostnameHandler(kLogSchema,
	kLogHost);
	}

	protected:
	void SetValidSTHJSONResponse() {
	std::string sth_json_reply_data = net::ct::GetSampleSTHAsJson();
	handler_->set_response_body(sth_json_reply_data);
	handler_->set_expected_url(log_url_.Resolve("ct/v1/get-sth"));
	}

	void RunFetcherWithCallback(RecordFetchCallbackInvocations* callback) {
	fetcher_->FetchSignedTreeHead(
	log_url_, kLogID,
	base::Bind(&RecordFetchCallbackInvocations::STHFetched,
	base::Unretained(callback), run_loop_.QuitClosure()),
	base::Bind(&RecordFetchCallbackInvocations::FetchingFailed,
	base::Unretained(callback), run_loop_.QuitClosure()));
	run_loop_.Run();
	}

	void RunGetConsistencyFetcherWithCallback(
	RecordFetchCallbackInvocations* callback) {
	const uint64_t kOldTree = 5;
	const uint64_t kNewTree = 8;
	handler_->set_expected_url(log_url_.Resolve(base::StringPrintf(
	"ct/v1/get-sth-consistency?first=%" PRIu64 "&second=%" PRIu64, kOldTree,
	kNewTree)));
	fetcher_->FetchConsistencyProof(
	log_url_, kLogID, kOldTree, kNewTree,
	base::Bind(&RecordFetchCallbackInvocations::ConsistencyProofFetched,
	base::Unretained(callback), run_loop_.QuitClosure()),
	base::Bind(&RecordFetchCallbackInvocations::FetchingFailed,
	base::Unretained(callback), run_loop_.QuitClosure()));
	run_loop_.Run();
	}

	void VerifyReceivedSTH(const std::string& log_id,
	const net::ct::SignedTreeHead& sth) {
	net::ct::SignedTreeHead expected_sth;
	net::ct::GetSampleSignedTreeHead(&expected_sth);

	EXPECT_EQ(kLogID, log_id);
	EXPECT_EQ(expected_sth.version, sth.version);
	EXPECT_EQ(expected_sth.timestamp, sth.timestamp);
	EXPECT_EQ(expected_sth.tree_size, sth.tree_size);
	EXPECT_STREQ(expected_sth.sha256_root_hash, sth.sha256_root_hash);
	EXPECT_EQ(expected_sth.signature.hash_algorithm,
	sth.signature.hash_algorithm);
	EXPECT_EQ(expected_sth.signature.signature_algorithm,
	sth.signature.signature_algorithm);
	EXPECT_EQ(expected_sth.signature.signature_data,
	sth.signature.signature_data);
	EXPECT_EQ(kLogID, sth.log_id);
	}

	void VerifyConsistencyProof(
	const std::string& log_id,
	const std::vector<std::string>& consistency_proof) {
	EXPECT_EQ(kLogID, log_id);
	EXPECT_EQ(kDummyConsistencyProofNumNodes, consistency_proof.size());
	for (uint64_t i = 0; i < kDummyConsistencyProofNumNodes; ++i) {
	EXPECT_EQ(GetDummyConsistencyProofNode(i), consistency_proof[i])
	<< " node: " << i;
	}
	}

	// The \|message_loop_\|, while seemingly unused, is necessary
	// for URL request interception. That is the message loop that
	// will be used by the RunLoop.
	base::MessageLoopForIO message_loop_;
	base::RunLoop run_loop_;
	net::TestURLRequestContext context_;
	safe_json::TestingJsonParser::ScopedFactoryOverride factory_override_;
	scoped_ptr<LogProofFetcher> fetcher_;
	const GURL log_url_;
	LogGetResponseHandler* handler_;
	};

	TEST_F(LogProofFetcherTest, TestValidGetReply) {
	SetValidSTHJSONResponse();

	RecordFetchCallbackInvocations callback(true);

	RunFetcherWithCallback(&callback);

	ASSERT_EQ(STH_FETCH, callback.intercepted_result_type());
	VerifyReceivedSTH(callback.intercepted_log_id(), callback.intercepted_sth());
	}

	TEST_F(LogProofFetcherTest, TestValidGetReplyAsyncIO) {
	SetValidSTHJSONResponse();
	handler_->set_async_io(true);

	RecordFetchCallbackInvocations callback(true);
	RunFetcherWithCallback(&callback);

	ASSERT_EQ(STH_FETCH, callback.intercepted_result_type());
	VerifyReceivedSTH(callback.intercepted_log_id(), callback.intercepted_sth());
	}

	TEST_F(LogProofFetcherTest, TestInvalidGetReplyIncompleteJSON) {
	std::string sth_json_reply_data = net::ct::CreateSignedTreeHeadJsonString(
	21 /* tree_size /, 123456u / timestamp */, std::string(),
	std::string());
	handler_->set_response_body(sth_json_reply_data);
	handler_->set_expected_url(log_url_.Resolve("ct/v1/get-sth"));

	RecordFetchCallbackInvocations callback(false);
	RunFetcherWithCallback(&callback);

	ASSERT_EQ(FAILURE, callback.intercepted_result_type());
	EXPECT_EQ(net::ERR_CT_STH_INCOMPLETE, callback.net_error());
	EXPECT_EQ(net::HTTP_OK, callback.http_response_code());
	}

	TEST_F(LogProofFetcherTest, TestInvalidGetReplyInvalidJSON) {
	std::string sth_json_reply_data = "{\"tree_size\":21,\"timestamp\":}";
	handler_->set_response_body(sth_json_reply_data);
	handler_->set_expected_url(log_url_.Resolve("ct/v1/get-sth"));

	RecordFetchCallbackInvocations callback(false);
	RunFetcherWithCallback(&callback);

	ASSERT_EQ(FAILURE, callback.intercepted_result_type());
	EXPECT_EQ(net::ERR_CT_STH_PARSING_FAILED, callback.net_error());
	EXPECT_EQ(net::HTTP_OK, callback.http_response_code());
	}

	TEST_F(LogProofFetcherTest, TestLogReplyIsTooLong) {
	std::string sth_json_reply_data = net::ct::GetSampleSTHAsJson();
	// Add kMaxLogResponseSizeInBytes to make sure the response is too big.
	sth_json_reply_data.append(
	std::string(LogProofFetcher::kMaxLogResponseSizeInBytes, ' '));
	handler_->set_response_body(sth_json_reply_data);
	handler_->set_expected_url(log_url_.Resolve("ct/v1/get-sth"));

	RecordFetchCallbackInvocations callback(false);
	RunFetcherWithCallback(&callback);

	ASSERT_EQ(FAILURE, callback.intercepted_result_type());
	EXPECT_EQ(net::ERR_FILE_TOO_BIG, callback.net_error());
	EXPECT_EQ(net::HTTP_OK, callback.http_response_code());
	}

	TEST_F(LogProofFetcherTest, TestLogReplyIsExactlyMaxSize) {
	std::string sth_json_reply_data = net::ct::GetSampleSTHAsJson();
	// Extend the reply to be exactly kMaxLogResponseSizeInBytes.
	sth_json_reply_data.append(std::string(
	LogProofFetcher::kMaxLogResponseSizeInBytes - sth_json_reply_data.size(),
	' '));
	handler_->set_response_body(sth_json_reply_data);
	handler_->set_expected_url(log_url_.Resolve("ct/v1/get-sth"));

	RecordFetchCallbackInvocations callback(true);
	RunFetcherWithCallback(&callback);

	ASSERT_EQ(STH_FETCH, callback.intercepted_result_type());
	VerifyReceivedSTH(callback.intercepted_log_id(), callback.intercepted_sth());
	}

	TEST_F(LogProofFetcherTest, TestLogRepliesWithHttpError) {
	handler_->set_response_headers(std::string(
	kGetResponseNotFoundHeaders, arraysize(kGetResponseNotFoundHeaders)));
	handler_->set_expected_url(log_url_.Resolve("ct/v1/get-sth"));

	RecordFetchCallbackInvocations callback(false);
	RunFetcherWithCallback(&callback);

	ASSERT_EQ(FAILURE, callback.intercepted_result_type());
	EXPECT_EQ(net::OK, callback.net_error());
	EXPECT_EQ(net::HTTP_NOT_FOUND, callback.http_response_code());
	}

	TEST_F(LogProofFetcherTest, TestValidGetConsistencyValidReply) {
	std::vector<std::string> proof;
	for (uint64_t i = 0; i < kDummyConsistencyProofNumNodes; ++i)
	proof.push_back(GetDummyConsistencyProofNode(i));

	std::string consistency_proof_reply_data =
	net::ct::CreateConsistencyProofJsonString(proof);
	handler_->set_response_body(consistency_proof_reply_data);

	RecordFetchCallbackInvocations callback(true);
	RunGetConsistencyFetcherWithCallback(&callback);

	ASSERT_EQ(CONSISTENCY_PROOF_FETCH, callback.intercepted_result_type());
	VerifyConsistencyProof(callback.intercepted_log_id(),
	callback.intercepted_proof());
	}

	TEST_F(LogProofFetcherTest, TestInvalidGetConsistencyReplyInvalidJSON) {
	std::string consistency_proof_reply_data = "{\"consistency\": [1,2]}";
	handler_->set_response_body(consistency_proof_reply_data);

	RecordFetchCallbackInvocations callback(false);
	RunGetConsistencyFetcherWithCallback(&callback);

	ASSERT_EQ(FAILURE, callback.intercepted_result_type());
	EXPECT_EQ(net::ERR_CT_CONSISTENCY_PROOF_PARSING_FAILED, callback.net_error());
	EXPECT_EQ(net::HTTP_OK, callback.http_response_code());
	}

	} // namespace

	} // namespace certificate_transparency