// Copyright (c) 2010 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 "base/compiler_specific.h"
#include "base/pickle.h"
#include "base/thread.h"
#include "base/waitable_event.h"
#include "net/url_request/url_request.h"
#include "net/url_request/url_request_error_job.h"
#include "net/base/io_buffer.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "webkit/appcache/appcache_response.h"
#include "webkit/appcache/appcache_url_request_job.h"
#include "webkit/appcache/mock_appcache_service.h"

using net::IOBuffer;
using net::WrappedIOBuffer;

namespace appcache {

static const char kHttpBasicHeaders[] =
    "HTTP/1.0 200 OK\0Content-Length: 5\0\0";
static const char kHttpBasicBody[] = "Hello";

static const int kNumBlocks = 4;
static const int kBlockSize = 1024;
static const int kNoSuchResponseId = 123;

class AppCacheURLRequestJobTest : public testing::Test {
 public:

  // Test Harness -------------------------------------------------------------
  // TODO(michaeln): share this test harness with AppCacheResponseTest

  class MockStorageDelegate : public AppCacheStorage::Delegate {
   public:
    explicit MockStorageDelegate(AppCacheURLRequestJobTest* test)
        : loaded_info_id_(0), test_(test) {
    }

    virtual void OnResponseInfoLoaded(AppCacheResponseInfo* info,
                                      int64 response_id) {
      loaded_info_ = info;
      loaded_info_id_ = response_id;
      test_->ScheduleNextTask();
    }

    scoped_refptr<AppCacheResponseInfo> loaded_info_;
    int64 loaded_info_id_;
    AppCacheURLRequestJobTest* test_;
  };

  class MockURLRequestDelegate : public URLRequest::Delegate {
   public:
    explicit MockURLRequestDelegate(AppCacheURLRequestJobTest* test)
        : test_(test),
          received_data_(new net::IOBuffer(kNumBlocks * kBlockSize)),
          did_receive_headers_(false), amount_received_(0),
          kill_after_amount_received_(0), kill_with_io_pending_(false) {
    }

    virtual void OnResponseStarted(URLRequest* request) {
      amount_received_ = 0;
      did_receive_headers_ = false;
      if (request->status().is_success()) {
        EXPECT_TRUE(request->response_headers());
        did_receive_headers_ = true;
        received_info_ = request->response_info();
        ReadSome(request);
      } else {
        RequestComplete();
      }
    }

    virtual void OnReadCompleted(URLRequest* request, int bytes_read) {
      if (bytes_read > 0) {
        amount_received_ += bytes_read;

        if (kill_after_amount_received_ && !kill_with_io_pending_) {
          if (amount_received_ >= kill_after_amount_received_) {
            request->Cancel();
            return;
          }
        }

        ReadSome(request);

        if (kill_after_amount_received_ && kill_with_io_pending_) {
          if (amount_received_ >= kill_after_amount_received_) {
            request->Cancel();
            return;
          }
        }
      } else {
        RequestComplete();
      }
    }

    void ReadSome(URLRequest* request) {
      DCHECK(amount_received_ + kBlockSize <= kNumBlocks * kBlockSize);
      scoped_refptr<IOBuffer> wrapped_buffer =
          new net::WrappedIOBuffer(received_data_->data() + amount_received_);
      int bytes_read = 0;
      EXPECT_FALSE(request->Read(wrapped_buffer, kBlockSize, &bytes_read));
      EXPECT_EQ(0, bytes_read);
    }

    void RequestComplete() {
      test_->ScheduleNextTask();
    }

    AppCacheURLRequestJobTest* test_;
    net::HttpResponseInfo received_info_;
    scoped_refptr<net::IOBuffer> received_data_;
    bool did_receive_headers_;
    int amount_received_;
    int kill_after_amount_received_;
    bool kill_with_io_pending_;
  };

  static URLRequestJob* MockHttpJobFactory(URLRequest* request,
                                           const std::string& scheme) {
    if (mock_factory_job_) {
      URLRequestJob* temp = mock_factory_job_;
      mock_factory_job_ = NULL;
      return temp;
    } else {
      return new URLRequestErrorJob(request, net::ERR_INTERNET_DISCONNECTED);
    }
  }

  // Helper class run a test on our io_thread. The io_thread
  // is spun up once and reused for all tests.
  template <class Method>
  class WrapperTask : public Task {
   public:
    WrapperTask(AppCacheURLRequestJobTest* test, Method method)
        : test_(test), method_(method) {
    }

    virtual void Run() {
      test_->SetUpTest();
      (test_->*method_)();
    }

   private:
    AppCacheURLRequestJobTest* test_;
    Method method_;
  };

  static void SetUpTestCase() {
    io_thread_.reset(new base::Thread("AppCacheURLRequestJobTest Thread"));
    base::Thread::Options options(MessageLoop::TYPE_IO, 0);
    io_thread_->StartWithOptions(options);
  }

  static void TearDownTestCase() {
    io_thread_.reset(NULL);
  }

  AppCacheURLRequestJobTest()
      : ALLOW_THIS_IN_INITIALIZER_LIST(method_factory_(this)),
        ALLOW_THIS_IN_INITIALIZER_LIST(read_callback_(
            this, &AppCacheURLRequestJobTest::OnReadComplete)),
        ALLOW_THIS_IN_INITIALIZER_LIST(read_info_callback_(
            this, &AppCacheURLRequestJobTest::OnReadInfoComplete)),
        ALLOW_THIS_IN_INITIALIZER_LIST(write_callback_(
            this, &AppCacheURLRequestJobTest::OnWriteComplete)),
        ALLOW_THIS_IN_INITIALIZER_LIST(write_info_callback_(
            this, &AppCacheURLRequestJobTest::OnWriteInfoComplete)) {
  }

  template <class Method>
  void RunTestOnIOThread(Method method) {
    test_finished_event_ .reset(new base::WaitableEvent(false, false));
    io_thread_->message_loop()->PostTask(
        FROM_HERE, new WrapperTask<Method>(this, method));
    test_finished_event_->Wait();
  }

  void SetUpTest() {
    DCHECK(MessageLoop::current() == io_thread_->message_loop());
    DCHECK(task_stack_.empty());
    orig_http_factory_ = URLRequest::RegisterProtocolFactory(
        "http", MockHttpJobFactory);
    url_request_delegate_.reset(new MockURLRequestDelegate(this));
    storage_delegate_.reset(new MockStorageDelegate(this));
    service_.reset(new MockAppCacheService());
    expected_read_result_ = 0;
    expected_write_result_ = 0;
    written_response_id_ = 0;
    should_delete_reader_in_completion_callback_ = false;
    should_delete_writer_in_completion_callback_ = false;
    reader_deletion_count_down_ = 0;
    writer_deletion_count_down_ = 0;
    read_callback_was_called_ = false;
    write_callback_was_called_ = false;
  }

  void TearDownTest() {
    DCHECK(MessageLoop::current() == io_thread_->message_loop());
    URLRequest::RegisterProtocolFactory("http", orig_http_factory_);
    orig_http_factory_ = NULL;
    request_.reset();
    url_request_delegate_.reset();
    DCHECK(!mock_factory_job_);

    while (!task_stack_.empty()) {
      delete task_stack_.top().first;
      task_stack_.pop();
    }
    reader_.reset();
    read_buffer_ = NULL;
    read_info_buffer_ = NULL;
    writer_.reset();
    write_buffer_ = NULL;
    write_info_buffer_ = NULL;
    storage_delegate_.reset();
    service_.reset();
  }

  void TestFinished() {
    // We unwind the stack prior to finishing up to let stack
    // based objects get deleted.
    DCHECK(MessageLoop::current() == io_thread_->message_loop());
    MessageLoop::current()->PostTask(FROM_HERE,
        method_factory_.NewRunnableMethod(
            &AppCacheURLRequestJobTest::TestFinishedUnwound));
  }

  void TestFinishedUnwound() {
    TearDownTest();
    test_finished_event_->Signal();
  }

  void PushNextTask(Task* task) {
    task_stack_.push(std::pair<Task*, bool>(task, false));
  }

  void PushNextTaskAsImmediate(Task* task) {
    task_stack_.push(std::pair<Task*, bool>(task, true));
  }

  void ScheduleNextTask() {
    DCHECK(MessageLoop::current() == io_thread_->message_loop());
    if (task_stack_.empty()) {
      TestFinished();
      return;
    }
    scoped_ptr<Task> task(task_stack_.top().first);
    bool immediate = task_stack_.top().second;
    task_stack_.pop();
    if (immediate)
      task->Run();
    else
      MessageLoop::current()->PostTask(FROM_HERE, task.release());
  }

  // Wrappers to call AppCacheResponseReader/Writer Read and Write methods

  void WriteBasicResponse() {
    scoped_refptr<IOBuffer> body = new WrappedIOBuffer(kHttpBasicBody);
    std::string raw_headers(kHttpBasicHeaders, arraysize(kHttpBasicHeaders));
    WriteResponse(MakeHttpResponseInfo(raw_headers), body,
                  strlen(kHttpBasicBody));
  }

  void WriteResponse(net::HttpResponseInfo* head,
                     IOBuffer* body, int body_len) {
    DCHECK(body);
    scoped_refptr<IOBuffer> body_ref(body);
    PushNextTask(method_factory_.NewRunnableMethod(
        &AppCacheURLRequestJobTest::WriteResponseBody,
        body_ref, body_len));
    WriteResponseHead(head);
  }

  void WriteResponseHead(net::HttpResponseInfo* head) {
    EXPECT_FALSE(writer_->IsWritePending());
    expected_write_result_ = GetHttpResponseInfoSize(head);
    write_info_buffer_ = new HttpResponseInfoIOBuffer(head);
    writer_->WriteInfo(write_info_buffer_, &write_info_callback_);
  }

  void WriteResponseBody(scoped_refptr<IOBuffer> io_buffer, int buf_len) {
    EXPECT_FALSE(writer_->IsWritePending());
    write_buffer_ = io_buffer;
    expected_write_result_ = buf_len;
    writer_->WriteData(
        write_buffer_, buf_len, &write_callback_);
  }

  void ReadResponseBody(scoped_refptr<IOBuffer> io_buffer, int buf_len) {
    EXPECT_FALSE(reader_->IsReadPending());
    read_buffer_ = io_buffer;
    expected_read_result_ = buf_len;
    reader_->ReadData(
        read_buffer_, buf_len, &read_callback_);
  }

  // AppCacheResponseReader / Writer completion callbacks

  void OnWriteInfoComplete(int result) {
    EXPECT_FALSE(writer_->IsWritePending());
    EXPECT_EQ(expected_write_result_, result);
    ScheduleNextTask();
  }

  void OnWriteComplete(int result) {
    EXPECT_FALSE(writer_->IsWritePending());
    write_callback_was_called_ = true;
    EXPECT_EQ(expected_write_result_, result);
    if (should_delete_writer_in_completion_callback_ &&
        --writer_deletion_count_down_ == 0) {
      writer_.reset();
    }
    ScheduleNextTask();
  }

  void OnReadInfoComplete(int result) {
    EXPECT_FALSE(reader_->IsReadPending());
    EXPECT_EQ(expected_read_result_, result);
    ScheduleNextTask();
  }

  void OnReadComplete(int result) {
    EXPECT_FALSE(reader_->IsReadPending());
    read_callback_was_called_ = true;
    EXPECT_EQ(expected_read_result_, result);
    if (should_delete_reader_in_completion_callback_ &&
        --reader_deletion_count_down_ == 0) {
      reader_.reset();
    }
    ScheduleNextTask();
  }

  // Helpers to work with HttpResponseInfo objects

  net::HttpResponseInfo* MakeHttpResponseInfo(const std::string& raw_headers) {
    net::HttpResponseInfo* info = new net::HttpResponseInfo;
    info->request_time = base::Time::Now();
    info->response_time = base::Time::Now();
    info->was_cached = false;
    info->headers = new net::HttpResponseHeaders(raw_headers);
    return info;
  }

  int GetHttpResponseInfoSize(const net::HttpResponseInfo* info) {
    Pickle pickle;
    return PickleHttpResonseInfo(&pickle, info);
  }

  bool CompareHttpResponseInfos(const net::HttpResponseInfo* info1,
                                const net::HttpResponseInfo* info2) {
    Pickle pickle1;
    Pickle pickle2;
    PickleHttpResonseInfo(&pickle1, info1);
    PickleHttpResonseInfo(&pickle2, info2);
    return (pickle1.size() == pickle2.size()) &&
           (0 == memcmp(pickle1.data(), pickle2.data(), pickle1.size()));
  }

  int PickleHttpResonseInfo(Pickle* pickle, const net::HttpResponseInfo* info) {
    const bool kSkipTransientHeaders = true;
    const bool kTruncated = false;
    info->Persist(pickle, kSkipTransientHeaders, kTruncated);
    return pickle->size();
  }

  // Helpers to fill and verify blocks of memory with a value

  void FillData(char value, char* data, int data_len) {
    memset(data, value, data_len);
  }

  bool CheckData(char value, const char* data, int data_len) {
    for (int i = 0; i < data_len; ++i, ++data) {
      if (*data != value)
        return false;
    }
    return true;
  }

  // Individual Tests ---------------------------------------------------------
  // Some of the individual tests involve multiple async steps. Each test
  // is delineated with a section header.

  // Basic -------------------------------------------------------------------
  void Basic() {
    AppCacheStorage* storage = service_->storage();
    URLRequest request(GURL("http://blah/"), NULL);
    scoped_refptr<AppCacheURLRequestJob> job;

    // Create an instance and see that it looks as expected.

    job = new AppCacheURLRequestJob(&request, storage);
    EXPECT_TRUE(job->is_waiting());
    EXPECT_FALSE(job->is_delivering_appcache_response());
    EXPECT_FALSE(job->is_delivering_network_response());
    EXPECT_FALSE(job->is_delivering_error_response());
    EXPECT_FALSE(job->has_been_started());
    EXPECT_FALSE(job->has_been_killed());
    EXPECT_EQ(GURL(), job->manifest_url());
    EXPECT_EQ(kNoCacheId, job->cache_id());
    EXPECT_FALSE(job->entry().has_response_id());

    TestFinished();
  }

  // DeliveryOrders -----------------------------------------------------
  void DeliveryOrders() {
    AppCacheStorage* storage = service_->storage();
    URLRequest request(GURL("http://blah/"), NULL);
    scoped_refptr<AppCacheURLRequestJob> job;

    // Create an instance, give it a delivery order and see that
    // it looks as expected.

    job = new AppCacheURLRequestJob(&request, storage);
    job->DeliverErrorResponse();
    EXPECT_TRUE(job->is_delivering_error_response());
    EXPECT_FALSE(job->has_been_started());

    job = new AppCacheURLRequestJob(&request, storage);
    job->DeliverNetworkResponse();
    EXPECT_TRUE(job->is_delivering_network_response());
    EXPECT_FALSE(job->has_been_started());

    job = new AppCacheURLRequestJob(&request, storage);
    const GURL kManifestUrl("http://blah/");
    const int64 kCacheId(1);
    const AppCacheEntry kEntry(AppCacheEntry::EXPLICIT, 1);
    job->DeliverAppCachedResponse(kManifestUrl, kCacheId, kEntry);
    EXPECT_FALSE(job->is_waiting());
    EXPECT_TRUE(job->is_delivering_appcache_response());
    EXPECT_FALSE(job->has_been_started());
    EXPECT_EQ(kManifestUrl, job->manifest_url());
    EXPECT_EQ(kCacheId, job->cache_id());
    EXPECT_EQ(kEntry.types(), job->entry().types());
    EXPECT_EQ(kEntry.response_id(), job->entry().response_id());

    TestFinished();
  }

  // DeliverNetworkResponse --------------------------------------------------

  void DeliverNetworkResponse() {
    // This test has async steps.
    PushNextTask(method_factory_.NewRunnableMethod(
       &AppCacheURLRequestJobTest::VerifyDeliverNetworkResponse));

    AppCacheStorage* storage = service_->storage();
    request_.reset(
        new URLRequest(GURL("http://blah/"), url_request_delegate_.get()));

    // Setup to create an AppCacheURLRequestJob with orders to deliver
    // a network response.
    mock_factory_job_ = new AppCacheURLRequestJob(request_.get(), storage);
    mock_factory_job_->DeliverNetworkResponse();
    EXPECT_TRUE(mock_factory_job_->is_delivering_network_response());
    EXPECT_FALSE(mock_factory_job_->has_been_started());

    // Start the request.
    request_->Start();

    // The job should have been picked up.
    EXPECT_FALSE(mock_factory_job_);
    // Completion is async.
  }

  void VerifyDeliverNetworkResponse() {
    EXPECT_EQ(request_->status().os_error(),
              net::ERR_INTERNET_DISCONNECTED);
    TestFinished();
  }

  // DeliverErrorResponse --------------------------------------------------

  void DeliverErrorResponse() {
    // This test has async steps.
    PushNextTask(method_factory_.NewRunnableMethod(
       &AppCacheURLRequestJobTest::VerifyDeliverErrorResponse));

    AppCacheStorage* storage = service_->storage();
    request_.reset(
        new URLRequest(GURL("http://blah/"), url_request_delegate_.get()));

    // Setup to create an AppCacheURLRequestJob with orders to deliver
    // a network response.
    mock_factory_job_ = new AppCacheURLRequestJob(request_.get(), storage);
    mock_factory_job_->DeliverErrorResponse();
    EXPECT_TRUE(mock_factory_job_->is_delivering_error_response());
    EXPECT_FALSE(mock_factory_job_->has_been_started());

    // Start the request.
    request_->Start();

    // The job should have been picked up.
    EXPECT_FALSE(mock_factory_job_);
    // Completion is async.
  }

  void VerifyDeliverErrorResponse() {
    EXPECT_EQ(request_->status().os_error(), net::ERR_FAILED);
    TestFinished();
  }

  // DeliverSmallAppCachedResponse --------------------------------------
  // "Small" being small enough to read completely in a single
  // request->Read call.

  void DeliverSmallAppCachedResponse() {
    // This test has several async steps.
    // 1. Write a small response to response storage.
    // 2. Use URLRequest to retrieve it.
    // 3. Verify we received what we expected to receive.

    PushNextTask(method_factory_.NewRunnableMethod(
       &AppCacheURLRequestJobTest::VerifyDeliverSmallAppCachedResponse));
    PushNextTask(method_factory_.NewRunnableMethod(
       &AppCacheURLRequestJobTest::RequestAppCachedResource, false));

    writer_.reset(service_->storage()->CreateResponseWriter(GURL()));
    written_response_id_ = writer_->response_id();
    WriteBasicResponse();
    // Continues async
  }

  void RequestAppCachedResource(bool start_after_delivery_orders) {
    AppCacheStorage* storage = service_->storage();
    request_.reset(
        new URLRequest(GURL("http://blah/"), url_request_delegate_.get()));

    // Setup to create an AppCacheURLRequestJob with orders to deliver
    // a network response.
    scoped_refptr<AppCacheURLRequestJob> job(
        new AppCacheURLRequestJob(request_.get(), storage));

    if (start_after_delivery_orders) {
      job->DeliverAppCachedResponse(
          GURL(), 111,
          AppCacheEntry(AppCacheEntry::EXPLICIT, written_response_id_));
      EXPECT_TRUE(job->is_delivering_appcache_response());
    }

    // Start the request.
    EXPECT_FALSE(job->has_been_started());
    mock_factory_job_ = job;
    request_->Start();
    EXPECT_FALSE(mock_factory_job_);
    EXPECT_TRUE(job->has_been_started());

    if (!start_after_delivery_orders) {
      job->DeliverAppCachedResponse(
          GURL(), 111,
          AppCacheEntry(AppCacheEntry::EXPLICIT, written_response_id_));
      EXPECT_TRUE(job->is_delivering_appcache_response());
    }

    // Completion is async.
  }

  void VerifyDeliverSmallAppCachedResponse() {
    EXPECT_TRUE(request_->status().is_success());
    EXPECT_TRUE(CompareHttpResponseInfos(
        write_info_buffer_->http_info.get(),
        &url_request_delegate_->received_info_));
    EXPECT_EQ(5, url_request_delegate_->amount_received_);
    EXPECT_EQ(0, memcmp(kHttpBasicBody,
                        url_request_delegate_->received_data_->data(),
                        strlen(kHttpBasicBody)));
    TestFinished();
  }

  // DeliverLargeAppCachedResponse --------------------------------------
  // "Large" enough to require multiple calls to request->Read to complete.

  void DeliverLargeAppCachedResponse() {
    // This test has several async steps.
    // 1. Write a large response to response storage.
    // 2. Use URLRequest to retrieve it.
    // 3. Verify we received what we expected to receive.

    PushNextTask(method_factory_.NewRunnableMethod(
       &AppCacheURLRequestJobTest::VerifyDeliverLargeAppCachedResponse));
    PushNextTask(method_factory_.NewRunnableMethod(
       &AppCacheURLRequestJobTest::RequestAppCachedResource, true));

    writer_.reset(service_->storage()->CreateResponseWriter(GURL()));
    written_response_id_ = writer_->response_id();
    WriteLargeResponse();
    // Continues async
  }

  void WriteLargeResponse() {
    // 3, 1k blocks
    static const char kHttpHeaders[] =
        "HTTP/1.0 200 OK\0Content-Length: 3072\0\0";
    scoped_refptr<IOBuffer> body = new IOBuffer(kBlockSize * 3);
    char* p = body->data();
    for (int i = 0; i < 3; ++i, p += kBlockSize)
      FillData(i + 1, p, kBlockSize);
    std::string raw_headers(kHttpHeaders, arraysize(kHttpHeaders));
    WriteResponse(MakeHttpResponseInfo(raw_headers), body, kBlockSize * 3);
  }

  void VerifyDeliverLargeAppCachedResponse() {
    EXPECT_TRUE(request_->status().is_success());
    EXPECT_TRUE(CompareHttpResponseInfos(
        write_info_buffer_->http_info.get(),
        &url_request_delegate_->received_info_));
    EXPECT_EQ(3072, url_request_delegate_->amount_received_);
    char* p = url_request_delegate_->received_data_->data();
    for (int i = 0; i < 3; ++i, p += kBlockSize)
      EXPECT_TRUE(CheckData(i + 1, p, kBlockSize));
    TestFinished();
  }

  // CancelRequest --------------------------------------

  void CancelRequest() {
    // This test has several async steps.
    // 1. Write a large response to response storage.
    // 2. Use URLRequest to retrieve it.
    // 3. Cancel the request after data starts coming in.

    PushNextTask(method_factory_.NewRunnableMethod(
       &AppCacheURLRequestJobTest::VerifyCancel));
    PushNextTask(method_factory_.NewRunnableMethod(
       &AppCacheURLRequestJobTest::RequestAppCachedResource, true));

    writer_.reset(service_->storage()->CreateResponseWriter(GURL()));
    written_response_id_ = writer_->response_id();
    WriteLargeResponse();

    url_request_delegate_->kill_after_amount_received_ = kBlockSize;
    url_request_delegate_->kill_with_io_pending_ = false;
    // Continues async
  }

  void VerifyCancel() {
    EXPECT_EQ(URLRequestStatus::CANCELED,
              request_->status().status());
    TestFinished();
  }

  // CancelRequestWithIOPending --------------------------------------

  void CancelRequestWithIOPending() {
    // This test has several async steps.
    // 1. Write a large response to response storage.
    // 2. Use URLRequest to retrieve it.
    // 3. Cancel the request after data starts coming in.

    PushNextTask(method_factory_.NewRunnableMethod(
       &AppCacheURLRequestJobTest::VerifyCancel));
    PushNextTask(method_factory_.NewRunnableMethod(
       &AppCacheURLRequestJobTest::RequestAppCachedResource, true));

    writer_.reset(service_->storage()->CreateResponseWriter(GURL()));
    written_response_id_ = writer_->response_id();
    WriteLargeResponse();

    url_request_delegate_->kill_after_amount_received_ = kBlockSize;
    url_request_delegate_->kill_with_io_pending_ = true;
    // Continues async
  }


  // Data members --------------------------------------------------------

  ScopedRunnableMethodFactory<AppCacheURLRequestJobTest> method_factory_;
  scoped_ptr<base::WaitableEvent> test_finished_event_;
  scoped_ptr<MockStorageDelegate> storage_delegate_;
  scoped_ptr<MockAppCacheService> service_;
  std::stack<std::pair<Task*, bool> > task_stack_;

  scoped_ptr<AppCacheResponseReader> reader_;
  scoped_refptr<HttpResponseInfoIOBuffer> read_info_buffer_;
  scoped_refptr<IOBuffer> read_buffer_;
  int expected_read_result_;
  net::CompletionCallbackImpl<AppCacheURLRequestJobTest> read_callback_;
  net::CompletionCallbackImpl<AppCacheURLRequestJobTest> read_info_callback_;
  bool should_delete_reader_in_completion_callback_;
  int reader_deletion_count_down_;
  bool read_callback_was_called_;

  int64 written_response_id_;
  scoped_ptr<AppCacheResponseWriter> writer_;
  scoped_refptr<HttpResponseInfoIOBuffer> write_info_buffer_;
  scoped_refptr<IOBuffer> write_buffer_;
  int expected_write_result_;
  net::CompletionCallbackImpl<AppCacheURLRequestJobTest> write_callback_;
  net::CompletionCallbackImpl<AppCacheURLRequestJobTest> write_info_callback_;
  bool should_delete_writer_in_completion_callback_;
  int writer_deletion_count_down_;
  bool write_callback_was_called_;

  URLRequest::ProtocolFactory* orig_http_factory_;
  scoped_ptr<URLRequest> request_;
  scoped_ptr<MockURLRequestDelegate> url_request_delegate_;

  static scoped_ptr<base::Thread> io_thread_;
  static AppCacheURLRequestJob* mock_factory_job_;
};

// static
scoped_ptr<base::Thread> AppCacheURLRequestJobTest::io_thread_;
AppCacheURLRequestJob* AppCacheURLRequestJobTest::mock_factory_job_ = NULL;

TEST_F(AppCacheURLRequestJobTest, Basic) {
  RunTestOnIOThread(&AppCacheURLRequestJobTest::Basic);
}

TEST_F(AppCacheURLRequestJobTest, DeliveryOrders) {
  RunTestOnIOThread(&AppCacheURLRequestJobTest::DeliveryOrders);
}

TEST_F(AppCacheURLRequestJobTest, DeliverNetworkResponse) {
  RunTestOnIOThread(&AppCacheURLRequestJobTest::DeliverNetworkResponse);
}

TEST_F(AppCacheURLRequestJobTest, DeliverErrorResponse) {
  RunTestOnIOThread(&AppCacheURLRequestJobTest::DeliverErrorResponse);
}

TEST_F(AppCacheURLRequestJobTest, DeliverSmallAppCachedResponse) {
  RunTestOnIOThread(&AppCacheURLRequestJobTest::DeliverSmallAppCachedResponse);
}

TEST_F(AppCacheURLRequestJobTest, DeliverLargeAppCachedResponse) {
  RunTestOnIOThread(&AppCacheURLRequestJobTest::DeliverLargeAppCachedResponse);
}

TEST_F(AppCacheURLRequestJobTest, CancelRequest) {
  RunTestOnIOThread(&AppCacheURLRequestJobTest::CancelRequest);
}

TEST_F(AppCacheURLRequestJobTest, CancelRequestWithIOPending) {
  RunTestOnIOThread(&AppCacheURLRequestJobTest::CancelRequestWithIOPending);
}

}  // namespace appcache