content/browser/service_worker/service_worker_cache_writer_unittest.cc - Issue 1315443003: ServiceWorkerWriteToCacheJob: refactor

Unified Diff: content/browser/service_worker/service_worker_cache_writer_unittest.cc

Issue 1315443003: ServiceWorkerWriteToCacheJob: refactor (Closed) Base URL: https://chromium.googlesource.com/chromium/src.git@master

Patch Set: Fixes Created 5 years, 3 months ago

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Index: content/browser/service_worker/service_worker_cache_writer_unittest.cc

diff --git a/content/browser/service_worker/service_worker_cache_writer_unittest.cc b/content/browser/service_worker/service_worker_cache_writer_unittest.cc

new file mode 100644

index 0000000000000000000000000000000000000000..c58b57b52c117e18f77deb9fe380dc7e6fff471f

--- /dev/null

+++ b/content/browser/service_worker/service_worker_cache_writer_unittest.cc

@@ -0,0 +1,697 @@

+// Use of this source code is governed by a BSD-style license that can be

+// found in the LICENSE file.

+#include "content/browser/service_worker/service_worker_cache_writer.h"

+#include <list>

+#include <queue>

+#include <string>

+#include "base/stl_util.h"

+#include "content/browser/service_worker/service_worker_disk_cache.h"

+#include "testing/gtest/include/gtest/gtest.h"

+namespace content {

+namespace {

+// A test implementation of ServiceWorkerResponseReader.

+//

+// This class exposes the ability to expect reads (see ExpectRead*() below).

+// Each call to ReadInfo() or ReadData() consumes another expected read, in the

+// order those reads were expected, so:

+// reader->ExpectReadInfoOk(5, false);

+// reader->ExpectReadDataOk("abcdef", false);

+// reader->ExpectReadDataOk("ghijkl", false);

+// Expects these calls, in this order:

+// reader->ReadInfo(...); // reader writes 5 into

+// // |info_buf->response_data_size|

+// reader->ReadData(...); // reader writes "abcdef" into |buf|

+// reader->ReadData(...); // reader writes "ghijkl" into |buf|

+// If an unexpected call happens, this class DCHECKs.

+// If an expected read is marked "async", it will not complete immediately, but

+// must be completed by the test using CompletePendingRead().

+// These is a convenience method AllExpectedReadsDone() which returns whether

+// there are any expected reads that have not yet happened.

+class MockServiceWorkerResponseReader : public ServiceWorkerResponseReader {

+ public:

+ MockServiceWorkerResponseReader() : ServiceWorkerResponseReader(0, nullptr) {}

+ ~MockServiceWorkerResponseReader() override {}

+ // ServiceWorkerResponseReader overrides

+ void ReadInfo(HttpResponseInfoIOBuffer* info_buf,

+ const net::CompletionCallback& callback) override;

+ void ReadData(net::IOBuffer* buf,

+ int buf_len,

+ const net::CompletionCallback& callback) override;

+ // Test helpers. ExpectReadInfo() and ExpectReadData() give precise control

+ // over both the data to be written and the result to return.

+ // ExpectReadInfoOk() and ExpectReadDataOk() are convenience functions for

+ // expecting successful reads, which always have their length as their result.

+ // Expect a call to ReadInfo() on this reader. For these functions, |len| will

+ // be used as |response_data_size|, not as the length of this particular read.

+ void ExpectReadInfo(size_t len, bool async, int result);

+ void ExpectReadInfoOk(size_t len, bool async);

+ // Expect a call to ReadData() on this reader. For these functions, |len| is

+ // the length of the data to be written back; in ExpectReadDataOk(), |len| is

+ // implicitly the length of |data|.

+ void ExpectReadData(const char* data, size_t len, bool async, int result);

+ void ExpectReadDataOk(const std::string& data, bool async);

+ // Complete a pending async read. It is an error to call this function without

+ // a pending async read (ie, a previous call to ReadInfo() or ReadData()

+ // having not run its callback yet).

+ void CompletePendingRead();

+ // Returns whether all expected reads have occurred.

+ bool AllExpectedReadsDone() { return expected_reads_.size() == 0; }

+ private:

+ struct ExpectedRead {

+ ExpectedRead(size_t len, bool async, int result)

+ : data(nullptr), len(len), info(true), async(async), result(result) {}

+ ExpectedRead(const char* data, size_t len, bool async, int result)

+ : data(data), len(len), info(false), async(async), result(result) {}

+ const char* data;

+ size_t len;

+ bool info;

+ bool async;

+ int result;

+ };

+ std::queue<ExpectedRead> expected_reads_;

+ scoped_refptr<net::IOBuffer> pending_buffer_;

+ size_t pending_buffer_len_;

+ scoped_refptr<HttpResponseInfoIOBuffer> pending_info_;

+ net::CompletionCallback pending_callback_;

+};

+void MockServiceWorkerResponseReader::ReadInfo(

+ HttpResponseInfoIOBuffer* info_buf,

+ const net::CompletionCallback& callback) {

+ DCHECK(!expected_reads_.empty());

+ ExpectedRead expected = expected_reads_.front();

+ EXPECT_TRUE(expected.info);

+ if (expected.async) {

+ pending_info_ = info_buf;

+ pending_callback_ = callback;

+ } else {

+ expected_reads_.pop();

+ info_buf->response_data_size = expected.len;

+ callback.Run(expected.result);

+ }

+void MockServiceWorkerResponseReader::ReadData(

+ net::IOBuffer* buf,

+ int buf_len,

+ const net::CompletionCallback& callback) {

+ DCHECK(!expected_reads_.empty());

+ ExpectedRead expected = expected_reads_.front();

+ EXPECT_FALSE(expected.info);

+ if (expected.async) {

+ pending_callback_ = callback;

+ pending_buffer_ = buf;

+ pending_buffer_len_ = static_cast<size_t>(buf_len);

+ } else {

+ expected_reads_.pop();

+ if (expected.len > 0) {

+ size_t to_read = std::min(static_cast<size_t>(buf_len), expected.len);

+ memcpy(buf->data(), expected.data, to_read);

+ }

+ callback.Run(expected.result);

+ }

+void MockServiceWorkerResponseReader::ExpectReadInfo(size_t len,

+ bool async,

+ int result) {

+ expected_reads_.push(ExpectedRead(len, async, result));

+void MockServiceWorkerResponseReader::ExpectReadInfoOk(size_t len, bool async) {

+ expected_reads_.push(ExpectedRead(len, async, len));

+void MockServiceWorkerResponseReader::ExpectReadData(const char* data,

+ size_t len,

+ bool async,

+ int result) {

+ expected_reads_.push(ExpectedRead(data, len, async, result));

+void MockServiceWorkerResponseReader::ExpectReadDataOk(const std::string& data,

+ bool async) {

+ expected_reads_.push(

+ ExpectedRead(data.data(), data.size(), async, data.size()));

+void MockServiceWorkerResponseReader::CompletePendingRead() {

+ DCHECK(!expected_reads_.empty());

+ ExpectedRead expected = expected_reads_.front();

+ expected_reads_.pop();

+ EXPECT_TRUE(expected.async);

+ if (expected.info) {

+ pending_info_->response_data_size = expected.len;

+ } else {

+ size_t to_read = std::min(pending_buffer_len_, expected.len);

+ if (to_read > 0)

+ memcpy(pending_buffer_->data(), expected.data, to_read);

+ }

+ pending_info_ = nullptr;

+ pending_buffer_ = nullptr;

+ net::CompletionCallback callback = pending_callback_;

+ pending_callback_.Reset();

+ callback.Run(expected.result);

+// A test implementation of ServiceWorkerResponseWriter.

+//

+// This class exposes the ability to expect writes (see ExpectWrite*Ok() below).

+// Each write to this class via WriteInfo() or WriteData() consumes another

+// expected write, in the order they were added, so:

+// writer->ExpectWriteInfoOk(5, false);

+// writer->ExpectWriteDataOk(6, false);

+// Expects these calls, in this order:

+// writer->WriteInfo(...); // checks that |buf->response_data_size| == 5

+// writer->WriteData(...); // checks that 6 bytes are being written

+// writer->WriteData(...); // checks that another 6 bytes are being written

+// If this class receives an unexpected call to WriteInfo() or WriteData(), it

+// DCHECKs.

+// Expected writes marked async do not complete synchronously, but rather return

+// without running their callback and need to be completed with

+// CompletePendingWrite().

+// A convenience method AllExpectedWritesDone() is exposed so tests can ensure

+// that all expected writes have been consumed by matching calls to WriteInfo()

+// or WriteData().

+class MockServiceWorkerResponseWriter : public ServiceWorkerResponseWriter {

+ public:

+ MockServiceWorkerResponseWriter()

+ : ServiceWorkerResponseWriter(0, nullptr),

+ info_written_(0),

+ data_written_(0) {}

+ ~MockServiceWorkerResponseWriter() override {}

+ // ServiceWorkerResponseWriter overrides

+ void WriteInfo(HttpResponseInfoIOBuffer* info_buf,

+ const net::CompletionCallback& callback) override;

+ void WriteData(net::IOBuffer* buf,

+ int buf_len,

+ const net::CompletionCallback& callback) override;

+ // Enqueue expected writes.

+ void ExpectWriteInfoOk(size_t len, bool async);

+ void ExpectWriteDataOk(size_t len, bool async);

+ // Complete a pending asynchronous write. This method DCHECKs unless there is

+ // a pending write (a write for which WriteInfo() or WriteData() has been

+ // called but the callback has not yet been run).

+ void CompletePendingWrite();

+ // Returns whether all expected reads have been consumed.

+ bool AllExpectedWritesDone() { return expected_writes_.size() == 0; }

+ private:

+ struct ExpectedWrite {

+ ExpectedWrite(bool is_info, size_t length, bool async, int result)

+ : is_info(is_info), length(length), async(async), result(result) {}

+ bool is_info;

+ size_t length;

+ bool async;

+ int result;

+ };

+ std::queue<ExpectedWrite> expected_writes_;

+ size_t info_written_;

+ size_t data_written_;

+ net::CompletionCallback pending_callback_;

+};

+void MockServiceWorkerResponseWriter::WriteInfo(

+ HttpResponseInfoIOBuffer* info_buf,

+ const net::CompletionCallback& callback) {

+ DCHECK(!expected_writes_.empty());

+ ExpectedWrite write = expected_writes_.front();

+ EXPECT_TRUE(write.is_info);

+ EXPECT_EQ(write.length, static_cast<size_t>(info_buf->response_data_size));

+ info_written_ += info_buf->response_data_size;

+ if (!write.async) {

+ expected_writes_.pop();

+ callback.Run(write.result);

+ } else {

+ pending_callback_ = callback;

+ }

+void MockServiceWorkerResponseWriter::WriteData(

+ net::IOBuffer* buf,

+ int buf_len,

+ const net::CompletionCallback& callback) {

+ DCHECK(!expected_writes_.empty());

+ ExpectedWrite write = expected_writes_.front();

+ EXPECT_FALSE(write.is_info);

+ EXPECT_EQ(write.length, static_cast<size_t>(buf_len));

+ data_written_ += buf_len;

+ if (!write.async) {

+ expected_writes_.pop();

+ callback.Run(write.result);

+ } else {

+ pending_callback_ = callback;

+ }

+void MockServiceWorkerResponseWriter::ExpectWriteInfoOk(size_t length,

+ bool async) {

+ ExpectedWrite expected(true, length, async, length);

+ expected_writes_.push(expected);

+void MockServiceWorkerResponseWriter::ExpectWriteDataOk(size_t length,

+ bool async) {

+ ExpectedWrite expected(false, length, async, length);

+ expected_writes_.push(expected);

+void MockServiceWorkerResponseWriter::CompletePendingWrite() {

+ DCHECK(!expected_writes_.empty());

+ ExpectedWrite write = expected_writes_.front();

+ DCHECK(write.async);

+ expected_writes_.pop();

+ pending_callback_.Run(write.result);

+class ServiceWorkerCacheWriterTest : public ::testing::Test {

+ public:

+ ServiceWorkerCacheWriterTest()

+ : readers_deleter_(&readers_), writers_deleter_(&writers_) {}

+ void SetUp() override {

+ ::testing::Test::SetUp();

+ cache_writer_.reset(new ServiceWorkerCacheWriter(

+ base::Bind(&ServiceWorkerCacheWriterTest::CreateReader,

+ base::Unretained(this)),

+ base::Bind(&ServiceWorkerCacheWriterTest::CreateWriter,

+ base::Unretained(this))));

+ write_complete_ = false;

+ }

+ MockServiceWorkerResponseReader* ExpectReader() {

+ scoped_ptr<MockServiceWorkerResponseReader> reader(

+ new MockServiceWorkerResponseReader);

+ MockServiceWorkerResponseReader* borrowed_reader = reader.get();

+ readers_.push_back(reader.release()); // give ownership to |readers_|

+ return borrowed_reader;

+ }

+ MockServiceWorkerResponseWriter* ExpectWriter() {

+ scoped_ptr<MockServiceWorkerResponseWriter> writer(

+ new MockServiceWorkerResponseWriter);

+ MockServiceWorkerResponseWriter* borrowed_writer = writer.get();

+ writers_.push_back(writer.release()); // give ownership to |writers_|

+ return borrowed_writer;

+ }

+ protected:

+ // TODO(ellyjones): when unique_ptr<> is allowed, make these instead:

+ // std::list<unique_ptr<...>>

+ // Right now, these cannot use scoped_ptr.

+ // Their elements are deleted by the STLElementDeleters below when this object

+ // goes out of scope.

+ std::list<MockServiceWorkerResponseReader*> readers_;

+ std::list<MockServiceWorkerResponseWriter*> writers_;

+ STLElementDeleter<std::list<MockServiceWorkerResponseReader*>>

+ readers_deleter_;

+ STLElementDeleter<std::list<MockServiceWorkerResponseWriter*>>

+ writers_deleter_;

+ scoped_ptr<ServiceWorkerCacheWriter> cache_writer_;

+ bool write_complete_;

+ net::Error last_error_;

+ scoped_ptr<ServiceWorkerResponseReader> CreateReader() {

+ if (readers_.empty())

+ return make_scoped_ptr<ServiceWorkerResponseReader>(nullptr);

+ scoped_ptr<ServiceWorkerResponseReader> reader(readers_.front());

+ readers_.pop_front();

+ return reader.Pass();

+ }

+ scoped_ptr<ServiceWorkerResponseWriter> CreateWriter() {

+ if (writers_.empty())

+ return make_scoped_ptr<ServiceWorkerResponseWriter>(nullptr);

+ scoped_ptr<ServiceWorkerResponseWriter> writer(writers_.front());

+ writers_.pop_front();

+ return writer.Pass();

+ }

+ ServiceWorkerCacheWriter::OnWriteCompleteCallback CreateWriteCallback() {

+ return base::Bind(&ServiceWorkerCacheWriterTest::OnWriteComplete,

+ base::Unretained(this));

+ }

+ void OnWriteComplete(net::Error error) {

+ write_complete_ = true;

+ last_error_ = error;

+ }

+ net::Error WriteHeaders(size_t len) {

+ scoped_refptr<HttpResponseInfoIOBuffer> buf(new HttpResponseInfoIOBuffer);

+ buf->response_data_size = len;

+ return cache_writer_->MaybeWriteHeaders(buf.get(), CreateWriteCallback());

+ }

+ net::Error WriteData(const std::string& data) {

+ scoped_refptr<net::IOBuffer> buf = new net::StringIOBuffer(data);

+ return cache_writer_->MaybeWriteData(buf.get(), data.size(),

+ CreateWriteCallback());

+ }

+};

+// Passthrough tests:

+// In these tests, the ServiceWorkerCacheWriter under test has no existing

+// reader, since no calls to ExpectReader() have been made; this means that

+// there is no existing cached response and the incoming data is written back to

+// the cache directly.

+TEST_F(ServiceWorkerCacheWriterTest, PassthroughHeadersSync) {

+ const size_t kHeaderSize = 16;

+ MockServiceWorkerResponseWriter* writer = ExpectWriter();

+ writer->ExpectWriteInfoOk(kHeaderSize, false);

+ net::Error error = WriteHeaders(kHeaderSize);

+ EXPECT_EQ(net::OK, error);

+ EXPECT_FALSE(write_complete_);

+ EXPECT_TRUE(writer->AllExpectedWritesDone());

+ EXPECT_EQ(0U, cache_writer_->bytes_written());

+TEST_F(ServiceWorkerCacheWriterTest, PassthroughHeadersAsync) {

+ size_t kHeaderSize = 16;

+ MockServiceWorkerResponseWriter* writer = ExpectWriter();

+ writer->ExpectWriteInfoOk(kHeaderSize, true);

+ net::Error error = WriteHeaders(kHeaderSize);

+ EXPECT_EQ(net::ERR_IO_PENDING, error);

+ EXPECT_FALSE(write_complete_);

+ writer->CompletePendingWrite();

+ EXPECT_TRUE(write_complete_);

+ EXPECT_TRUE(writer->AllExpectedWritesDone());

+ EXPECT_EQ(0U, cache_writer_->bytes_written());

+TEST_F(ServiceWorkerCacheWriterTest, PassthroughDataSync) {

+ const std::string data1 = "abcdef";

+ const std::string data2 = "ghijklmno";

+ size_t response_size = data1.size() + data2.size();

+ MockServiceWorkerResponseWriter* writer = ExpectWriter();

+ writer->ExpectWriteInfoOk(response_size, false);

+ writer->ExpectWriteDataOk(data1.size(), false);

+ writer->ExpectWriteDataOk(data2.size(), false);

+ net::Error error = WriteHeaders(response_size);

+ EXPECT_EQ(net::OK, error);

+ error = WriteData(data1);

+ EXPECT_EQ(net::OK, error);

+ error = WriteData(data2);

+ EXPECT_EQ(net::OK, error);

+ EXPECT_TRUE(writer->AllExpectedWritesDone());

+TEST_F(ServiceWorkerCacheWriterTest, PassthroughDataAsync) {

+ const std::string data1 = "abcdef";

+ const std::string data2 = "ghijklmno";

+ size_t response_size = data1.size() + data2.size();

+ MockServiceWorkerResponseWriter* writer = ExpectWriter();

+ writer->ExpectWriteInfoOk(response_size, false);

+ writer->ExpectWriteDataOk(data1.size(), true);

+ writer->ExpectWriteDataOk(data2.size(), true);

+ net::Error error = WriteHeaders(response_size);

+ EXPECT_EQ(net::OK, error);

+ error = WriteData(data1);

+ EXPECT_EQ(net::ERR_IO_PENDING, error);

+ writer->CompletePendingWrite();

+ EXPECT_TRUE(write_complete_);

+ write_complete_ = false;

+ error = WriteData(data2);

+ EXPECT_EQ(net::ERR_IO_PENDING, error);

+ writer->CompletePendingWrite();

+ EXPECT_TRUE(write_complete_);

+ EXPECT_TRUE(writer->AllExpectedWritesDone());

+// Comparison tests:

+// For the Compare* tests below, the ServiceWorkerCacheWriter under test has a

+// reader for an existing cached response, so it will compare the response being

+// written to it against the existing cached response.

+TEST_F(ServiceWorkerCacheWriterTest, CompareHeadersSync) {

+ size_t response_size = 3;

+ MockServiceWorkerResponseWriter* writer = ExpectWriter();

+ MockServiceWorkerResponseReader* reader = ExpectReader();

+ reader->ExpectReadInfoOk(response_size, false);

+ net::Error error = WriteHeaders(response_size);

+ EXPECT_EQ(net::OK, error);

+ EXPECT_TRUE(writer->AllExpectedWritesDone());

+ EXPECT_TRUE(reader->AllExpectedReadsDone());

+TEST_F(ServiceWorkerCacheWriterTest, CompareDataOkSync) {

+ const std::string data1 = "abcdef";

+ size_t response_size = data1.size();

+ MockServiceWorkerResponseWriter* writer = ExpectWriter();

+ MockServiceWorkerResponseReader* reader = ExpectReader();

+ reader->ExpectReadInfoOk(response_size, false);

+ reader->ExpectReadDataOk(data1, false);

+ net::Error error = WriteHeaders(response_size);

+ EXPECT_EQ(net::OK, error);

+ error = WriteData(data1);

+ EXPECT_EQ(net::OK, error);

+ EXPECT_TRUE(writer->AllExpectedWritesDone());

+ EXPECT_TRUE(reader->AllExpectedReadsDone());

+ EXPECT_EQ(0U, cache_writer_->bytes_written());

+TEST_F(ServiceWorkerCacheWriterTest, CompareShortCacheReads) {

+ const size_t kHeaderSize = 16;

+ const std::string& data1 = "abcdef";

+ const std::string& cache_data2 = "ghi";

+ const std::string& cache_data3 = "j";

+ const std::string& cache_data4 = "kl";

+ const std::string& net_data2 = "ghijkl";

+ const std::string& data5 = "mnopqrst";

+ MockServiceWorkerResponseReader* reader = ExpectReader();

+ reader->ExpectReadInfo(kHeaderSize, false, kHeaderSize);

+ reader->ExpectReadDataOk(data1, false);

+ reader->ExpectReadDataOk(cache_data2, false);

+ reader->ExpectReadDataOk(cache_data3, false);

+ reader->ExpectReadDataOk(cache_data4, false);

+ reader->ExpectReadDataOk(data5, false);

+ net::Error error = WriteHeaders(kHeaderSize);

+ EXPECT_EQ(net::OK, error);

+ error = WriteData(data1);

+ EXPECT_EQ(net::OK, error);

+ error = WriteData(net_data2);

+ EXPECT_EQ(net::OK, error);

+ error = WriteData(data5);

+ EXPECT_EQ(net::OK, error);

+ EXPECT_TRUE(reader->AllExpectedReadsDone());

+ EXPECT_EQ(0U, cache_writer_->bytes_written());

+TEST_F(ServiceWorkerCacheWriterTest, CompareDataOkAsync) {

+ const std::string data1 = "abcdef";

+ size_t response_size = data1.size();

+ MockServiceWorkerResponseReader* reader = ExpectReader();

+ reader->ExpectReadInfoOk(response_size, true);

+ reader->ExpectReadDataOk(data1, true);

+ net::Error error = WriteHeaders(response_size);

+ EXPECT_EQ(net::ERR_IO_PENDING, error);

+ reader->CompletePendingRead();

+ error = WriteData(data1);

+ EXPECT_EQ(net::ERR_IO_PENDING, error);

+ reader->CompletePendingRead();

+ EXPECT_TRUE(reader->AllExpectedReadsDone());

+ EXPECT_EQ(0U, cache_writer_->bytes_written());

+TEST_F(ServiceWorkerCacheWriterTest, CompareDataManyOkAsync) {

+ const std::string expected_data[] = {

+ "abcdef", "ghijkl", "mnopqr", "stuvwxyz",

+ };

+ size_t response_size = 0;

+ for (size_t i = 0; i < arraysize(expected_data); ++i)

+ response_size += expected_data[i].size();

+ MockServiceWorkerResponseReader* reader = ExpectReader();

+ reader->ExpectReadInfoOk(response_size, true);

+ for (size_t i = 0; i < arraysize(expected_data); ++i) {

+ reader->ExpectReadDataOk(expected_data[i], true);

+ }

+ net::Error error = WriteHeaders(response_size);

+ EXPECT_EQ(net::ERR_IO_PENDING, error);

+ reader->CompletePendingRead();

+ for (size_t i = 0; i < arraysize(expected_data); ++i) {

+ error = WriteData(expected_data[i]);

+ EXPECT_EQ(net::ERR_IO_PENDING, error);

+ reader->CompletePendingRead();

+ EXPECT_EQ(net::OK, last_error_);

+ }

+ EXPECT_TRUE(reader->AllExpectedReadsDone());

+ EXPECT_EQ(0U, cache_writer_->bytes_written());

+// This test writes headers and three data blocks data1, data2, data3; data2

+// differs in the cached version. The writer should be asked to rewrite the

+// headers and body with the new value, and the copy reader should be asked to

+// read the header and data1.

+TEST_F(ServiceWorkerCacheWriterTest, CompareFailedCopySync) {

+ std::string data1 = "abcdef";

+ std::string cache_data2 = "ghijkl";

+ std::string net_data2 = "mnopqr";

+ std::string data3 = "stuvwxyz";

+ size_t cache_response_size = data1.size() + cache_data2.size() + data3.size();

+ size_t net_response_size = data1.size() + net_data2.size() + data3.size();

+ MockServiceWorkerResponseWriter* writer = ExpectWriter();

+ MockServiceWorkerResponseReader* compare_reader = ExpectReader();

+ MockServiceWorkerResponseReader* copy_reader = ExpectReader();

+ compare_reader->ExpectReadInfoOk(cache_response_size, false);

+ compare_reader->ExpectReadDataOk(data1, false);

+ compare_reader->ExpectReadDataOk(cache_data2, false);

+ copy_reader->ExpectReadInfoOk(cache_response_size, false);

+ copy_reader->ExpectReadDataOk(data1, false);

+ writer->ExpectWriteInfoOk(net_response_size, false);

+ writer->ExpectWriteDataOk(data1.size(), false);

+ writer->ExpectWriteDataOk(net_data2.size(), false);

+ writer->ExpectWriteDataOk(data3.size(), false);

+ net::Error error = WriteHeaders(net_response_size);

+ EXPECT_EQ(net::OK, error);

+ error = WriteData(data1);

+ EXPECT_EQ(net::OK, error);

+ error = WriteData(net_data2);

+ EXPECT_EQ(net::OK, error);

+ error = WriteData(data3);

+ EXPECT_EQ(net::OK, error);

+ EXPECT_TRUE(writer->AllExpectedWritesDone());

+ EXPECT_TRUE(compare_reader->AllExpectedReadsDone());

+ EXPECT_TRUE(copy_reader->AllExpectedReadsDone());

+// Tests behavior when the cached data is shorter than the network data.

+TEST_F(ServiceWorkerCacheWriterTest, CompareFailedCopyShort) {

+ std::string data1 = "abcdef";

+ std::string cache_data2 = "mnop";

+ std::string net_data2 = "mnopqr";

+ std::string data3 = "stuvwxyz";

+ size_t cache_response_size = data1.size() + cache_data2.size() + data3.size();

+ size_t net_response_size = data1.size() + net_data2.size() + data3.size();

+ MockServiceWorkerResponseWriter* writer = ExpectWriter();

+ MockServiceWorkerResponseReader* compare_reader = ExpectReader();

+ MockServiceWorkerResponseReader* copy_reader = ExpectReader();

+ compare_reader->ExpectReadInfoOk(cache_response_size, false);

+ compare_reader->ExpectReadDataOk(data1, false);

+ compare_reader->ExpectReadDataOk(cache_data2, false);

+ compare_reader->ExpectReadDataOk("", false); // EOF read

+ copy_reader->ExpectReadInfoOk(cache_response_size, false);

+ copy_reader->ExpectReadDataOk(data1, false);

+ writer->ExpectWriteInfoOk(net_response_size, false);

+ writer->ExpectWriteDataOk(data1.size(), false);

+ writer->ExpectWriteDataOk(net_data2.size(), false);

+ writer->ExpectWriteDataOk(data3.size(), false);

+ net::Error error = WriteHeaders(net_response_size);

+ EXPECT_EQ(net::OK, error);

+ error = WriteData(data1);

+ EXPECT_EQ(net::OK, error);

+ error = WriteData(net_data2);

+ EXPECT_EQ(net::OK, error);

+ error = WriteData(data3);

+ EXPECT_EQ(net::OK, error);

+ EXPECT_TRUE(writer->AllExpectedWritesDone());

+ EXPECT_TRUE(compare_reader->AllExpectedReadsDone());

+ EXPECT_TRUE(copy_reader->AllExpectedReadsDone());

+// Tests behavior when the cached data is longer than the network data.

+TEST_F(ServiceWorkerCacheWriterTest, CompareFailedCopyLong) {

+ std::string data1 = "abcdef";

+ std::string cache_data2 = "mnop";

+ std::string net_data2 = "mnop";

+ std::string cache_data3 = "qr";

+ size_t cached_size = data1.size() + cache_data2.size() + cache_data3.size();

+ size_t net_size = data1.size() + net_data2.size();

+ MockServiceWorkerResponseWriter* writer = ExpectWriter();

+ MockServiceWorkerResponseReader* compare_reader = ExpectReader();

+ MockServiceWorkerResponseReader* copy_reader = ExpectReader();

+ compare_reader->ExpectReadInfoOk(cached_size, false);

+ compare_reader->ExpectReadDataOk(data1, false);

+ compare_reader->ExpectReadDataOk(cache_data2, false);

+ // The comparison should fail at the end of |cache_data2|, when the cache

+ // writer realizes the two responses are different sizes, and then the network

+ // data should be written back starting with |net_data2|.

+ copy_reader->ExpectReadInfoOk(cached_size, false);

+ copy_reader->ExpectReadDataOk(data1, false);

+ copy_reader->ExpectReadDataOk(net_data2, false);

+ writer->ExpectWriteInfoOk(net_size, false);

+ writer->ExpectWriteDataOk(data1.size(), false);

+ writer->ExpectWriteDataOk(net_data2.size(), false);

+ net::Error error = WriteHeaders(net_size);

+ EXPECT_EQ(net::OK, error);

+ error = WriteData(data1);

+ EXPECT_EQ(net::OK, error);

+ error = WriteData(net_data2);

+ EXPECT_EQ(net::OK, error);

+ error = WriteData("");

+ EXPECT_EQ(net::OK, error);

+ EXPECT_TRUE(writer->AllExpectedWritesDone());

+ EXPECT_TRUE(compare_reader->AllExpectedReadsDone());

+ EXPECT_TRUE(copy_reader->AllExpectedReadsDone());

+} // namespace

+} // namespace content