download_action_unittest.cc - chromiumos/platform/update_engine - Git at Google

 // Copyright (c) 2009 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 <string>
 #include <vector>

 #include <glib.h>
 #include <gmock/gmock.h>
 #include <gtest/gtest.h>

 #include "update_engine/action_pipe.h"
 #include "update_engine/download_action.h"
 #include "update_engine/mock_http_fetcher.h"
 #include "update_engine/omaha_hash_calculator.h"
 #include "update_engine/prefs_mock.h"
 #include "update_engine/test_utils.h"
 #include "update_engine/utils.h"

 namespace chromeos_update_engine {

 using std::string;
 using std::vector;
 using testing::_;
 using testing::AtLeast;
 using testing::InSequence;

 class DownloadActionTest : public ::testing::Test { };

 namespace {
 class DownloadActionDelegateMock : public DownloadActionDelegate {
  public:
   MOCK_METHOD1(SetDownloadStatus, void(bool active));
   MOCK_METHOD2(BytesReceived, void(uint64_t bytes_received, uint64_t total));
 };

 class DownloadActionTestProcessorDelegate : public ActionProcessorDelegate {
  public:
   explicit DownloadActionTestProcessorDelegate(ActionExitCode expected_code)
       : loop_(NULL),
         processing_done_called_(false),
         expected_code_(expected_code) {}
   virtual ~DownloadActionTestProcessorDelegate() {
     EXPECT_TRUE(processing_done_called_);
   }
   virtual void ProcessingDone(const ActionProcessor* processor,
                               ActionExitCode code) {
     ASSERT_TRUE(loop_);
     g_main_loop_quit(loop_);
     vector<char> found_data;
     ASSERT_TRUE(utils::ReadFile(path_, &found_data));
     if (expected_code_ != kActionCodeDownloadWriteError) {
       ASSERT_EQ(expected_data_.size(), found_data.size());
       for (unsigned i = 0; i < expected_data_.size(); i++) {
         EXPECT_EQ(expected_data_[i], found_data[i]);
       }
     }
     processing_done_called_ = true;
   }

   virtual void ActionCompleted(ActionProcessor* processor,
                                AbstractAction* action,
                                ActionExitCode code) {
     const string type = action->Type();
     if (type == DownloadAction::StaticType()) {
       EXPECT_EQ(expected_code_, code);
     } else {
       EXPECT_EQ(kActionCodeSuccess, code);
     }
   }

   GMainLoop *loop_;
   string path_;
   vector<char> expected_data_;
   bool processing_done_called_;
   ActionExitCode expected_code_;
 };

 class TestDirectFileWriter : public DirectFileWriter {
  public:
   TestDirectFileWriter() : fail_write_(0), current_write_(0) {}
   void set_fail_write(int fail_write) { fail_write_ = fail_write; }

   virtual ssize_t Write(const void* bytes, size_t count) {
     if (++current_write_ == fail_write_) {
       return -EINVAL;
     }
     return DirectFileWriter::Write(bytes, count);
   }

  private:
   // If positive, fail on the |fail_write_| call to Write.
   int fail_write_;
   int current_write_;
 };

 struct EntryPointArgs {
   const vector<char> *data;
   GMainLoop *loop;
   ActionProcessor *processor;
 };

 struct StartProcessorInRunLoopArgs {
   ActionProcessor* processor;
   MockHttpFetcher* http_fetcher;
 };

 gboolean StartProcessorInRunLoop(gpointer data) {
   ActionProcessor* processor =
       reinterpret_cast<StartProcessorInRunLoopArgs*>(data)->processor;
   processor->StartProcessing();
   MockHttpFetcher* http_fetcher =
       reinterpret_cast<StartProcessorInRunLoopArgs*>(data)->http_fetcher;
   http_fetcher->SetOffset(1);
   return FALSE;
 }

 void TestWithData(const vector<char>& data,
                   bool hash_test,
                   bool size_test,
                   int fail_write,
                   bool use_download_delegate) {
   GMainLoop *loop = g_main_loop_new(g_main_context_default(), FALSE);

   // TODO(adlr): see if we need a different file for build bots
   ScopedTempFile output_temp_file;
   TestDirectFileWriter writer;
   writer.set_fail_write(fail_write);

   // We pull off the first byte from data and seek past it.

   string hash = hash_test ?
       OmahaHashCalculator::OmahaHashOfString("random string") :
       OmahaHashCalculator::OmahaHashOfBytes(&data[1], data.size() - 1);
   uint64_t size = data.size() + (size_test ? 1 : 0);
   InstallPlan install_plan(true,
                            false,
                            "",
                            size,
                            hash,
                            output_temp_file.GetPath(),
                            "");
   ObjectFeederAction<InstallPlan> feeder_action;
   feeder_action.set_obj(install_plan);
   PrefsMock prefs;
   MockHttpFetcher* http_fetcher = new MockHttpFetcher(&data[0],
                                                       data.size(),
                                                       NULL);
   // takes ownership of passed in HttpFetcher
   DownloadAction download_action(&prefs, http_fetcher);
   download_action.SetTestFileWriter(&writer);
   BondActions(&feeder_action, &download_action);
   DownloadActionDelegateMock download_delegate;
   if (use_download_delegate) {
     InSequence s;
     download_action.set_delegate(&download_delegate);
     EXPECT_CALL(download_delegate, SetDownloadStatus(true)).Times(1);
     if (data.size() > kMockHttpFetcherChunkSize)
       EXPECT_CALL(download_delegate,
                   BytesReceived(1 + kMockHttpFetcherChunkSize, _));
     EXPECT_CALL(download_delegate, BytesReceived(_, _)).Times(AtLeast(1));
     EXPECT_CALL(download_delegate, SetDownloadStatus(false)).Times(1);
   }
   ActionExitCode expected_code = kActionCodeSuccess;
   if (hash_test)
     expected_code = kActionCodeDownloadHashMismatchError;
   else if (size_test)
     expected_code = kActionCodeDownloadSizeMismatchError;
   else if (fail_write > 0)
     expected_code = kActionCodeDownloadWriteError;
   DownloadActionTestProcessorDelegate delegate(expected_code);
   delegate.loop_ = loop;
   delegate.expected_data_ = vector<char>(data.begin() + 1, data.end());
   delegate.path_ = output_temp_file.GetPath();
   ActionProcessor processor;
   processor.set_delegate(&delegate);
   processor.EnqueueAction(&feeder_action);
   processor.EnqueueAction(&download_action);

   StartProcessorInRunLoopArgs args;
   args.processor = &processor;
   args.http_fetcher = http_fetcher;
   g_timeout_add(0, &StartProcessorInRunLoop, &args);
   g_main_loop_run(loop);
   g_main_loop_unref(loop);
 }
 }  // namespace {}

 TEST(DownloadActionTest, SimpleTest) {
   vector<char> small;
   const char* foo = "foo";
   small.insert(small.end(), foo, foo + strlen(foo));
   TestWithData(small,
                false,  // hash_test
                false,  // size_test
                0,  // fail_write
                true);  // use_download_delegate
 }

 TEST(DownloadActionTest, LargeTest) {
   vector<char> big(5 * kMockHttpFetcherChunkSize);
   char c = '0';
   for (unsigned int i = 0; i < big.size(); i++) {
     big[i] = c;
     c = ('9' == c) ? '0' : c + 1;
   }
   TestWithData(big,
                false,  // hash_test
                false,  // size_test
                0,  // fail_write
                true);  // use_download_delegate
 }

 TEST(DownloadActionTest, FailWriteTest) {
   vector<char> big(5 * kMockHttpFetcherChunkSize);
   char c = '0';
   for (unsigned int i = 0; i < big.size(); i++) {
     big[i] = c;
     c = ('9' == c) ? '0' : c + 1;
   }
   TestWithData(big,
                false,  // hash_test
                false,  // size_test
                2,  // fail_write
                true);  // use_download_delegate
 }

 TEST(DownloadActionTest, BadHashTest) {
   vector<char> small;
   const char* foo = "foo";
   small.insert(small.end(), foo, foo + strlen(foo));
   TestWithData(small,
                true,  // hash_test
                false,  // size_test
                0,  // fail_write
                true);  // use_download_delegate
 }

 TEST(DownloadActionTest, BadSizeTest) {
   const char* something = "something";
   vector<char> small(something, something + strlen(something));
   TestWithData(small,
                false,  // hash_test
                true,  // size_test
                0,  // fail_write
                true);  // use_download_delegate
 }

 TEST(DownloadActionTest, NoDownloadDelegateTest) {
   vector<char> small;
   const char* foo = "foofoo";
   small.insert(small.end(), foo, foo + strlen(foo));
   TestWithData(small,
                false,  // hash_test
                false,  // size_test
                0,  // fail_write
                false);  // use_download_delegate
 }

 namespace {
 class TerminateEarlyTestProcessorDelegate : public ActionProcessorDelegate {
  public:
   void ProcessingStopped(const ActionProcessor* processor) {
     ASSERT_TRUE(loop_);
     g_main_loop_quit(loop_);
   }
   GMainLoop *loop_;
 };

 gboolean TerminateEarlyTestStarter(gpointer data) {
   ActionProcessor *processor = reinterpret_cast<ActionProcessor*>(data);
   processor->StartProcessing();
   CHECK(processor->IsRunning());
   processor->StopProcessing();
   return FALSE;
 }

 void TestTerminateEarly(bool use_download_delegate) {
   GMainLoop *loop = g_main_loop_new(g_main_context_default(), FALSE);

   vector<char> data(kMockHttpFetcherChunkSize + kMockHttpFetcherChunkSize / 2);
   memset(&data[0], 0, data.size());

   ScopedTempFile temp_file;
   {
     DirectFileWriter writer;

     // takes ownership of passed in HttpFetcher
     ObjectFeederAction<InstallPlan> feeder_action;
     InstallPlan install_plan(true, false, "", 0, "", temp_file.GetPath(), "");
     feeder_action.set_obj(install_plan);
     PrefsMock prefs;
     DownloadAction download_action(&prefs,
                                    new MockHttpFetcher(&data[0],
                                                        data.size(),
                                                        NULL));
     download_action.SetTestFileWriter(&writer);
     DownloadActionDelegateMock download_delegate;
     if (use_download_delegate) {
       InSequence s;
       download_action.set_delegate(&download_delegate);
       EXPECT_CALL(download_delegate, SetDownloadStatus(true)).Times(1);
       EXPECT_CALL(download_delegate, SetDownloadStatus(false)).Times(1);
     }
     TerminateEarlyTestProcessorDelegate delegate;
     delegate.loop_ = loop;
     ActionProcessor processor;
     processor.set_delegate(&delegate);
     processor.EnqueueAction(&feeder_action);
     processor.EnqueueAction(&download_action);
     BondActions(&feeder_action, &download_action);

     g_timeout_add(0, &TerminateEarlyTestStarter, &processor);
     g_main_loop_run(loop);
     g_main_loop_unref(loop);
   }

   // 1 or 0 chunks should have come through
   const off_t resulting_file_size(utils::FileSize(temp_file.GetPath()));
   EXPECT_GE(resulting_file_size, 0);
   if (resulting_file_size != 0)
     EXPECT_EQ(kMockHttpFetcherChunkSize, resulting_file_size);
 }

 }  // namespace {}

 TEST(DownloadActionTest, TerminateEarlyTest) {
   TestTerminateEarly(true);
 }

 TEST(DownloadActionTest, TerminateEarlyNoDownloadDelegateTest) {
   TestTerminateEarly(false);
 }

 class DownloadActionTestAction;

 template<>
 class ActionTraits<DownloadActionTestAction> {
  public:
   typedef InstallPlan OutputObjectType;
   typedef InstallPlan InputObjectType;
 };

 // This is a simple Action class for testing.
 struct DownloadActionTestAction : public Action<DownloadActionTestAction> {
   DownloadActionTestAction() : did_run_(false) {}
   typedef InstallPlan InputObjectType;
   typedef InstallPlan OutputObjectType;
   ActionPipe<InstallPlan>* in_pipe() { return in_pipe_.get(); }
   ActionPipe<InstallPlan>* out_pipe() { return out_pipe_.get(); }
   ActionProcessor* processor() { return processor_; }
   void PerformAction() {
     did_run_ = true;
     ASSERT_TRUE(HasInputObject());
     EXPECT_TRUE(expected_input_object_ == GetInputObject());
     ASSERT_TRUE(processor());
     processor()->ActionComplete(this, kActionCodeSuccess);
   }
   string Type() const { return "DownloadActionTestAction"; }
   InstallPlan expected_input_object_;
   bool did_run_;
 };

 namespace {
 // This class is an ActionProcessorDelegate that simply terminates the
 // run loop when the ActionProcessor has completed processing. It's used
 // only by the test PassObjectOutTest.
 class PassObjectOutTestProcessorDelegate : public ActionProcessorDelegate {
  public:
   void ProcessingDone(const ActionProcessor* processor, ActionExitCode code) {
     ASSERT_TRUE(loop_);
     g_main_loop_quit(loop_);
   }
   GMainLoop *loop_;
 };

 gboolean PassObjectOutTestStarter(gpointer data) {
   ActionProcessor *processor = reinterpret_cast<ActionProcessor*>(data);
   processor->StartProcessing();
   return FALSE;
 }
 }

 TEST(DownloadActionTest, PassObjectOutTest) {
   GMainLoop *loop = g_main_loop_new(g_main_context_default(), FALSE);

   DirectFileWriter writer;

   // takes ownership of passed in HttpFetcher
   InstallPlan install_plan(true,
                            false,
                            "",
                            1,
                            OmahaHashCalculator::OmahaHashOfString("x"),
                            "/dev/null",
                            "/dev/null");
   ObjectFeederAction<InstallPlan> feeder_action;
   feeder_action.set_obj(install_plan);
   PrefsMock prefs;
   DownloadAction download_action(&prefs, new MockHttpFetcher("x", 1, NULL));
   download_action.SetTestFileWriter(&writer);

   DownloadActionTestAction test_action;
   test_action.expected_input_object_ = install_plan;
   BondActions(&feeder_action, &download_action);
   BondActions(&download_action, &test_action);

   ActionProcessor processor;
   PassObjectOutTestProcessorDelegate delegate;
   delegate.loop_ = loop;
   processor.set_delegate(&delegate);
   processor.EnqueueAction(&feeder_action);
   processor.EnqueueAction(&download_action);
   processor.EnqueueAction(&test_action);

   g_timeout_add(0, &PassObjectOutTestStarter, &processor);
   g_main_loop_run(loop);
   g_main_loop_unref(loop);

   EXPECT_EQ(true, test_action.did_run_);
 }

 TEST(DownloadActionTest, BadOutFileTest) {
   GMainLoop *loop = g_main_loop_new(g_main_context_default(), FALSE);

   const string path("/fake/path/that/cant/be/created/because/of/missing/dirs");
   DirectFileWriter writer;

   // takes ownership of passed in HttpFetcher
   InstallPlan install_plan(true, false, "", 0, "", path, "");
   ObjectFeederAction<InstallPlan> feeder_action;
   feeder_action.set_obj(install_plan);
   PrefsMock prefs;
   DownloadAction download_action(&prefs, new MockHttpFetcher("x", 1, NULL));
   download_action.SetTestFileWriter(&writer);

   BondActions(&feeder_action, &download_action);

   ActionProcessor processor;
   processor.EnqueueAction(&feeder_action);
   processor.EnqueueAction(&download_action);
   processor.StartProcessing();
   ASSERT_FALSE(processor.IsRunning());

   g_main_loop_unref(loop);
 }

 }  // namespace chromeos_update_engine
	// Copyright (c) 2009 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 <string>
	#include <vector>

	#include <glib.h>
	#include <gmock/gmock.h>
	#include <gtest/gtest.h>

	#include "update_engine/action_pipe.h"
	#include "update_engine/download_action.h"
	#include "update_engine/mock_http_fetcher.h"
	#include "update_engine/omaha_hash_calculator.h"
	#include "update_engine/prefs_mock.h"
	#include "update_engine/test_utils.h"
	#include "update_engine/utils.h"

	namespace chromeos_update_engine {

	using std::string;
	using std::vector;
	using testing::_;
	using testing::AtLeast;
	using testing::InSequence;

	class DownloadActionTest : public ::testing::Test { };

	namespace {
	class DownloadActionDelegateMock : public DownloadActionDelegate {
	public:
	MOCK_METHOD1(SetDownloadStatus, void(bool active));
	MOCK_METHOD2(BytesReceived, void(uint64_t bytes_received, uint64_t total));
	};

	class DownloadActionTestProcessorDelegate : public ActionProcessorDelegate {
	public:
	explicit DownloadActionTestProcessorDelegate(ActionExitCode expected_code)
	: loop_(NULL),
	processing_done_called_(false),
	expected_code_(expected_code) {}
	virtual ~DownloadActionTestProcessorDelegate() {
	EXPECT_TRUE(processing_done_called_);
	}
	virtual void ProcessingDone(const ActionProcessor* processor,
	ActionExitCode code) {
	ASSERT_TRUE(loop_);
	g_main_loop_quit(loop_);
	vector<char> found_data;
	ASSERT_TRUE(utils::ReadFile(path_, &found_data));
	if (expected_code_ != kActionCodeDownloadWriteError) {
	ASSERT_EQ(expected_data_.size(), found_data.size());
	for (unsigned i = 0; i < expected_data_.size(); i++) {
	EXPECT_EQ(expected_data_[i], found_data[i]);
	}
	}
	processing_done_called_ = true;
	}

	virtual void ActionCompleted(ActionProcessor* processor,
	AbstractAction* action,
	ActionExitCode code) {
	const string type = action->Type();
	if (type == DownloadAction::StaticType()) {
	EXPECT_EQ(expected_code_, code);
	} else {
	EXPECT_EQ(kActionCodeSuccess, code);
	}
	}

	GMainLoop *loop_;
	string path_;
	vector<char> expected_data_;
	bool processing_done_called_;
	ActionExitCode expected_code_;
	};

	class TestDirectFileWriter : public DirectFileWriter {
	public:
	TestDirectFileWriter() : fail_write_(0), current_write_(0) {}
	void set_fail_write(int fail_write) { fail_write_ = fail_write; }

	virtual ssize_t Write(const void* bytes, size_t count) {
	if (++current_write_ == fail_write_) {
	return -EINVAL;
	}
	return DirectFileWriter::Write(bytes, count);
	}

	private:
	// If positive, fail on the \|fail_write_\| call to Write.
	int fail_write_;
	int current_write_;
	};

	struct EntryPointArgs {
	const vector<char> *data;
	GMainLoop *loop;
	ActionProcessor *processor;
	};

	struct StartProcessorInRunLoopArgs {
	ActionProcessor* processor;
	MockHttpFetcher* http_fetcher;
	};

	gboolean StartProcessorInRunLoop(gpointer data) {
	ActionProcessor* processor =
	reinterpret_cast<StartProcessorInRunLoopArgs*>(data)->processor;
	processor->StartProcessing();
	MockHttpFetcher* http_fetcher =
	reinterpret_cast<StartProcessorInRunLoopArgs*>(data)->http_fetcher;
	http_fetcher->SetOffset(1);
	return FALSE;
	}

	void TestWithData(const vector<char>& data,
	bool hash_test,
	bool size_test,
	int fail_write,
	bool use_download_delegate) {
	GMainLoop *loop = g_main_loop_new(g_main_context_default(), FALSE);

	// TODO(adlr): see if we need a different file for build bots
	ScopedTempFile output_temp_file;
	TestDirectFileWriter writer;
	writer.set_fail_write(fail_write);

	// We pull off the first byte from data and seek past it.

	string hash = hash_test ?
	OmahaHashCalculator::OmahaHashOfString("random string") :
	OmahaHashCalculator::OmahaHashOfBytes(&data[1], data.size() - 1);
	uint64_t size = data.size() + (size_test ? 1 : 0);
	InstallPlan install_plan(true,
	false,
	"",
	size,
	hash,
	output_temp_file.GetPath(),
	"");
	ObjectFeederAction<InstallPlan> feeder_action;
	feeder_action.set_obj(install_plan);
	PrefsMock prefs;
	MockHttpFetcher* http_fetcher = new MockHttpFetcher(&data[0],
	data.size(),
	NULL);
	// takes ownership of passed in HttpFetcher
	DownloadAction download_action(&prefs, http_fetcher);
	download_action.SetTestFileWriter(&writer);
	BondActions(&feeder_action, &download_action);
	DownloadActionDelegateMock download_delegate;
	if (use_download_delegate) {
	InSequence s;
	download_action.set_delegate(&download_delegate);
	EXPECT_CALL(download_delegate, SetDownloadStatus(true)).Times(1);
	if (data.size() > kMockHttpFetcherChunkSize)
	EXPECT_CALL(download_delegate,
	BytesReceived(1 + kMockHttpFetcherChunkSize, _));
	EXPECT_CALL(download_delegate, BytesReceived(_, _)).Times(AtLeast(1));
	EXPECT_CALL(download_delegate, SetDownloadStatus(false)).Times(1);
	}
	ActionExitCode expected_code = kActionCodeSuccess;
	if (hash_test)
	expected_code = kActionCodeDownloadHashMismatchError;
	else if (size_test)
	expected_code = kActionCodeDownloadSizeMismatchError;
	else if (fail_write > 0)
	expected_code = kActionCodeDownloadWriteError;
	DownloadActionTestProcessorDelegate delegate(expected_code);
	delegate.loop_ = loop;
	delegate.expected_data_ = vector<char>(data.begin() + 1, data.end());
	delegate.path_ = output_temp_file.GetPath();
	ActionProcessor processor;
	processor.set_delegate(&delegate);
	processor.EnqueueAction(&feeder_action);
	processor.EnqueueAction(&download_action);

	StartProcessorInRunLoopArgs args;
	args.processor = &processor;
	args.http_fetcher = http_fetcher;
	g_timeout_add(0, &StartProcessorInRunLoop, &args);
	g_main_loop_run(loop);
	g_main_loop_unref(loop);
	}
	} // namespace {}

	TEST(DownloadActionTest, SimpleTest) {
	vector<char> small;
	const char* foo = "foo";
	small.insert(small.end(), foo, foo + strlen(foo));
	TestWithData(small,
	false, // hash_test
	false, // size_test
	0, // fail_write
	true); // use_download_delegate
	}

	TEST(DownloadActionTest, LargeTest) {
	vector<char> big(5 * kMockHttpFetcherChunkSize);
	char c = '0';
	for (unsigned int i = 0; i < big.size(); i++) {
	big[i] = c;
	c = ('9' == c) ? '0' : c + 1;
	}
	TestWithData(big,
	false, // hash_test
	false, // size_test
	0, // fail_write
	true); // use_download_delegate
	}

	TEST(DownloadActionTest, FailWriteTest) {
	vector<char> big(5 * kMockHttpFetcherChunkSize);
	char c = '0';
	for (unsigned int i = 0; i < big.size(); i++) {
	big[i] = c;
	c = ('9' == c) ? '0' : c + 1;
	}
	TestWithData(big,
	false, // hash_test
	false, // size_test
	2, // fail_write
	true); // use_download_delegate
	}

	TEST(DownloadActionTest, BadHashTest) {
	vector<char> small;
	const char* foo = "foo";
	small.insert(small.end(), foo, foo + strlen(foo));
	TestWithData(small,
	true, // hash_test
	false, // size_test
	0, // fail_write
	true); // use_download_delegate
	}

	TEST(DownloadActionTest, BadSizeTest) {
	const char* something = "something";
	vector<char> small(something, something + strlen(something));
	TestWithData(small,
	false, // hash_test
	true, // size_test
	0, // fail_write
	true); // use_download_delegate
	}

	TEST(DownloadActionTest, NoDownloadDelegateTest) {
	vector<char> small;
	const char* foo = "foofoo";
	small.insert(small.end(), foo, foo + strlen(foo));
	TestWithData(small,
	false, // hash_test
	false, // size_test
	0, // fail_write
	false); // use_download_delegate
	}

	namespace {
	class TerminateEarlyTestProcessorDelegate : public ActionProcessorDelegate {
	public:
	void ProcessingStopped(const ActionProcessor* processor) {
	ASSERT_TRUE(loop_);
	g_main_loop_quit(loop_);
	}
	GMainLoop *loop_;
	};

	gboolean TerminateEarlyTestStarter(gpointer data) {
	ActionProcessor processor = reinterpret_cast<ActionProcessor>(data);
	processor->StartProcessing();
	CHECK(processor->IsRunning());
	processor->StopProcessing();
	return FALSE;
	}

	void TestTerminateEarly(bool use_download_delegate) {
	GMainLoop *loop = g_main_loop_new(g_main_context_default(), FALSE);

	vector<char> data(kMockHttpFetcherChunkSize + kMockHttpFetcherChunkSize / 2);
	memset(&data[0], 0, data.size());

	ScopedTempFile temp_file;
	{
	DirectFileWriter writer;

	// takes ownership of passed in HttpFetcher
	ObjectFeederAction<InstallPlan> feeder_action;
	InstallPlan install_plan(true, false, "", 0, "", temp_file.GetPath(), "");
	feeder_action.set_obj(install_plan);
	PrefsMock prefs;
	DownloadAction download_action(&prefs,
	new MockHttpFetcher(&data[0],
	data.size(),
	NULL));
	download_action.SetTestFileWriter(&writer);
	DownloadActionDelegateMock download_delegate;
	if (use_download_delegate) {
	InSequence s;
	download_action.set_delegate(&download_delegate);
	EXPECT_CALL(download_delegate, SetDownloadStatus(true)).Times(1);
	EXPECT_CALL(download_delegate, SetDownloadStatus(false)).Times(1);
	}
	TerminateEarlyTestProcessorDelegate delegate;
	delegate.loop_ = loop;
	ActionProcessor processor;
	processor.set_delegate(&delegate);
	processor.EnqueueAction(&feeder_action);
	processor.EnqueueAction(&download_action);
	BondActions(&feeder_action, &download_action);

	g_timeout_add(0, &TerminateEarlyTestStarter, &processor);
	g_main_loop_run(loop);
	g_main_loop_unref(loop);
	}

	// 1 or 0 chunks should have come through
	const off_t resulting_file_size(utils::FileSize(temp_file.GetPath()));
	EXPECT_GE(resulting_file_size, 0);
	if (resulting_file_size != 0)
	EXPECT_EQ(kMockHttpFetcherChunkSize, resulting_file_size);
	}

	} // namespace {}

	TEST(DownloadActionTest, TerminateEarlyTest) {
	TestTerminateEarly(true);
	}

	TEST(DownloadActionTest, TerminateEarlyNoDownloadDelegateTest) {
	TestTerminateEarly(false);
	}

	class DownloadActionTestAction;

	template<>
	class ActionTraits<DownloadActionTestAction> {
	public:
	typedef InstallPlan OutputObjectType;
	typedef InstallPlan InputObjectType;
	};

	// This is a simple Action class for testing.
	struct DownloadActionTestAction : public Action<DownloadActionTestAction> {
	DownloadActionTestAction() : did_run_(false) {}
	typedef InstallPlan InputObjectType;
	typedef InstallPlan OutputObjectType;
	ActionPipe<InstallPlan>* in_pipe() { return in_pipe_.get(); }
	ActionPipe<InstallPlan>* out_pipe() { return out_pipe_.get(); }
	ActionProcessor* processor() { return processor_; }
	void PerformAction() {
	did_run_ = true;
	ASSERT_TRUE(HasInputObject());
	EXPECT_TRUE(expected_input_object_ == GetInputObject());
	ASSERT_TRUE(processor());
	processor()->ActionComplete(this, kActionCodeSuccess);
	}
	string Type() const { return "DownloadActionTestAction"; }
	InstallPlan expected_input_object_;
	bool did_run_;
	};

	namespace {
	// This class is an ActionProcessorDelegate that simply terminates the
	// run loop when the ActionProcessor has completed processing. It's used
	// only by the test PassObjectOutTest.
	class PassObjectOutTestProcessorDelegate : public ActionProcessorDelegate {
	public:
	void ProcessingDone(const ActionProcessor* processor, ActionExitCode code) {
	ASSERT_TRUE(loop_);
	g_main_loop_quit(loop_);
	}
	GMainLoop *loop_;
	};

	gboolean PassObjectOutTestStarter(gpointer data) {
	ActionProcessor processor = reinterpret_cast<ActionProcessor>(data);
	processor->StartProcessing();
	return FALSE;
	}
	}

	TEST(DownloadActionTest, PassObjectOutTest) {
	GMainLoop *loop = g_main_loop_new(g_main_context_default(), FALSE);

	DirectFileWriter writer;

	// takes ownership of passed in HttpFetcher
	InstallPlan install_plan(true,
	false,
	"",
	1,
	OmahaHashCalculator::OmahaHashOfString("x"),
	"/dev/null",
	"/dev/null");
	ObjectFeederAction<InstallPlan> feeder_action;
	feeder_action.set_obj(install_plan);
	PrefsMock prefs;
	DownloadAction download_action(&prefs, new MockHttpFetcher("x", 1, NULL));
	download_action.SetTestFileWriter(&writer);

	DownloadActionTestAction test_action;
	test_action.expected_input_object_ = install_plan;
	BondActions(&feeder_action, &download_action);
	BondActions(&download_action, &test_action);

	ActionProcessor processor;
	PassObjectOutTestProcessorDelegate delegate;
	delegate.loop_ = loop;
	processor.set_delegate(&delegate);
	processor.EnqueueAction(&feeder_action);
	processor.EnqueueAction(&download_action);
	processor.EnqueueAction(&test_action);

	g_timeout_add(0, &PassObjectOutTestStarter, &processor);
	g_main_loop_run(loop);
	g_main_loop_unref(loop);

	EXPECT_EQ(true, test_action.did_run_);
	}

	TEST(DownloadActionTest, BadOutFileTest) {
	GMainLoop *loop = g_main_loop_new(g_main_context_default(), FALSE);

	const string path("/fake/path/that/cant/be/created/because/of/missing/dirs");
	DirectFileWriter writer;

	// takes ownership of passed in HttpFetcher
	InstallPlan install_plan(true, false, "", 0, "", path, "");
	ObjectFeederAction<InstallPlan> feeder_action;
	feeder_action.set_obj(install_plan);
	PrefsMock prefs;
	DownloadAction download_action(&prefs, new MockHttpFetcher("x", 1, NULL));
	download_action.SetTestFileWriter(&writer);

	BondActions(&feeder_action, &download_action);

	ActionProcessor processor;
	processor.EnqueueAction(&feeder_action);
	processor.EnqueueAction(&download_action);
	processor.StartProcessing();
	ASSERT_FALSE(processor.IsRunning());

	g_main_loop_unref(loop);
	}

	} // namespace chromeos_update_engine