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chromium / chromiumos / platform2 / ba93b029d754484f5fc76ee368d769d4e3f41b1b / . / update_engine / download_action_unittest.cc
blob: 0bdeacfea57db905033f9f3bbca986c51dc530df [file] [log] [blame]
// Copyright (c) 2011 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 <glib.h>
#include <gmock/gmock.h>
#include <gtest/gtest.h>
#include <memory>
#include <string>
#include <utility>
#include <vector>
#include <base/files/file_path.h>
#include <base/files/file_util.h>
#include <base/strings/stringprintf.h>
#include "update_engine/action_pipe.h"
#include "update_engine/download_action.h"
#include "update_engine/fake_p2p_manager_configuration.h"
#include "update_engine/fake_system_state.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::unique_ptr;
using std::vector;
using testing::_;
using testing::AtLeast;
using testing::InSequence;
using base::FilePath;
using base::ReadFileToString;
using base::StringPrintf;
using base::WriteFile;
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(ErrorCode expected_code)
: loop_(nullptr),
processing_done_called_(false),
expected_code_(expected_code) {}
virtual ~DownloadActionTestProcessorDelegate() {
EXPECT_TRUE(processing_done_called_);
}
virtual void ProcessingDone(const ActionProcessor* processor,
ErrorCode code) {
ASSERT_TRUE(loop_);
g_main_loop_quit(loop_);
vector<char> found_data;
ASSERT_TRUE(utils::ReadFile(path_, &found_data));
if (expected_code_ != ErrorCode::kDownloadWriteError) {
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,
ErrorCode code) {
const string type = action->Type();
if (type == DownloadAction::StaticType()) {
EXPECT_EQ(expected_code_, code);
} else {
EXPECT_EQ(ErrorCode::kSuccess, code);
}
}
GMainLoop *loop_;
string path_;
vector<char> expected_data_;
bool processing_done_called_;
ErrorCode 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 bool Write(const void* bytes, size_t count) {
if (++current_write_ == fail_write_) {
return false;
}
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,
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 =
OmahaHashCalculator::OmahaHashOfBytes(&data[1], data.size() - 1);
uint64_t size = data.size();
InstallPlan install_plan(false,
false,
"",
size,
hash,
0,
"",
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(),
nullptr);
// takes ownership of passed in HttpFetcher
DownloadAction download_action(&prefs, nullptr, 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);
}
ErrorCode expected_code = ErrorCode::kSuccess;
if (fail_write > 0)
expected_code = ErrorCode::kDownloadWriteError;
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,
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,
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,
2, // 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,
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(false, false, "", 0, "", 0, "",
temp_file.GetPath(), "", "");
feeder_action.set_obj(install_plan);
PrefsMock prefs;
DownloadAction download_action(&prefs, nullptr,
new MockHttpFetcher(&data[0],
data.size(),
nullptr));
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.
class DownloadActionTestAction : public Action<DownloadActionTestAction> {
public:
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, ErrorCode::kSuccess);
}
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, ErrorCode 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;
}
} // namespace
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(false,
false,
"",
1,
OmahaHashCalculator::OmahaHashOfString("x"),
0,
"",
"/dev/null",
"/dev/null",
"");
ObjectFeederAction<InstallPlan> feeder_action;
feeder_action.set_obj(install_plan);
PrefsMock prefs;
DownloadAction download_action(&prefs, nullptr,
new MockHttpFetcher("x", 1, nullptr));
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(false, false, "", 0, "", 0, "", path, "", "");
ObjectFeederAction<InstallPlan> feeder_action;
feeder_action.set_obj(install_plan);
PrefsMock prefs;
DownloadAction download_action(&prefs, nullptr,
new MockHttpFetcher("x", 1, nullptr));
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);
}
gboolean StartProcessorInRunLoopForP2P(gpointer user_data) {
ActionProcessor* processor = reinterpret_cast<ActionProcessor*>(user_data);
processor->StartProcessing();
return FALSE;
}
// Test fixture for P2P tests.
class P2PDownloadActionTest : public testing::Test {
protected:
P2PDownloadActionTest()
: loop_(nullptr),
start_at_offset_(0) {}
virtual ~P2PDownloadActionTest() {}
// Derived from testing::Test.
virtual void SetUp() {
loop_ = g_main_loop_new(g_main_context_default(), FALSE);
}
// Derived from testing::Test.
virtual void TearDown() {
if (loop_ != nullptr)
g_main_loop_unref(loop_);
}
// To be called by tests to setup the download. The
// |starting_offset| parameter is for where to resume.
void SetupDownload(off_t starting_offset) {
start_at_offset_ = starting_offset;
// Prepare data 10 kB of data.
data_.clear();
for (unsigned int i = 0; i < 10 * 1000; i++)
data_ += 'a' + (i % 25);
// Setup p2p.
FakeP2PManagerConfiguration *test_conf = new FakeP2PManagerConfiguration();
p2p_manager_.reset(P2PManager::Construct(test_conf, nullptr, "cros_au", 3));
fake_system_state_.set_p2p_manager(p2p_manager_.get());
}
// To be called by tests to perform the download. The
// |use_p2p_to_share| parameter is used to indicate whether the
// payload should be shared via p2p.
void StartDownload(bool use_p2p_to_share) {
fake_system_state_.request_params()->set_use_p2p_for_sharing(
use_p2p_to_share);
ScopedTempFile output_temp_file;
TestDirectFileWriter writer;
InstallPlan install_plan(false,
false,
"",
data_.length(),
"1234hash",
0,
"",
output_temp_file.GetPath(),
"",
"");
ObjectFeederAction<InstallPlan> feeder_action;
feeder_action.set_obj(install_plan);
PrefsMock prefs;
http_fetcher_ = new MockHttpFetcher(data_.c_str(),
data_.length(),
nullptr);
// Note that DownloadAction takes ownership of the passed in HttpFetcher.
download_action_.reset(new DownloadAction(&prefs, &fake_system_state_,
http_fetcher_));
download_action_->SetTestFileWriter(&writer);
BondActions(&feeder_action, download_action_.get());
DownloadActionTestProcessorDelegate delegate(ErrorCode::kSuccess);
delegate.loop_ = loop_;
delegate.expected_data_ = vector<char>(data_.begin() + start_at_offset_,
data_.end());
delegate.path_ = output_temp_file.GetPath();
processor_.set_delegate(&delegate);
processor_.EnqueueAction(&feeder_action);
processor_.EnqueueAction(download_action_.get());
g_timeout_add(0, &StartProcessorInRunLoopForP2P, this);
g_main_loop_run(loop_);
}
// The DownloadAction instance under test.
unique_ptr<DownloadAction> download_action_;
// The HttpFetcher used in the test.
MockHttpFetcher* http_fetcher_;
// The P2PManager used in the test.
unique_ptr<P2PManager> p2p_manager_;
// The ActionProcessor used for running the actions.
ActionProcessor processor_;
// A fake system state.
FakeSystemState fake_system_state_;
// The data being downloaded.
string data_;
private:
// Callback used in StartDownload() method.
static gboolean StartProcessorInRunLoopForP2P(gpointer user_data) {
class P2PDownloadActionTest *test =
reinterpret_cast<P2PDownloadActionTest*>(user_data);
test->processor_.StartProcessing();
test->http_fetcher_->SetOffset(test->start_at_offset_);
return FALSE;
}
// Mainloop used to make StartDownload() synchronous.
GMainLoop *loop_;
// The requested starting offset passed to SetupDownload().
off_t start_at_offset_;
};
TEST_F(P2PDownloadActionTest, IsWrittenTo) {
if (!utils::IsXAttrSupported(FilePath("/tmp"))) {
LOG(WARNING) << "Skipping test because /tmp does not support xattr. "
<< "Please update your system to support this feature.";
return;
}
SetupDownload(0); // starting_offset
StartDownload(true); // use_p2p_to_share
// Check the p2p file and its content matches what was sent.
string file_id = download_action_->p2p_file_id();
EXPECT_NE(file_id, "");
EXPECT_EQ(p2p_manager_->FileGetSize(file_id), data_.length());
EXPECT_EQ(p2p_manager_->FileGetExpectedSize(file_id), data_.length());
string p2p_file_contents;
EXPECT_TRUE(ReadFileToString(p2p_manager_->FileGetPath(file_id),
&p2p_file_contents));
EXPECT_EQ(data_, p2p_file_contents);
}
TEST_F(P2PDownloadActionTest, DeleteIfHoleExists) {
if (!utils::IsXAttrSupported(FilePath("/tmp"))) {
LOG(WARNING) << "Skipping test because /tmp does not support xattr. "
<< "Please update your system to support this feature.";
return;
}
SetupDownload(1000); // starting_offset
StartDownload(true); // use_p2p_to_share
// DownloadAction should convey that the file is not being shared.
// and that we don't have any p2p files.
EXPECT_EQ(download_action_->p2p_file_id(), "");
EXPECT_EQ(p2p_manager_->CountSharedFiles(), 0);
}
TEST_F(P2PDownloadActionTest, CanAppend) {
if (!utils::IsXAttrSupported(FilePath("/tmp"))) {
LOG(WARNING) << "Skipping test because /tmp does not support xattr. "
<< "Please update your system to support this feature.";
return;
}
SetupDownload(1000); // starting_offset
// Prepare the file with existing data before starting to write to
// it via DownloadAction.
string file_id = utils::CalculateP2PFileId("1234hash", data_.length());
ASSERT_TRUE(p2p_manager_->FileShare(file_id, data_.length()));
string existing_data;
for (unsigned int i = 0; i < 1000; i++)
existing_data += '0' + (i % 10);
ASSERT_EQ(WriteFile(p2p_manager_->FileGetPath(file_id), existing_data.c_str(),
1000), 1000);
StartDownload(true); // use_p2p_to_share
// DownloadAction should convey the same file_id and the file should
// have the expected size.
EXPECT_EQ(download_action_->p2p_file_id(), file_id);
EXPECT_EQ(p2p_manager_->FileGetSize(file_id), data_.length());
EXPECT_EQ(p2p_manager_->FileGetExpectedSize(file_id), data_.length());
string p2p_file_contents;
// Check that the first 1000 bytes wasn't touched and that we
// appended the remaining as appropriate.
EXPECT_TRUE(ReadFileToString(p2p_manager_->FileGetPath(file_id),
&p2p_file_contents));
EXPECT_EQ(existing_data, p2p_file_contents.substr(0, 1000));
EXPECT_EQ(data_.substr(1000), p2p_file_contents.substr(1000));
}
TEST_F(P2PDownloadActionTest, DeletePartialP2PFileIfResumingWithoutP2P) {
if (!utils::IsXAttrSupported(FilePath("/tmp"))) {
LOG(WARNING) << "Skipping test because /tmp does not support xattr. "
<< "Please update your system to support this feature.";
return;
}
SetupDownload(1000); // starting_offset
// Prepare the file with all existing data before starting to write
// to it via DownloadAction.
string file_id = utils::CalculateP2PFileId("1234hash", data_.length());
ASSERT_TRUE(p2p_manager_->FileShare(file_id, data_.length()));
string existing_data;
for (unsigned int i = 0; i < 1000; i++)
existing_data += '0' + (i % 10);
ASSERT_EQ(WriteFile(p2p_manager_->FileGetPath(file_id), existing_data.c_str(),
1000), 1000);
// Check that the file is there.
EXPECT_EQ(p2p_manager_->FileGetSize(file_id), 1000);
EXPECT_EQ(p2p_manager_->CountSharedFiles(), 1);
StartDownload(false); // use_p2p_to_share
// DownloadAction should have deleted the p2p file. Check that it's gone.
EXPECT_EQ(p2p_manager_->FileGetSize(file_id), -1);
EXPECT_EQ(p2p_manager_->CountSharedFiles(), 0);
}
} // namespace chromeos_update_engine