//
// Copyright (C) 2012 The Android Open Source Project
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
#ifndef UPDATE_ENGINE_COMMON_TEST_UTILS_H_
#define UPDATE_ENGINE_COMMON_TEST_UTILS_H_
#include <sys/stat.h>
#include <sys/types.h>
#include <unistd.h>
// Streams used for gtest's PrintTo() functions.
#include <iostream> // NOLINT(readability/streams)
#include <memory>
#include <set>
#include <string>
#include <vector>
#include <base/callback.h>
#include <base/files/file_path.h>
#include <gtest/gtest.h>
#include "update_engine/common/action.h"
#include "update_engine/common/subprocess.h"
#include "update_engine/common/utils.h"
#include "update_engine/update_metadata.pb.h"
// These are some handy functions for unittests.
namespace chromeos_update_engine {
// PrintTo() functions are used by gtest to log these objects. These PrintTo()
// functions must be defined in the same namespace as the first argument.
void PrintTo(const Extent& extent, ::std::ostream* os);
void PrintTo(const ErrorCode& error_code, ::std::ostream* os);
namespace test_utils {
// 300 byte pseudo-random string. Not null terminated.
// This does not gzip compress well.
extern const uint8_t kRandomString[300];
// Writes the data passed to path. The file at path will be overwritten if it
// exists. Returns true on success, false otherwise.
bool WriteFileVector(const std::string& path, const brillo::Blob& data);
bool WriteFileString(const std::string& path, const std::string& data);
// Binds provided |filename| to an unused loopback device, whose name is written
// to the string pointed to by |out_lo_dev_name|. The new loop device will be
// read-only unless |writable| is set to true. Returns true on success, false
// otherwise (along with corresponding test failures), in which case the content
// of |out_lo_dev_name| is unknown.
bool BindToUnusedLoopDevice(const std::string& filename,
bool writable,
std::string* out_lo_dev_name);
bool UnbindLoopDevice(const std::string& lo_dev_name);
// Returns true iff a == b
bool ExpectVectorsEq(const brillo::Blob& a, const brillo::Blob& b);
inline int System(const std::string& cmd) {
return system(cmd.c_str());
}
inline int Symlink(const std::string& oldpath, const std::string& newpath) {
return symlink(oldpath.c_str(), newpath.c_str());
}
inline int Chmod(const std::string& path, mode_t mode) {
return chmod(path.c_str(), mode);
}
inline int Mkdir(const std::string& path, mode_t mode) {
return mkdir(path.c_str(), mode);
}
inline int Chdir(const std::string& path) {
return chdir(path.c_str());
}
// Reads a symlink from disk. Returns empty string on failure.
std::string Readlink(const std::string& path);
// Checks if xattr is supported in the directory specified by
// |dir_path| which must be writable. Returns true if the feature is
// supported, false if not or if an error occurred.
bool IsXAttrSupported(const base::FilePath& dir_path);
void FillWithData(brillo::Blob* buffer);
// Creates an empty ext image.
void CreateEmptyExtImageAtPath(const std::string& path,
size_t size,
int block_size);
// Creates an ext image with some files in it. The paths creates are
// returned in out_paths.
void CreateExtImageAtPath(const std::string& path,
std::vector<std::string>* out_paths);
// Class to unmount FS when object goes out of scope
class ScopedFilesystemUnmounter {
public:
explicit ScopedFilesystemUnmounter(const std::string& mountpoint)
: mountpoint_(mountpoint),
should_unmount_(true) {}
~ScopedFilesystemUnmounter() {
if (should_unmount_) {
utils::UnmountFilesystem(mountpoint_);
}
}
void set_should_unmount(bool unmount) { should_unmount_ = unmount; }
private:
const std::string mountpoint_;
bool should_unmount_;
DISALLOW_COPY_AND_ASSIGN(ScopedFilesystemUnmounter);
};
class ScopedLoopbackDeviceBinder {
public:
ScopedLoopbackDeviceBinder(const std::string& file,
bool writable,
std::string* dev) {
is_bound_ = BindToUnusedLoopDevice(file, writable, &dev_);
EXPECT_TRUE(is_bound_);
if (is_bound_ && dev)
*dev = dev_;
}
~ScopedLoopbackDeviceBinder() {
if (!is_bound_)
return;
for (int retry = 0; retry < 5; retry++) {
if (UnbindLoopDevice(dev_))
return;
sleep(1);
}
ADD_FAILURE();
}
const std::string &dev() {
EXPECT_TRUE(is_bound_);
return dev_;
}
bool is_bound() const { return is_bound_; }
private:
std::string dev_;
bool is_bound_;
DISALLOW_COPY_AND_ASSIGN(ScopedLoopbackDeviceBinder);
};
class ScopedTempFile {
public:
ScopedTempFile() : ScopedTempFile("update_engine_test_temp_file.XXXXXX") {}
explicit ScopedTempFile(const std::string& pattern) {
EXPECT_TRUE(utils::MakeTempFile(pattern, &path_, nullptr));
unlinker_.reset(new ScopedPathUnlinker(path_));
}
const std::string& path() const { return path_; }
private:
std::string path_;
std::unique_ptr<ScopedPathUnlinker> unlinker_;
};
class ScopedLoopMounter {
public:
explicit ScopedLoopMounter(const std::string& file_path,
std::string* mnt_path,
unsigned long flags); // NOLINT(runtime/int)
private:
// These objects must be destructed in the following order:
// ScopedFilesystemUnmounter (the file system must be unmounted first)
// ScopedLoopbackDeviceBinder (then the loop device can be deleted)
// ScopedDirRemover (then the mount point can be deleted)
std::unique_ptr<ScopedDirRemover> dir_remover_;
std::unique_ptr<ScopedLoopbackDeviceBinder> loop_binder_;
std::unique_ptr<ScopedFilesystemUnmounter> unmounter_;
};
// Returns the path where the build artifacts are stored. This is the directory
// where the unittest executable is being run from.
base::FilePath GetBuildArtifactsPath();
} // namespace test_utils
// Useful actions for test. These need to be defined in the
// chromeos_update_engine namespace.
class NoneType;
template<typename T>
class ObjectFeederAction;
template<typename T>
class ActionTraits<ObjectFeederAction<T>> {
public:
typedef T OutputObjectType;
typedef NoneType InputObjectType;
};
// This is a simple Action class for testing. It feeds an object into
// another action.
template<typename T>
class ObjectFeederAction : public Action<ObjectFeederAction<T>> {
public:
typedef NoneType InputObjectType;
typedef T OutputObjectType;
void PerformAction() {
LOG(INFO) << "feeder running!";
CHECK(this->processor_);
if (this->HasOutputPipe()) {
this->SetOutputObject(out_obj_);
}
this->processor_->ActionComplete(this, ErrorCode::kSuccess);
}
static std::string StaticType() { return "ObjectFeederAction"; }
std::string Type() const { return StaticType(); }
void set_obj(const T& out_obj) {
out_obj_ = out_obj;
}
private:
T out_obj_;
};
template<typename T>
class ObjectCollectorAction;
template<typename T>
class ActionTraits<ObjectCollectorAction<T>> {
public:
typedef NoneType OutputObjectType;
typedef T InputObjectType;
};
// This is a simple Action class for testing. It receives an object from
// another action.
template<typename T>
class ObjectCollectorAction : public Action<ObjectCollectorAction<T>> {
public:
typedef T InputObjectType;
typedef NoneType OutputObjectType;
void PerformAction() {
LOG(INFO) << "collector running!";
ASSERT_TRUE(this->processor_);
if (this->HasInputObject()) {
object_ = this->GetInputObject();
}
this->processor_->ActionComplete(this, ErrorCode::kSuccess);
}
static std::string StaticType() { return "ObjectCollectorAction"; }
std::string Type() const { return StaticType(); }
const T& object() const { return object_; }
private:
T object_;
};
} // namespace chromeos_update_engine
#endif // UPDATE_ENGINE_COMMON_TEST_UTILS_H_