components/storage_monitor/test_volume_mount_watcher_win.cc - chromium/src - Git at Google

 // Copyright 2014 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.
 //
 // TestVolumeMountWatcherWin implementation.

 #include "components/storage_monitor/test_volume_mount_watcher_win.h"

 #include "base/bind.h"
 #include "base/files/file_path.h"
 #include "base/files/scoped_temp_dir.h"
 #include "base/strings/utf_string_conversions.h"
 #include "components/storage_monitor/storage_info.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace storage_monitor {

 namespace {

 base::FilePath GetTempRoot() {
   base::ScopedTempDir temp_dir;
   EXPECT_TRUE(temp_dir.CreateUniqueTempDir());
   base::FilePath temp_root = temp_dir.GetPath();
   while (temp_root.DirName() != temp_root)
     temp_root = temp_root.DirName();
   return temp_root;
 }

 std::vector<base::FilePath> FakeGetSingleAttachedDevice() {
   std::vector<base::FilePath> result;
   result.push_back(VolumeMountWatcherWin::DriveNumberToFilePath(2));  // C

   // Make sure we are adding the drive on which ScopedTempDir will make
   // test directories.
   base::FilePath temp_root = GetTempRoot();
   if (temp_root != VolumeMountWatcherWin::DriveNumberToFilePath(2))
     result.push_back(temp_root);

   return result;
 }

 std::vector<base::FilePath> FakeGetAttachedDevices() {
   std::vector<base::FilePath> result;
   result.push_back(VolumeMountWatcherWin::DriveNumberToFilePath(0));  // A
   result.push_back(VolumeMountWatcherWin::DriveNumberToFilePath(1));  // B
   result.push_back(VolumeMountWatcherWin::DriveNumberToFilePath(2));  // C
   result.push_back(VolumeMountWatcherWin::DriveNumberToFilePath(3));  // D
   result.push_back(VolumeMountWatcherWin::DriveNumberToFilePath(5));  // F
   result.push_back(VolumeMountWatcherWin::DriveNumberToFilePath(7));  // H
   result.push_back(VolumeMountWatcherWin::DriveNumberToFilePath(13));  // N
   result.push_back(VolumeMountWatcherWin::DriveNumberToFilePath(25));  // Z
   return result;
 }

 // Gets the details of the mass storage device specified by the |device_path|.
 // |device_path| inputs of 'A:\' - 'Z:\' are valid. 'N:\' is not removable.
 // 'C:\' is not removable (so that auto-added paths are correctly handled).
 bool GetMassStorageDeviceDetails(const base::FilePath& device_path,
                                  StorageInfo* info) {
   DCHECK(info);

   // Truncate to root path.
   base::FilePath path(device_path);
   if (device_path.value().length() > 3)
     path = base::FilePath(device_path.value().substr(0, 3));
   base::FilePath::CharType drive_letter = path.value()[0];
   if (drive_letter < L'A' || drive_letter > L'Z')
     return false;

   StorageInfo::Type type = StorageInfo::FIXED_MASS_STORAGE;
   if (path.value() != base::ASCIIToUTF16("N:\\") &&
       path.value() != base::ASCIIToUTF16("C:\\") &&
       path.value() != GetTempRoot().value()) {
     type = StorageInfo::REMOVABLE_MASS_STORAGE_WITH_DCIM;
   }
   std::string unique_id =
       "\\\\?\\Volume{00000000-0000-0000-0000-000000000000}\\";
   unique_id[11] = static_cast<char>(drive_letter);
   std::string device_id = StorageInfo::MakeDeviceId(type, unique_id);
   base::string16 storage_label = path.Append(L" Drive").LossyDisplayName();
   *info = StorageInfo(device_id, path.value(), storage_label, base::string16(),
                       base::string16(), 1000000);

   return true;
 }

 }  // namespace

 // TestVolumeMountWatcherWin ---------------------------------------------------

 TestVolumeMountWatcherWin::TestVolumeMountWatcherWin()
     : attached_devices_fake_(false) {}

 TestVolumeMountWatcherWin::~TestVolumeMountWatcherWin() {
 }

 void TestVolumeMountWatcherWin::AddDeviceForTesting(
     const base::FilePath& device_path,
     const std::string& device_id,
     const base::string16& storage_label,
     uint64_t total_size_in_bytes) {
   StorageInfo info(device_id, device_path.value(), storage_label,
                    base::string16(), base::string16(), total_size_in_bytes);
   HandleDeviceAttachEventOnUIThread(device_path, info);
 }

 void TestVolumeMountWatcherWin::SetAttachedDevicesFake() {
   attached_devices_fake_ = true;
 }

 void TestVolumeMountWatcherWin::DeviceCheckComplete(
     const base::FilePath& device_path) {
   devices_checked_.push_back(device_path);
   if (device_check_complete_event_)
     device_check_complete_event_->Wait();
   VolumeMountWatcherWin::DeviceCheckComplete(device_path);
 }

 void TestVolumeMountWatcherWin::BlockDeviceCheckForTesting() {
   device_check_complete_event_.reset(
       new base::WaitableEvent(base::WaitableEvent::ResetPolicy::AUTOMATIC,
                               base::WaitableEvent::InitialState::NOT_SIGNALED));
   devices_checked_.clear();
 }

 void TestVolumeMountWatcherWin::ReleaseDeviceCheck() {
   device_check_complete_event_->Signal();
 }

 // static
 bool TestVolumeMountWatcherWin::GetDeviceRemovable(
     const base::FilePath& device_path,
     bool* removable) {
   StorageInfo info;
   bool success = GetMassStorageDeviceDetails(device_path, &info);
   *removable = StorageInfo::IsRemovableDevice(info.device_id());
   return success;
 }

 VolumeMountWatcherWin::GetDeviceDetailsCallbackType
 TestVolumeMountWatcherWin::GetDeviceDetailsCallback() const {
   return base::Bind(&GetMassStorageDeviceDetails);
 }

 VolumeMountWatcherWin::GetAttachedDevicesCallbackType
   TestVolumeMountWatcherWin::GetAttachedDevicesCallback() const {
   if (attached_devices_fake_)
     return base::Bind(&FakeGetAttachedDevices);
   return base::Bind(&FakeGetSingleAttachedDevice);
 }

 }  // namespace storage_monitor
	// Copyright 2014 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.
	//
	// TestVolumeMountWatcherWin implementation.

	#include "components/storage_monitor/test_volume_mount_watcher_win.h"

	#include "base/bind.h"
	#include "base/files/file_path.h"
	#include "base/files/scoped_temp_dir.h"
	#include "base/strings/utf_string_conversions.h"
	#include "components/storage_monitor/storage_info.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace storage_monitor {

	namespace {

	base::FilePath GetTempRoot() {
	base::ScopedTempDir temp_dir;
	EXPECT_TRUE(temp_dir.CreateUniqueTempDir());
	base::FilePath temp_root = temp_dir.GetPath();
	while (temp_root.DirName() != temp_root)
	temp_root = temp_root.DirName();
	return temp_root;
	}

	std::vector<base::FilePath> FakeGetSingleAttachedDevice() {
	std::vector<base::FilePath> result;
	result.push_back(VolumeMountWatcherWin::DriveNumberToFilePath(2)); // C

	// Make sure we are adding the drive on which ScopedTempDir will make
	// test directories.
	base::FilePath temp_root = GetTempRoot();
	if (temp_root != VolumeMountWatcherWin::DriveNumberToFilePath(2))
	result.push_back(temp_root);

	return result;
	}

	std::vector<base::FilePath> FakeGetAttachedDevices() {
	std::vector<base::FilePath> result;
	result.push_back(VolumeMountWatcherWin::DriveNumberToFilePath(0)); // A
	result.push_back(VolumeMountWatcherWin::DriveNumberToFilePath(1)); // B
	result.push_back(VolumeMountWatcherWin::DriveNumberToFilePath(2)); // C
	result.push_back(VolumeMountWatcherWin::DriveNumberToFilePath(3)); // D
	result.push_back(VolumeMountWatcherWin::DriveNumberToFilePath(5)); // F
	result.push_back(VolumeMountWatcherWin::DriveNumberToFilePath(7)); // H
	result.push_back(VolumeMountWatcherWin::DriveNumberToFilePath(13)); // N
	result.push_back(VolumeMountWatcherWin::DriveNumberToFilePath(25)); // Z
	return result;
	}

	// Gets the details of the mass storage device specified by the \|device_path\|.
	// \|device_path\| inputs of 'A:\' - 'Z:\' are valid. 'N:\' is not removable.
	// 'C:\' is not removable (so that auto-added paths are correctly handled).
	bool GetMassStorageDeviceDetails(const base::FilePath& device_path,
	StorageInfo* info) {
	DCHECK(info);

	// Truncate to root path.
	base::FilePath path(device_path);
	if (device_path.value().length() > 3)
	path = base::FilePath(device_path.value().substr(0, 3));
	base::FilePath::CharType drive_letter = path.value()[0];
	if (drive_letter < L'A' \|\| drive_letter > L'Z')
	return false;

	StorageInfo::Type type = StorageInfo::FIXED_MASS_STORAGE;
	if (path.value() != base::ASCIIToUTF16("N:\\") &&
	path.value() != base::ASCIIToUTF16("C:\\") &&
	path.value() != GetTempRoot().value()) {
	type = StorageInfo::REMOVABLE_MASS_STORAGE_WITH_DCIM;
	}
	std::string unique_id =
	"\\\\?\\Volume{00000000-0000-0000-0000-000000000000}\\";
	unique_id[11] = static_cast<char>(drive_letter);
	std::string device_id = StorageInfo::MakeDeviceId(type, unique_id);
	base::string16 storage_label = path.Append(L" Drive").LossyDisplayName();
	*info = StorageInfo(device_id, path.value(), storage_label, base::string16(),
	base::string16(), 1000000);

	return true;
	}

	} // namespace

	// TestVolumeMountWatcherWin ---------------------------------------------------

	TestVolumeMountWatcherWin::TestVolumeMountWatcherWin()
	: attached_devices_fake_(false) {}

	TestVolumeMountWatcherWin::~TestVolumeMountWatcherWin() {
	}

	void TestVolumeMountWatcherWin::AddDeviceForTesting(
	const base::FilePath& device_path,
	const std::string& device_id,
	const base::string16& storage_label,
	uint64_t total_size_in_bytes) {
	StorageInfo info(device_id, device_path.value(), storage_label,
	base::string16(), base::string16(), total_size_in_bytes);
	HandleDeviceAttachEventOnUIThread(device_path, info);
	}

	void TestVolumeMountWatcherWin::SetAttachedDevicesFake() {
	attached_devices_fake_ = true;
	}

	void TestVolumeMountWatcherWin::DeviceCheckComplete(
	const base::FilePath& device_path) {
	devices_checked_.push_back(device_path);
	if (device_check_complete_event_)
	device_check_complete_event_->Wait();
	VolumeMountWatcherWin::DeviceCheckComplete(device_path);
	}

	void TestVolumeMountWatcherWin::BlockDeviceCheckForTesting() {
	device_check_complete_event_.reset(
	new base::WaitableEvent(base::WaitableEvent::ResetPolicy::AUTOMATIC,
	base::WaitableEvent::InitialState::NOT_SIGNALED));
	devices_checked_.clear();
	}

	void TestVolumeMountWatcherWin::ReleaseDeviceCheck() {
	device_check_complete_event_->Signal();
	}

	// static
	bool TestVolumeMountWatcherWin::GetDeviceRemovable(
	const base::FilePath& device_path,
	bool* removable) {
	StorageInfo info;
	bool success = GetMassStorageDeviceDetails(device_path, &info);
	*removable = StorageInfo::IsRemovableDevice(info.device_id());
	return success;
	}

	VolumeMountWatcherWin::GetDeviceDetailsCallbackType
	TestVolumeMountWatcherWin::GetDeviceDetailsCallback() const {
	return base::Bind(&GetMassStorageDeviceDetails);
	}

	VolumeMountWatcherWin::GetAttachedDevicesCallbackType
	TestVolumeMountWatcherWin::GetAttachedDevicesCallback() const {
	if (attached_devices_fake_)
	return base::Bind(&FakeGetAttachedDevices);
	return base::Bind(&FakeGetSingleAttachedDevice);
	}

	} // namespace storage_monitor