blob: aa899cb46471f8f5fc4202924662b15a08136bf6 [file] [log] [blame]
// Copyright (c) 2012 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.
#include "chromeos/dbus/cros_disks_client.h"
#include <stddef.h>
#include <stdint.h>
#include <map>
#include <memory>
#include <utility>
#include "base/bind.h"
#include "base/files/file_path.h"
#include "base/files/file_util.h"
#include "base/location.h"
#include "base/macros.h"
#include "base/metrics/histogram_functions.h"
#include "base/metrics/histogram_macros.h"
#include "base/observer_list.h"
#include "base/stl_util.h"
#include "base/strings/stringprintf.h"
#include "base/system/sys_info.h"
#include "base/task_runner_util.h"
#include "base/time/time.h"
#include "base/values.h"
#include "chromeos/dbus/fake_cros_disks_client.h"
#include "dbus/bus.h"
#include "dbus/message.h"
#include "dbus/object_path.h"
#include "dbus/object_proxy.h"
#include "dbus/values_util.h"
#include "third_party/cros_system_api/dbus/service_constants.h"
namespace chromeos {
namespace {
constexpr char kReadOnlyOption[] = "ro";
constexpr char kReadWriteOption[] = "rw";
constexpr char kRemountOption[] = "remount";
constexpr char kMountLabelOption[] = "mountlabel";
constexpr char kLazyUnmountOption[] = "lazy";
// Checks if retrieved media type is in boundaries of DeviceMediaType.
bool IsValidMediaType(uint32_t type) {
return type < static_cast<uint32_t>(cros_disks::DEVICE_MEDIA_NUM_VALUES);
}
// Translates enum used in cros-disks to enum used in Chrome.
// Note that we could just do static_cast, but this is less sensitive to
// changes in cros-disks.
DeviceType DeviceMediaTypeToDeviceType(uint32_t media_type_uint32) {
if (!IsValidMediaType(media_type_uint32))
return DEVICE_TYPE_UNKNOWN;
cros_disks::DeviceMediaType media_type =
cros_disks::DeviceMediaType(media_type_uint32);
switch (media_type) {
case(cros_disks::DEVICE_MEDIA_UNKNOWN):
return DEVICE_TYPE_UNKNOWN;
case(cros_disks::DEVICE_MEDIA_USB):
return DEVICE_TYPE_USB;
case(cros_disks::DEVICE_MEDIA_SD):
return DEVICE_TYPE_SD;
case(cros_disks::DEVICE_MEDIA_OPTICAL_DISC):
return DEVICE_TYPE_OPTICAL_DISC;
case(cros_disks::DEVICE_MEDIA_MOBILE):
return DEVICE_TYPE_MOBILE;
case(cros_disks::DEVICE_MEDIA_DVD):
return DEVICE_TYPE_DVD;
default:
return DEVICE_TYPE_UNKNOWN;
}
}
MountError CrosDisksMountErrorToChromeMountError(
cros_disks::MountErrorType mount_error) {
switch (mount_error) {
case cros_disks::MOUNT_ERROR_NONE:
return MOUNT_ERROR_NONE;
case cros_disks::MOUNT_ERROR_UNKNOWN:
return MOUNT_ERROR_UNKNOWN;
case cros_disks::MOUNT_ERROR_INTERNAL:
return MOUNT_ERROR_INTERNAL;
case cros_disks::MOUNT_ERROR_INVALID_ARGUMENT:
return MOUNT_ERROR_INVALID_ARGUMENT;
case cros_disks::MOUNT_ERROR_INVALID_PATH:
return MOUNT_ERROR_INVALID_PATH;
case cros_disks::MOUNT_ERROR_PATH_ALREADY_MOUNTED:
return MOUNT_ERROR_PATH_ALREADY_MOUNTED;
case cros_disks::MOUNT_ERROR_PATH_NOT_MOUNTED:
return MOUNT_ERROR_PATH_NOT_MOUNTED;
case cros_disks::MOUNT_ERROR_DIRECTORY_CREATION_FAILED:
return MOUNT_ERROR_DIRECTORY_CREATION_FAILED;
case cros_disks::MOUNT_ERROR_INVALID_MOUNT_OPTIONS:
return MOUNT_ERROR_INVALID_MOUNT_OPTIONS;
case cros_disks::MOUNT_ERROR_INVALID_UNMOUNT_OPTIONS:
return MOUNT_ERROR_INVALID_UNMOUNT_OPTIONS;
case cros_disks::MOUNT_ERROR_INSUFFICIENT_PERMISSIONS:
return MOUNT_ERROR_INSUFFICIENT_PERMISSIONS;
case cros_disks::MOUNT_ERROR_MOUNT_PROGRAM_NOT_FOUND:
return MOUNT_ERROR_MOUNT_PROGRAM_NOT_FOUND;
case cros_disks::MOUNT_ERROR_MOUNT_PROGRAM_FAILED:
return MOUNT_ERROR_MOUNT_PROGRAM_FAILED;
case cros_disks::MOUNT_ERROR_INVALID_DEVICE_PATH:
return MOUNT_ERROR_INVALID_DEVICE_PATH;
case cros_disks::MOUNT_ERROR_UNKNOWN_FILESYSTEM:
return MOUNT_ERROR_UNKNOWN_FILESYSTEM;
case cros_disks::MOUNT_ERROR_UNSUPPORTED_FILESYSTEM:
return MOUNT_ERROR_UNSUPPORTED_FILESYSTEM;
case cros_disks::MOUNT_ERROR_INVALID_ARCHIVE:
return MOUNT_ERROR_INVALID_ARCHIVE;
case cros_disks::MOUNT_ERROR_UNSUPPORTED_ARCHIVE:
// TODO(amistry): Add MOUNT_ERROR_UNSUPPORTED_ARCHIVE.
return MOUNT_ERROR_UNKNOWN;
default:
NOTREACHED() << "Unrecognised mount error code " << mount_error;
return MOUNT_ERROR_UNKNOWN;
}
}
bool ReadMountEntryFromDbus(dbus::MessageReader* reader, MountEntry* entry) {
uint32_t error_code = 0;
std::string source_path;
uint32_t mount_type = 0;
std::string mount_path;
if (!reader->PopUint32(&error_code) ||
!reader->PopString(&source_path) ||
!reader->PopUint32(&mount_type) ||
!reader->PopString(&mount_path)) {
return false;
}
*entry =
MountEntry(CrosDisksMountErrorToChromeMountError(
static_cast<cros_disks::MountErrorType>(error_code)),
source_path, static_cast<MountType>(mount_type), mount_path);
return true;
}
// The CrosDisksClient implementation.
class CrosDisksClientImpl : public CrosDisksClient {
public:
CrosDisksClientImpl() : proxy_(nullptr), weak_ptr_factory_(this) {}
// CrosDisksClient override.
void AddObserver(Observer* observer) override {
observer_list_.AddObserver(observer);
}
// CrosDisksClient override.
void RemoveObserver(Observer* observer) override {
observer_list_.RemoveObserver(observer);
}
// CrosDisksClient override.
void Mount(const std::string& source_path,
const std::string& source_format,
const std::string& mount_label,
const std::vector<std::string>& mount_options,
MountAccessMode access_mode,
RemountOption remount,
VoidDBusMethodCallback callback) override {
dbus::MethodCall method_call(cros_disks::kCrosDisksInterface,
cros_disks::kMount);
dbus::MessageWriter writer(&method_call);
writer.AppendString(source_path);
writer.AppendString(source_format);
std::vector<std::string> options =
ComposeMountOptions(mount_options, mount_label, access_mode, remount);
writer.AppendArrayOfStrings(options);
proxy_->CallMethod(&method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT,
base::BindOnce(&CrosDisksClientImpl::OnMount,
weak_ptr_factory_.GetWeakPtr(),
std::move(callback), base::Time::Now()));
}
// CrosDisksClient override.
void Unmount(const std::string& device_path,
UnmountOptions options,
UnmountCallback callback) override {
dbus::MethodCall method_call(cros_disks::kCrosDisksInterface,
cros_disks::kUnmount);
dbus::MessageWriter writer(&method_call);
writer.AppendString(device_path);
std::vector<std::string> unmount_options;
if (options == UNMOUNT_OPTIONS_LAZY)
unmount_options.push_back(kLazyUnmountOption);
writer.AppendArrayOfStrings(unmount_options);
proxy_->CallMethod(&method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT,
base::BindOnce(&CrosDisksClientImpl::OnUnmount,
weak_ptr_factory_.GetWeakPtr(),
std::move(callback), base::Time::Now()));
}
void EnumerateDevices(EnumerateDevicesCallback callback,
base::OnceClosure error_callback) override {
dbus::MethodCall method_call(cros_disks::kCrosDisksInterface,
cros_disks::kEnumerateDevices);
proxy_->CallMethod(
&method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT,
base::BindOnce(&CrosDisksClientImpl::OnEnumerateDevices,
weak_ptr_factory_.GetWeakPtr(), std::move(callback),
std::move(error_callback)));
}
// CrosDisksClient override.
void EnumerateMountEntries(EnumerateMountEntriesCallback callback,
base::OnceClosure error_callback) override {
dbus::MethodCall method_call(cros_disks::kCrosDisksInterface,
cros_disks::kEnumerateMountEntries);
proxy_->CallMethod(
&method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT,
base::BindOnce(&CrosDisksClientImpl::OnEnumerateMountEntries,
weak_ptr_factory_.GetWeakPtr(), std::move(callback),
std::move(error_callback)));
}
// CrosDisksClient override.
void Format(const std::string& device_path,
const std::string& filesystem,
VoidDBusMethodCallback callback) override {
dbus::MethodCall method_call(cros_disks::kCrosDisksInterface,
cros_disks::kFormat);
dbus::MessageWriter writer(&method_call);
writer.AppendString(device_path);
writer.AppendString(filesystem);
// No format option is currently specified, but we can later use this
// argument to specify options for the format operation.
std::vector<std::string> format_options;
writer.AppendArrayOfStrings(format_options);
proxy_->CallMethod(
&method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT,
base::BindOnce(&CrosDisksClientImpl::OnVoidMethod,
weak_ptr_factory_.GetWeakPtr(), std::move(callback)));
}
void Rename(const std::string& device_path,
const std::string& volume_name,
VoidDBusMethodCallback callback) override {
dbus::MethodCall method_call(cros_disks::kCrosDisksInterface,
cros_disks::kRename);
dbus::MessageWriter writer(&method_call);
writer.AppendString(device_path);
writer.AppendString(volume_name);
proxy_->CallMethod(
&method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT,
base::BindOnce(&CrosDisksClientImpl::OnVoidMethod,
weak_ptr_factory_.GetWeakPtr(), std::move(callback)));
}
// CrosDisksClient override.
void GetDeviceProperties(const std::string& device_path,
GetDevicePropertiesCallback callback,
base::OnceClosure error_callback) override {
dbus::MethodCall method_call(cros_disks::kCrosDisksInterface,
cros_disks::kGetDeviceProperties);
dbus::MessageWriter writer(&method_call);
writer.AppendString(device_path);
proxy_->CallMethod(
&method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT,
base::BindOnce(&CrosDisksClientImpl::OnGetDeviceProperties,
weak_ptr_factory_.GetWeakPtr(), device_path,
std::move(callback), std::move(error_callback)));
}
protected:
void Init(dbus::Bus* bus) override {
proxy_ = bus->GetObjectProxy(
cros_disks::kCrosDisksServiceName,
dbus::ObjectPath(cros_disks::kCrosDisksServicePath));
// Register handlers for D-Bus signals.
constexpr SignalEventTuple kSignalEventTuples[] = {
{cros_disks::kDeviceAdded, CROS_DISKS_DEVICE_ADDED},
{cros_disks::kDeviceScanned, CROS_DISKS_DEVICE_SCANNED},
{cros_disks::kDeviceRemoved, CROS_DISKS_DEVICE_REMOVED},
{cros_disks::kDiskAdded, CROS_DISKS_DISK_ADDED},
{cros_disks::kDiskChanged, CROS_DISKS_DISK_CHANGED},
{cros_disks::kDiskRemoved, CROS_DISKS_DISK_REMOVED},
};
for (const auto& entry : kSignalEventTuples) {
proxy_->ConnectToSignal(
cros_disks::kCrosDisksInterface, entry.signal_name,
base::BindRepeating(&CrosDisksClientImpl::OnMountEvent,
weak_ptr_factory_.GetWeakPtr(), entry.event_type),
base::BindOnce(&CrosDisksClientImpl::OnSignalConnected,
weak_ptr_factory_.GetWeakPtr()));
}
proxy_->ConnectToSignal(
cros_disks::kCrosDisksInterface, cros_disks::kMountCompleted,
base::BindRepeating(&CrosDisksClientImpl::OnMountCompleted,
weak_ptr_factory_.GetWeakPtr()),
base::BindOnce(&CrosDisksClientImpl::OnSignalConnected,
weak_ptr_factory_.GetWeakPtr()));
proxy_->ConnectToSignal(
cros_disks::kCrosDisksInterface, cros_disks::kFormatCompleted,
base::BindRepeating(&CrosDisksClientImpl::OnFormatCompleted,
weak_ptr_factory_.GetWeakPtr()),
base::BindOnce(&CrosDisksClientImpl::OnSignalConnected,
weak_ptr_factory_.GetWeakPtr()));
proxy_->ConnectToSignal(
cros_disks::kCrosDisksInterface, cros_disks::kRenameCompleted,
base::BindRepeating(&CrosDisksClientImpl::OnRenameCompleted,
weak_ptr_factory_.GetWeakPtr()),
base::BindOnce(&CrosDisksClientImpl::OnSignalConnected,
weak_ptr_factory_.GetWeakPtr()));
}
private:
// A struct to contain a pair of signal name and mount event type.
// Used by SetMountEventHandler.
struct SignalEventTuple {
const char *signal_name;
MountEventType event_type;
};
// Handles the result of D-Bus method call with no return value.
void OnVoidMethod(VoidDBusMethodCallback callback, dbus::Response* response) {
std::move(callback).Run(response);
}
// Handles the result of Mount and calls |callback|.
void OnMount(VoidDBusMethodCallback callback,
base::Time start_time,
dbus::Response* response) {
UMA_HISTOGRAM_MEDIUM_TIMES("CrosDisksClient.MountTime",
base::Time::Now() - start_time);
std::move(callback).Run(response);
}
// Handles the result of Unmount and calls |callback| or |error_callback|.
void OnUnmount(UnmountCallback callback,
base::Time start_time,
dbus::Response* response) {
UMA_HISTOGRAM_MEDIUM_TIMES("CrosDisksClient.UnmountTime",
base::Time::Now() - start_time);
const char kUnmountHistogramName[] = "CrosDisksClient.UnmountError";
if (!response) {
UMA_HISTOGRAM_ENUMERATION(kUnmountHistogramName, MOUNT_ERROR_UNKNOWN,
MOUNT_ERROR_COUNT);
std::move(callback).Run(MOUNT_ERROR_UNKNOWN);
return;
}
dbus::MessageReader reader(response);
uint32_t error_code = 0;
MountError mount_error = MOUNT_ERROR_NONE;
if (reader.PopUint32(&error_code)) {
mount_error = CrosDisksMountErrorToChromeMountError(
static_cast<cros_disks::MountErrorType>(error_code));
} else {
LOG(ERROR) << "Invalid response: " << response->ToString();
mount_error = MOUNT_ERROR_UNKNOWN;
}
UMA_HISTOGRAM_ENUMERATION(kUnmountHistogramName, mount_error,
MOUNT_ERROR_COUNT);
std::move(callback).Run(mount_error);
}
// Handles the result of EnumerateDevices and EnumarateAutoMountableDevices.
// Calls |callback| or |error_callback|.
void OnEnumerateDevices(EnumerateDevicesCallback callback,
base::OnceClosure error_callback,
dbus::Response* response) {
if (!response) {
std::move(error_callback).Run();
return;
}
dbus::MessageReader reader(response);
std::vector<std::string> device_paths;
if (!reader.PopArrayOfStrings(&device_paths)) {
LOG(ERROR) << "Invalid response: " << response->ToString();
std::move(error_callback).Run();
return;
}
std::move(callback).Run(device_paths);
}
// Handles the result of EnumerateMountEntries and calls |callback| or
// |error_callback|.
void OnEnumerateMountEntries(EnumerateMountEntriesCallback callback,
base::OnceClosure error_callback,
dbus::Response* response) {
if (!response) {
std::move(error_callback).Run();
return;
}
dbus::MessageReader reader(response);
dbus::MessageReader array_reader(NULL);
if (!reader.PopArray(&array_reader)) {
LOG(ERROR) << "Invalid response: " << response->ToString();
std::move(error_callback).Run();
return;
}
std::vector<MountEntry> entries;
while (array_reader.HasMoreData()) {
MountEntry entry;
dbus::MessageReader sub_reader(NULL);
if (!array_reader.PopStruct(&sub_reader) ||
!ReadMountEntryFromDbus(&sub_reader, &entry)) {
LOG(ERROR) << "Invalid response: " << response->ToString();
std::move(error_callback).Run();
return;
}
entries.push_back(entry);
}
std::move(callback).Run(entries);
}
// Handles the result of GetDeviceProperties and calls |callback| or
// |error_callback|.
void OnGetDeviceProperties(const std::string& device_path,
GetDevicePropertiesCallback callback,
base::OnceClosure error_callback,
dbus::Response* response) {
if (!response) {
std::move(error_callback).Run();
return;
}
DiskInfo disk(device_path, response);
std::move(callback).Run(disk);
}
// Handles mount event signals and notifies observers.
void OnMountEvent(MountEventType event_type, dbus::Signal* signal) {
dbus::MessageReader reader(signal);
std::string device;
if (!reader.PopString(&device)) {
LOG(ERROR) << "Invalid signal: " << signal->ToString();
return;
}
for (auto& observer : observer_list_)
observer.OnMountEvent(event_type, device);
}
// Handles MountCompleted signal and notifies observers.
void OnMountCompleted(dbus::Signal* signal) {
dbus::MessageReader reader(signal);
MountEntry entry;
if (!ReadMountEntryFromDbus(&reader, &entry)) {
LOG(ERROR) << "Invalid signal: " << signal->ToString();
return;
}
UMA_HISTOGRAM_ENUMERATION("CrosDisksClient.MountCompletedError",
entry.error_code(), MOUNT_ERROR_COUNT);
// Flatten MountType and MountError into a single dimension.
constexpr int kMaxMountErrors = 100;
static_assert(MOUNT_ERROR_COUNT <= kMaxMountErrors,
"CrosDisksClient.MountErrorMountType histogram must be "
"updated.");
const int type_and_error =
(entry.mount_type() * kMaxMountErrors) + entry.error_code();
base::UmaHistogramSparse("CrosDisksClient.MountErrorMountType",
type_and_error);
for (auto& observer : observer_list_)
observer.OnMountCompleted(entry);
}
// Handles FormatCompleted signal and notifies observers.
void OnFormatCompleted(dbus::Signal* signal) {
dbus::MessageReader reader(signal);
uint32_t error_code = 0;
std::string device_path;
if (!reader.PopUint32(&error_code) || !reader.PopString(&device_path)) {
LOG(ERROR) << "Invalid signal: " << signal->ToString();
return;
}
for (auto& observer : observer_list_) {
observer.OnFormatCompleted(static_cast<FormatError>(error_code),
device_path);
}
}
// Handles RenameCompleted signal and notifies observers.
void OnRenameCompleted(dbus::Signal* signal) {
dbus::MessageReader reader(signal);
uint32_t error_code = 0;
std::string device_path;
if (!reader.PopUint32(&error_code) || !reader.PopString(&device_path)) {
LOG(ERROR) << "Invalid signal: " << signal->ToString();
return;
}
for (auto& observer : observer_list_) {
observer.OnRenameCompleted(static_cast<RenameError>(error_code),
device_path);
}
}
// Handles the result of signal connection setup.
void OnSignalConnected(const std::string& interface,
const std::string& signal,
bool succeeded) {
LOG_IF(ERROR, !succeeded) << "Connect to " << interface << " " <<
signal << " failed.";
}
dbus::ObjectProxy* proxy_;
base::ObserverList<Observer>::Unchecked observer_list_;
// Note: This should remain the last member so it'll be destroyed and
// invalidate its weak pointers before any other members are destroyed.
base::WeakPtrFactory<CrosDisksClientImpl> weak_ptr_factory_;
DISALLOW_COPY_AND_ASSIGN(CrosDisksClientImpl);
};
} // namespace
////////////////////////////////////////////////////////////////////////////////
// DiskInfo
DiskInfo::DiskInfo(const std::string& device_path, dbus::Response* response)
: device_path_(device_path),
is_drive_(false),
has_media_(false),
on_boot_device_(false),
on_removable_device_(false),
is_read_only_(false),
is_hidden_(true),
is_virtual_(false),
is_auto_mountable_(false),
device_type_(DEVICE_TYPE_UNKNOWN),
total_size_in_bytes_(0) {
InitializeFromResponse(response);
}
DiskInfo::~DiskInfo() = default;
// Initializes |this| from |response| given by the cros-disks service.
// Below is an example of |response|'s raw message (long string is ellipsized).
//
//
// message_type: MESSAGE_METHOD_RETURN
// destination: :1.8
// sender: :1.16
// signature: a{sv}
// serial: 96
// reply_serial: 267
//
// array [
// dict entry {
// string "DeviceFile"
// variant string "/dev/sdb"
// }
// dict entry {
// string "DeviceIsDrive"
// variant bool true
// }
// dict entry {
// string "DeviceIsMediaAvailable"
// variant bool true
// }
// dict entry {
// string "DeviceIsMounted"
// variant bool false
// }
// dict entry {
// string "DeviceIsOnBootDevice"
// variant bool false
// }
// dict entry {
// string "DeviceIsOnRemovableDevice"
// variant bool true
// }
// dict entry {
// string "DeviceIsReadOnly"
// variant bool false
// }
// dict entry {
// string "DeviceIsVirtual"
// variant bool false
// }
// dict entry {
// string "DeviceMediaType"
// variant uint32_t 1
// }
// dict entry {
// string "DeviceMountPaths"
// variant array [
// ]
// }
// dict entry {
// string "DevicePresentationHide"
// variant bool true
// }
// dict entry {
// string "DeviceSize"
// variant uint64_t 7998537728
// }
// dict entry {
// string "DriveIsRotational"
// variant bool false
// }
// dict entry {
// string "VendorId"
// variant string "18d1"
// }
// dict entry {
// string "VendorName"
// variant string "Google Inc."
// }
// dict entry {
// string "ProductId"
// variant string "4e11"
// }
// dict entry {
// string "ProductName"
// variant string "Nexus One"
// }
// dict entry {
// string "DriveModel"
// variant string "TransMemory"
// }
// dict entry {
// string "IdLabel"
// variant string ""
// }
// dict entry {
// string "IdUuid"
// variant string ""
// }
// dict entry {
// string "NativePath"
// variant string "/sys/devices/pci0000:00/0000:00:1d.7/usb1/1-4/...
// }
// dict entry {
// string "FileSystemType"
// variant string "vfat"
// }
// ]
void DiskInfo::InitializeFromResponse(dbus::Response* response) {
dbus::MessageReader reader(response);
std::unique_ptr<base::Value> value(dbus::PopDataAsValue(&reader));
base::DictionaryValue* properties = NULL;
if (!value || !value->GetAsDictionary(&properties))
return;
properties->GetBooleanWithoutPathExpansion(
cros_disks::kDeviceIsDrive, &is_drive_);
properties->GetBooleanWithoutPathExpansion(
cros_disks::kDeviceIsReadOnly, &is_read_only_);
properties->GetBooleanWithoutPathExpansion(
cros_disks::kDevicePresentationHide, &is_hidden_);
properties->GetBooleanWithoutPathExpansion(
cros_disks::kDeviceIsMediaAvailable, &has_media_);
properties->GetBooleanWithoutPathExpansion(
cros_disks::kDeviceIsOnBootDevice, &on_boot_device_);
properties->GetBooleanWithoutPathExpansion(
cros_disks::kDeviceIsOnRemovableDevice, &on_removable_device_);
properties->GetBooleanWithoutPathExpansion(cros_disks::kDeviceIsVirtual,
&is_virtual_);
properties->GetBooleanWithoutPathExpansion(cros_disks::kIsAutoMountable,
&is_auto_mountable_);
properties->GetStringWithoutPathExpansion(
cros_disks::kNativePath, &system_path_);
properties->GetStringWithoutPathExpansion(
cros_disks::kDeviceFile, &file_path_);
properties->GetStringWithoutPathExpansion(cros_disks::kVendorId, &vendor_id_);
properties->GetStringWithoutPathExpansion(
cros_disks::kVendorName, &vendor_name_);
properties->GetStringWithoutPathExpansion(
cros_disks::kProductId, &product_id_);
properties->GetStringWithoutPathExpansion(
cros_disks::kProductName, &product_name_);
properties->GetStringWithoutPathExpansion(
cros_disks::kDriveModel, &drive_model_);
properties->GetStringWithoutPathExpansion(cros_disks::kIdLabel, &label_);
properties->GetStringWithoutPathExpansion(cros_disks::kIdUuid, &uuid_);
properties->GetStringWithoutPathExpansion(cros_disks::kFileSystemType,
&file_system_type_);
// dbus::PopDataAsValue() pops uint64_t as double.
// The top 11 bits of uint64_t are dropped by the use of double. But, this
// works
// unless the size exceeds 8 PB.
double device_size_double = 0;
if (properties->GetDoubleWithoutPathExpansion(cros_disks::kDeviceSize,
&device_size_double))
total_size_in_bytes_ = device_size_double;
// dbus::PopDataAsValue() pops uint32_t as double.
double media_type_double = 0;
if (properties->GetDoubleWithoutPathExpansion(cros_disks::kDeviceMediaType,
&media_type_double))
device_type_ = DeviceMediaTypeToDeviceType(media_type_double);
base::ListValue* mount_paths = NULL;
if (properties->GetListWithoutPathExpansion(cros_disks::kDeviceMountPaths,
&mount_paths))
mount_paths->GetString(0, &mount_path_);
}
////////////////////////////////////////////////////////////////////////////////
// CrosDisksClient
CrosDisksClient::CrosDisksClient() = default;
CrosDisksClient::~CrosDisksClient() = default;
// static
CrosDisksClient* CrosDisksClient::Create(DBusClientImplementationType type) {
if (type == REAL_DBUS_CLIENT_IMPLEMENTATION)
return new CrosDisksClientImpl();
DCHECK_EQ(FAKE_DBUS_CLIENT_IMPLEMENTATION, type);
return new FakeCrosDisksClient();
}
// static
base::FilePath CrosDisksClient::GetArchiveMountPoint() {
return base::FilePath(base::SysInfo::IsRunningOnChromeOS() ?
FILE_PATH_LITERAL("/media/archive") :
FILE_PATH_LITERAL("/tmp/chromeos/media/archive"));
}
// static
base::FilePath CrosDisksClient::GetRemovableDiskMountPoint() {
return base::FilePath(base::SysInfo::IsRunningOnChromeOS() ?
FILE_PATH_LITERAL("/media/removable") :
FILE_PATH_LITERAL("/tmp/chromeos/media/removable"));
}
// static
std::vector<std::string> CrosDisksClient::ComposeMountOptions(
const std::vector<std::string>& options,
const std::string& mount_label,
MountAccessMode access_mode,
RemountOption remount) {
std::vector<std::string> mount_options = options;
switch (access_mode) {
case MOUNT_ACCESS_MODE_READ_ONLY:
mount_options.push_back(kReadOnlyOption);
break;
case MOUNT_ACCESS_MODE_READ_WRITE:
mount_options.push_back(kReadWriteOption);
break;
}
if (remount == REMOUNT_OPTION_REMOUNT_EXISTING_DEVICE) {
mount_options.push_back(kRemountOption);
}
if (!mount_label.empty()) {
std::string mount_label_option =
base::StringPrintf("%s=%s", kMountLabelOption, mount_label.c_str());
mount_options.push_back(mount_label_option);
}
return mount_options;
}
} // namespace chromeos