electron/shell/browser/usb/usb_chooser_context.cc
Charles Kerr 23bcca3ffc
refactor: put empty virtual function definitions in header (#43285)
* refactor: in FramelessView, move empty function decls to header

* refactor: in electron::api::WebContents, move empty function decls to header

* refactor: in electron::api::NativeWindow, move empty function decls to header

* refactor: in electron::OffScreenWebContentsView, move empty function decls to header

* refactor: in electron::OffScreenRenderWidgetHostView, move empty function decls to header

* refactor: in auto_updater::AutoUpdater, move empty function decls to header

* refactor: in electorn::api::FrameSubscriber, move empty function decls to header

* refactor: in electorn::api::SimpleURLLoaderWrapper, move empty function decls to header

* refactor: in electorn::InspectableWebContents, move empty function decls to header

* refactor: in electorn::OffScreenVideoConsumer, move empty function decls to header

* refactor: in electron::OffScreenWebContentsView, move empty function decls to header

* refactor: in electron::TrayIcon, move empty function decls to header

* refactor: in electron::ViewsDelegate, move empty function decls to header

* refactor: in electron::MediaCaptureDevicesDispatcher, move empty function decls to header

* refactor: in electron::UsbChooserContext::DeviceObserver, move empty function decls to header

* refactor: in electron::ProxyingWebSocket, move empty function decls to header

* refactor: in electron::Notification, move empty function decls to header

* refactor: in electron::PlatformNotificationService, move empty function decls to header

* Revert "refactor: in electron::PlatformNotificationService, move empty function decls to header"

This reverts commit 9103750d03b9ba1ceccba43d11dfdc2404ff6191.

* refactor: in electron::ElectronPDFDocumentHelperClient, move empty function decls to header

* refactor: in electron::api::SpellCheckClient, move empty function decls to header

* refactor: in electron::ElectronExtensionHostDelegate, move empty function decls to header

* refactor: in electron::PlatformNotificationService, move empty function decls to header

* refactor: in electron::NativeWindowViews, move empty function decls to header

* chore: move SetTouchBar() back to cc

* Revert "refactor: in auto_updater::AutoUpdater, move empty function decls to header"

This reverts commit c43d6862d32c74f63f82700a7546a732ac05ecb8.
2024-08-12 09:56:51 +02:00

339 lines
12 KiB
C++

// Copyright (c) 2022 Microsoft, Inc.
// Use of this source code is governed by the MIT license that can be
// found in the LICENSE file.
#include "shell/browser/usb/usb_chooser_context.h"
#include <utility>
#include <vector>
#include <string_view>
#include "base/containers/contains.h"
#include "base/functional/bind.h"
#include "base/task/sequenced_task_runner.h"
#include "base/values.h"
#include "components/content_settings/core/common/content_settings.h"
#include "content/public/browser/device_service.h"
#include "services/device/public/cpp/usb/usb_ids.h"
#include "services/device/public/mojom/usb_device.mojom.h"
#include "shell/browser/api/electron_api_session.h"
#include "shell/browser/electron_browser_context.h"
#include "shell/browser/electron_permission_manager.h"
#include "shell/browser/web_contents_permission_helper.h"
#include "shell/common/electron_constants.h"
#include "shell/common/gin_converters/usb_device_info_converter.h"
#include "shell/common/gin_helper/dictionary.h"
#include "shell/common/node_includes.h"
#include "ui/base/l10n/l10n_util.h"
namespace {
constexpr char kDeviceNameKey[] = "productName";
constexpr char kDeviceIdKey[] = "deviceId";
constexpr int kUsbClassMassStorage = 0x08;
bool CanStorePersistentEntry(const device::mojom::UsbDeviceInfo& device_info) {
return device_info.serial_number && !device_info.serial_number->empty();
}
bool IsMassStorageInterface(const device::mojom::UsbInterfaceInfo& interface) {
for (auto& alternate : interface.alternates) {
if (alternate->class_code == kUsbClassMassStorage)
return true;
}
return false;
}
bool ShouldExposeDevice(const device::mojom::UsbDeviceInfo& device_info) {
// blink::USBDevice::claimInterface() disallows claiming mass storage
// interfaces, but explicitly prevent access in the browser process as
// ChromeOS would allow these interfaces to be claimed.
for (auto& configuration : device_info.configurations) {
if (configuration->interfaces.size() == 0) {
return true;
}
for (auto& interface : configuration->interfaces) {
if (!IsMassStorageInterface(*interface))
return true;
}
}
return false;
}
} // namespace
namespace electron {
UsbChooserContext::UsbChooserContext(ElectronBrowserContext* context)
: browser_context_(context) {}
// static
base::Value UsbChooserContext::DeviceInfoToValue(
const device::mojom::UsbDeviceInfo& device_info) {
base::Value::Dict device_value;
device_value.Set(kDeviceNameKey, device_info.product_name
? *device_info.product_name
: std::u16string_view());
device_value.Set(kDeviceVendorIdKey, device_info.vendor_id);
device_value.Set(kDeviceProductIdKey, device_info.product_id);
if (device_info.manufacturer_name) {
device_value.Set("manufacturerName", *device_info.manufacturer_name);
}
// CanStorePersistentEntry checks if |device_info.serial_number| is not empty.
if (CanStorePersistentEntry(device_info)) {
device_value.Set(kDeviceSerialNumberKey, *device_info.serial_number);
}
device_value.Set(kDeviceIdKey, device_info.guid);
device_value.Set("usbVersionMajor", device_info.usb_version_major);
device_value.Set("usbVersionMinor", device_info.usb_version_minor);
device_value.Set("usbVersionSubminor", device_info.usb_version_subminor);
device_value.Set("deviceClass", device_info.class_code);
device_value.Set("deviceSubclass", device_info.subclass_code);
device_value.Set("deviceProtocol", device_info.protocol_code);
device_value.Set("deviceVersionMajor", device_info.device_version_major);
device_value.Set("deviceVersionMinor", device_info.device_version_minor);
device_value.Set("deviceVersionSubminor",
device_info.device_version_subminor);
return base::Value(std::move(device_value));
}
void UsbChooserContext::InitDeviceList(
std::vector<device::mojom::UsbDeviceInfoPtr> devices) {
for (auto& device_info : devices) {
DCHECK(device_info);
if (ShouldExposeDevice(*device_info)) {
devices_.insert(
std::make_pair(device_info->guid, std::move(device_info)));
}
}
is_initialized_ = true;
while (!pending_get_devices_requests_.empty()) {
std::vector<device::mojom::UsbDeviceInfoPtr> device_list;
for (const auto& entry : devices_) {
device_list.push_back(entry.second->Clone());
}
std::move(pending_get_devices_requests_.front())
.Run(std::move(device_list));
pending_get_devices_requests_.pop();
}
}
void UsbChooserContext::EnsureConnectionWithDeviceManager() {
if (device_manager_)
return;
// Receive mojo::Remote<UsbDeviceManager> from DeviceService.
content::GetDeviceService().BindUsbDeviceManager(
device_manager_.BindNewPipeAndPassReceiver());
SetUpDeviceManagerConnection();
}
void UsbChooserContext::SetUpDeviceManagerConnection() {
DCHECK(device_manager_);
device_manager_.set_disconnect_handler(
base::BindOnce(&UsbChooserContext::OnDeviceManagerConnectionError,
base::Unretained(this)));
// Listen for added/removed device events.
DCHECK(!client_receiver_.is_bound());
device_manager_->EnumerateDevicesAndSetClient(
client_receiver_.BindNewEndpointAndPassRemote(),
base::BindOnce(&UsbChooserContext::InitDeviceList,
weak_factory_.GetWeakPtr()));
}
UsbChooserContext::~UsbChooserContext() {
OnDeviceManagerConnectionError();
for (auto& observer : device_observer_list_) {
observer.OnBrowserContextShutdown();
DCHECK(!device_observer_list_.HasObserver(&observer));
}
}
void UsbChooserContext::RevokeDevicePermissionWebInitiated(
const url::Origin& origin,
const device::mojom::UsbDeviceInfo& device) {
DCHECK(base::Contains(devices_, device.guid));
RevokeObjectPermissionInternal(origin, DeviceInfoToValue(device),
/*revoked_by_website=*/true);
}
void UsbChooserContext::RevokeObjectPermissionInternal(
const url::Origin& origin,
const base::Value& object,
bool revoked_by_website = false) {
const base::Value::Dict* object_dict = object.GetIfDict();
DCHECK(object_dict != nullptr);
if (object_dict->FindString(kDeviceSerialNumberKey) != nullptr) {
auto* permission_manager = static_cast<ElectronPermissionManager*>(
browser_context_->GetPermissionControllerDelegate());
permission_manager->RevokeDevicePermission(
static_cast<blink::PermissionType>(
WebContentsPermissionHelper::PermissionType::USB),
origin, object, browser_context_);
} else {
const std::string* guid = object_dict->FindString(kDeviceIdKey);
auto it = ephemeral_devices_.find(origin);
if (it != ephemeral_devices_.end()) {
it->second.erase(*guid);
if (it->second.empty())
ephemeral_devices_.erase(it);
}
}
api::Session* session = api::Session::FromBrowserContext(browser_context_);
if (session) {
v8::Isolate* isolate = JavascriptEnvironment::GetIsolate();
v8::HandleScope scope(isolate);
auto details = gin_helper::Dictionary::CreateEmpty(isolate);
details.Set("device", object);
details.Set("origin", origin.Serialize());
session->Emit("usb-device-revoked", details);
}
}
void UsbChooserContext::GrantDevicePermission(
const url::Origin& origin,
const device::mojom::UsbDeviceInfo& device_info) {
if (CanStorePersistentEntry(device_info)) {
auto* permission_manager = static_cast<ElectronPermissionManager*>(
browser_context_->GetPermissionControllerDelegate());
permission_manager->GrantDevicePermission(
static_cast<blink::PermissionType>(
WebContentsPermissionHelper::PermissionType::USB),
origin, DeviceInfoToValue(device_info), browser_context_);
} else {
ephemeral_devices_[origin].insert(device_info.guid);
}
}
bool UsbChooserContext::HasDevicePermission(
const url::Origin& origin,
const device::mojom::UsbDeviceInfo& device_info) {
auto it = ephemeral_devices_.find(origin);
if (it != ephemeral_devices_.end() &&
base::Contains(it->second, device_info.guid)) {
return true;
}
auto* permission_manager = static_cast<ElectronPermissionManager*>(
browser_context_->GetPermissionControllerDelegate());
return permission_manager->CheckDevicePermission(
static_cast<blink::PermissionType>(
WebContentsPermissionHelper::PermissionType::USB),
origin, DeviceInfoToValue(device_info), browser_context_);
}
void UsbChooserContext::GetDevices(
device::mojom::UsbDeviceManager::GetDevicesCallback callback) {
if (!is_initialized_) {
EnsureConnectionWithDeviceManager();
pending_get_devices_requests_.push(std::move(callback));
return;
}
std::vector<device::mojom::UsbDeviceInfoPtr> device_list;
for (const auto& pair : devices_) {
device_list.push_back(pair.second->Clone());
}
base::SequencedTaskRunner::GetCurrentDefault()->PostTask(
FROM_HERE, base::BindOnce(std::move(callback), std::move(device_list)));
}
void UsbChooserContext::GetDevice(
const std::string& guid,
base::span<const uint8_t> blocked_interface_classes,
mojo::PendingReceiver<device::mojom::UsbDevice> device_receiver,
mojo::PendingRemote<device::mojom::UsbDeviceClient> device_client) {
EnsureConnectionWithDeviceManager();
device_manager_->GetDevice(
guid,
std::vector<uint8_t>(blocked_interface_classes.begin(),
blocked_interface_classes.end()),
std::move(device_receiver), std::move(device_client));
}
const device::mojom::UsbDeviceInfo* UsbChooserContext::GetDeviceInfo(
const std::string& guid) {
DCHECK(is_initialized_);
auto it = devices_.find(guid);
return it == devices_.end() ? nullptr : it->second.get();
}
void UsbChooserContext::AddObserver(DeviceObserver* observer) {
EnsureConnectionWithDeviceManager();
device_observer_list_.AddObserver(observer);
}
void UsbChooserContext::RemoveObserver(DeviceObserver* observer) {
device_observer_list_.RemoveObserver(observer);
}
base::WeakPtr<UsbChooserContext> UsbChooserContext::AsWeakPtr() {
return weak_factory_.GetWeakPtr();
}
void UsbChooserContext::OnDeviceAdded(
device::mojom::UsbDeviceInfoPtr device_info) {
DCHECK(device_info);
// Update the device list.
DCHECK(!base::Contains(devices_, device_info->guid));
if (!ShouldExposeDevice(*device_info))
return;
devices_.insert(std::make_pair(device_info->guid, device_info->Clone()));
// Notify all observers.
for (auto& observer : device_observer_list_)
observer.OnDeviceAdded(*device_info);
}
void UsbChooserContext::OnDeviceRemoved(
device::mojom::UsbDeviceInfoPtr device_info) {
DCHECK(device_info);
if (!ShouldExposeDevice(*device_info)) {
DCHECK(!base::Contains(devices_, device_info->guid));
return;
}
// Update the device list.
DCHECK(base::Contains(devices_, device_info->guid));
devices_.erase(device_info->guid);
// Notify all device observers.
for (auto& observer : device_observer_list_)
observer.OnDeviceRemoved(*device_info);
// If the device was persistent, return. Otherwise, notify all permission
// observers that its permissions were revoked.
if (device_info->serial_number &&
!device_info->serial_number.value().empty()) {
return;
}
for (auto& map_entry : ephemeral_devices_) {
map_entry.second.erase(device_info->guid);
}
}
void UsbChooserContext::OnDeviceManagerConnectionError() {
device_manager_.reset();
client_receiver_.reset();
devices_.clear();
is_initialized_ = false;
ephemeral_devices_.clear();
// Notify all device observers.
for (auto& observer : device_observer_list_)
observer.OnDeviceManagerConnectionError();
}
} // namespace electron