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|
// Copyright 2019 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifdef UNSAFE_BUFFERS_BUILD
// TODO(crbug.com/40285824): Remove this and convert code to safer constructs.
#pragma allow_unsafe_buffers
#endif
#include "chrome/browser/serial/serial_chooser_context.h"
#include <string_view>
#include <utility>
#include "base/base64.h"
#include "base/containers/contains.h"
#include "base/metrics/histogram_macros.h"
#include "base/observer_list.h"
#include "base/strings/string_number_conversions.h"
#include "base/strings/string_util.h"
#include "base/strings/stringprintf.h"
#include "base/strings/utf_string_conversions.h"
#include "base/values.h"
#include "build/build_config.h"
#include "chrome/browser/browser_process.h"
#include "chrome/browser/content_settings/host_content_settings_map_factory.h"
#include "chrome/browser/profiles/profile.h"
#include "chrome/browser/serial/serial_blocklist.h"
#include "chrome/browser/serial/serial_chooser_histograms.h"
#include "chrome/browser/serial/serial_policy_allowed_ports.h"
#include "chrome/grit/generated_resources.h"
#include "components/content_settings/core/common/content_settings.h"
#include "content/public/browser/device_service.h"
#include "mojo/public/cpp/bindings/pending_remote.h"
#include "ui/base/l10n/l10n_util.h"
#if !BUILDFLAG(IS_ANDROID)
#include "services/device/public/cpp/usb/usb_ids.h"
#endif // !BUILDFLAG(IS_ANDROID)
#if BUILDFLAG(IS_CHROMEOS)
#include "chrome/browser/ash/profiles/profile_helper.h"
#include "components/user_manager/user.h"
#endif // BUILDFLAG(IS_CHROMEOS)
namespace {
constexpr char kPortNameKey[] = "name";
constexpr char kTokenKey[] = "token";
constexpr char kBluetoothDevicePathKey[] = "bluetooth_device_path";
#if BUILDFLAG(IS_WIN)
constexpr char kDeviceInstanceIdKey[] = "device_instance_id";
#else
constexpr char kVendorIdKey[] = "vendor_id";
constexpr char kProductIdKey[] = "product_id";
constexpr char kSerialNumberKey[] = "serial_number";
#if BUILDFLAG(IS_MAC)
constexpr char kUsbDriverKey[] = "usb_driver";
#endif // BUILDFLAG(IS_MAC)
#endif // BUILDFLAG(IS_WIN)
using content_settings::SettingSource;
std::string EncodeToken(const base::UnguessableToken& token) {
const uint64_t data[2] = {token.GetHighForSerialization(),
token.GetLowForSerialization()};
return base::Base64Encode(base::as_byte_span(data));
}
base::UnguessableToken DecodeToken(std::string_view input) {
std::string buffer;
if (!base::Base64Decode(input, &buffer) ||
buffer.length() != sizeof(uint64_t) * 2) {
return base::UnguessableToken();
}
const uint64_t* data = reinterpret_cast<const uint64_t*>(buffer.data());
std::optional<base::UnguessableToken> token =
base::UnguessableToken::Deserialize(data[0], data[1]);
if (!token.has_value()) {
return base::UnguessableToken();
}
return token.value();
}
bool IsPolicyGrantedObject(const base::Value::Dict& object) {
return object.size() == 1 && object.contains(kPortNameKey);
}
base::Value VendorAndProductIdsToValue(uint16_t vendor_id,
uint16_t product_id) {
base::Value::Dict object;
#if !BUILDFLAG(IS_ANDROID)
const char* product_name =
device::UsbIds::GetProductName(vendor_id, product_id);
if (product_name) {
object.Set(kPortNameKey, product_name);
} else {
const char* vendor_name = device::UsbIds::GetVendorName(vendor_id);
if (vendor_name) {
object.Set(
kPortNameKey,
l10n_util::GetStringFUTF16(
IDS_SERIAL_POLICY_DESCRIPTION_FOR_USB_PRODUCT_ID_AND_VENDOR_NAME,
base::ASCIIToUTF16(base::StringPrintf("%04X", product_id)),
base::UTF8ToUTF16(vendor_name)));
} else {
#endif // !BUILDFLAG(IS_ANDROID)
object.Set(
kPortNameKey,
l10n_util::GetStringFUTF16(
IDS_SERIAL_POLICY_DESCRIPTION_FOR_USB_PRODUCT_ID_AND_VENDOR_ID,
base::ASCIIToUTF16(base::StringPrintf("%04X", product_id)),
base::ASCIIToUTF16(base::StringPrintf("%04X", vendor_id))));
#if !BUILDFLAG(IS_ANDROID)
}
}
#endif // !BUILDFLAG(IS_ANDROID)
return base::Value(std::move(object));
}
base::Value VendorIdToValue(uint16_t vendor_id) {
base::Value::Dict object;
#if !BUILDFLAG(IS_ANDROID)
const char* vendor_name = device::UsbIds::GetVendorName(vendor_id);
if (vendor_name) {
object.Set(kPortNameKey,
l10n_util::GetStringFUTF16(
IDS_SERIAL_POLICY_DESCRIPTION_FOR_USB_VENDOR_NAME,
base::UTF8ToUTF16(vendor_name)));
} else {
#endif // !BUILDFLAG(IS_ANDROID)
object.Set(kPortNameKey,
l10n_util::GetStringFUTF16(
IDS_SERIAL_POLICY_DESCRIPTION_FOR_USB_VENDOR_ID,
base::ASCIIToUTF16(base::StringPrintf("%04X", vendor_id))));
#if !BUILDFLAG(IS_ANDROID)
}
#endif // !BUILDFLAG(IS_ANDROID)
return base::Value(std::move(object));
}
void RecordPermissionRevocation(SerialPermissionRevoked type) {
UMA_HISTOGRAM_ENUMERATION("Permissions.Serial.Revoked", type);
}
} // namespace
SerialChooserContext::SerialChooserContext(Profile* profile)
: ObjectPermissionContextBase(
ContentSettingsType::SERIAL_GUARD,
ContentSettingsType::SERIAL_CHOOSER_DATA,
HostContentSettingsMapFactory::GetForProfile(profile)),
profile_(profile) {
DCHECK(profile_);
permission_observation_.Observe(this);
}
SerialChooserContext::~SerialChooserContext() = default;
// static
base::Value::Dict SerialChooserContext::PortInfoToValue(
const device::mojom::SerialPortInfo& port) {
base::Value::Dict value;
if (port.display_name && !port.display_name->empty()) {
value.Set(kPortNameKey, *port.display_name);
} else {
value.Set(kPortNameKey, port.path.LossyDisplayName());
}
if (!SerialChooserContext::CanStorePersistentEntry(port)) {
value.Set(kTokenKey, EncodeToken(port.token));
return value;
}
if (port.bluetooth_service_class_id &&
port.bluetooth_service_class_id->IsValid()) {
value.Set(kBluetoothDevicePathKey, port.path.LossyDisplayName());
} else {
#if BUILDFLAG(IS_WIN)
// Windows provides a handy device identifier which we can rely on to be
// sufficiently stable for identifying devices across restarts.
value.Set(kDeviceInstanceIdKey, port.device_instance_id);
#else
CHECK(port.has_vendor_id);
value.Set(kVendorIdKey, port.vendor_id);
CHECK(port.has_product_id);
value.Set(kProductIdKey, port.product_id);
CHECK(port.serial_number);
value.Set(kSerialNumberKey, *port.serial_number);
#if BUILDFLAG(IS_MAC)
CHECK(port.usb_driver_name && !port.usb_driver_name->empty());
value.Set(kUsbDriverKey, *port.usb_driver_name);
#endif // BUILDFLAG(IS_MAC)
#endif // BUILDFLAG(IS_WIN)
}
return value;
}
std::string SerialChooserContext::GetKeyForObject(
const base::Value::Dict& object) {
if (!IsValidObject(object))
return std::string();
if (IsPolicyGrantedObject(object)) {
return *object.FindString(kPortNameKey);
}
const std::string* bluetooth_device_path =
object.FindString(kBluetoothDevicePathKey);
if (bluetooth_device_path) {
return *bluetooth_device_path;
}
#if BUILDFLAG(IS_WIN)
return *(object.FindString(kDeviceInstanceIdKey));
#else
std::vector<std::string> key_pieces{
base::NumberToString(*(object.FindInt(kVendorIdKey))),
base::NumberToString(*(object.FindInt(kProductIdKey))),
*(object.FindString(kSerialNumberKey))};
#if BUILDFLAG(IS_MAC)
key_pieces.push_back(*(object.FindString(kUsbDriverKey)));
#endif // BUILDFLAG(IS_MAC)
return base::JoinString(key_pieces, "|");
#endif // BUILDFLAG(IS_WIN)
}
bool SerialChooserContext::IsValidObject(const base::Value::Dict& object) {
if (IsPolicyGrantedObject(object)) {
return true;
}
if (!object.FindString(kPortNameKey)) {
return false;
}
const std::string* token = object.FindString(kTokenKey);
if (token)
return object.size() == 2 && DecodeToken(*token);
if (object.FindString(kBluetoothDevicePathKey)) {
return object.size() == 2;
}
#if BUILDFLAG(IS_WIN)
return object.size() == 2 && object.FindString(kDeviceInstanceIdKey);
#else
if (!object.FindInt(kVendorIdKey) || !object.FindInt(kProductIdKey) ||
!object.FindString(kSerialNumberKey)) {
return false;
}
#if BUILDFLAG(IS_MAC)
return object.size() == 5 && object.FindString(kUsbDriverKey);
#else
return object.size() == 4;
#endif // BUILDFLAG(IS_MAC)
#endif // BUILDFLAG(IS_WIN)
}
std::u16string SerialChooserContext::GetObjectDisplayName(
const base::Value::Dict& object) {
const std::string* name = object.FindString(kPortNameKey);
DCHECK(name);
return base::UTF8ToUTF16(*name);
}
void SerialChooserContext::OnPermissionRevoked(const url::Origin& origin) {
for (auto& observer : port_observer_list_)
observer.OnPermissionRevoked(origin);
}
std::vector<std::unique_ptr<permissions::ObjectPermissionContextBase::Object>>
SerialChooserContext::GetGrantedObjects(const url::Origin& origin) {
std::vector<std::unique_ptr<Object>> objects =
ObjectPermissionContextBase::GetGrantedObjects(origin);
if (CanRequestObjectPermission(origin)) {
auto it = ephemeral_ports_.find(origin);
if (it != ephemeral_ports_.end()) {
const std::set<base::UnguessableToken>& ports = it->second;
for (const auto& token : ports) {
auto port_it = port_info_.find(token);
if (port_it == port_info_.end())
continue;
base::Value::Dict port = PortInfoToValue(*port_it->second);
objects.push_back(std::make_unique<Object>(
origin, std::move(port), SettingSource::kUser, IsOffTheRecord()));
}
}
}
if (CanApplyPortSpecificPolicy()) {
auto* policy = g_browser_process->serial_policy_allowed_ports();
for (const auto& entry : policy->usb_device_policy()) {
if (!base::Contains(entry.second, origin)) {
continue;
}
base::Value object =
VendorAndProductIdsToValue(entry.first.first, entry.first.second);
objects.push_back(std::make_unique<ObjectPermissionContextBase::Object>(
origin, std::move(object), SettingSource::kPolicy, IsOffTheRecord()));
}
for (const auto& entry : policy->usb_vendor_policy()) {
if (!base::Contains(entry.second, origin)) {
continue;
}
base::Value object = VendorIdToValue(entry.first);
objects.push_back(std::make_unique<ObjectPermissionContextBase::Object>(
origin, std::move(object), SettingSource::kPolicy, IsOffTheRecord()));
}
if (base::Contains(policy->all_ports_policy(), origin)) {
base::Value::Dict object;
object.Set(kPortNameKey, l10n_util::GetStringUTF16(
IDS_SERIAL_POLICY_DESCRIPTION_FOR_ANY_PORT));
objects.push_back(std::make_unique<ObjectPermissionContextBase::Object>(
origin, base::Value(std::move(object)), SettingSource::kPolicy,
IsOffTheRecord()));
}
}
return objects;
}
std::vector<std::unique_ptr<permissions::ObjectPermissionContextBase::Object>>
SerialChooserContext::GetAllGrantedObjects() {
std::vector<std::unique_ptr<Object>> objects =
ObjectPermissionContextBase::GetAllGrantedObjects();
for (const auto& map_entry : ephemeral_ports_) {
const url::Origin& origin = map_entry.first;
if (!CanRequestObjectPermission(origin))
continue;
for (const auto& token : map_entry.second) {
auto it = port_info_.find(token);
if (it == port_info_.end())
continue;
objects.push_back(
std::make_unique<Object>(origin, PortInfoToValue(*it->second),
SettingSource::kUser, IsOffTheRecord()));
}
}
if (CanApplyPortSpecificPolicy()) {
auto* policy = g_browser_process->serial_policy_allowed_ports();
for (const auto& entry : policy->usb_device_policy()) {
base::Value object =
VendorAndProductIdsToValue(entry.first.first, entry.first.second);
for (const auto& origin : entry.second) {
objects.push_back(std::make_unique<ObjectPermissionContextBase::Object>(
origin, object.Clone(), SettingSource::kPolicy, IsOffTheRecord()));
}
}
for (const auto& entry : policy->usb_vendor_policy()) {
base::Value object = VendorIdToValue(entry.first);
for (const auto& origin : entry.second) {
objects.push_back(std::make_unique<ObjectPermissionContextBase::Object>(
origin, object.Clone(), SettingSource::kPolicy, IsOffTheRecord()));
}
}
base::Value::Dict object;
object.Set(kPortNameKey, l10n_util::GetStringUTF16(
IDS_SERIAL_POLICY_DESCRIPTION_FOR_ANY_PORT));
for (const auto& origin : policy->all_ports_policy()) {
objects.push_back(std::make_unique<ObjectPermissionContextBase::Object>(
origin, base::Value(object.Clone()), SettingSource::kPolicy,
IsOffTheRecord()));
}
}
return objects;
}
void SerialChooserContext::RevokeObjectPermission(
const url::Origin& origin,
const base::Value::Dict& object) {
RevokeObjectPermissionInternal(origin, object, /*revoked_by_website=*/false);
}
void SerialChooserContext::RevokePortPermissionWebInitiated(
const url::Origin& origin,
const base::UnguessableToken& token) {
auto it = port_info_.find(token);
if (it == port_info_.end())
return;
return RevokeObjectPermissionInternal(origin, PortInfoToValue(*it->second),
/*revoked_by_website=*/true);
}
void SerialChooserContext::RevokeObjectPermissionInternal(
const url::Origin& origin,
const base::Value::Dict& object,
bool revoked_by_website = false) {
const std::string* token = object.FindString(kTokenKey);
if (!token) {
ObjectPermissionContextBase::RevokeObjectPermission(origin, object);
RecordPermissionRevocation(
revoked_by_website ? SerialPermissionRevoked::kPersistentByWebsite
: SerialPermissionRevoked::kPersistentByUser);
return;
}
auto it = ephemeral_ports_.find(origin);
if (it == ephemeral_ports_.end())
return;
std::set<base::UnguessableToken>& ports = it->second;
DCHECK(IsValidObject(object));
base::UnguessableToken decoded_token = DecodeToken(*token);
if (decoded_token.is_empty()) {
return;
}
ports.erase(std::move(decoded_token));
RecordPermissionRevocation(revoked_by_website
? SerialPermissionRevoked::kEphemeralByWebsite
: SerialPermissionRevoked::kEphemeralByUser);
NotifyPermissionRevoked(origin);
}
void SerialChooserContext::GrantPortPermission(
const url::Origin& origin,
const device::mojom::SerialPortInfo& port) {
port_info_.insert({port.token, port.Clone()});
if (CanStorePersistentEntry(port)) {
base::Value::Dict value = PortInfoToValue(port);
GrantObjectPermission(origin, std::move(value));
return;
}
ephemeral_ports_[origin].insert(port.token);
NotifyPermissionChanged();
}
bool SerialChooserContext::HasPortPermission(
const url::Origin& origin,
const device::mojom::SerialPortInfo& port) {
if (SerialBlocklist::Get().IsExcluded(port)) {
return false;
}
if (CanApplyPortSpecificPolicy() &&
g_browser_process->serial_policy_allowed_ports()->HasPortPermission(
origin, port)) {
return true;
}
if (!CanRequestObjectPermission(origin)) {
return false;
}
auto it = ephemeral_ports_.find(origin);
if (it != ephemeral_ports_.end()) {
const std::set<base::UnguessableToken> ports = it->second;
if (base::Contains(ports, port.token))
return true;
}
if (!CanStorePersistentEntry(port)) {
return false;
}
std::vector<std::unique_ptr<Object>> object_list =
ObjectPermissionContextBase::GetGrantedObjects(origin);
for (const auto& object : object_list) {
const base::Value::Dict& device = object->value;
// Objects provided by the parent class can be assumed valid.
DCHECK(IsValidObject(device));
if (port.bluetooth_service_class_id &&
port.bluetooth_service_class_id->IsValid()) {
const std::string* bluetooth_device_path =
device.FindString(kBluetoothDevicePathKey);
if (!bluetooth_device_path) {
continue;
}
// LossyDisplayName for Bluetooth devices is always expected to be a MAC
// address which fits into UTF8 so converting to UTF16 for this comparison
// is safe.
if (base::UTF8ToUTF16(*bluetooth_device_path) !=
port.path.LossyDisplayName()) {
continue;
}
return true;
} else {
#if BUILDFLAG(IS_WIN)
const std::string* device_instance_id =
device.FindString(kDeviceInstanceIdKey);
if (device_instance_id &&
port.device_instance_id == *device_instance_id) {
return true;
}
#else
const std::optional<int> vendor_id = device.FindInt(kVendorIdKey);
const std::optional<int> product_id = device.FindInt(kProductIdKey);
const std::string* serial_number = device.FindString(kSerialNumberKey);
if (!vendor_id || !product_id || !serial_number) {
continue;
}
// Guaranteed by the CanStorePersistentEntry() check above.
CHECK(port.has_vendor_id);
CHECK(port.has_product_id);
CHECK(port.serial_number && !port.serial_number->empty());
if (port.vendor_id != *vendor_id || port.product_id != *product_id ||
port.serial_number != *serial_number) {
continue;
}
#if BUILDFLAG(IS_MAC)
const std::string* usb_driver_name = device.FindString(kUsbDriverKey);
if (!usb_driver_name) {
continue;
}
if (port.usb_driver_name != *usb_driver_name) {
continue;
}
#endif // BUILDFLAG(IS_MAC)
return true;
#endif // BUILDFLAG(IS_WIN)
}
}
return false;
}
// static
bool SerialChooserContext::CanStorePersistentEntry(
const device::mojom::SerialPortInfo& port) {
// If there is no display name then the path name will be used instead. The
// path name is not guaranteed to be stable. For example, on Linux the name
// "ttyUSB0" is reused for any USB serial device. A name like that would be
// confusing to show in settings when the device is disconnected.
if (!port.display_name || port.display_name->empty())
return false;
const bool has_bluetooth = port.bluetooth_service_class_id &&
port.bluetooth_service_class_id->IsValid() &&
!port.path.LossyDisplayName().empty();
if (has_bluetooth) {
return true;
}
#if BUILDFLAG(IS_WIN)
return !port.device_instance_id.empty();
#else
const bool has_usb = port.has_vendor_id && port.has_product_id &&
port.serial_number && !port.serial_number->empty();
if (!has_usb) {
return false;
}
#if BUILDFLAG(IS_MAC)
// The combination of the standard USB vendor ID, product ID and serial
// number properties should be enough to uniquely identify a device
// however recent versions of macOS include built-in drivers for common
// types of USB-to-serial adapters while their manufacturers still
// recommend installing their custom drivers. When both are loaded two
// IOSerialBSDClient instances are found for each device. Including the
// USB driver name allows us to distinguish between the two.
if (!port.usb_driver_name || port.usb_driver_name->empty())
return false;
#endif // BUILDFLAG(IS_MAC)
return true;
#endif // BUILDFLAG(IS_WIN)
}
const device::mojom::SerialPortInfo* SerialChooserContext::GetPortInfo(
const base::UnguessableToken& token) {
DCHECK(is_initialized_);
auto it = port_info_.find(token);
return it == port_info_.end() ? nullptr : it->second.get();
}
device::mojom::SerialPortManager* SerialChooserContext::GetPortManager() {
EnsurePortManagerConnection();
return port_manager_.get();
}
void SerialChooserContext::AddPortObserver(PortObserver* observer) {
port_observer_list_.AddObserver(observer);
}
void SerialChooserContext::RemovePortObserver(PortObserver* observer) {
port_observer_list_.RemoveObserver(observer);
}
void SerialChooserContext::SetPortManagerForTesting(
mojo::PendingRemote<device::mojom::SerialPortManager> manager) {
SetUpPortManagerConnection(std::move(manager));
}
void SerialChooserContext::FlushPortManagerConnectionForTesting() {
port_manager_.FlushForTesting();
}
base::WeakPtr<SerialChooserContext> SerialChooserContext::AsWeakPtr() {
return weak_factory_.GetWeakPtr();
}
void SerialChooserContext::OnPortAdded(device::mojom::SerialPortInfoPtr port) {
if (!base::Contains(port_info_, port->token)) {
port_info_.insert({port->token, port->Clone()});
}
for (auto& observer : port_observer_list_)
observer.OnPortAdded(*port);
}
void SerialChooserContext::OnPortRemoved(
device::mojom::SerialPortInfoPtr port) {
for (auto& observer : port_observer_list_)
observer.OnPortRemoved(*port);
std::vector<url::Origin> revoked_origins;
for (auto& map_entry : ephemeral_ports_) {
std::set<base::UnguessableToken>& ports = map_entry.second;
if (ports.erase(port->token) > 0) {
RecordPermissionRevocation(
SerialPermissionRevoked::kEphemeralByDisconnect);
revoked_origins.push_back(map_entry.first);
}
}
port_info_.erase(port->token);
for (auto& observer : permission_observer_list_) {
if (!revoked_origins.empty()) {
observer.OnObjectPermissionChanged(guard_content_settings_type_,
data_content_settings_type_);
}
for (const auto& origin : revoked_origins)
observer.OnPermissionRevoked(origin);
}
}
void SerialChooserContext::OnPortConnectedStateChanged(
device::mojom::SerialPortInfoPtr port) {
for (auto& observer : port_observer_list_) {
observer.OnPortConnectedStateChanged(*port);
}
}
void SerialChooserContext::Shutdown() {
FlushScheduledSaveSettingsCalls();
permissions::ObjectPermissionContextBase::Shutdown();
}
void SerialChooserContext::EnsurePortManagerConnection() {
if (port_manager_)
return;
mojo::PendingRemote<device::mojom::SerialPortManager> manager;
content::GetDeviceService().BindSerialPortManager(
manager.InitWithNewPipeAndPassReceiver());
SetUpPortManagerConnection(std::move(manager));
}
void SerialChooserContext::SetUpPortManagerConnection(
mojo::PendingRemote<device::mojom::SerialPortManager> manager) {
port_manager_.Bind(std::move(manager));
port_manager_.set_disconnect_handler(
base::BindOnce(&SerialChooserContext::OnPortManagerConnectionError,
base::Unretained(this)));
port_manager_->SetClient(client_receiver_.BindNewPipeAndPassRemote());
port_manager_->GetDevices(base::BindOnce(&SerialChooserContext::OnGetDevices,
weak_factory_.GetWeakPtr()));
}
void SerialChooserContext::OnGetDevices(
std::vector<device::mojom::SerialPortInfoPtr> ports) {
for (auto& port : ports)
port_info_.insert({port->token, std::move(port)});
is_initialized_ = true;
}
void SerialChooserContext::OnPortManagerConnectionError() {
port_manager_.reset();
client_receiver_.reset();
port_info_.clear();
std::vector<url::Origin> revoked_origins;
revoked_origins.reserve(ephemeral_ports_.size());
for (const auto& map_entry : ephemeral_ports_)
revoked_origins.push_back(map_entry.first);
ephemeral_ports_.clear();
// Notify permission observers that all ephemeral permissions have been
// revoked.
for (auto& observer : permission_observer_list_) {
observer.OnObjectPermissionChanged(guard_content_settings_type_,
data_content_settings_type_);
for (const auto& origin : revoked_origins)
observer.OnPermissionRevoked(origin);
}
}
bool SerialChooserContext::CanApplyPortSpecificPolicy() {
#if BUILDFLAG(IS_CHROMEOS)
auto* profile_helper = ash::ProfileHelper::Get();
DCHECK(profile_helper);
user_manager::User* user = profile_helper->GetUserByProfile(profile_);
DCHECK(user);
return user->IsAffiliated();
#else
return true;
#endif
}
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