components/proximity_auth/remote_device_loader.cc - chromium/src - Git at Google

 // Copyright 2015 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 "components/proximity_auth/remote_device_loader.h"

 #include <algorithm>
 #include <utility>

 #include "base/base64url.h"
 #include "base/bind.h"
 #include "components/cryptauth/secure_message_delegate.h"
 #include "components/proximity_auth/logging/logging.h"
 #include "components/proximity_auth/proximity_auth_pref_manager.h"

 namespace proximity_auth {

 RemoteDeviceLoader::RemoteDeviceLoader(
     const std::vector<cryptauth::ExternalDeviceInfo>& unlock_keys,
     const std::string& user_id,
     const std::string& user_private_key,
     std::unique_ptr<cryptauth::SecureMessageDelegate> secure_message_delegate,
     ProximityAuthPrefManager* pref_manager)
     : remaining_unlock_keys_(unlock_keys),
       user_id_(user_id),
       user_private_key_(user_private_key),
       secure_message_delegate_(std::move(secure_message_delegate)),
       pref_manager_(pref_manager),
       weak_ptr_factory_(this) {}

 RemoteDeviceLoader::~RemoteDeviceLoader() {}

 void RemoteDeviceLoader::Load(const RemoteDeviceCallback& callback) {
   DCHECK(callback_.is_null());
   callback_ = callback;
   PA_LOG(INFO) << "Loading " << remaining_unlock_keys_.size()
                << " remote devices";

   if (remaining_unlock_keys_.empty()) {
     callback_.Run(remote_devices_);
     return;
   }

   std::vector<cryptauth::ExternalDeviceInfo> all_unlock_keys =
       remaining_unlock_keys_;

   for (const auto& unlock_key : all_unlock_keys) {
     secure_message_delegate_->DeriveKey(
         user_private_key_, unlock_key.public_key(),
         base::Bind(&RemoteDeviceLoader::OnPSKDerived,
                    weak_ptr_factory_.GetWeakPtr(), unlock_key));
   }
 }

 void RemoteDeviceLoader::OnPSKDerived(
     const cryptauth::ExternalDeviceInfo& unlock_key,
     const std::string& psk) {
   std::string public_key = unlock_key.public_key();
   auto iterator = std::find_if(
       remaining_unlock_keys_.begin(), remaining_unlock_keys_.end(),
       [&public_key](const cryptauth::ExternalDeviceInfo& unlock_key) {
         return unlock_key.public_key() == public_key;
       });

   DCHECK(iterator != remaining_unlock_keys_.end());
   remaining_unlock_keys_.erase(iterator);
   PA_LOG(INFO) << "Derived PSK for " << unlock_key.friendly_device_name()
                << ", " << remaining_unlock_keys_.size() << " keys remaining.";

   // TODO(tengs): We assume that devices without a |bluetooth_address| field are
   // BLE devices. Ideally, we should have a separate field for this information.
   RemoteDevice::BluetoothType bluetooth_type =
       unlock_key.bluetooth_address().empty() ? RemoteDevice::BLUETOOTH_LE
                                              : RemoteDevice::BLUETOOTH_CLASSIC;

   std::string bluetooth_address = unlock_key.bluetooth_address();
   if (bluetooth_address.empty() && pref_manager_) {
     std::string b64_public_key;
     base::Base64UrlEncode(unlock_key.public_key(),
                           base::Base64UrlEncodePolicy::INCLUDE_PADDING,
                           &b64_public_key);
     bluetooth_address = pref_manager_->GetDeviceAddress(b64_public_key);
     PA_LOG(INFO) << "The BLE address of " << unlock_key.friendly_device_name()
                  << " is " << bluetooth_address;
   }

   remote_devices_.push_back(RemoteDevice(
       user_id_, unlock_key.friendly_device_name(), unlock_key.public_key(),
       bluetooth_type, bluetooth_address, psk, std::string()));

   if (remaining_unlock_keys_.empty())
     callback_.Run(remote_devices_);
 }

 }  // namespace proximity_auth
	// Copyright 2015 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 "components/proximity_auth/remote_device_loader.h"

	#include <algorithm>
	#include <utility>

	#include "base/base64url.h"
	#include "base/bind.h"
	#include "components/cryptauth/secure_message_delegate.h"
	#include "components/proximity_auth/logging/logging.h"
	#include "components/proximity_auth/proximity_auth_pref_manager.h"

	namespace proximity_auth {

	RemoteDeviceLoader::RemoteDeviceLoader(
	const std::vector<cryptauth::ExternalDeviceInfo>& unlock_keys,
	const std::string& user_id,
	const std::string& user_private_key,
	std::unique_ptr<cryptauth::SecureMessageDelegate> secure_message_delegate,
	ProximityAuthPrefManager* pref_manager)
	: remaining_unlock_keys_(unlock_keys),
	user_id_(user_id),
	user_private_key_(user_private_key),
	secure_message_delegate_(std::move(secure_message_delegate)),
	pref_manager_(pref_manager),
	weak_ptr_factory_(this) {}

	RemoteDeviceLoader::~RemoteDeviceLoader() {}

	void RemoteDeviceLoader::Load(const RemoteDeviceCallback& callback) {
	DCHECK(callback_.is_null());
	callback_ = callback;
	PA_LOG(INFO) << "Loading " << remaining_unlock_keys_.size()
	<< " remote devices";

	if (remaining_unlock_keys_.empty()) {
	callback_.Run(remote_devices_);
	return;
	}

	std::vector<cryptauth::ExternalDeviceInfo> all_unlock_keys =
	remaining_unlock_keys_;

	for (const auto& unlock_key : all_unlock_keys) {
	secure_message_delegate_->DeriveKey(
	user_private_key_, unlock_key.public_key(),
	base::Bind(&RemoteDeviceLoader::OnPSKDerived,
	weak_ptr_factory_.GetWeakPtr(), unlock_key));
	}
	}

	void RemoteDeviceLoader::OnPSKDerived(
	const cryptauth::ExternalDeviceInfo& unlock_key,
	const std::string& psk) {
	std::string public_key = unlock_key.public_key();
	auto iterator = std::find_if(
	remaining_unlock_keys_.begin(), remaining_unlock_keys_.end(),
	[&public_key](const cryptauth::ExternalDeviceInfo& unlock_key) {
	return unlock_key.public_key() == public_key;
	});

	DCHECK(iterator != remaining_unlock_keys_.end());
	remaining_unlock_keys_.erase(iterator);
	PA_LOG(INFO) << "Derived PSK for " << unlock_key.friendly_device_name()
	<< ", " << remaining_unlock_keys_.size() << " keys remaining.";

	// TODO(tengs): We assume that devices without a \|bluetooth_address\| field are
	// BLE devices. Ideally, we should have a separate field for this information.
	RemoteDevice::BluetoothType bluetooth_type =
	unlock_key.bluetooth_address().empty() ? RemoteDevice::BLUETOOTH_LE
	: RemoteDevice::BLUETOOTH_CLASSIC;

	std::string bluetooth_address = unlock_key.bluetooth_address();
	if (bluetooth_address.empty() && pref_manager_) {
	std::string b64_public_key;
	base::Base64UrlEncode(unlock_key.public_key(),
	base::Base64UrlEncodePolicy::INCLUDE_PADDING,
	&b64_public_key);
	bluetooth_address = pref_manager_->GetDeviceAddress(b64_public_key);
	PA_LOG(INFO) << "The BLE address of " << unlock_key.friendly_device_name()
	<< " is " << bluetooth_address;
	}

	remote_devices_.push_back(RemoteDevice(
	user_id_, unlock_key.friendly_device_name(), unlock_key.public_key(),
	bluetooth_type, bluetooth_address, psk, std::string()));

	if (remaining_unlock_keys_.empty())
	callback_.Run(remote_devices_);
	}

	} // namespace proximity_auth