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android / platform / system / bt / ea7ab70a711e642653dd5922b83aa04a53af9e0e / . / gd / security / facade.cc
blob: a866c10cbe2a0ea43cd9fdb390fa4cdcb2a13cdd [file] [log] [blame]
/*
* Copyright 2019 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "security/facade.h"
#include "grpc/grpc_event_queue.h"
#include "hci/address_with_type.h"
#include "hci/le_address_manager.h"
#include "l2cap/classic/security_policy.h"
#include "l2cap/le/l2cap_le_module.h"
#include "os/handler.h"
#include "security/facade.grpc.pb.h"
#include "security/pairing/oob_data.h"
#include "security/security_manager_listener.h"
#include "security/security_module.h"
#include "security/ui.h"
using bluetooth::l2cap::le::L2capLeModule;
namespace bluetooth {
namespace security {
namespace {
constexpr uint8_t AUTH_REQ_NO_BOND = 0x01;
constexpr uint8_t AUTH_REQ_BOND = 0x01;
constexpr uint8_t AUTH_REQ_MITM_MASK = 0x04;
constexpr uint8_t AUTH_REQ_SECURE_CONNECTIONS_MASK = 0x08;
constexpr uint8_t AUTH_REQ_KEYPRESS_MASK = 0x10;
constexpr uint8_t AUTH_REQ_CT2_MASK = 0x20;
constexpr uint8_t AUTH_REQ_RFU_MASK = 0xC0;
facade::BluetoothAddressWithType ToFacadeAddressWithType(hci::AddressWithType address) {
facade::BluetoothAddressWithType ret;
ret.mutable_address()->set_address(address.GetAddress().ToString());
ret.set_type(static_cast<facade::BluetoothAddressTypeEnum>(address.GetAddressType()));
return ret;
}
} // namespace
class SecurityModuleFacadeService : public SecurityModuleFacade::Service, public ISecurityManagerListener, public UI {
public:
SecurityModuleFacadeService(
SecurityModule* security_module, L2capLeModule* l2cap_le_module, ::bluetooth::os::Handler* security_handler)
: security_module_(security_module), l2cap_le_module_(l2cap_le_module), security_handler_(security_handler) {
security_module_->GetSecurityManager()->RegisterCallbackListener(this, security_handler_);
security_module_->GetSecurityManager()->SetUserInterfaceHandler(this, security_handler_);
/* In order to receive connect/disconenct event, we must register service */
l2cap_le_module_->GetFixedChannelManager()->RegisterService(
bluetooth::l2cap::kLastFixedChannel - 2,
common::BindOnce(&SecurityModuleFacadeService::OnL2capRegistrationCompleteLe, common::Unretained(this)),
common::Bind(&SecurityModuleFacadeService::OnConnectionOpenLe, common::Unretained(this)),
security_handler_);
}
void OnL2capRegistrationCompleteLe(
l2cap::le::FixedChannelManager::RegistrationResult result,
std::unique_ptr<l2cap::le::FixedChannelService> le_smp_service) {
ASSERT_LOG(
result == bluetooth::l2cap::le::FixedChannelManager::RegistrationResult::SUCCESS,
"Failed to register to LE SMP Fixed Channel Service");
}
void OnConnectionOpenLe(std::unique_ptr<l2cap::le::FixedChannel> channel) {
channel->RegisterOnCloseCallback(
security_handler_,
common::BindOnce(
&SecurityModuleFacadeService::OnConnectionClosedLe, common::Unretained(this), channel->GetDevice()));
}
void OnConnectionClosedLe(hci::AddressWithType address, hci::ErrorCode error_code) {
SecurityHelperMsg disconnected;
*disconnected.mutable_peer() = ToFacadeAddressWithType(address);
disconnected.set_message_type(HelperMsgType::DEVICE_DISCONNECTED);
helper_events_.OnIncomingEvent(disconnected);
}
::grpc::Status CreateBond(::grpc::ServerContext* context, const facade::BluetoothAddressWithType* request,
::google::protobuf::Empty* response) override {
hci::Address peer;
ASSERT(hci::Address::FromString(request->address().address(), peer));
hci::AddressType peer_type = static_cast<hci::AddressType>(request->type());
security_module_->GetSecurityManager()->CreateBond(hci::AddressWithType(peer, peer_type));
return ::grpc::Status::OK;
}
::grpc::Status CreateBondOutOfBand(
::grpc::ServerContext* context,
const ::bluetooth::security::OobDataBondMessage* request,
::google::protobuf::Empty* response) override {
hci::Address peer;
ASSERT(hci::Address::FromString(request->address().address().address(), peer));
hci::AddressType peer_type = static_cast<hci::AddressType>(request->address().type());
pairing::SimplePairingHash c;
pairing::SimplePairingRandomizer r;
std::copy(
std::begin(request->p192_data().confirmation_value()),
std::end(request->p192_data().confirmation_value()),
c.data());
std::copy(std::begin(request->p192_data().random_value()), std::end(request->p192_data().random_value()), r.data());
pairing::OobData p192_data(c, r);
std::copy(
std::begin(request->p256_data().confirmation_value()),
std::end(request->p256_data().confirmation_value()),
c.data());
std::copy(std::begin(request->p256_data().random_value()), std::end(request->p256_data().random_value()), r.data());
pairing::OobData p256_data(c, r);
security_module_->GetSecurityManager()->CreateBondOutOfBand(
hci::AddressWithType(peer, peer_type), p192_data, p256_data);
return ::grpc::Status::OK;
}
::grpc::Status GetOutOfBandData(
::grpc::ServerContext* context,
const ::google::protobuf::Empty* request,
::google::protobuf::Empty* response) override {
security_module_->GetSecurityManager()->GetOutOfBandData(
security_handler_->BindOnceOn(this, &SecurityModuleFacadeService::OobDataEventOccurred));
return ::grpc::Status::OK;
}
::grpc::Status FetchGetOutOfBandDataEvents(
::grpc::ServerContext* context,
const ::google::protobuf::Empty* request,
::grpc::ServerWriter<OobDataBondMessage>* writer) override {
return oob_events_.RunLoop(context, writer);
}
::grpc::Status CreateBondLe(::grpc::ServerContext* context, const facade::BluetoothAddressWithType* request,
::google::protobuf::Empty* response) override {
hci::Address peer;
ASSERT(hci::Address::FromString(request->address().address(), peer));
hci::AddressType peer_type = static_cast<hci::AddressType>(request->type());
security_module_->GetSecurityManager()->CreateBondLe(hci::AddressWithType(peer, peer_type));
return ::grpc::Status::OK;
}
::grpc::Status CancelBond(::grpc::ServerContext* context, const facade::BluetoothAddressWithType* request,
::google::protobuf::Empty* response) override {
hci::Address peer;
ASSERT(hci::Address::FromString(request->address().address(), peer));
hci::AddressType peer_type = hci::AddressType::PUBLIC_DEVICE_ADDRESS;
security_module_->GetSecurityManager()->CancelBond(hci::AddressWithType(peer, peer_type));
return ::grpc::Status::OK;
}
::grpc::Status RemoveBond(::grpc::ServerContext* context, const facade::BluetoothAddressWithType* request,
::google::protobuf::Empty* response) override {
hci::Address peer;
ASSERT(hci::Address::FromString(request->address().address(), peer));
hci::AddressType peer_type = hci::AddressType::PUBLIC_DEVICE_ADDRESS;
security_module_->GetSecurityManager()->RemoveBond(hci::AddressWithType(peer, peer_type));
return ::grpc::Status::OK;
}
::grpc::Status FetchUiEvents(::grpc::ServerContext* context, const ::google::protobuf::Empty* request,
::grpc::ServerWriter<UiMsg>* writer) override {
return ui_events_.RunLoop(context, writer);
}
::grpc::Status SendUiCallback(::grpc::ServerContext* context, const UiCallbackMsg* request,
::google::protobuf::Empty* response) override {
hci::Address peer;
ASSERT(hci::Address::FromString(request->address().address().address(), peer));
hci::AddressType remote_type = static_cast<hci::AddressType>(request->address().type());
switch (request->message_type()) {
case UiCallbackType::PASSKEY:
security_module_->GetSecurityManager()->OnPasskeyEntry(
hci::AddressWithType(peer, remote_type), request->numeric_value());
break;
case UiCallbackType::YES_NO:
security_module_->GetSecurityManager()->OnConfirmYesNo(hci::AddressWithType(peer, remote_type),
request->boolean());
break;
case UiCallbackType::PAIRING_PROMPT:
security_module_->GetSecurityManager()->OnPairingPromptAccepted(
hci::AddressWithType(peer, remote_type), request->boolean());
break;
case UiCallbackType::PIN:
LOG_INFO("PIN Callback");
security_module_->GetSecurityManager()->OnPinEntry(
hci::AddressWithType(peer, remote_type),
std::vector<uint8_t>(request->pin().cbegin(), request->pin().cend()));
break;
default:
LOG_ERROR("Unknown UiCallbackType %d", static_cast<int>(request->message_type()));
return ::grpc::Status(::grpc::StatusCode::INVALID_ARGUMENT, "Unknown UiCallbackType");
}
return ::grpc::Status::OK;
}
::grpc::Status FetchBondEvents(::grpc::ServerContext* context, const ::google::protobuf::Empty* request,
::grpc::ServerWriter<BondMsg>* writer) override {
return bond_events_.RunLoop(context, writer);
}
::grpc::Status FetchHelperEvents(
::grpc::ServerContext* context,
const ::google::protobuf::Empty* request,
::grpc::ServerWriter<SecurityHelperMsg>* writer) override {
return helper_events_.RunLoop(context, writer);
}
::grpc::Status SetIoCapability(::grpc::ServerContext* context, const IoCapabilityMessage* request,
::google::protobuf::Empty* response) override {
security_module_->GetFacadeConfigurationApi()->SetIoCapability(
static_cast<hci::IoCapability>(request->capability()));
return ::grpc::Status::OK;
}
::grpc::Status SetLeIoCapability(
::grpc::ServerContext* context,
const LeIoCapabilityMessage* request,
::google::protobuf::Empty* response) override {
security_module_->GetFacadeConfigurationApi()->SetLeIoCapability(
static_cast<security::IoCapability>(request->capabilities()));
return ::grpc::Status::OK;
}
::grpc::Status SetAuthenticationRequirements(::grpc::ServerContext* context,
const AuthenticationRequirementsMessage* request,
::google::protobuf::Empty* response) override {
security_module_->GetFacadeConfigurationApi()->SetAuthenticationRequirements(
static_cast<hci::AuthenticationRequirements>(request->requirement()));
return ::grpc::Status::OK;
}
::grpc::Status SetLeAuthRequirements(
::grpc::ServerContext* context,
const LeAuthRequirementsMessage* request,
::google::protobuf::Empty* response) override {
uint8_t auth_req = request->bond() ? AUTH_REQ_BOND : AUTH_REQ_NO_BOND;
if (request->mitm()) auth_req |= AUTH_REQ_MITM_MASK;
if (request->secure_connections()) auth_req |= AUTH_REQ_SECURE_CONNECTIONS_MASK;
if (request->keypress()) auth_req |= AUTH_REQ_KEYPRESS_MASK;
if (request->ct2()) auth_req |= AUTH_REQ_CT2_MASK;
if (request->reserved_bits()) auth_req |= (((request->reserved_bits()) << 6) & AUTH_REQ_RFU_MASK);
security_module_->GetFacadeConfigurationApi()->SetLeAuthRequirements(auth_req);
return ::grpc::Status::OK;
}
::grpc::Status SetLeMaximumEncryptionKeySize(
::grpc::ServerContext* context,
const LeMaximumEncryptionKeySizeMessage* request,
::google::protobuf::Empty* response) override {
security_module_->GetFacadeConfigurationApi()->SetLeMaximumEncryptionKeySize(
request->maximum_encryption_key_size());
return ::grpc::Status::OK;
}
::grpc::Status SetLeOobDataPresent(
::grpc::ServerContext* context,
const LeOobDataPresentMessage* request,
::google::protobuf::Empty* response) override {
security_module_->GetFacadeConfigurationApi()->SetLeOobDataPresent(
static_cast<OobDataFlag>(request->data_present()));
return ::grpc::Status::OK;
}
::grpc::Status SetLeInitiatorAddressPolicy(
::grpc::ServerContext* context, const hci::PrivacyPolicy* request, ::google::protobuf::Empty* response) override {
Address address = Address::kEmpty;
hci::LeAddressManager::AddressPolicy address_policy =
static_cast<hci::LeAddressManager::AddressPolicy>(request->address_policy());
if (address_policy == hci::LeAddressManager::AddressPolicy::USE_STATIC_ADDRESS ||
address_policy == hci::LeAddressManager::AddressPolicy::USE_PUBLIC_ADDRESS) {
ASSERT(Address::FromString(request->address_with_type().address().address(), address));
}
hci::AddressWithType address_with_type(address, static_cast<hci::AddressType>(request->address_with_type().type()));
crypto_toolbox::Octet16 irk = {};
auto request_irk_length = request->rotation_irk().end() - request->rotation_irk().begin();
if (request_irk_length == crypto_toolbox::OCTET16_LEN) {
std::vector<uint8_t> irk_data(request->rotation_irk().begin(), request->rotation_irk().end());
std::copy_n(irk_data.begin(), crypto_toolbox::OCTET16_LEN, irk.begin());
} else {
ASSERT(request_irk_length == 0);
}
auto minimum_rotation_time = std::chrono::milliseconds(request->minimum_rotation_time());
auto maximum_rotation_time = std::chrono::milliseconds(request->maximum_rotation_time());
security_module_->GetSecurityManager()->SetLeInitiatorAddressPolicyForTest(
address_policy, address_with_type, irk, minimum_rotation_time, maximum_rotation_time);
return ::grpc::Status::OK;
}
::grpc::Status FetchEnforceSecurityPolicyEvents(
::grpc::ServerContext* context,
const ::google::protobuf::Empty* request,
::grpc::ServerWriter<EnforceSecurityPolicyMsg>* writer) override {
return enforce_security_policy_events_.RunLoop(context, writer);
}
::grpc::Status EnforceSecurityPolicy(
::grpc::ServerContext* context,
const SecurityPolicyMessage* request,
::google::protobuf::Empty* response) override {
hci::Address peer;
ASSERT(hci::Address::FromString(request->address().address().address(), peer));
hci::AddressType peer_type = static_cast<hci::AddressType>(request->address().type());
hci::AddressWithType peer_with_type(peer, peer_type);
l2cap::classic::SecurityEnforcementInterface::ResultCallback callback =
security_handler_->BindOnceOn(this, &SecurityModuleFacadeService::EnforceSecurityPolicyEvent);
security_module_->GetFacadeConfigurationApi()->EnforceSecurityPolicy(
peer_with_type, static_cast<l2cap::classic::SecurityPolicy>(request->policy()), std::move(callback));
return ::grpc::Status::OK;
}
::grpc::Status GetLeOutOfBandData(
::grpc::ServerContext* context,
const ::google::protobuf::Empty* request,
::bluetooth::security::OobDataMessage* response) override {
std::array<uint8_t, 16> le_sc_c;
std::array<uint8_t, 16> le_sc_r;
security_module_->GetFacadeConfigurationApi()->GetLeOutOfBandData(&le_sc_c, &le_sc_r);
std::string le_sc_c_str(17, '\0');
std::copy(le_sc_c.begin(), le_sc_c.end(), le_sc_c_str.data());
response->set_confirmation_value(le_sc_c_str);
std::string le_sc_r_str(17, '\0');
std::copy(le_sc_r.begin(), le_sc_r.end(), le_sc_r_str.data());
response->set_random_value(le_sc_r_str);
return ::grpc::Status::OK;
}
::grpc::Status SetOutOfBandData(
::grpc::ServerContext* context,
const ::bluetooth::security::OobDataMessage* request,
::google::protobuf::Empty* response) override {
hci::Address peer;
ASSERT(hci::Address::FromString(request->address().address().address(), peer));
hci::AddressType peer_type = static_cast<hci::AddressType>(request->address().type());
hci::AddressWithType peer_with_type(peer, peer_type);
// We can't simply iterate till end of string, because we have an empty byte added at the end. We know confirm and
// random are fixed size, 16 bytes
std::array<uint8_t, 16> le_sc_c;
auto req_le_sc_c = request->confirmation_value();
std::copy(req_le_sc_c.begin(), req_le_sc_c.begin() + 16, le_sc_c.data());
std::array<uint8_t, 16> le_sc_r;
auto req_le_sc_r = request->random_value();
std::copy(req_le_sc_r.begin(), req_le_sc_r.begin() + 16, le_sc_r.data());
security_module_->GetFacadeConfigurationApi()->SetOutOfBandData(peer_with_type, le_sc_c, le_sc_r);
return ::grpc::Status::OK;
}
::grpc::Status FetchDisconnectEvents(
::grpc::ServerContext* context,
const ::google::protobuf::Empty* request,
::grpc::ServerWriter<DisconnectMsg>* writer) override {
security_module_->GetFacadeConfigurationApi()->SetDisconnectCallback(
common::Bind(&SecurityModuleFacadeService::DisconnectEventOccurred, common::Unretained(this)));
return disconnect_events_.RunLoop(context, writer);
}
void OobDataEventOccurred(bluetooth::hci::CommandCompleteView packet) {
LOG_INFO("Got OOB Data event");
ASSERT(packet.IsValid());
auto cc = bluetooth::hci::ReadLocalOobDataCompleteView::Create(packet);
ASSERT(cc.IsValid());
OobDataBondMessage msg;
OobDataMessage p192;
// Just need this to satisfy the proto message
bluetooth::hci::AddressWithType peer;
*p192.mutable_address() = ToFacadeAddressWithType(peer);
auto c = cc.GetC();
p192.set_confirmation_value(c.data(), c.size());
auto r = cc.GetR();
p192.set_random_value(r.data(), r.size());
// Only the Extended version returns 256 also.
// The API has a parameter for both, so we set it
// empty and the module and test suite will ignore it.
OobDataMessage p256;
*p256.mutable_address() = ToFacadeAddressWithType(peer);
std::array<uint8_t, 16> empty_val;
p256.set_confirmation_value(empty_val.data(), empty_val.size());
p256.set_random_value(empty_val.data(), empty_val.size());
*msg.mutable_address() = ToFacadeAddressWithType(peer);
*msg.mutable_p192_data() = p192;
*msg.mutable_p256_data() = p256;
oob_events_.OnIncomingEvent(msg);
}
void DisconnectEventOccurred(bluetooth::hci::AddressWithType peer) {
LOG_INFO("%s", peer.ToString().c_str());
DisconnectMsg msg;
*msg.mutable_address() = ToFacadeAddressWithType(peer);
disconnect_events_.OnIncomingEvent(msg);
}
void DisplayPairingPrompt(const bluetooth::hci::AddressWithType& peer, std::string name) {
LOG_INFO("%s", peer.ToString().c_str());
UiMsg display_yes_no;
*display_yes_no.mutable_peer() = ToFacadeAddressWithType(peer);
display_yes_no.set_message_type(UiMsgType::DISPLAY_PAIRING_PROMPT);
display_yes_no.set_unique_id(unique_id++);
ui_events_.OnIncomingEvent(display_yes_no);
}
virtual void DisplayConfirmValue(ConfirmationData data) {
const bluetooth::hci::AddressWithType& peer = data.GetAddressWithType();
std::string name = data.GetName();
uint32_t numeric_value = data.GetNumericValue();
LOG_INFO("%s value = 0x%x", peer.ToString().c_str(), numeric_value);
UiMsg display_with_value;
*display_with_value.mutable_peer() = ToFacadeAddressWithType(peer);
display_with_value.set_message_type(UiMsgType::DISPLAY_YES_NO_WITH_VALUE);
display_with_value.set_numeric_value(numeric_value);
display_with_value.set_unique_id(unique_id++);
ui_events_.OnIncomingEvent(display_with_value);
}
void DisplayYesNoDialog(ConfirmationData data) override {
const bluetooth::hci::AddressWithType& peer = data.GetAddressWithType();
std::string name = data.GetName();
LOG_INFO("%s", peer.ToString().c_str());
UiMsg display_yes_no;
*display_yes_no.mutable_peer() = ToFacadeAddressWithType(peer);
display_yes_no.set_message_type(UiMsgType::DISPLAY_YES_NO);
display_yes_no.set_unique_id(unique_id++);
ui_events_.OnIncomingEvent(display_yes_no);
}
void DisplayPasskey(ConfirmationData data) override {
const bluetooth::hci::AddressWithType& peer = data.GetAddressWithType();
std::string name = data.GetName();
uint32_t passkey = data.GetNumericValue();
LOG_INFO("%s value = 0x%x", peer.ToString().c_str(), passkey);
UiMsg display_passkey;
*display_passkey.mutable_peer() = ToFacadeAddressWithType(peer);
display_passkey.set_message_type(UiMsgType::DISPLAY_PASSKEY);
display_passkey.set_numeric_value(passkey);
display_passkey.set_unique_id(unique_id++);
ui_events_.OnIncomingEvent(display_passkey);
}
void DisplayEnterPasskeyDialog(ConfirmationData data) override {
const bluetooth::hci::AddressWithType& peer = data.GetAddressWithType();
std::string name = data.GetName();
LOG_INFO("%s", peer.ToString().c_str());
UiMsg display_passkey_input;
*display_passkey_input.mutable_peer() = ToFacadeAddressWithType(peer);
display_passkey_input.set_message_type(UiMsgType::DISPLAY_PASSKEY_ENTRY);
display_passkey_input.set_unique_id(unique_id++);
ui_events_.OnIncomingEvent(display_passkey_input);
}
void DisplayEnterPinDialog(ConfirmationData data) override {
const bluetooth::hci::AddressWithType& peer = data.GetAddressWithType();
std::string name = data.GetName();
LOG_INFO("%s", peer.ToString().c_str());
UiMsg display_pin_input;
*display_pin_input.mutable_peer() = ToFacadeAddressWithType(peer);
display_pin_input.set_message_type(UiMsgType::DISPLAY_PIN_ENTRY);
display_pin_input.set_unique_id(unique_id++);
ui_events_.OnIncomingEvent(display_pin_input);
}
void Cancel(const bluetooth::hci::AddressWithType& peer) override {
LOG_INFO("%s", peer.ToString().c_str());
UiMsg display_cancel;
*display_cancel.mutable_peer() = ToFacadeAddressWithType(peer);
display_cancel.set_message_type(UiMsgType::DISPLAY_CANCEL);
display_cancel.set_unique_id(unique_id++);
ui_events_.OnIncomingEvent(display_cancel);
}
void OnDeviceBonded(hci::AddressWithType peer) override {
LOG_INFO("%s", peer.ToString().c_str());
BondMsg bonded;
*bonded.mutable_peer() = ToFacadeAddressWithType(peer);
bonded.set_message_type(BondMsgType::DEVICE_BONDED);
bond_events_.OnIncomingEvent(bonded);
}
void OnEncryptionStateChanged(hci::EncryptionChangeView encryption_change_view) override {}
void OnDeviceUnbonded(hci::AddressWithType peer) override {
LOG_INFO("%s", peer.ToString().c_str());
BondMsg unbonded;
*unbonded.mutable_peer() = ToFacadeAddressWithType(peer);
unbonded.set_message_type(BondMsgType::DEVICE_UNBONDED);
bond_events_.OnIncomingEvent(unbonded);
}
void OnDeviceBondFailed(hci::AddressWithType peer, PairingFailure status) override {
LOG_INFO("%s", peer.ToString().c_str());
BondMsg bond_failed;
*bond_failed.mutable_peer() = ToFacadeAddressWithType(peer);
bond_failed.set_message_type(BondMsgType::DEVICE_BOND_FAILED);
bond_failed.set_reason(static_cast<uint8_t>(status.reason));
bond_events_.OnIncomingEvent(bond_failed);
}
void EnforceSecurityPolicyEvent(bool result) {
EnforceSecurityPolicyMsg msg;
msg.set_result(result);
enforce_security_policy_events_.OnIncomingEvent(msg);
}
private:
SecurityModule* security_module_;
L2capLeModule* l2cap_le_module_;
::bluetooth::os::Handler* security_handler_;
::bluetooth::grpc::GrpcEventQueue<UiMsg> ui_events_{"UI events"};
::bluetooth::grpc::GrpcEventQueue<BondMsg> bond_events_{"Bond events"};
::bluetooth::grpc::GrpcEventQueue<SecurityHelperMsg> helper_events_{"Events that don't fit any other category"};
::bluetooth::grpc::GrpcEventQueue<EnforceSecurityPolicyMsg> enforce_security_policy_events_{
"Enforce Security Policy Events"};
::bluetooth::grpc::GrpcEventQueue<DisconnectMsg> disconnect_events_{"Disconnect events"};
::bluetooth::grpc::GrpcEventQueue<OobDataBondMessage> oob_events_{"OOB Data events"};
uint32_t unique_id{1};
std::map<uint32_t, common::OnceCallback<void(bool)>> user_yes_no_callbacks_;
std::map<uint32_t, common::OnceCallback<void(uint32_t)>> user_passkey_callbacks_;
};
void SecurityModuleFacadeModule::ListDependencies(ModuleList* list) const {
::bluetooth::grpc::GrpcFacadeModule::ListDependencies(list);
list->add<SecurityModule>();
list->add<L2capLeModule>();
}
void SecurityModuleFacadeModule::Start() {
::bluetooth::grpc::GrpcFacadeModule::Start();
service_ =
new SecurityModuleFacadeService(GetDependency<SecurityModule>(), GetDependency<L2capLeModule>(), GetHandler());
}
void SecurityModuleFacadeModule::Stop() {
delete service_;
::bluetooth::grpc::GrpcFacadeModule::Stop();
}
::grpc::Service* SecurityModuleFacadeModule::GetService() const {
return service_;
}
const ModuleFactory SecurityModuleFacadeModule::Factory =
::bluetooth::ModuleFactory([]() { return new SecurityModuleFacadeModule(); });
} // namespace security
} // namespace bluetooth