/* * Copyright 2020 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. */ #define LOG_TAG "bt_headless" #include "test/headless/headless.h" #include // dlopen #include #include #include #include "base/logging.h" // LOG() stdout and android log #include "include/hardware/bluetooth.h" #include "internal_include/bt_trace.h" #include "osi/include/log.h" // android log only #include "test/headless/get_options.h" #include "test/headless/interface.h" #include "test/headless/log.h" #include "types/raw_address.h" extern bt_interface_t bluetoothInterface; using namespace bluetooth::test::headless; namespace { constexpr char kHeadlessIcon[] = "🗣"; std::map> interface_api_callback_map_; } // namespace void headless_add_callback(const std::string interface_name, callback_function_t function) { if (interface_api_callback_map_.find(interface_name) == interface_api_callback_map_.end()) { interface_api_callback_map_.emplace(interface_name, std::list()); } interface_api_callback_map_[interface_name].push_back(function); } void headless_remove_callback(const std::string interface_name, callback_function_t function) { if (interface_api_callback_map_.find(interface_name) == interface_api_callback_map_.end()) { ASSERT_LOG(false, "No callbacks registered for interface:%s", interface_name.c_str()); } interface_api_callback_map_[interface_name].remove(function); } std::mutex adapter_state_mutex_; std::condition_variable adapter_state_cv_; bt_state_t bt_state_{BT_STATE_OFF}; void adapter_state_changed(bt_state_t state) { std::unique_lock lck(adapter_state_mutex_); bt_state_ = state; adapter_state_cv_.notify_all(); } void adapter_properties([[maybe_unused]] bt_status_t status, [[maybe_unused]] int num_properties, [[maybe_unused]] ::bt_property_t* properties) { LOG_INFO("%s", __func__); } void remote_device_properties(bt_status_t status, RawAddress* bd_addr, int num_properties, ::bt_property_t* properties) { CHECK(bd_addr != nullptr); const size_t num_callbacks = interface_api_callback_map_.size(); auto callback_list = interface_api_callback_map_.find(__func__); if (callback_list != interface_api_callback_map_.end()) { RawAddress raw_address = (bd_addr != nullptr) ? *bd_addr : RawAddress::kEmpty; for (auto callback : callback_list->second) { remote_device_properties_params_t params(status, raw_address, num_properties, properties); (callback)(¶ms); } } LOG_INFO( "%s num_callbacks:%zu status:%s device:%s num_properties:%d " "properties:%p", __func__, num_callbacks, bt_status_text(status).c_str(), STR(*bd_addr), num_properties, properties); } void device_found([[maybe_unused]] int num_properties, [[maybe_unused]] ::bt_property_t* properties) { LOG_INFO("%s", __func__); } void discovery_state_changed(bt_discovery_state_t state) { auto callback_list = interface_api_callback_map_.find(__func__); if (callback_list != interface_api_callback_map_.end()) { for (auto callback : callback_list->second) { discovery_state_changed_params_t params(state); (callback)(¶ms); } } } /** Bluetooth Legacy PinKey Request callback */ void pin_request([[maybe_unused]] RawAddress* remote_bd_addr, [[maybe_unused]] bt_bdname_t* bd_name, [[maybe_unused]] uint32_t cod, [[maybe_unused]] bool min_16_digit) { LOG_INFO("%s", __func__); } void ssp_request([[maybe_unused]] RawAddress* remote_bd_addr, [[maybe_unused]] bt_bdname_t* bd_name, [[maybe_unused]] uint32_t cod, [[maybe_unused]] bt_ssp_variant_t pairing_variant, [[maybe_unused]] uint32_t pass_key) { LOG_INFO("%s", __func__); } /** Bluetooth Bond state changed callback */ /* Invoked in response to create_bond, cancel_bond or remove_bond */ void bond_state_changed([[maybe_unused]] bt_status_t status, [[maybe_unused]] RawAddress* remote_bd_addr, [[maybe_unused]] bt_bond_state_t state, [[maybe_unused]] int fail_reason) { LOG_INFO("%s", __func__); } void address_consolidate([[maybe_unused]] RawAddress* main_bd_addr, [[maybe_unused]] RawAddress* secondary_bd_addr) { LOG_INFO("%s", __func__); } void le_address_associate([[maybe_unused]] RawAddress* main_bd_addr, [[maybe_unused]] RawAddress* secondary_bd_addr) { LOG_INFO("%s", __func__); } /** Bluetooth ACL connection state changed callback */ void acl_state_changed(bt_status_t status, RawAddress* remote_bd_addr, bt_acl_state_t state, int transport_link_type, bt_hci_error_code_t hci_reason, bt_conn_direction_t direction, uint16_t acl_handle) { CHECK(remote_bd_addr != nullptr); const size_t num_callbacks = interface_api_callback_map_.size(); auto callback_list = interface_api_callback_map_.find(__func__); if (callback_list != interface_api_callback_map_.end()) { RawAddress raw_address(*remote_bd_addr); for (auto callback : callback_list->second) { acl_state_changed_params_t params(status, raw_address, state, transport_link_type, hci_reason, direction, acl_handle); (callback)(¶ms); } } LOG_INFO("%s num_callbacks:%zu status:%s device:%s state:%s", __func__, num_callbacks, bt_status_text(status).c_str(), remote_bd_addr->ToString().c_str(), (state) ? "disconnected" : "connected"); } /** Bluetooth Link Quality Report callback */ void link_quality_report([[maybe_unused]] uint64_t timestamp, [[maybe_unused]] int report_id, [[maybe_unused]] int rssi, [[maybe_unused]] int snr, [[maybe_unused]] int retransmission_count, [[maybe_unused]] int packets_not_receive_count, [[maybe_unused]] int negative_acknowledgement_count) { LOG_INFO("%s", __func__); } /** Switch buffer size callback */ void switch_buffer_size([[maybe_unused]] bool is_low_latency_buffer_size) { LOG_INFO("%s", __func__); } /** Switch codec callback */ void switch_codec([[maybe_unused]] bool is_low_latency_buffer_size) { LOG_INFO("%s", __func__); } void thread_event([[maybe_unused]] bt_cb_thread_evt evt) { LOG_INFO("%s", __func__); } void energy_info([[maybe_unused]] bt_activity_energy_info* energy_info, [[maybe_unused]] bt_uid_traffic_t* uid_data) { LOG_INFO("%s", __func__); } bt_callbacks_t bt_callbacks{ /** set to sizeof(bt_callbacks_t) */ .size = sizeof(bt_callbacks_t), .adapter_state_changed_cb = adapter_state_changed, .adapter_properties_cb = adapter_properties, .remote_device_properties_cb = remote_device_properties, .device_found_cb = device_found, .discovery_state_changed_cb = discovery_state_changed, .pin_request_cb = pin_request, .ssp_request_cb = ssp_request, .bond_state_changed_cb = bond_state_changed, .address_consolidate_cb = address_consolidate, .le_address_associate_cb = le_address_associate, .acl_state_changed_cb = acl_state_changed, .thread_evt_cb = thread_event, .energy_info_cb = energy_info, .link_quality_report_cb = link_quality_report, .switch_buffer_size_cb = switch_buffer_size, .switch_codec_cb = switch_codec, }; // HAL HARDWARE CALLBACKS // OS CALLOUTS bool set_wake_alarm_co([[maybe_unused]] uint64_t delay_millis, [[maybe_unused]] bool should_wake, [[maybe_unused]] alarm_cb cb, [[maybe_unused]] void* data) { LOG_INFO("%s", __func__); return true; } int acquire_wake_lock_co([[maybe_unused]] const char* lock_name) { LOG_INFO("%s", __func__); return 1; } int release_wake_lock_co([[maybe_unused]] const char* lock_name) { LOG_INFO("%s", __func__); return 0; } bt_os_callouts_t bt_os_callouts{ .size = sizeof(bt_os_callouts_t), .set_wake_alarm = set_wake_alarm_co, .acquire_wake_lock = acquire_wake_lock_co, .release_wake_lock = release_wake_lock_co, }; void HeadlessStack::SetUp() { LOG(INFO) << __func__ << " Entry"; const bool start_restricted = false; const bool is_common_criteria_mode = false; const int config_compare_result = 0; const bool is_atv = false; int status = bluetoothInterface.init( &bt_callbacks, start_restricted, is_common_criteria_mode, config_compare_result, StackInitFlags(), is_atv, nullptr); (status == BT_STATUS_SUCCESS) ? LOG(INFO) << __func__ << " Initialized bluetooth callbacks" : LOG(FATAL) << "Failed to initialize Bluetooth stack"; status = bluetoothInterface.set_os_callouts(&bt_os_callouts); (status == BT_STATUS_SUCCESS) ? LOG(INFO) << __func__ << " Initialized os callouts" : LOG(ERROR) << "Failed to set up Bluetooth OS callouts"; bluetoothInterface.enable(); LOG_INFO("%s HeadlessStack stack has enabled", __func__); std::unique_lock lck(adapter_state_mutex_); while (bt_state_ != BT_STATE_ON) adapter_state_cv_.wait(lck); LOG_INFO("%s HeadlessStack stack is operational", __func__); // Logging can only be enabled after the stack has started up to override // the default logging levels built into the stack. enable_logging(); bluetooth::test::headless::start_messenger(); LOG_CONSOLE("%s Headless stack has started up successfully", kHeadlessIcon); } void HeadlessStack::TearDown() { bluetooth::test::headless::stop_messenger(); log_logging(); LOG_INFO("Stack has disabled"); int status = bluetoothInterface.disable(); LOG(INFO) << __func__ << " Interface has been disabled status:" << status; bluetoothInterface.cleanup(); LOG(INFO) << __func__ << " Cleaned up hal bluetooth library"; std::unique_lock lck(adapter_state_mutex_); while (bt_state_ != BT_STATE_OFF) adapter_state_cv_.wait(lck); LOG_INFO("%s HeadlessStack stack has exited", __func__); LOG_CONSOLE("%s Headless stack has shutdown successfully", kHeadlessIcon); }