/****************************************************************************** * * Copyright 2016 Google, Inc. * * 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 #include #include #include #include #include #include #include #include #include #include #include #include #include "bluetooth/metrics/bluetooth.pb.h" #include "osi/include/osi.h" #include "stack/include/btm_api_types.h" #include "address_obfuscator.h" #include "leaky_bonded_queue.h" #include "metric_id_allocator.h" #include "metrics.h" #include "time_util.h" namespace bluetooth { namespace common { using bluetooth::metrics::BluetoothMetricsProto::A2DPSession; using bluetooth::metrics::BluetoothMetricsProto::A2dpSourceCodec; using bluetooth::metrics::BluetoothMetricsProto::BluetoothLog; using bluetooth::metrics::BluetoothMetricsProto::BluetoothSession; using bluetooth::metrics::BluetoothMetricsProto:: BluetoothSession_ConnectionTechnologyType; using bluetooth::metrics::BluetoothMetricsProto:: BluetoothSession_DisconnectReasonType; using bluetooth::metrics::BluetoothMetricsProto::DeviceInfo; using bluetooth::metrics::BluetoothMetricsProto::DeviceInfo_DeviceType; using bluetooth::metrics::BluetoothMetricsProto::HeadsetProfileConnectionStats; using bluetooth::metrics::BluetoothMetricsProto::HeadsetProfileType; using bluetooth::metrics::BluetoothMetricsProto::HeadsetProfileType_ARRAYSIZE; using bluetooth::metrics::BluetoothMetricsProto::HeadsetProfileType_IsValid; using bluetooth::metrics::BluetoothMetricsProto::HeadsetProfileType_MAX; using bluetooth::metrics::BluetoothMetricsProto::HeadsetProfileType_MIN; using bluetooth::metrics::BluetoothMetricsProto::PairEvent; using bluetooth::metrics::BluetoothMetricsProto::ScanEvent; using bluetooth::metrics::BluetoothMetricsProto::ScanEvent_ScanEventType; using bluetooth::metrics::BluetoothMetricsProto::ScanEvent_ScanTechnologyType; using bluetooth::metrics::BluetoothMetricsProto::WakeEvent; using bluetooth::metrics::BluetoothMetricsProto::WakeEvent_WakeEventType; static float combine_averages(float avg_a, int64_t ct_a, float avg_b, int64_t ct_b) { if (ct_a > 0 && ct_b > 0) { return (avg_a * ct_a + avg_b * ct_b) / (ct_a + ct_b); } else if (ct_b > 0) { return avg_b; } else { return avg_a; } } static int32_t combine_averages(int32_t avg_a, int64_t ct_a, int32_t avg_b, int64_t ct_b) { if (ct_a > 0 && ct_b > 0) { return (avg_a * ct_a + avg_b * ct_b) / (ct_a + ct_b); } else if (ct_b > 0) { return avg_b; } else { return avg_a; } } void A2dpSessionMetrics::Update(const A2dpSessionMetrics& metrics) { if (metrics.audio_duration_ms >= 0) { audio_duration_ms = std::max(static_cast(0), audio_duration_ms); audio_duration_ms += metrics.audio_duration_ms; } if (metrics.media_timer_min_ms >= 0) { if (media_timer_min_ms < 0) { media_timer_min_ms = metrics.media_timer_min_ms; } else { media_timer_min_ms = std::min(media_timer_min_ms, metrics.media_timer_min_ms); } } if (metrics.media_timer_max_ms >= 0) { media_timer_max_ms = std::max(media_timer_max_ms, metrics.media_timer_max_ms); } if (metrics.media_timer_avg_ms >= 0 && metrics.total_scheduling_count >= 0) { if (media_timer_avg_ms < 0 || total_scheduling_count < 0) { media_timer_avg_ms = metrics.media_timer_avg_ms; total_scheduling_count = metrics.total_scheduling_count; } else { media_timer_avg_ms = combine_averages( media_timer_avg_ms, total_scheduling_count, metrics.media_timer_avg_ms, metrics.total_scheduling_count); total_scheduling_count += metrics.total_scheduling_count; } } if (metrics.buffer_overruns_max_count >= 0) { buffer_overruns_max_count = std::max(buffer_overruns_max_count, metrics.buffer_overruns_max_count); } if (metrics.buffer_overruns_total >= 0) { buffer_overruns_total = std::max(static_cast(0), buffer_overruns_total); buffer_overruns_total += metrics.buffer_overruns_total; } if (metrics.buffer_underruns_average >= 0 && metrics.buffer_underruns_count >= 0) { if (buffer_underruns_average < 0 || buffer_underruns_count < 0) { buffer_underruns_average = metrics.buffer_underruns_average; buffer_underruns_count = metrics.buffer_underruns_count; } else { buffer_underruns_average = combine_averages( buffer_underruns_average, buffer_underruns_count, metrics.buffer_underruns_average, metrics.buffer_underruns_count); buffer_underruns_count += metrics.buffer_underruns_count; } } if (codec_index < 0) { codec_index = metrics.codec_index; } if (!is_a2dp_offload) { is_a2dp_offload = metrics.is_a2dp_offload; } } bool A2dpSessionMetrics::operator==(const A2dpSessionMetrics& rhs) const { return audio_duration_ms == rhs.audio_duration_ms && media_timer_min_ms == rhs.media_timer_min_ms && media_timer_max_ms == rhs.media_timer_max_ms && media_timer_avg_ms == rhs.media_timer_avg_ms && total_scheduling_count == rhs.total_scheduling_count && buffer_overruns_max_count == rhs.buffer_overruns_max_count && buffer_overruns_total == rhs.buffer_overruns_total && buffer_underruns_average == rhs.buffer_underruns_average && buffer_underruns_count == rhs.buffer_underruns_count && codec_index == rhs.codec_index && is_a2dp_offload == rhs.is_a2dp_offload; } static DeviceInfo_DeviceType get_device_type(device_type_t type) { switch (type) { case DEVICE_TYPE_BREDR: return DeviceInfo_DeviceType::DeviceInfo_DeviceType_DEVICE_TYPE_BREDR; case DEVICE_TYPE_LE: return DeviceInfo_DeviceType::DeviceInfo_DeviceType_DEVICE_TYPE_LE; case DEVICE_TYPE_DUMO: return DeviceInfo_DeviceType::DeviceInfo_DeviceType_DEVICE_TYPE_DUMO; case DEVICE_TYPE_UNKNOWN: default: return DeviceInfo_DeviceType::DeviceInfo_DeviceType_DEVICE_TYPE_UNKNOWN; } } static BluetoothSession_ConnectionTechnologyType get_connection_tech_type( connection_tech_t type) { switch (type) { case CONNECTION_TECHNOLOGY_TYPE_LE: return BluetoothSession_ConnectionTechnologyType:: BluetoothSession_ConnectionTechnologyType_CONNECTION_TECHNOLOGY_TYPE_LE; case CONNECTION_TECHNOLOGY_TYPE_BREDR: return BluetoothSession_ConnectionTechnologyType:: BluetoothSession_ConnectionTechnologyType_CONNECTION_TECHNOLOGY_TYPE_BREDR; case CONNECTION_TECHNOLOGY_TYPE_UNKNOWN: default: return BluetoothSession_ConnectionTechnologyType:: BluetoothSession_ConnectionTechnologyType_CONNECTION_TECHNOLOGY_TYPE_UNKNOWN; } } static ScanEvent_ScanTechnologyType get_scan_tech_type(scan_tech_t type) { switch (type) { case SCAN_TECH_TYPE_LE: return ScanEvent_ScanTechnologyType:: ScanEvent_ScanTechnologyType_SCAN_TECH_TYPE_LE; case SCAN_TECH_TYPE_BREDR: return ScanEvent_ScanTechnologyType:: ScanEvent_ScanTechnologyType_SCAN_TECH_TYPE_BREDR; case SCAN_TECH_TYPE_BOTH: return ScanEvent_ScanTechnologyType:: ScanEvent_ScanTechnologyType_SCAN_TECH_TYPE_BOTH; case SCAN_TYPE_UNKNOWN: default: return ScanEvent_ScanTechnologyType:: ScanEvent_ScanTechnologyType_SCAN_TYPE_UNKNOWN; } } static WakeEvent_WakeEventType get_wake_event_type(wake_event_type_t type) { switch (type) { case WAKE_EVENT_ACQUIRED: return WakeEvent_WakeEventType::WakeEvent_WakeEventType_ACQUIRED; case WAKE_EVENT_RELEASED: return WakeEvent_WakeEventType::WakeEvent_WakeEventType_RELEASED; case WAKE_EVENT_UNKNOWN: default: return WakeEvent_WakeEventType::WakeEvent_WakeEventType_UNKNOWN; } } static BluetoothSession_DisconnectReasonType get_disconnect_reason_type( disconnect_reason_t type) { switch (type) { case DISCONNECT_REASON_METRICS_DUMP: return BluetoothSession_DisconnectReasonType:: BluetoothSession_DisconnectReasonType_METRICS_DUMP; case DISCONNECT_REASON_NEXT_START_WITHOUT_END_PREVIOUS: return BluetoothSession_DisconnectReasonType:: BluetoothSession_DisconnectReasonType_NEXT_START_WITHOUT_END_PREVIOUS; case DISCONNECT_REASON_UNKNOWN: default: return BluetoothSession_DisconnectReasonType:: BluetoothSession_DisconnectReasonType_UNKNOWN; } } static A2dpSourceCodec get_a2dp_source_codec(int64_t codec_index) { switch (codec_index) { case BTAV_A2DP_CODEC_INDEX_SOURCE_SBC: return A2dpSourceCodec::A2DP_SOURCE_CODEC_SBC; case BTAV_A2DP_CODEC_INDEX_SOURCE_AAC: return A2dpSourceCodec::A2DP_SOURCE_CODEC_AAC; case BTAV_A2DP_CODEC_INDEX_SOURCE_APTX: return A2dpSourceCodec::A2DP_SOURCE_CODEC_APTX; case BTAV_A2DP_CODEC_INDEX_SOURCE_APTX_HD: return A2dpSourceCodec::A2DP_SOURCE_CODEC_APTX_HD; case BTAV_A2DP_CODEC_INDEX_SOURCE_LDAC: return A2dpSourceCodec::A2DP_SOURCE_CODEC_LDAC; default: return A2dpSourceCodec::A2DP_SOURCE_CODEC_UNKNOWN; } } struct BluetoothMetricsLogger::impl { impl(size_t max_bluetooth_session, size_t max_pair_event, size_t max_wake_event, size_t max_scan_event) : bt_session_queue_( new LeakyBondedQueue(max_bluetooth_session)), pair_event_queue_(new LeakyBondedQueue(max_pair_event)), wake_event_queue_(new LeakyBondedQueue(max_wake_event)), scan_event_queue_(new LeakyBondedQueue(max_scan_event)) { bluetooth_log_ = BluetoothLog::default_instance().New(); headset_profile_connection_counts_.fill(0); bluetooth_session_ = nullptr; bluetooth_session_start_time_ms_ = 0; a2dp_session_metrics_ = A2dpSessionMetrics(); } /* Bluetooth log lock protected */ BluetoothLog* bluetooth_log_; std::array headset_profile_connection_counts_; std::recursive_mutex bluetooth_log_lock_; /* End Bluetooth log lock protected */ /* Bluetooth session lock protected */ BluetoothSession* bluetooth_session_; uint64_t bluetooth_session_start_time_ms_; A2dpSessionMetrics a2dp_session_metrics_; std::recursive_mutex bluetooth_session_lock_; /* End bluetooth session lock protected */ std::unique_ptr> bt_session_queue_; std::unique_ptr> pair_event_queue_; std::unique_ptr> wake_event_queue_; std::unique_ptr> scan_event_queue_; }; BluetoothMetricsLogger::BluetoothMetricsLogger() : pimpl_(new impl(kMaxNumBluetoothSession, kMaxNumPairEvent, kMaxNumWakeEvent, kMaxNumScanEvent)) {} void BluetoothMetricsLogger::LogPairEvent(uint32_t disconnect_reason, uint64_t timestamp_ms, uint32_t device_class, device_type_t device_type) { PairEvent* event = new PairEvent(); DeviceInfo* info = event->mutable_device_paired_with(); info->set_device_class(device_class); info->set_device_type(get_device_type(device_type)); event->set_disconnect_reason(disconnect_reason); event->set_event_time_millis(timestamp_ms); pimpl_->pair_event_queue_->Enqueue(event); { std::lock_guard lock(pimpl_->bluetooth_log_lock_); pimpl_->bluetooth_log_->set_num_pair_event( pimpl_->bluetooth_log_->num_pair_event() + 1); } } void BluetoothMetricsLogger::LogWakeEvent(wake_event_type_t type, const std::string& requestor, const std::string& name, uint64_t timestamp_ms) { WakeEvent* event = new WakeEvent(); event->set_wake_event_type(get_wake_event_type(type)); event->set_requestor(requestor); event->set_name(name); event->set_event_time_millis(timestamp_ms); pimpl_->wake_event_queue_->Enqueue(event); { std::lock_guard lock(pimpl_->bluetooth_log_lock_); pimpl_->bluetooth_log_->set_num_wake_event( pimpl_->bluetooth_log_->num_wake_event() + 1); } } void BluetoothMetricsLogger::LogScanEvent(bool start, const std::string& initator, scan_tech_t type, uint32_t results, uint64_t timestamp_ms) { ScanEvent* event = new ScanEvent(); if (start) { event->set_scan_event_type(ScanEvent::SCAN_EVENT_START); } else { event->set_scan_event_type(ScanEvent::SCAN_EVENT_STOP); } event->set_initiator(initator); event->set_scan_technology_type(get_scan_tech_type(type)); event->set_number_results(results); event->set_event_time_millis(timestamp_ms); pimpl_->scan_event_queue_->Enqueue(event); { std::lock_guard lock(pimpl_->bluetooth_log_lock_); pimpl_->bluetooth_log_->set_num_scan_event( pimpl_->bluetooth_log_->num_scan_event() + 1); } } void BluetoothMetricsLogger::LogBluetoothSessionStart( connection_tech_t connection_tech_type, uint64_t timestamp_ms) { std::lock_guard lock(pimpl_->bluetooth_session_lock_); if (pimpl_->bluetooth_session_ != nullptr) { LogBluetoothSessionEnd(DISCONNECT_REASON_NEXT_START_WITHOUT_END_PREVIOUS, 0); } if (timestamp_ms == 0) { timestamp_ms = bluetooth::common::time_get_os_boottime_ms(); } pimpl_->bluetooth_session_start_time_ms_ = timestamp_ms; pimpl_->bluetooth_session_ = new BluetoothSession(); pimpl_->bluetooth_session_->set_connection_technology_type( get_connection_tech_type(connection_tech_type)); } void BluetoothMetricsLogger::LogBluetoothSessionEnd( disconnect_reason_t disconnect_reason, uint64_t timestamp_ms) { std::lock_guard lock(pimpl_->bluetooth_session_lock_); if (pimpl_->bluetooth_session_ == nullptr) { return; } if (timestamp_ms == 0) { timestamp_ms = bluetooth::common::time_get_os_boottime_ms(); } int64_t session_duration_sec = (timestamp_ms - pimpl_->bluetooth_session_start_time_ms_) / 1000; pimpl_->bluetooth_session_->set_session_duration_sec(session_duration_sec); pimpl_->bluetooth_session_->set_disconnect_reason_type( get_disconnect_reason_type(disconnect_reason)); pimpl_->bt_session_queue_->Enqueue(pimpl_->bluetooth_session_); pimpl_->bluetooth_session_ = nullptr; pimpl_->a2dp_session_metrics_ = A2dpSessionMetrics(); { std::lock_guard log_lock(pimpl_->bluetooth_log_lock_); pimpl_->bluetooth_log_->set_num_bluetooth_session( pimpl_->bluetooth_log_->num_bluetooth_session() + 1); } } void BluetoothMetricsLogger::LogBluetoothSessionDeviceInfo( uint32_t device_class, device_type_t device_type) { std::lock_guard lock(pimpl_->bluetooth_session_lock_); if (pimpl_->bluetooth_session_ == nullptr) { LogBluetoothSessionStart(CONNECTION_TECHNOLOGY_TYPE_UNKNOWN, 0); } DeviceInfo* info = pimpl_->bluetooth_session_->mutable_device_connected_to(); info->set_device_class(device_class); info->set_device_type(DeviceInfo::DEVICE_TYPE_BREDR); } void BluetoothMetricsLogger::LogA2dpSession( const A2dpSessionMetrics& a2dp_session_metrics) { std::lock_guard lock(pimpl_->bluetooth_session_lock_); if (pimpl_->bluetooth_session_ == nullptr) { // When no bluetooth session exist, create one on system's behalf // Set connection type: for A2DP it is always BR/EDR LogBluetoothSessionStart(CONNECTION_TECHNOLOGY_TYPE_BREDR, 0); LogBluetoothSessionDeviceInfo(BTM_COD_MAJOR_AUDIO, DEVICE_TYPE_BREDR); } // Accumulate metrics pimpl_->a2dp_session_metrics_.Update(a2dp_session_metrics); // Get or allocate new A2DP session object A2DPSession* a2dp_session = pimpl_->bluetooth_session_->mutable_a2dp_session(); a2dp_session->set_audio_duration_millis( pimpl_->a2dp_session_metrics_.audio_duration_ms); a2dp_session->set_media_timer_min_millis( pimpl_->a2dp_session_metrics_.media_timer_min_ms); a2dp_session->set_media_timer_max_millis( pimpl_->a2dp_session_metrics_.media_timer_max_ms); a2dp_session->set_media_timer_avg_millis( pimpl_->a2dp_session_metrics_.media_timer_avg_ms); a2dp_session->set_buffer_overruns_max_count( pimpl_->a2dp_session_metrics_.buffer_overruns_max_count); a2dp_session->set_buffer_overruns_total( pimpl_->a2dp_session_metrics_.buffer_overruns_total); a2dp_session->set_buffer_underruns_average( pimpl_->a2dp_session_metrics_.buffer_underruns_average); a2dp_session->set_buffer_underruns_count( pimpl_->a2dp_session_metrics_.buffer_underruns_count); a2dp_session->set_source_codec( get_a2dp_source_codec(pimpl_->a2dp_session_metrics_.codec_index)); a2dp_session->set_is_a2dp_offload( pimpl_->a2dp_session_metrics_.is_a2dp_offload); } void BluetoothMetricsLogger::LogHeadsetProfileRfcConnection( tBTA_SERVICE_ID service_id) { std::lock_guard lock(pimpl_->bluetooth_log_lock_); switch (service_id) { case BTA_HSP_SERVICE_ID: pimpl_->headset_profile_connection_counts_[HeadsetProfileType::HSP]++; break; case BTA_HFP_SERVICE_ID: pimpl_->headset_profile_connection_counts_[HeadsetProfileType::HFP]++; break; default: pimpl_->headset_profile_connection_counts_ [HeadsetProfileType::HEADSET_PROFILE_UNKNOWN]++; break; } return; } void BluetoothMetricsLogger::WriteString(std::string* serialized) { std::lock_guard lock(pimpl_->bluetooth_log_lock_); LOG(INFO) << __func__ << ": building metrics"; Build(); LOG(INFO) << __func__ << ": serializing metrics"; if (!pimpl_->bluetooth_log_->SerializeToString(serialized)) { LOG(ERROR) << __func__ << ": error serializing metrics"; } // Always clean up log objects pimpl_->bluetooth_log_->Clear(); } void BluetoothMetricsLogger::WriteBase64String(std::string* serialized) { this->WriteString(serialized); base::Base64Encode(*serialized, serialized); } void BluetoothMetricsLogger::WriteBase64(int fd) { std::string protoBase64; this->WriteBase64String(&protoBase64); ssize_t ret; OSI_NO_INTR(ret = write(fd, protoBase64.c_str(), protoBase64.size())); if (ret == -1) { LOG(ERROR) << __func__ << ": error writing to dumpsys fd: " << strerror(errno) << " (" << std::to_string(errno) << ")"; } } void BluetoothMetricsLogger::CutoffSession() { std::lock_guard lock(pimpl_->bluetooth_session_lock_); if (pimpl_->bluetooth_session_ != nullptr) { BluetoothSession* new_bt_session = new BluetoothSession(*pimpl_->bluetooth_session_); new_bt_session->clear_a2dp_session(); new_bt_session->clear_rfcomm_session(); LogBluetoothSessionEnd(DISCONNECT_REASON_METRICS_DUMP, 0); pimpl_->bluetooth_session_ = new_bt_session; pimpl_->bluetooth_session_start_time_ms_ = bluetooth::common::time_get_os_boottime_ms(); pimpl_->a2dp_session_metrics_ = A2dpSessionMetrics(); } } void BluetoothMetricsLogger::Build() { std::lock_guard lock(pimpl_->bluetooth_log_lock_); CutoffSession(); BluetoothLog* bluetooth_log = pimpl_->bluetooth_log_; while (!pimpl_->bt_session_queue_->Empty() && static_cast(bluetooth_log->session_size()) <= pimpl_->bt_session_queue_->Capacity()) { bluetooth_log->mutable_session()->AddAllocated( pimpl_->bt_session_queue_->Dequeue()); } while (!pimpl_->pair_event_queue_->Empty() && static_cast(bluetooth_log->pair_event_size()) <= pimpl_->pair_event_queue_->Capacity()) { bluetooth_log->mutable_pair_event()->AddAllocated( pimpl_->pair_event_queue_->Dequeue()); } while (!pimpl_->scan_event_queue_->Empty() && static_cast(bluetooth_log->scan_event_size()) <= pimpl_->scan_event_queue_->Capacity()) { bluetooth_log->mutable_scan_event()->AddAllocated( pimpl_->scan_event_queue_->Dequeue()); } while (!pimpl_->wake_event_queue_->Empty() && static_cast(bluetooth_log->wake_event_size()) <= pimpl_->wake_event_queue_->Capacity()) { bluetooth_log->mutable_wake_event()->AddAllocated( pimpl_->wake_event_queue_->Dequeue()); } while (!pimpl_->bt_session_queue_->Empty() && static_cast(bluetooth_log->wake_event_size()) <= pimpl_->wake_event_queue_->Capacity()) { bluetooth_log->mutable_wake_event()->AddAllocated( pimpl_->wake_event_queue_->Dequeue()); } for (size_t i = 0; i < HeadsetProfileType_ARRAYSIZE; ++i) { int num_times_connected = pimpl_->headset_profile_connection_counts_[i]; if (HeadsetProfileType_IsValid(i) && num_times_connected > 0) { HeadsetProfileConnectionStats* headset_profile_connection_stats = bluetooth_log->add_headset_profile_connection_stats(); // Able to static_cast because HeadsetProfileType_IsValid(i) is true headset_profile_connection_stats->set_headset_profile_type( static_cast(i)); headset_profile_connection_stats->set_num_times_connected( num_times_connected); } } pimpl_->headset_profile_connection_counts_.fill(0); } void BluetoothMetricsLogger::ResetSession() { std::lock_guard lock(pimpl_->bluetooth_session_lock_); if (pimpl_->bluetooth_session_ != nullptr) { delete pimpl_->bluetooth_session_; pimpl_->bluetooth_session_ = nullptr; } pimpl_->bluetooth_session_start_time_ms_ = 0; pimpl_->a2dp_session_metrics_ = A2dpSessionMetrics(); } void BluetoothMetricsLogger::ResetLog() { std::lock_guard lock(pimpl_->bluetooth_log_lock_); pimpl_->bluetooth_log_->Clear(); } void BluetoothMetricsLogger::Reset() { ResetSession(); ResetLog(); pimpl_->bt_session_queue_->Clear(); pimpl_->pair_event_queue_->Clear(); pimpl_->wake_event_queue_->Clear(); pimpl_->scan_event_queue_->Clear(); } void LogLinkLayerConnectionEvent(const RawAddress* address, uint32_t connection_handle, android::bluetooth::DirectionEnum direction, uint16_t link_type, uint32_t hci_cmd, uint16_t hci_event, uint16_t hci_ble_event, uint16_t cmd_status, uint16_t reason_code) { std::string obfuscated_id; int metric_id = 0; if (address != nullptr) { obfuscated_id = AddressObfuscator::GetInstance()->Obfuscate(*address); metric_id = MetricIdAllocator::GetInstance().AllocateId(*address); } // nullptr and size 0 represent missing value for obfuscated_id android::util::BytesField bytes_field( address != nullptr ? obfuscated_id.c_str() : nullptr, address != nullptr ? obfuscated_id.size() : 0); int ret = android::util::stats_write( android::util::BLUETOOTH_LINK_LAYER_CONNECTION_EVENT, bytes_field, connection_handle, direction, link_type, hci_cmd, hci_event, hci_ble_event, cmd_status, reason_code, metric_id); if (ret < 0) { LOG(WARNING) << __func__ << ": failed to log status " << loghex(cmd_status) << ", reason " << loghex(reason_code) << " from cmd " << loghex(hci_cmd) << ", event " << loghex(hci_event) << ", ble_event " << loghex(hci_ble_event) << " for " << address << ", handle " << connection_handle << ", type " << loghex(link_type) << ", error " << ret; } } void LogHciTimeoutEvent(uint32_t hci_cmd) { int ret = android::util::stats_write(android::util::BLUETOOTH_HCI_TIMEOUT_REPORTED, static_cast(hci_cmd)); if (ret < 0) { LOG(WARNING) << __func__ << ": failed for opcode " << loghex(hci_cmd) << ", error " << ret; } } void LogRemoteVersionInfo(uint16_t handle, uint8_t status, uint8_t version, uint16_t manufacturer_name, uint16_t subversion) { int ret = android::util::stats_write( android::util::BLUETOOTH_REMOTE_VERSION_INFO_REPORTED, handle, status, version, manufacturer_name, subversion); if (ret < 0) { LOG(WARNING) << __func__ << ": failed for handle " << handle << ", status " << loghex(status) << ", version " << loghex(version) << ", manufacturer_name " << loghex(manufacturer_name) << ", subversion " << loghex(subversion) << ", error " << ret; } } void LogA2dpAudioUnderrunEvent(const RawAddress& address, uint64_t encoding_interval_millis, int num_missing_pcm_bytes) { std::string obfuscated_id; int metric_id = 0; if (!address.IsEmpty()) { obfuscated_id = AddressObfuscator::GetInstance()->Obfuscate(address); metric_id = MetricIdAllocator::GetInstance().AllocateId(address); } // nullptr and size 0 represent missing value for obfuscated_id android::util::BytesField bytes_field( address.IsEmpty() ? nullptr : obfuscated_id.c_str(), address.IsEmpty() ? 0 : obfuscated_id.size()); int64_t encoding_interval_nanos = encoding_interval_millis * 1000000; int ret = android::util::stats_write( android::util::BLUETOOTH_A2DP_AUDIO_UNDERRUN_REPORTED, bytes_field, encoding_interval_nanos, num_missing_pcm_bytes, metric_id); if (ret < 0) { LOG(WARNING) << __func__ << ": failed for " << address << ", encoding_interval_nanos " << encoding_interval_nanos << ", num_missing_pcm_bytes " << num_missing_pcm_bytes << ", error " << ret; } } void LogA2dpAudioOverrunEvent(const RawAddress& address, uint64_t encoding_interval_millis, int num_dropped_buffers, int num_dropped_encoded_frames, int num_dropped_encoded_bytes) { std::string obfuscated_id; int metric_id = 0; if (!address.IsEmpty()) { obfuscated_id = AddressObfuscator::GetInstance()->Obfuscate(address); metric_id = MetricIdAllocator::GetInstance().AllocateId(address); } // nullptr and size 0 represent missing value for obfuscated_id android::util::BytesField bytes_field( address.IsEmpty() ? nullptr : obfuscated_id.c_str(), address.IsEmpty() ? 0 : obfuscated_id.size()); int64_t encoding_interval_nanos = encoding_interval_millis * 1000000; int ret = android::util::stats_write( android::util::BLUETOOTH_A2DP_AUDIO_OVERRUN_REPORTED, bytes_field, encoding_interval_nanos, num_dropped_buffers, num_dropped_encoded_frames, num_dropped_encoded_bytes, metric_id); if (ret < 0) { LOG(WARNING) << __func__ << ": failed to log for " << address << ", encoding_interval_nanos " << encoding_interval_nanos << ", num_dropped_buffers " << num_dropped_buffers << ", num_dropped_encoded_frames " << num_dropped_encoded_frames << ", num_dropped_encoded_bytes " << num_dropped_encoded_bytes << ", error " << ret; } } void LogA2dpPlaybackEvent(const RawAddress& address, int playback_state, int audio_coding_mode) { std::string obfuscated_id; int metric_id = 0; if (!address.IsEmpty()) { obfuscated_id = AddressObfuscator::GetInstance()->Obfuscate(address); metric_id = MetricIdAllocator::GetInstance().AllocateId(address); } // nullptr and size 0 represent missing value for obfuscated_id android::util::BytesField bytes_field( address.IsEmpty() ? nullptr : obfuscated_id.c_str(), address.IsEmpty() ? 0 : obfuscated_id.size()); int ret = android::util::stats_write( android::util::BLUETOOTH_A2DP_PLAYBACK_STATE_CHANGED, bytes_field, playback_state, audio_coding_mode, metric_id); if (ret < 0) { LOG(WARNING) << __func__ << ": failed to log for " << address << ", playback_state " << playback_state << ", audio_coding_mode " << audio_coding_mode << ", error " << ret; } } void LogReadRssiResult(const RawAddress& address, uint16_t handle, uint32_t cmd_status, int8_t rssi) { std::string obfuscated_id; int metric_id = 0; if (!address.IsEmpty()) { obfuscated_id = AddressObfuscator::GetInstance()->Obfuscate(address); metric_id = MetricIdAllocator::GetInstance().AllocateId(address); } // nullptr and size 0 represent missing value for obfuscated_id android::util::BytesField bytes_field( address.IsEmpty() ? nullptr : obfuscated_id.c_str(), address.IsEmpty() ? 0 : obfuscated_id.size()); int ret = android::util::stats_write( android::util::BLUETOOTH_DEVICE_RSSI_REPORTED, bytes_field, handle, cmd_status, rssi, metric_id); if (ret < 0) { LOG(WARNING) << __func__ << ": failed for " << address << ", handle " << handle << ", status " << loghex(cmd_status) << ", rssi " << rssi << " dBm, error " << ret; } } void LogReadFailedContactCounterResult(const RawAddress& address, uint16_t handle, uint32_t cmd_status, int32_t failed_contact_counter) { std::string obfuscated_id; int metric_id = 0; if (!address.IsEmpty()) { obfuscated_id = AddressObfuscator::GetInstance()->Obfuscate(address); metric_id = MetricIdAllocator::GetInstance().AllocateId(address); } // nullptr and size 0 represent missing value for obfuscated_id android::util::BytesField bytes_field( address.IsEmpty() ? nullptr : obfuscated_id.c_str(), address.IsEmpty() ? 0 : obfuscated_id.size()); int ret = android::util::stats_write( android::util::BLUETOOTH_DEVICE_FAILED_CONTACT_COUNTER_REPORTED, bytes_field, handle, cmd_status, failed_contact_counter, metric_id); if (ret < 0) { LOG(WARNING) << __func__ << ": failed for " << address << ", handle " << handle << ", status " << loghex(cmd_status) << ", failed_contact_counter " << failed_contact_counter << " packets, error " << ret; } } void LogReadTxPowerLevelResult(const RawAddress& address, uint16_t handle, uint32_t cmd_status, int32_t transmit_power_level) { std::string obfuscated_id; int metric_id = 0; if (!address.IsEmpty()) { obfuscated_id = AddressObfuscator::GetInstance()->Obfuscate(address); metric_id = MetricIdAllocator::GetInstance().AllocateId(address); } // nullptr and size 0 represent missing value for obfuscated_id android::util::BytesField bytes_field( address.IsEmpty() ? nullptr : obfuscated_id.c_str(), address.IsEmpty() ? 0 : obfuscated_id.size()); int ret = android::util::stats_write( android::util::BLUETOOTH_DEVICE_TX_POWER_LEVEL_REPORTED, bytes_field, handle, cmd_status, transmit_power_level, metric_id); if (ret < 0) { LOG(WARNING) << __func__ << ": failed for " << address << ", handle " << handle << ", status " << loghex(cmd_status) << ", transmit_power_level " << transmit_power_level << " packets, error " << ret; } } void LogSmpPairingEvent(const RawAddress& address, uint8_t smp_cmd, android::bluetooth::DirectionEnum direction, uint8_t smp_fail_reason) { std::string obfuscated_id; int metric_id = 0; if (!address.IsEmpty()) { obfuscated_id = AddressObfuscator::GetInstance()->Obfuscate(address); metric_id = MetricIdAllocator::GetInstance().AllocateId(address); } // nullptr and size 0 represent missing value for obfuscated_id android::util::BytesField obfuscated_id_field( address.IsEmpty() ? nullptr : obfuscated_id.c_str(), address.IsEmpty() ? 0 : obfuscated_id.size()); int ret = android::util::stats_write( android::util::BLUETOOTH_SMP_PAIRING_EVENT_REPORTED, obfuscated_id_field, smp_cmd, direction, smp_fail_reason, metric_id); if (ret < 0) { LOG(WARNING) << __func__ << ": failed for " << address << ", smp_cmd " << loghex(smp_cmd) << ", direction " << direction << ", smp_fail_reason " << loghex(smp_fail_reason) << ", error " << ret; } } void LogClassicPairingEvent(const RawAddress& address, uint16_t handle, uint32_t hci_cmd, uint16_t hci_event, uint16_t cmd_status, uint16_t reason_code, int64_t event_value) { std::string obfuscated_id; int metric_id = 0; if (!address.IsEmpty()) { obfuscated_id = AddressObfuscator::GetInstance()->Obfuscate(address); metric_id = MetricIdAllocator::GetInstance().AllocateId(address); } // nullptr and size 0 represent missing value for obfuscated_id android::util::BytesField obfuscated_id_field( address.IsEmpty() ? nullptr : obfuscated_id.c_str(), address.IsEmpty() ? 0 : obfuscated_id.size()); int ret = android::util::stats_write( android::util::BLUETOOTH_CLASSIC_PAIRING_EVENT_REPORTED, obfuscated_id_field, handle, hci_cmd, hci_event, cmd_status, reason_code, event_value, metric_id); if (ret < 0) { LOG(WARNING) << __func__ << ": failed for " << address << ", handle " << handle << ", hci_cmd " << loghex(hci_cmd) << ", hci_event " << loghex(hci_event) << ", cmd_status " << loghex(cmd_status) << ", reason " << loghex(reason_code) << ", event_value " << event_value << ", error " << ret; } } void LogSdpAttribute(const RawAddress& address, uint16_t protocol_uuid, uint16_t attribute_id, size_t attribute_size, const char* attribute_value) { std::string obfuscated_id; int metric_id = 0; if (!address.IsEmpty()) { obfuscated_id = AddressObfuscator::GetInstance()->Obfuscate(address); metric_id = MetricIdAllocator::GetInstance().AllocateId(address); } // nullptr and size 0 represent missing value for obfuscated_id android::util::BytesField obfuscated_id_field( address.IsEmpty() ? nullptr : obfuscated_id.c_str(), address.IsEmpty() ? 0 : obfuscated_id.size()); android::util::BytesField attribute_field(attribute_value, attribute_size); int ret = android::util::stats_write( android::util::BLUETOOTH_SDP_ATTRIBUTE_REPORTED, obfuscated_id_field, protocol_uuid, attribute_id, attribute_field, metric_id); if (ret < 0) { LOG(WARNING) << __func__ << ": failed for " << address << ", protocol_uuid " << loghex(protocol_uuid) << ", attribute_id " << loghex(attribute_id) << ", error " << ret; } } void LogSocketConnectionState( const RawAddress& address, int port, int type, android::bluetooth::SocketConnectionstateEnum connection_state, int64_t tx_bytes, int64_t rx_bytes, int uid, int server_port, android::bluetooth::SocketRoleEnum socket_role) { std::string obfuscated_id; int metric_id = 0; if (!address.IsEmpty()) { obfuscated_id = AddressObfuscator::GetInstance()->Obfuscate(address); metric_id = MetricIdAllocator::GetInstance().AllocateId(address); } // nullptr and size 0 represent missing value for obfuscated_id android::util::BytesField obfuscated_id_field( address.IsEmpty() ? nullptr : obfuscated_id.c_str(), address.IsEmpty() ? 0 : obfuscated_id.size()); int ret = android::util::stats_write( android::util::BLUETOOTH_SOCKET_CONNECTION_STATE_CHANGED, obfuscated_id_field, port, type, connection_state, tx_bytes, rx_bytes, uid, server_port, socket_role, metric_id); if (ret < 0) { LOG(WARNING) << __func__ << ": failed for " << address << ", port " << port << ", type " << type << ", state " << connection_state << ", tx_bytes " << tx_bytes << ", rx_bytes " << rx_bytes << ", uid " << uid << ", server_port " << server_port << ", socket_role " << socket_role << ", error " << ret; } } void LogManufacturerInfo(const RawAddress& address, android::bluetooth::DeviceInfoSrcEnum source_type, const std::string& source_name, const std::string& manufacturer, const std::string& model, const std::string& hardware_version, const std::string& software_version) { std::string obfuscated_id; int metric_id = 0; if (!address.IsEmpty()) { obfuscated_id = AddressObfuscator::GetInstance()->Obfuscate(address); metric_id = MetricIdAllocator::GetInstance().AllocateId(address); } // nullptr and size 0 represent missing value for obfuscated_id android::util::BytesField obfuscated_id_field( address.IsEmpty() ? nullptr : obfuscated_id.c_str(), address.IsEmpty() ? 0 : obfuscated_id.size()); int ret = android::util::stats_write( android::util::BLUETOOTH_DEVICE_INFO_REPORTED, obfuscated_id_field, source_type, source_name.c_str(), manufacturer.c_str(), model.c_str(), hardware_version.c_str(), software_version.c_str(), metric_id); if (ret < 0) { LOG(WARNING) << __func__ << ": failed for " << address << ", source_type " << source_type << ", source_name " << source_name << ", manufacturer " << manufacturer << ", model " << model << ", hardware_version " << hardware_version << ", software_version " << software_version << ", error " << ret; } } void LogBluetoothHalCrashReason(const RawAddress& address, uint32_t error_code, uint32_t vendor_error_code) { std::string obfuscated_id; if (!address.IsEmpty()) { obfuscated_id = AddressObfuscator::GetInstance()->Obfuscate(address); } // nullptr and size 0 represent missing value for obfuscated_id android::util::BytesField obfuscated_id_field( address.IsEmpty() ? nullptr : obfuscated_id.c_str(), address.IsEmpty() ? 0 : obfuscated_id.size()); int ret = android::util::stats_write( android::util::BLUETOOTH_HAL_CRASH_REASON_REPORTED, 0, obfuscated_id_field, error_code, vendor_error_code); if (ret < 0) { LOG(WARNING) << __func__ << ": failed for " << address << ", error_code " << loghex(error_code) << ", vendor_error_code " << loghex(vendor_error_code) << ", error " << ret; } } } // namespace common } // namespace bluetooth