/* * Author: Sven Gothel * Copyright (c) 2020 Gothel Software e.K. * Copyright (c) 2020 ZAFENA AB * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE * LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION * OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include #include #include #include #include #include #include // #define PERF_PRINT_ON 1 // PERF3_PRINT_ON for close // #define PERF3_PRINT_ON 1 #include #include "BTIoctl.hpp" #include "DBTManager.hpp" #include "HCIIoctl.hpp" #include "HCIComm.hpp" #include "DBTTypes.hpp" extern "C" { #include #include #include #include } using namespace direct_bt; BTMode MgmtEnv::getEnvBTMode() { // Environment variable is 'direct_bt.mgmt.btmode' or 'org.tinyb.btmode' // Default is BTMode::LE, if non of the above environment variable is set. std::string val = DBTEnv::getProperty("direct_bt.mgmt.btmode"); if( val.empty() ) { val = DBTEnv::getProperty("org.tinyb.btmode"); } const BTMode res = direct_bt::getBTMode(val); return BTMode::NONE != res ? res : BTMode::LE; // fallback to default LE } MgmtEnv::MgmtEnv() noexcept : DEBUG_GLOBAL( DBTEnv::get().DEBUG ), exploding( DBTEnv::getExplodingProperties("direct_bt.mgmt") ), MGMT_READER_THREAD_POLL_TIMEOUT( DBTEnv::getInt32Property("direct_bt.mgmt.reader.timeout", 10000, 1500 /* min */, INT32_MAX /* max */) ), MGMT_COMMAND_REPLY_TIMEOUT( DBTEnv::getInt32Property("direct_bt.mgmt.cmd.timeout", 3000, 1500 /* min */, INT32_MAX /* max */) ), MGMT_EVT_RING_CAPACITY( DBTEnv::getInt32Property("direct_bt.mgmt.ringsize", 64, 64 /* min */, 1024 /* max */) ), DEBUG_EVENT( DBTEnv::getBooleanProperty("direct_bt.debug.mgmt.event", false) ), DEFAULT_BTMODE( getEnvBTMode() ), MGMT_READ_PACKET_MAX_RETRY( MGMT_EVT_RING_CAPACITY ) { } const pid_t DBTManager::pidSelf = getpid(); std::mutex DBTManager::mtx_singleton; void DBTManager::mgmtReaderThreadImpl() noexcept { { const std::lock_guard lock(mtx_mgmtReaderLifecycle); // RAII-style acquire and relinquish via destructor mgmtReaderShallStop = false; mgmtReaderRunning = true; DBG_PRINT("DBTManager::reader: Started"); cv_mgmtReaderInit.notify_all(); } while( !mgmtReaderShallStop ) { int len; if( !comm.isOpen() ) { // not open ERR_PRINT("DBTManager::reader: Not connected"); mgmtReaderShallStop = true; break; } len = comm.read(rbuffer.get_wptr(), rbuffer.getSize(), env.MGMT_READER_THREAD_POLL_TIMEOUT); if( 0 < len ) { const uint16_t paramSize = len >= MGMT_HEADER_SIZE ? rbuffer.get_uint16_nc(4) : 0; if( len < MGMT_HEADER_SIZE + paramSize ) { WARN_PRINT("DBTManager::reader: length mismatch %d < MGMT_HEADER_SIZE(%d) + %d", len, MGMT_HEADER_SIZE, paramSize); continue; // discard data } std::shared_ptr event = MgmtEvent::getSpecialized(rbuffer.get_ptr(), len); const MgmtEvent::Opcode opc = event->getOpcode(); if( MgmtEvent::Opcode::CMD_COMPLETE == opc || MgmtEvent::Opcode::CMD_STATUS == opc ) { COND_PRINT(env.DEBUG_EVENT, "DBTManager-IO RECV (CMD) %s", event->toString().c_str()); if( mgmtEventRing.isFull() ) { const int dropCount = mgmtEventRing.capacity()/4; mgmtEventRing.drop(dropCount); WARN_PRINT("DBTManager-IO RECV Drop (%d oldest elements of %d capacity, ring full)", dropCount, mgmtEventRing.capacity()); } mgmtEventRing.putBlocking( event ); } else { // issue a callback COND_PRINT(env.DEBUG_EVENT, "DBTManager-IO RECV (CB) %s", event->toString().c_str()); sendMgmtEvent(event); } } else if( ETIMEDOUT != errno && !mgmtReaderShallStop ) { // expected exits ERR_PRINT("DBTManager::reader: HCIComm read error"); } } { const std::lock_guard lock(mtx_mgmtReaderLifecycle); // RAII-style acquire and relinquish via destructor WORDY_PRINT("DBTManager::reader: Ended. Ring has %d entries flushed", mgmtEventRing.getSize()); mgmtEventRing.clear(); mgmtReaderRunning = false; cv_mgmtReaderInit.notify_all(); } } void DBTManager::sendMgmtEvent(std::shared_ptr event) noexcept { const std::lock_guard lock(mtx_callbackLists); // RAII-style acquire and relinquish via destructor const int dev_id = event->getDevID(); MgmtAdapterEventCallbackList & mgmtEventCallbackList = mgmtAdapterEventCallbackLists[static_cast(event->getOpcode())]; int invokeCount = 0; for (auto it = mgmtEventCallbackList.begin(); it != mgmtEventCallbackList.end(); ++it) { if( 0 > it->getDevID() || dev_id == it->getDevID() ) { try { it->getCallback().invoke(event); } catch (std::exception &e) { ERR_PRINT("DBTManager::sendMgmtEvent-CBs %d/%zd: MgmtAdapterEventCallback %s : Caught exception %s", invokeCount+1, mgmtEventCallbackList.size(), it->toString().c_str(), e.what()); } invokeCount++; } } COND_PRINT(env.DEBUG_EVENT, "DBTManager::sendMgmtEvent: Event %s -> %d/%zd callbacks", event->toString().c_str(), invokeCount, mgmtEventCallbackList.size()); (void)invokeCount; } static void mgmthandler_sigaction(int sig, siginfo_t *info, void *ucontext) noexcept { bool pidMatch = info->si_pid == DBTManager::pidSelf; WORDY_PRINT("DBTManager.sigaction: sig %d, info[code %d, errno %d, signo %d, pid %d, uid %d, fd %d], pid-self %d (match %d)", sig, info->si_code, info->si_errno, info->si_signo, info->si_pid, info->si_uid, info->si_fd, DBTManager::pidSelf, pidMatch); (void)ucontext; if( !pidMatch || SIGALRM != sig ) { return; } #if 0 // We do not de-install the handler on single use, // as we act for multiple SIGALRM events within direct-bt { struct sigaction sa_setup; bzero(&sa_setup, sizeof(sa_setup)); sa_setup.sa_handler = SIG_DFL; sigemptyset(&(sa_setup.sa_mask)); sa_setup.sa_flags = 0; if( 0 != sigaction( SIGALRM, &sa_setup, NULL ) ) { ERR_PRINT("DBTManager.sigaction: Resetting sighandler"); } } #endif } std::shared_ptr DBTManager::sendWithReply(MgmtCommand &req) noexcept { const std::lock_guard lock(mtx_sendReply); // RAII-style acquire and relinquish via destructor { COND_PRINT(env.DEBUG_EVENT, "DBTManager-IO SENT %s", req.toString().c_str()); TROOctets & pdu = req.getPDU(); if ( comm.write( pdu.get_ptr(), pdu.getSize() ) < 0 ) { ERR_PRINT("DBTManager::sendWithReply: HCIComm write error, req %s", req.toString().c_str()); return nullptr; } } // Ringbuffer read is thread safe int32_t retryCount = 0; while( retryCount < env.MGMT_READ_PACKET_MAX_RETRY ) { std::shared_ptr res = mgmtEventRing.getBlocking(env.MGMT_COMMAND_REPLY_TIMEOUT); // std::shared_ptr res = receiveNext(); if( nullptr == res ) { errno = ETIMEDOUT; ERR_PRINT("DBTManager::sendWithReply.X: nullptr result (timeout -> abort): req %s", req.toString().c_str()); return nullptr; } else if( !res->validate(req) ) { // This could occur due to an earlier timeout w/ a nullptr == res (see above), // i.e. the pending reply processed here and naturally not-matching. COND_PRINT(env.DEBUG_EVENT, "DBTManager-IO RECV sendWithReply: res mismatch (drop evt, retryCount %d): res %s; req %s", retryCount, res->toString().c_str(), req.toString().c_str()); retryCount++; } else { COND_PRINT(env.DEBUG_EVENT, "DBTManager-IO RECV sendWithReply: res %s; req %s", res->toString().c_str(), req.toString().c_str()); return res; } } return nullptr; } void DBTManager::setAdapterMode(const uint16_t dev_id, const uint8_t ssp, const uint8_t bredr, const uint8_t le) noexcept { bool res; res = setMode(dev_id, MgmtOpcode::SET_SSP, ssp); DBG_PRINT("setAdapterMode[%d]: SET_SSP(%d): result %d", dev_id, ssp, res); res = setMode(dev_id, MgmtOpcode::SET_BREDR, bredr); DBG_PRINT("setAdapterMode[%d]: SET_BREDR(%d): result %d", dev_id, bredr, res); res = setMode(dev_id, MgmtOpcode::SET_LE, le); DBG_PRINT("setAdapterMode[%d]: SET_LE(%d): result %d", dev_id, le, res); } std::shared_ptr DBTManager::initAdapter(const uint16_t dev_id, const BTMode btMode) noexcept { std::shared_ptr adapterInfo = nullptr; bool powered; MgmtCommand req0(MgmtOpcode::READ_INFO, dev_id); { std::shared_ptr res = sendWithReply(req0); if( nullptr == res ) { goto fail; } if( MgmtEvent::Opcode::CMD_COMPLETE != res->getOpcode() || res->getTotalSize() < MgmtEvtAdapterInfo::getRequiredTotalSize()) { ERR_PRINT("Insufficient data for adapter info: req %d, res %s", MgmtEvtAdapterInfo::getRequiredTotalSize(), res->toString().c_str()); goto fail; } const MgmtEvtAdapterInfo * res1 = static_cast(res.get()); adapterInfo = res1->toAdapterInfo(); if( dev_id != adapterInfo->dev_id ) { ABORT("AdapterInfo dev_id=%d != dev_id=%d: %s", adapterInfo->dev_id, dev_id, adapterInfo->toString().c_str()); } } DBG_PRINT("initAdapter[%d, BTMode %s]: Start: %s", dev_id, getBTModeString(btMode).c_str(), adapterInfo->toString().c_str()); switch ( btMode ) { case BTMode::DUAL: setAdapterMode(dev_id, 1 /* ssp */, 1 /* bredr */, 1 /* le */); break; case BTMode::BREDR: setAdapterMode(dev_id, 1 /* ssp */, 1 /* bredr */, 0 /* le */); break; case BTMode::NONE: [[fallthrough]]; // map NONE -> LE case BTMode::LE: setAdapterMode(dev_id, 0 /* ssp */, 0 /* bredr */, 1 /* le */); break; } setMode(dev_id, MgmtOpcode::SET_CONNECTABLE, 0); setMode(dev_id, MgmtOpcode::SET_FAST_CONNECTABLE, 0); removeDeviceFromWhitelist(dev_id, EUI48_ANY_DEVICE, BDAddressType::BDADDR_BREDR); // flush whitelist! powered = setMode(dev_id, MgmtOpcode::SET_POWERED, 1); DBG_PRINT("setAdapterMode[%d]: SET_POWERED(1): result %d", dev_id, powered); /** * Update AdapterSettings post settings */ { adapterInfo = nullptr; // flush std::shared_ptr res = sendWithReply(req0); if( nullptr == res ) { goto fail; } if( MgmtEvent::Opcode::CMD_COMPLETE != res->getOpcode() || res->getTotalSize() < MgmtEvtAdapterInfo::getRequiredTotalSize()) { ERR_PRINT("Insufficient data for adapter info: req %d, res %s", MgmtEvtAdapterInfo::getRequiredTotalSize(), res->toString().c_str()); goto fail; } const MgmtEvtAdapterInfo * res1 = static_cast(res.get()); adapterInfo = res1->toAdapterInfo(); if( dev_id != adapterInfo->dev_id ) { ABORT("AdapterInfo dev_id=%d != dev_id=%d: %s", adapterInfo->dev_id, dev_id, adapterInfo->toString().c_str()); } } DBG_PRINT("initAdapter[%d, BTMode %s]: End: %s", dev_id, getBTModeString(btMode).c_str(), adapterInfo->toString().c_str()); fail: return adapterInfo; } void DBTManager::shutdownAdapter(const uint16_t dev_id) noexcept { setMode(dev_id, MgmtOpcode::SET_CONNECTABLE, 0); setMode(dev_id, MgmtOpcode::SET_FAST_CONNECTABLE, 0); setMode(dev_id, MgmtOpcode::SET_DISCOVERABLE, 0); setMode(dev_id, MgmtOpcode::SET_POWERED, 0); } DBTManager::DBTManager(const BTMode _defaultBTMode) noexcept : env(MgmtEnv::get()), defaultBTMode(BTMode::NONE != _defaultBTMode ? _defaultBTMode : env.DEFAULT_BTMODE), rbuffer(ClientMaxMTU), comm(HCI_DEV_NONE, HCI_CHANNEL_CONTROL), mgmtEventRing(env.MGMT_EVT_RING_CAPACITY), mgmtReaderRunning(false), mgmtReaderShallStop(false), allowClose( comm.isOpen() ) { WORDY_PRINT("DBTManager.ctor: BTMode %s, pid %d", getBTModeString(defaultBTMode).c_str(), DBTManager::pidSelf); if( !allowClose ) { ERR_PRINT("DBTManager::open: Could not open mgmt control channel"); return; } { struct sigaction sa_setup; bzero(&sa_setup, sizeof(sa_setup)); sa_setup.sa_sigaction = mgmthandler_sigaction; sigemptyset(&(sa_setup.sa_mask)); sa_setup.sa_flags = SA_SIGINFO; if( 0 != sigaction( SIGALRM, &sa_setup, NULL ) ) { ERR_PRINT("DBTManager::ctor: Setting sighandler"); } } { std::unique_lock lock(mtx_mgmtReaderLifecycle); // RAII-style acquire and relinquish via destructor std::thread mgmtReaderThread = std::thread(&DBTManager::mgmtReaderThreadImpl, this); mgmtReaderThreadId = mgmtReaderThread.native_handle(); // Avoid 'terminate called without an active exception' // as hciReaderThreadImpl may end due to I/O errors. mgmtReaderThread.detach(); while( false == mgmtReaderRunning ) { cv_mgmtReaderInit.wait(lock); } } PERF_TS_T0(); bool ok = true; // Mandatory { MgmtCommand req0(MgmtOpcode::READ_VERSION, MgmtConstU16::MGMT_INDEX_NONE); std::shared_ptr res = sendWithReply(req0); if( nullptr == res ) { goto fail; } if( MgmtEvent::Opcode::CMD_COMPLETE != res->getOpcode() || res->getDataSize() < 3) { ERR_PRINT("Wrong version response: %s", res->toString().c_str()); goto fail; } const uint8_t *data = res->getData(); const uint8_t version = data[0]; const uint16_t revision = get_uint16(data, 1, true /* littleEndian */); WORDY_PRINT("Bluetooth version %d.%d", version, revision); if( version < 1 ) { ERR_PRINT("Bluetooth version >= 1.0 required"); goto fail; } } // Optional { MgmtCommand req0(MgmtOpcode::READ_COMMANDS, MgmtConstU16::MGMT_INDEX_NONE); std::shared_ptr res = sendWithReply(req0); if( nullptr == res ) { goto next1; } if( MgmtEvent::Opcode::CMD_COMPLETE == res->getOpcode() && res->getDataSize() >= 4) { const uint8_t *data = res->getData(); const uint16_t num_commands = get_uint16(data, 0, true /* littleEndian */); const uint16_t num_events = get_uint16(data, 2, true /* littleEndian */); WORDY_PRINT("Bluetooth %d commands, %d events", num_commands, num_events); #ifdef VERBOSE_ON const int expDataSize = 4 + num_commands * 2 + num_events * 2; if( res->getDataSize() >= expDataSize ) { for(int i=0; i< num_commands; i++) { const MgmtOpcode op = static_cast( get_uint16(data, 4+i*2, true /* littleEndian */) ); DBG_PRINT("kernel op %d: %s", i, getMgmtOpcodeString(op).c_str()); } } #endif } } next1: // Register to add/remove adapter optionally: // MgmtEvent::INDEX_ADDED, MgmtConst::INDEX_NONE; // MgmtEvent::INDEX_REMOVED, MgmtConst::INDEX_NONE; // Mandatory { MgmtCommand req0(MgmtOpcode::READ_INDEX_LIST, MgmtConstU16::MGMT_INDEX_NONE); std::shared_ptr res = sendWithReply(req0); if( nullptr == res ) { goto fail; } if( MgmtEvent::Opcode::CMD_COMPLETE != res->getOpcode() || res->getDataSize() < 2) { ERR_PRINT("Insufficient data for adapter index: res %s", res->toString().c_str()); goto fail; } const uint8_t *data = res->getData(); const uint16_t num_adapter = get_uint16(data, 0, true /* littleEndian */); WORDY_PRINT("Bluetooth %d adapter", num_adapter); const int expDataSize = 2 + num_adapter * 2; if( res->getDataSize() < expDataSize ) { ERR_PRINT("Insufficient data for %d adapter indices: res %s", num_adapter, res->toString().c_str()); goto fail; } adapterInfos.resize(num_adapter, nullptr); for(int i=0; ok && i < num_adapter; i++) { const uint16_t dev_id = get_uint16(data, 2+i*2, true /* littleEndian */); if( dev_id >= num_adapter ) { ABORT("dev_id %d >= num_adapter %d", dev_id, num_adapter); } if( adapterInfos[dev_id] != nullptr ) { ABORT("adapters[dev_id=%d] != nullptr: %s", dev_id, adapterInfos[dev_id]->toString().c_str()); } std::shared_ptr adapterInfo = initAdapter(dev_id, defaultBTMode); adapterInfos[dev_id] = adapterInfo; if( nullptr != adapterInfo ) { DBG_PRINT("DBTManager::adapters %d/%d: dev_id %d: %s", i, num_adapter, dev_id, adapterInfo->toString().c_str()); ok = true; } else { DBG_PRINT("DBTManager::adapters %d/%d: dev_id %d: FAILED", i, num_adapter, dev_id); ok = false; } } } if( ok ) { if( env.DEBUG_EVENT ) { addMgmtEventCallback(-1, MgmtEvent::Opcode::CLASS_OF_DEV_CHANGED, bindMemberFunc(this, &DBTManager::mgmtEvClassOfDeviceChangedCB)); addMgmtEventCallback(-1, MgmtEvent::Opcode::DISCOVERING, bindMemberFunc(this, &DBTManager::mgmtEvDeviceDiscoveringCB)); addMgmtEventCallback(-1, MgmtEvent::Opcode::DEVICE_FOUND, bindMemberFunc(this, &DBTManager::mgmtEvDeviceFoundCB)); addMgmtEventCallback(-1, MgmtEvent::Opcode::DEVICE_DISCONNECTED, bindMemberFunc(this, &DBTManager::mgmtEvDeviceDisconnectedCB)); addMgmtEventCallback(-1, MgmtEvent::Opcode::DEVICE_CONNECTED, bindMemberFunc(this, &DBTManager::mgmtEvDeviceConnectedCB)); addMgmtEventCallback(-1, MgmtEvent::Opcode::CONNECT_FAILED, bindMemberFunc(this, &DBTManager::mgmtEvConnectFailedCB)); addMgmtEventCallback(-1, MgmtEvent::Opcode::DEVICE_BLOCKED, bindMemberFunc(this, &DBTManager::mgmtEvDeviceBlockedCB)); addMgmtEventCallback(-1, MgmtEvent::Opcode::DEVICE_UNBLOCKED, bindMemberFunc(this, &DBTManager::mgmtEvDeviceUnblockedCB)); addMgmtEventCallback(-1, MgmtEvent::Opcode::DEVICE_UNPAIRED, bindMemberFunc(this, &DBTManager::mgmtEvDeviceUnpairedCB)); addMgmtEventCallback(-1, MgmtEvent::Opcode::NEW_CONN_PARAM, bindMemberFunc(this, &DBTManager::mgmtEvNewConnectionParamCB)); addMgmtEventCallback(-1, MgmtEvent::Opcode::DEVICE_WHITELIST_ADDED, bindMemberFunc(this, &DBTManager::mgmtEvDeviceWhitelistAddedCB)); addMgmtEventCallback(-1, MgmtEvent::Opcode::DEVICE_WHITELIST_REMOVED, bindMemberFunc(this, &DBTManager::mgmtEvDeviceWhilelistRemovedCB)); addMgmtEventCallback(-1, MgmtEvent::Opcode::PIN_CODE_REQUEST, bindMemberFunc(this, &DBTManager::mgmtEvPinCodeRequestCB)); addMgmtEventCallback(-1, MgmtEvent::Opcode::USER_PASSKEY_REQUEST, bindMemberFunc(this, &DBTManager::mgmtEvUserPasskeyRequestCB)); } PERF_TS_TD("DBTManager::open.ok"); return; } fail: close(); PERF_TS_TD("DBTManager::open.fail"); return; } void DBTManager::close() noexcept { // Avoid disconnect re-entry -> potential deadlock bool expConn = true; // C++11, exp as value since C++20 if( !allowClose.compare_exchange_strong(expConn, false) ) { // not open DBG_PRINT("DBTManager::close: Not open"); whitelist.clear(); clearAllMgmtEventCallbacks(); adapterInfos.clear(); comm.close(); return; } PERF3_TS_T0(); const std::lock_guard lock(mtx_sendReply); // RAII-style acquire and relinquish via destructor DBG_PRINT("DBTManager::close: Start"); removeAllDevicesFromWhitelist(); clearAllMgmtEventCallbacks(); for (auto it = adapterInfos.begin(); it != adapterInfos.end(); it++) { shutdownAdapter((*it)->dev_id); } adapterInfos.clear(); // Interrupt DBTManager's HCIComm::read(..), avoiding prolonged hang // and pull all underlying hci read operations! comm.close(); PERF3_TS_TD("DBTManager::close.1"); { std::unique_lock lockReader(mtx_mgmtReaderLifecycle); // RAII-style acquire and relinquish via destructor const pthread_t tid_self = pthread_self(); const pthread_t tid_reader = mgmtReaderThreadId; mgmtReaderThreadId = 0; const bool is_reader = tid_reader == tid_self; DBG_PRINT("DBTManager::close: mgmtReader[running %d, shallStop %d, isReader %d, tid %p)", mgmtReaderRunning.load(), mgmtReaderShallStop.load(), is_reader, (void*)tid_reader); if( mgmtReaderRunning ) { mgmtReaderShallStop = true; if( !is_reader && 0 != tid_reader ) { int kerr; if( 0 != ( kerr = pthread_kill(tid_reader, SIGALRM) ) ) { ERR_PRINT("DBTManager::close: pthread_kill %p FAILED: %d", (void*)tid_reader, kerr); } } // Ensure the reader thread has ended, no runaway-thread using *this instance after destruction while( true == mgmtReaderRunning ) { cv_mgmtReaderInit.wait(lockReader); } } } PERF3_TS_TD("DBTManager::close.2"); { struct sigaction sa_setup; bzero(&sa_setup, sizeof(sa_setup)); sa_setup.sa_handler = SIG_DFL; sigemptyset(&(sa_setup.sa_mask)); sa_setup.sa_flags = 0; if( 0 != sigaction( SIGALRM, &sa_setup, NULL ) ) { ERR_PRINT("DBTManager.sigaction: Resetting sighandler"); } } PERF3_TS_TD("DBTManager::close.X"); DBG_PRINT("DBTManager::close: End"); } int DBTManager::findAdapterInfoIdx(const EUI48 &mac) const noexcept { auto begin = adapterInfos.begin(); auto it = std::find_if(begin, adapterInfos.end(), [&](std::shared_ptr const& p) { return p->address == mac; }); if ( it == std::end(adapterInfos) ) { return -1; } else { return std::distance(begin, it); } } std::shared_ptr DBTManager::findAdapterInfo(const EUI48 &mac) const noexcept { auto begin = adapterInfos.begin(); auto it = std::find_if(begin, adapterInfos.end(), [&](std::shared_ptr const& p) { return p->address == mac; }); if ( it == std::end(adapterInfos) ) { return nullptr; } else { return *it; } } std::shared_ptr DBTManager::getAdapterInfo(const int idx) const { if( 0 > idx || idx >= static_cast(adapterInfos.size()) ) { throw IndexOutOfBoundsException(idx, adapterInfos.size(), E_FILE_LINE); } std::shared_ptr adapter = adapterInfos.at(idx); return adapter; } bool DBTManager::setMode(const int dev_id, const MgmtOpcode opc, const uint8_t mode) noexcept { MgmtUint8Cmd req(opc, dev_id, mode); std::shared_ptr res = sendWithReply(req); if( nullptr != res ) { if( res->getOpcode() == MgmtEvent::Opcode::CMD_COMPLETE ) { const MgmtEvtCmdComplete &res1 = *static_cast(res.get()); return MgmtStatus::SUCCESS == res1.getStatus(); } else if( res->getOpcode() == MgmtEvent::Opcode::CMD_STATUS ) { const MgmtEvtCmdStatus &res1 = *static_cast(res.get()); return MgmtStatus::SUCCESS == res1.getStatus(); } } return false; } ScanType DBTManager::startDiscovery(const int dev_id, const BTMode btMode) noexcept { return startDiscovery(dev_id, getScanType(btMode)); } ScanType DBTManager::startDiscovery(const int dev_id, const ScanType scanType) noexcept { MgmtUint8Cmd req(MgmtOpcode::START_DISCOVERY, dev_id, number(scanType)); std::shared_ptr res = sendWithReply(req); ScanType type = ScanType::NONE; if( nullptr != res && res->getOpcode() == MgmtEvent::Opcode::CMD_COMPLETE ) { const MgmtEvtCmdComplete &res1 = *static_cast(res.get()); if( MgmtStatus::SUCCESS == res1.getStatus() && 1 == res1.getDataSize() ) { type = static_cast( *res1.getData() ); } } return type; } bool DBTManager::stopDiscovery(const int dev_id, const ScanType type) noexcept { MgmtUint8Cmd req(MgmtOpcode::STOP_DISCOVERY, dev_id, number(type)); std::shared_ptr res = sendWithReply(req); if( nullptr != res && res->getOpcode() == MgmtEvent::Opcode::CMD_COMPLETE ) { const MgmtEvtCmdComplete &res1 = *static_cast(res.get()); return MgmtStatus::SUCCESS == res1.getStatus(); } return false; } bool DBTManager::uploadConnParam(const int dev_id, const EUI48 &address, const BDAddressType address_type, const uint16_t conn_min_interval, const uint16_t conn_max_interval, const uint16_t conn_latency, const uint16_t supervision_timeout) noexcept { MgmtConnParam connParam{ address, address_type, conn_min_interval, conn_max_interval, conn_latency, supervision_timeout }; MgmtLoadConnParamCmd req(dev_id, connParam); std::shared_ptr res = sendWithReply(req); if( nullptr != res && res->getOpcode() == MgmtEvent::Opcode::CMD_COMPLETE ) { const MgmtEvtCmdComplete &res1 = *static_cast(res.get()); return MgmtStatus::SUCCESS == res1.getStatus(); } return false; } bool DBTManager::isDeviceWhitelisted(const int dev_id, const EUI48 &address) noexcept { for(auto it = whitelist.begin(); it != whitelist.end(); ) { std::shared_ptr wle = *it; if( wle->dev_id == dev_id && wle->address == address ) { return true; } else { ++it; } } return false; } bool DBTManager::addDeviceToWhitelist(const int dev_id, const EUI48 &address, const BDAddressType address_type, const HCIWhitelistConnectType ctype) noexcept { MgmtAddDeviceToWhitelistCmd req(dev_id, address, address_type, ctype); // Check if already exist in our local whitelist first, reject if so .. if( isDeviceWhitelisted(dev_id, address) ) { ERR_PRINT("DBTManager::addDeviceToWhitelist: Already in local whitelist, remove first: %s", req.toString().c_str()); return false; } std::shared_ptr res = sendWithReply(req); if( nullptr != res && res->getOpcode() == MgmtEvent::Opcode::CMD_COMPLETE ) { const MgmtEvtCmdComplete &res1 = *static_cast(res.get()); if( MgmtStatus::SUCCESS == res1.getStatus() ) { std::shared_ptr wle( new WhitelistElem{dev_id, address, address_type, ctype} ); whitelist.push_back(wle); return true; } } return false; } int DBTManager::removeAllDevicesFromWhitelist() noexcept { #if 0 std::vector> whitelist_copy = whitelist; int count = 0; DBG_PRINT("DBTManager::removeAllDevicesFromWhitelist.A: Start %zd elements", whitelist_copy.size()); for(auto it = whitelist_copy.begin(); it != whitelist_copy.end(); ++it) { std::shared_ptr wle = *it; removeDeviceFromWhitelist(wle->dev_id, wle->address, wle->address_type); count++; } #else int count = whitelist.size(); DBG_PRINT("DBTManager::removeAllDevicesFromWhitelist.B: Start %d elements", count); whitelist.clear(); for (auto it = adapterInfos.begin(); it != adapterInfos.end(); it++) { removeDeviceFromWhitelist((*it)->dev_id, EUI48_ANY_DEVICE, BDAddressType::BDADDR_BREDR); // flush whitelist! } #endif DBG_PRINT("DBTManager::removeAllDevicesFromWhitelist: End: Removed %d elements, remaining %zd elements", count, whitelist.size()); return count; } bool DBTManager::removeDeviceFromWhitelist(const int dev_id, const EUI48 &address, const BDAddressType address_type) noexcept { // Remove from our local whitelist first { for(auto it = whitelist.begin(); it != whitelist.end(); ) { std::shared_ptr wle = *it; if( wle->dev_id == dev_id && wle->address == address ) { it = whitelist.erase(it); } else { ++it; } } } // Actual removal MgmtRemoveDeviceFromWhitelistCmd req(dev_id, address, address_type); std::shared_ptr res = sendWithReply(req); if( nullptr != res && res->getOpcode() == MgmtEvent::Opcode::CMD_COMPLETE ) { const MgmtEvtCmdComplete &res1 = *static_cast(res.get()); if( MgmtStatus::SUCCESS == res1.getStatus() ) { return true; } } return false; } bool DBTManager::disconnect(const bool ioErrorCause, const int dev_id, const EUI48 &peer_bdaddr, const BDAddressType peer_mac_type, const HCIStatusCode reason) noexcept { bool bres = false; // Always issue DISCONNECT command, even in case of an ioError (lost-connection), // see Issue #124 fast re-connect on CSR adapter. // This will always notify the adapter of a disconnected device. { MgmtDisconnectCmd req(dev_id, peer_bdaddr, peer_mac_type); std::shared_ptr res = sendWithReply(req); if( nullptr != res && res->getOpcode() == MgmtEvent::Opcode::CMD_COMPLETE ) { const MgmtEvtCmdComplete &res1 = *static_cast(res.get()); if( MgmtStatus::SUCCESS == res1.getStatus() ) { bres = true; } } } if( !ioErrorCause ) { // In case of an ioError (lost-connection), don't wait for the lagging // DISCONN_COMPLETE event but send it directly. MgmtEvtDeviceDisconnected *e = new MgmtEvtDeviceDisconnected(dev_id, peer_bdaddr, peer_mac_type, reason, 0xffff); sendMgmtEvent(std::shared_ptr(e)); } return bres; } std::shared_ptr DBTManager::getConnectionInfo(const int dev_id, const EUI48 &address, const BDAddressType address_type) noexcept { MgmtGetConnectionInfoCmd req(dev_id, address, address_type); std::shared_ptr res = sendWithReply(req); if( nullptr != res && res->getOpcode() == MgmtEvent::Opcode::CMD_COMPLETE ) { const MgmtEvtCmdComplete &res1 = *static_cast(res.get()); if( MgmtStatus::SUCCESS == res1.getStatus() ) { std::shared_ptr result = res1.toConnectionInfo(); return result; } } return nullptr; } std::shared_ptr DBTManager::setLocalName(const int dev_id, const std::string & name, const std::string & short_name) noexcept { MgmtSetLocalNameCmd req (dev_id, name, short_name); std::shared_ptr res = sendWithReply(req); if( nullptr != res && res->getOpcode() == MgmtEvent::Opcode::CMD_COMPLETE ) { const MgmtEvtCmdComplete &res1 = *static_cast(res.get()); if( MgmtStatus::SUCCESS == res1.getStatus() ) { std::shared_ptr result = res1.toNameAndShortName(); // explicit LocalNameChanged event MgmtEvtLocalNameChanged * e = new MgmtEvtLocalNameChanged(dev_id, result->getName(), result->getShortName()); sendMgmtEvent(std::shared_ptr(e)); return result; } } return nullptr; } /*** * * MgmtEventCallback section * */ bool DBTManager::addMgmtEventCallback(const int dev_id, const MgmtEvent::Opcode opc, const MgmtEventCallback &cb) noexcept { const std::lock_guard lock(mtx_callbackLists); // RAII-style acquire and relinquish via destructor if( !isValidMgmtEventCallbackListsIndex(opc) ) { ERR_PRINT("Opcode %s >= %d", MgmtEvent::getOpcodeString(opc).c_str(), mgmtAdapterEventCallbackLists.size()); return false; } MgmtAdapterEventCallbackList &l = mgmtAdapterEventCallbackLists[static_cast(opc)]; for (auto it = l.begin(); it != l.end(); ++it) { if ( it->getDevID() == dev_id && it->getCallback() == cb ) { // already exists for given adapter return true; } } l.push_back( MgmtAdapterEventCallback(dev_id, cb) ); return true; } int DBTManager::removeMgmtEventCallback(const MgmtEvent::Opcode opc, const MgmtEventCallback &cb) noexcept { const std::lock_guard lock(mtx_callbackLists); // RAII-style acquire and relinquish via destructor if( !isValidMgmtEventCallbackListsIndex(opc) ) { ERR_PRINT("Opcode %s >= %d", MgmtEvent::getOpcodeString(opc).c_str(), mgmtAdapterEventCallbackLists.size()); return 0; } int count = 0; MgmtAdapterEventCallbackList &l = mgmtAdapterEventCallbackLists[static_cast(opc)]; for (auto it = l.begin(); it != l.end(); ) { if ( it->getCallback() == cb ) { it = l.erase(it); count++; } else { ++it; } } return count; } int DBTManager::removeMgmtEventCallback(const int dev_id) noexcept { const std::lock_guard lock(mtx_callbackLists); // RAII-style acquire and relinquish via destructor int count = 0; for(size_t i=0; igetDevID() == dev_id ) { it = l.erase(it); count++; } else { ++it; } } } return count; } void DBTManager::clearMgmtEventCallbacks(const MgmtEvent::Opcode opc) noexcept { const std::lock_guard lock(mtx_callbackLists); // RAII-style acquire and relinquish via destructor if( !isValidMgmtEventCallbackListsIndex(opc) ) { ERR_PRINT("Opcode %s >= %d", MgmtEvent::getOpcodeString(opc).c_str(), mgmtAdapterEventCallbackLists.size()); return; } mgmtAdapterEventCallbackLists[static_cast(opc)].clear(); } void DBTManager::clearAllMgmtEventCallbacks() noexcept { const std::lock_guard lock(mtx_callbackLists); // RAII-style acquire and relinquish via destructor for(size_t i=0; i e) noexcept { PLAIN_PRINT("DBTManager::EventCB:ClassOfDeviceChanged: %s", e->toString().c_str()); (void)e; return true; } bool DBTManager::mgmtEvDeviceDiscoveringCB(std::shared_ptr e) noexcept { PLAIN_PRINT("DBTManager::EventCB:DeviceDiscovering: %s", e->toString().c_str()); const MgmtEvtDiscovering &event = *static_cast(e.get()); (void)event; return true; } bool DBTManager::mgmtEvDeviceFoundCB(std::shared_ptr e) noexcept { PLAIN_PRINT("DBTManager::EventCB:DeviceFound: %s", e->toString().c_str()); const MgmtEvtDeviceFound &event = *static_cast(e.get()); (void)event; return true; } bool DBTManager::mgmtEvDeviceDisconnectedCB(std::shared_ptr e) noexcept { PLAIN_PRINT("DBTManager::EventCB:DeviceDisconnected: %s", e->toString().c_str()); const MgmtEvtDeviceDisconnected &event = *static_cast(e.get()); (void)event; return true; } bool DBTManager::mgmtEvDeviceConnectedCB(std::shared_ptr e) noexcept { PLAIN_PRINT("DBTManager::EventCB:DeviceConnected: %s", e->toString().c_str()); const MgmtEvtDeviceConnected &event = *static_cast(e.get()); (void)event; return true; } bool DBTManager::mgmtEvConnectFailedCB(std::shared_ptr e) noexcept { PLAIN_PRINT("DBTManager::EventCB:ConnectFailed: %s", e->toString().c_str()); const MgmtEvtDeviceConnectFailed &event = *static_cast(e.get()); (void)event; return true; } bool DBTManager::mgmtEvDeviceBlockedCB(std::shared_ptr e) noexcept { PLAIN_PRINT("DBTManager::EventCB:DeviceBlocked: %s", e->toString().c_str()); const MgmtEvtDeviceBlocked &event = *static_cast(e.get()); (void)event; return true; } bool DBTManager::mgmtEvDeviceUnblockedCB(std::shared_ptr e) noexcept { PLAIN_PRINT("DBTManager::EventCB:DeviceUnblocked: %s", e->toString().c_str()); const MgmtEvtDeviceUnblocked &event = *static_cast(e.get()); (void)event; return true; } bool DBTManager::mgmtEvDeviceUnpairedCB(std::shared_ptr e) noexcept { PLAIN_PRINT("DBTManager::EventCB:DeviceUnpaired: %s", e->toString().c_str()); const MgmtEvtDeviceUnpaired &event = *static_cast(e.get()); (void)event; return true; } bool DBTManager::mgmtEvNewConnectionParamCB(std::shared_ptr e) noexcept { PLAIN_PRINT("DBTManager::EventCB:NewConnectionParam: %s", e->toString().c_str()); const MgmtEvtNewConnectionParam &event = *static_cast(e.get()); (void)event; return true; } bool DBTManager::mgmtEvDeviceWhitelistAddedCB(std::shared_ptr e) noexcept { PLAIN_PRINT("DBTManager::EventCB:DeviceWhitelistAdded: %s", e->toString().c_str()); const MgmtEvtDeviceWhitelistAdded &event = *static_cast(e.get()); (void)event; return true; } bool DBTManager::mgmtEvDeviceWhilelistRemovedCB(std::shared_ptr e) noexcept { PLAIN_PRINT("DBTManager::EventCB:DeviceWhitelistRemoved: %s", e->toString().c_str()); const MgmtEvtDeviceWhitelistRemoved &event = *static_cast(e.get()); (void)event; return true; } bool DBTManager::mgmtEvPinCodeRequestCB(std::shared_ptr e) noexcept { PLAIN_PRINT("DBTManager::EventCB:PinCodeRequest: %s", e->toString().c_str()); const MgmtEvtPinCodeRequest &event = *static_cast(e.get()); (void)event; return true; } bool DBTManager::mgmtEvUserPasskeyRequestCB(std::shared_ptr e) noexcept { PLAIN_PRINT("DBTManager::EventCB:UserPasskeyRequest: %s", e->toString().c_str()); const MgmtEvtUserPasskeyRequest &event = *static_cast(e.get()); (void)event; return true; }