#include "BluetoothWorker.hpp" #include "log/log.hpp" #include "BtCommand.hpp" extern "C" { #include "module-bluetooth/lib/btstack/src/btstack_util.h" }; using namespace bsp; const char *c_str(Bt::Error::Code code) { switch (code) { case Bt::Error::Code::Success: return "Success"; case Bt::Error::Code::NotReady: return "NotReady"; case Bt::Error::Code::SystemError: return "SystemError"; case Bt::Error::Code::LibraryError: return "LibraryError"; } return ""; } BluetoothWorker::BluetoothWorker(sys::Service *service) : Worker(service) { init({ {"qBtIO", sizeof(Bt::Message), 10}, {"qBtWork", sizeof(Bt::EvtWorker), 10}, }); }; BluetoothWorker::~BluetoothWorker() { if (this->bt_worker_task != nullptr) {} LOG_INFO("Worker removed"); } bool BluetoothWorker::run() { LOG_INFO("-> BluetoothWorker run request"); if (is_running) { return true; } if (Worker::run()) { is_running = true; auto el = queues[queueIO_handle]; BlueKitchen::getInstance()->qHandle = el; Bt::initialize_stack(); Bt::register_hw_error_callback(); Bt::GAP::register_scan(); std::string name = "PurePhone"; Bt::set_name(name); // set local namne Bt::GAP::set_visibility(true); // Bt::GAP:: Bt::run_stack(&this->bt_worker_task); return true; } else { return false; } } bool BluetoothWorker::scan() { std::vector empty; Bt::GAP::setOwnerService(service); auto ret = Bt::GAP::scan(); if (ret.err != Bt::Error::Success) { LOG_ERROR("Cant start scan!: %s %" PRIu32 "", c_str(ret.err), ret.lib_code); return false; } else { LOG_INFO("Scan started!"); // open new scan window return true; } } void BluetoothWorker::stop_scan() { Bt::GAP::stop_scan(); } bool BluetoothWorker::set_visible() { static bool visibility = true; Bt::GAP::set_visibility(visibility); visibility = !visibility; return false; } bool BluetoothWorker::start_pan() { Bt::PAN::bnep_setup(); auto err = Bt::PAN::bnep_start(); if (err.err != Bt::Error::Success) { LOG_ERROR("PAN setup error: %s %" PRIu32, c_str(err.err), err.lib_code); } return false; } BluetoothWorker::Error BluetoothWorker::aud_init() { LOG_INFO("%s", __PRETTY_FUNCTION__); Error err = SuccessBt; LOG_INFO("AUDIO - TODO"); // start GAVD // && ASSIGN_CLASS_OF_DEVICE(ClassOfDevice, 0x28, 0x04, 0x10); return err; } #include bool BluetoothWorker::handleMessage(uint32_t queueID) { QueueHandle_t queue = queues[queueID]; if (queueID == queueService) { LOG_DEBUG("not interested"); return true; } if (queueID != queueIO_handle) { LOG_ERROR("Wrong queue! %" PRIu32, queueID); return false; } Bt::Message notification = Bt::Message::EvtErrorRec; if (xQueueReceive(queue, ¬ification, 0) != pdTRUE) { LOG_ERROR("Receive failure!"); return false; } auto bt = BlueKitchen::getInstance(); switch (notification) { case Bt::Message::EvtSent: #ifdef DO_DEBUG_HCI_COMS LOG_INFO("[evt] sent"); #endif if (bt->write_done_cb) { bt->write_done_cb(); } break; case Bt::Message::EvtReceived: { if (bt->to_read_req > bt->in.len) { // LOG_ERROR("%d vs %d", bt->to_read_req, bt->in.len); break; } for (int i = 0; i < bt->to_read_req; ++i) { // error in pop should never happen if (int ret = bt->in.pop((char *)bt->read_buff + i)) { LOG_ERROR("This shall never happen: %d", ret); } } // LOG_DEBUG(">> %d",bt->in.len); #ifdef DO_DEBUG_HCI_COMS std::stringstream ss; for (int i = 0; i < bt->to_read_req; ++i) { ss << " 0x" << std::hex << (int)*(bt->read_buff + i); } LOG_DEBUG("[evt] recieved <-- [%d]>%s<", bt->to_read_req, ss.str().c_str()); #endif bt->to_read_req = 0; if (bt->read_ready_cb) { bt->read_ready_cb(); } } break; case Bt::Message::EvtSentError: case Bt::Message::EvtRecError: case Bt::Message::EvtUartError: case Bt::Message::EvtRecUnwanted: { LOG_ERROR("Uart error [%d]: %s", notification, Bt::MessageCstr(notification)); break; } break; default: LOG_ERROR("ERROR"); } return true; } void BluetoothWorker::set_addr(uint8_t *addr) { Bt::GAP::do_pairing(addr); LOG_INFO("ADDRESS %s SET!", bd_addr_to_str(addr)); }