#include "BleKeyboard.h" #if defined(USE_NIMBLE) #include #include #include #include #else #include #include #include #include "BLE2902.h" #include "BLEHIDDevice.h" #endif // USE_NIMBLE #include "HIDTypes.h" #include #include "sdkconfig.h" #if defined(CONFIG_ARDUHAL_ESP_LOG) #include "esp32-hal-log.h" #define LOG_TAG "" #else #include "esp_log.h" static const char* LOG_TAG = "BLEDevice"; #endif // Report IDs: #define KEYBOARD_ID 0x01 #define MEDIA_KEYS_ID 0x02 static const uint8_t _hidReportDescriptor[] = { USAGE_PAGE(1), 0x01, // USAGE_PAGE (Generic Desktop Ctrls) USAGE(1), 0x06, // USAGE (Keyboard) COLLECTION(1), 0x01, // COLLECTION (Application) // ------------------------------------------------- Keyboard REPORT_ID(1), KEYBOARD_ID, // REPORT_ID (1) USAGE_PAGE(1), 0x07, // USAGE_PAGE (Kbrd/Keypad) USAGE_MINIMUM(1), 0xE0, // USAGE_MINIMUM (0xE0) USAGE_MAXIMUM(1), 0xE7, // USAGE_MAXIMUM (0xE7) LOGICAL_MINIMUM(1), 0x00, // LOGICAL_MINIMUM (0) LOGICAL_MAXIMUM(1), 0x01, // Logical Maximum (1) REPORT_SIZE(1), 0x01, // REPORT_SIZE (1) REPORT_COUNT(1), 0x08, // REPORT_COUNT (8) HIDINPUT(1), 0x02, // INPUT (Data,Var,Abs,No Wrap,Linear,Preferred State,No Null Position) REPORT_COUNT(1), 0x01, // REPORT_COUNT (1) ; 1 byte (Reserved) REPORT_SIZE(1), 0x08, // REPORT_SIZE (8) HIDINPUT(1), 0x01, // INPUT (Const,Array,Abs,No Wrap,Linear,Preferred State,No Null Position) REPORT_COUNT(1), 0x05, // REPORT_COUNT (5) ; 5 bits (Num lock, Caps lock, Scroll lock, Compose, Kana) REPORT_SIZE(1), 0x01, // REPORT_SIZE (1) USAGE_PAGE(1), 0x08, // USAGE_PAGE (LEDs) USAGE_MINIMUM(1), 0x01, // USAGE_MINIMUM (0x01) ; Num Lock USAGE_MAXIMUM(1), 0x05, // USAGE_MAXIMUM (0x05) ; Kana HIDOUTPUT(1), 0x02, // OUTPUT (Data,Var,Abs,No Wrap,Linear,Preferred State,No Null Position,Non-volatile) REPORT_COUNT(1), 0x01, // REPORT_COUNT (1) ; 3 bits (Padding) REPORT_SIZE(1), 0x03, // REPORT_SIZE (3) HIDOUTPUT(1), 0x01, // OUTPUT (Const,Array,Abs,No Wrap,Linear,Preferred State,No Null Position,Non-volatile) REPORT_COUNT(1), 0x06, // REPORT_COUNT (6) ; 6 bytes (Keys) REPORT_SIZE(1), 0x08, // REPORT_SIZE(8) LOGICAL_MINIMUM(1), 0x00, // LOGICAL_MINIMUM(0) LOGICAL_MAXIMUM(1), 0x65, // LOGICAL_MAXIMUM(0x65) ; 101 keys USAGE_PAGE(1), 0x07, // USAGE_PAGE (Kbrd/Keypad) USAGE_MINIMUM(1), 0x00, // USAGE_MINIMUM (0) USAGE_MAXIMUM(1), 0x65, // USAGE_MAXIMUM (0x65) HIDINPUT(1), 0x00, // INPUT (Data,Array,Abs,No Wrap,Linear,Preferred State,No Null Position) END_COLLECTION(0), // END_COLLECTION // ------------------------------------------------- Media Keys USAGE_PAGE(1), 0x0C, // USAGE_PAGE (Consumer) USAGE(1), 0x01, // USAGE (Consumer Control) COLLECTION(1), 0x01, // COLLECTION (Application) REPORT_ID(1), MEDIA_KEYS_ID, // REPORT_ID (3) USAGE_PAGE(1), 0x0C, // USAGE_PAGE (Consumer) LOGICAL_MINIMUM(1), 0x00, // LOGICAL_MINIMUM (0) LOGICAL_MAXIMUM(1), 0x01, // LOGICAL_MAXIMUM (1) REPORT_SIZE(1), 0x01, // REPORT_SIZE (1) REPORT_COUNT(1), 0x10, // REPORT_COUNT (16) USAGE(1), 0xB5, // USAGE (Scan Next Track) ; bit 0: 1 USAGE(1), 0xB6, // USAGE (Scan Previous Track) ; bit 1: 2 USAGE(1), 0xB7, // USAGE (Stop) ; bit 2: 4 USAGE(1), 0xCD, // USAGE (Play/Pause) ; bit 3: 8 USAGE(1), 0xE2, // USAGE (Mute) ; bit 4: 16 USAGE(1), 0xE9, // USAGE (Volume Increment) ; bit 5: 32 USAGE(1), 0xEA, // USAGE (Volume Decrement) ; bit 6: 64 USAGE(2), 0x23, 0x02, // Usage (WWW Home) ; bit 7: 128 USAGE(2), 0x94, 0x01, // Usage (My Computer) ; bit 0: 1 // original from BLE-Keyboard // USAGE(2), 0x92, 0x01, // Usage (Calculator) ; bit 1: 2 // changed for usage in OMOTE USAGE(1), 0xB3, // USAGE (Fast Forward); bit 1: 2 USAGE(2), 0x2A, 0x02, // Usage (WWW fav) ; bit 2: 4 USAGE(2), 0x21, 0x02, // Usage (WWW search) ; bit 3: 8 USAGE(2), 0x26, 0x02, // Usage (WWW stop) ; bit 4: 16 USAGE(2), 0x24, 0x02, // Usage (WWW back) ; bit 5: 32 USAGE(2), 0x83, 0x01, // Usage (Media sel) ; bit 6: 64 // original from BLE-Keyboard // USAGE(2), 0x8A, 0x01, // Usage (Mail) ; bit 7: 128 // changed for usage in OMOTE USAGE(1), 0xB4, // USAGE (Rewind) ; bit 7: 128 HIDINPUT(1), 0x02, // INPUT (Data,Var,Abs,No Wrap,Linear,Preferred State,No Null Position) END_COLLECTION(0) // END_COLLECTION }; BleKeyboard::BleKeyboard(std::string deviceName, std::string deviceManufacturer, uint8_t batteryLevel) : hid(0) , deviceName(std::string(deviceName).substr(0, 15)) , deviceManufacturer(std::string(deviceManufacturer).substr(0,15)) , batteryLevel(batteryLevel) {} void BleKeyboard::begin(void) { BLEDevice::init(deviceName); BLEServer* pServer = BLEDevice::createServer(); pServer->setCallbacks(this); hid = new BLEHIDDevice(pServer); inputKeyboard = hid->inputReport(KEYBOARD_ID); // <-- input REPORTID from report map outputKeyboard = hid->outputReport(KEYBOARD_ID); inputMediaKeys = hid->inputReport(MEDIA_KEYS_ID); outputKeyboard->setCallbacks(this); hid->manufacturer()->setValue(deviceManufacturer); hid->pnp(0x02, vid, pid, version); hid->hidInfo(0x00, 0x01); #if defined(USE_NIMBLE) BLEDevice::setSecurityAuth(true, true, true); #else BLESecurity* pSecurity = new BLESecurity(); pSecurity->setAuthenticationMode(ESP_LE_AUTH_REQ_SC_MITM_BOND); #endif // USE_NIMBLE hid->reportMap((uint8_t*)_hidReportDescriptor, sizeof(_hidReportDescriptor)); hid->startServices(); onStarted(pServer); advertising = pServer->getAdvertising(); advertising->setAppearance(HID_KEYBOARD); advertising->addServiceUUID(hid->hidService()->getUUID()); advertising->setScanResponse(false); advertising->start(); hid->setBatteryLevel(batteryLevel); ESP_LOGD(LOG_TAG, "Advertising started!"); } void BleKeyboard::end(void) { } bool BleKeyboard::isConnected(void) { return this->connected; } void BleKeyboard::setBatteryLevel(uint8_t level) { this->batteryLevel = level; if (hid != 0) this->hid->setBatteryLevel(this->batteryLevel); } //must be called before begin in order to set the name void BleKeyboard::setName(std::string deviceName) { this->deviceName = deviceName; } /** * @brief Sets the waiting time (in milliseconds) between multiple keystrokes in NimBLE mode. * * @param ms Time in milliseconds */ void BleKeyboard::setDelay(uint32_t ms) { this->_delay_ms = ms; } void BleKeyboard::set_vendor_id(uint16_t vid) { this->vid = vid; } void BleKeyboard::set_product_id(uint16_t pid) { this->pid = pid; } void BleKeyboard::set_version(uint16_t version) { this->version = version; } void BleKeyboard::sendReport(KeyReport* keys) { if (this->isConnected()) { this->inputKeyboard->setValue((uint8_t*)keys, sizeof(KeyReport)); this->inputKeyboard->notify(); #if defined(USE_NIMBLE) // vTaskDelay(delayTicks); this->delay_ms(_delay_ms); #endif // USE_NIMBLE } } void BleKeyboard::sendReport(MediaKeyReport* keys) { if (this->isConnected()) { this->inputMediaKeys->setValue((uint8_t*)keys, sizeof(MediaKeyReport)); this->inputMediaKeys->notify(); #if defined(USE_NIMBLE) //vTaskDelay(delayTicks); this->delay_ms(_delay_ms); #endif // USE_NIMBLE } } extern const uint8_t _asciimap[128] PROGMEM; #define SHIFT 0x80 const uint8_t _asciimap[128] = { 0x00, // NUL 0x00, // SOH 0x00, // STX 0x00, // ETX 0x00, // EOT 0x00, // ENQ 0x00, // ACK 0x00, // BEL 0x2a, // BS Backspace 0x2b, // TAB Tab 0x28, // LF Enter 0x00, // VT 0x00, // FF 0x00, // CR 0x00, // SO 0x00, // SI 0x00, // DEL 0x00, // DC1 0x00, // DC2 0x00, // DC3 0x00, // DC4 0x00, // NAK 0x00, // SYN 0x00, // ETB 0x00, // CAN 0x00, // EM 0x00, // SUB 0x00, // ESC 0x00, // FS 0x00, // GS 0x00, // RS 0x00, // US 0x2c, // ' ' 0x1e|SHIFT, // ! 0x34|SHIFT, // " 0x20|SHIFT, // # 0x21|SHIFT, // $ 0x22|SHIFT, // % 0x24|SHIFT, // & 0x34, // ' 0x26|SHIFT, // ( 0x27|SHIFT, // ) 0x25|SHIFT, // * 0x2e|SHIFT, // + 0x36, // , 0x2d, // - 0x37, // . 0x38, // / 0x27, // 0 0x1e, // 1 0x1f, // 2 0x20, // 3 0x21, // 4 0x22, // 5 0x23, // 6 0x24, // 7 0x25, // 8 0x26, // 9 0x33|SHIFT, // : 0x33, // ; 0x36|SHIFT, // < 0x2e, // = 0x37|SHIFT, // > 0x38|SHIFT, // ? 0x1f|SHIFT, // @ 0x04|SHIFT, // A 0x05|SHIFT, // B 0x06|SHIFT, // C 0x07|SHIFT, // D 0x08|SHIFT, // E 0x09|SHIFT, // F 0x0a|SHIFT, // G 0x0b|SHIFT, // H 0x0c|SHIFT, // I 0x0d|SHIFT, // J 0x0e|SHIFT, // K 0x0f|SHIFT, // L 0x10|SHIFT, // M 0x11|SHIFT, // N 0x12|SHIFT, // O 0x13|SHIFT, // P 0x14|SHIFT, // Q 0x15|SHIFT, // R 0x16|SHIFT, // S 0x17|SHIFT, // T 0x18|SHIFT, // U 0x19|SHIFT, // V 0x1a|SHIFT, // W 0x1b|SHIFT, // X 0x1c|SHIFT, // Y 0x1d|SHIFT, // Z 0x2f, // [ 0x31, // bslash 0x30, // ] 0x23|SHIFT, // ^ 0x2d|SHIFT, // _ 0x35, // ` 0x04, // a 0x05, // b 0x06, // c 0x07, // d 0x08, // e 0x09, // f 0x0a, // g 0x0b, // h 0x0c, // i 0x0d, // j 0x0e, // k 0x0f, // l 0x10, // m 0x11, // n 0x12, // o 0x13, // p 0x14, // q 0x15, // r 0x16, // s 0x17, // t 0x18, // u 0x19, // v 0x1a, // w 0x1b, // x 0x1c, // y 0x1d, // z 0x2f|SHIFT, // { 0x31|SHIFT, // | 0x30|SHIFT, // } 0x35|SHIFT, // ~ 0 // DEL }; uint8_t USBPutChar(uint8_t c); // press() adds the specified key (printing, non-printing, or modifier) // to the persistent key report and sends the report. Because of the way // USB HID works, the host acts like the key remains pressed until we // call release(), releaseAll(), or otherwise clear the report and resend. size_t BleKeyboard::press(uint8_t k) { uint8_t i; if (k >= 136) { // it's a non-printing key (not a modifier) k = k - 136; } else if (k >= 128) { // it's a modifier key _keyReport.modifiers |= (1<<(k-128)); k = 0; } else { // it's a printing key k = pgm_read_byte(_asciimap + k); if (!k) { setWriteError(); return 0; } if (k & 0x80) { // it's a capital letter or other character reached with shift _keyReport.modifiers |= 0x02; // the left shift modifier k &= 0x7F; } } // Add k to the key report only if it's not already present // and if there is an empty slot. if (_keyReport.keys[0] != k && _keyReport.keys[1] != k && _keyReport.keys[2] != k && _keyReport.keys[3] != k && _keyReport.keys[4] != k && _keyReport.keys[5] != k) { for (i=0; i<6; i++) { if (_keyReport.keys[i] == 0x00) { _keyReport.keys[i] = k; break; } } if (i == 6) { setWriteError(); return 0; } } sendReport(&_keyReport); return 1; } size_t BleKeyboard::press(const MediaKeyReport k) { uint16_t k_16 = k[1] | (k[0] << 8); uint16_t mediaKeyReport_16 = _mediaKeyReport[1] | (_mediaKeyReport[0] << 8); mediaKeyReport_16 |= k_16; _mediaKeyReport[0] = (uint8_t)((mediaKeyReport_16 & 0xFF00) >> 8); _mediaKeyReport[1] = (uint8_t)(mediaKeyReport_16 & 0x00FF); sendReport(&_mediaKeyReport); return 1; } // release() takes the specified key out of the persistent key report and // sends the report. This tells the OS the key is no longer pressed and that // it shouldn't be repeated any more. size_t BleKeyboard::release(uint8_t k) { uint8_t i; if (k >= 136) { // it's a non-printing key (not a modifier) k = k - 136; } else if (k >= 128) { // it's a modifier key _keyReport.modifiers &= ~(1<<(k-128)); k = 0; } else { // it's a printing key k = pgm_read_byte(_asciimap + k); if (!k) { return 0; } if (k & 0x80) { // it's a capital letter or other character reached with shift _keyReport.modifiers &= ~(0x02); // the left shift modifier k &= 0x7F; } } // Test the key report to see if k is present. Clear it if it exists. // Check all positions in case the key is present more than once (which it shouldn't be) for (i=0; i<6; i++) { if (0 != k && _keyReport.keys[i] == k) { _keyReport.keys[i] = 0x00; } } sendReport(&_keyReport); return 1; } size_t BleKeyboard::release(const MediaKeyReport k) { uint16_t k_16 = k[1] | (k[0] << 8); uint16_t mediaKeyReport_16 = _mediaKeyReport[1] | (_mediaKeyReport[0] << 8); mediaKeyReport_16 &= ~k_16; _mediaKeyReport[0] = (uint8_t)((mediaKeyReport_16 & 0xFF00) >> 8); _mediaKeyReport[1] = (uint8_t)(mediaKeyReport_16 & 0x00FF); sendReport(&_mediaKeyReport); return 1; } void BleKeyboard::releaseAll(void) { _keyReport.keys[0] = 0; _keyReport.keys[1] = 0; _keyReport.keys[2] = 0; _keyReport.keys[3] = 0; _keyReport.keys[4] = 0; _keyReport.keys[5] = 0; _keyReport.modifiers = 0; _mediaKeyReport[0] = 0; _mediaKeyReport[1] = 0; sendReport(&_keyReport); } size_t BleKeyboard::write(uint8_t c) { uint8_t p = press(c); // Keydown release(c); // Keyup return p; // just return the result of press() since release() almost always returns 1 } size_t BleKeyboard::write(const MediaKeyReport c) { uint16_t p = press(c); // Keydown release(c); // Keyup return p; // just return the result of press() since release() almost always returns 1 } size_t BleKeyboard::write(const uint8_t *buffer, size_t size) { size_t n = 0; while (size--) { if (*buffer != '\r') { if (write(*buffer)) { n++; } else { break; } } buffer++; } return n; } void BleKeyboard::onConnect(BLEServer* pServer) { this->connected = true; #if !defined(USE_NIMBLE) BLE2902* desc = (BLE2902*)this->inputKeyboard->getDescriptorByUUID(BLEUUID((uint16_t)0x2902)); desc->setNotifications(true); desc = (BLE2902*)this->inputMediaKeys->getDescriptorByUUID(BLEUUID((uint16_t)0x2902)); desc->setNotifications(true); #endif // !USE_NIMBLE } void BleKeyboard::onDisconnect(BLEServer* pServer) { this->connected = false; #if !defined(USE_NIMBLE) BLE2902* desc = (BLE2902*)this->inputKeyboard->getDescriptorByUUID(BLEUUID((uint16_t)0x2902)); desc->setNotifications(false); desc = (BLE2902*)this->inputMediaKeys->getDescriptorByUUID(BLEUUID((uint16_t)0x2902)); desc->setNotifications(false); advertising->start(); #endif // !USE_NIMBLE } void BleKeyboard::onWrite(BLECharacteristic* me) { uint8_t* value = (uint8_t*)(me->getValue().c_str()); (void)value; ESP_LOGI(LOG_TAG, "special keys: %d", *value); } void BleKeyboard::delay_ms(uint64_t ms) { uint64_t m = esp_timer_get_time(); if(ms){ uint64_t e = (m + (ms * 1000)); if(m > e){ //overflow while(esp_timer_get_time() > e) { } } while(esp_timer_get_time() < e) {} } }