@Override public void open() throws IOException { Log.d(TAG, "claiming interfaces, count=" + mDevice.getInterfaceCount()); Log.d(TAG, "Claiming control interface."); mControlInterface = mDevice.getInterface(0); Log.d(TAG, "Control iface=" + mControlInterface); // class should be USB_CLASS_COMM if (!mConnection.claimInterface(mControlInterface, true)) { throw new IOException("Could not claim control interface."); } mControlEndpoint = mControlInterface.getEndpoint(0); Log.d(TAG, "Control endpoint direction: " + mControlEndpoint.getDirection()); Log.d(TAG, "Claiming data interface."); mDataInterface = mDevice.getInterface(1); Log.d(TAG, "data iface=" + mDataInterface); // class should be USB_CLASS_CDC_DATA if (!mConnection.claimInterface(mDataInterface, true)) { throw new IOException("Could not claim data interface."); } mReadEndpoint = mDataInterface.getEndpoint(1); Log.d(TAG, "Read endpoint direction: " + mReadEndpoint.getDirection()); mWriteEndpoint = mDataInterface.getEndpoint(0); Log.d(TAG, "Write endpoint direction: " + mWriteEndpoint.getDirection()); }
private void setDevice(UsbDevice device) { usbInterfaceFound = null; endpointOut = null; endpointIn = null; for (int i = 0; i < device.getInterfaceCount(); i++) { UsbInterface usbif = device.getInterface(i); UsbEndpoint tOut = null; UsbEndpoint tIn = null; int tEndpointCnt = usbif.getEndpointCount(); if (tEndpointCnt >= 2) { for (int j = 0; j < tEndpointCnt; j++) { if (usbif.getEndpoint(j).getType() == UsbConstants.USB_ENDPOINT_XFER_BULK) { if (usbif.getEndpoint(j).getDirection() == UsbConstants.USB_DIR_OUT) { tOut = usbif.getEndpoint(j); } else if (usbif.getEndpoint(j).getDirection() == UsbConstants.USB_DIR_IN) { tIn = usbif.getEndpoint(j); } } } if (tOut != null && tIn != null) { // This interface have both USB_DIR_OUT // and USB_DIR_IN of USB_ENDPOINT_XFER_BULK usbInterfaceFound = usbif; endpointOut = tOut; endpointIn = tIn; } } } if (usbInterfaceFound == null) { return; } deviceFound = device; if (device != null) { UsbDeviceConnection connection = usbManager.openDevice(device); if (connection != null && connection.claimInterface(usbInterfaceFound, true)) { usbDeviceConnection = connection; Thread thread = new Thread(this); thread.start(); } else { usbDeviceConnection = null; } } }
/** * デバイスの利用開始。 * * @return null=正常、null以外=エラーメッセージ */ public String onStart(UsbDevice device) { Log.d(TAG, "onStart:" + device); if (!device.equals(usbDevice)) { return "No device attach."; } if (!usbManager.hasPermission(usbDevice)) { return "No device permission."; } usbConnection = usbManager.openDevice(usbDevice); // TODO:インターフェースの検出は端折ってます。 UsbInterface usbIf = usbDevice.getInterface(INTERFACE_INDEX); // EndPointの検索。分かってる場合は直接取り出しても良い。 for (int i = 0; i < usbIf.getEndpointCount(); i++) { UsbEndpoint ep = usbIf.getEndpoint(i); Log.d(TAG, "tye=" + ep.getType()); if (ep.getType() == UsbConstants.USB_ENDPOINT_XFER_INT) { if (ep.getDirection() == UsbConstants.USB_DIR_IN) { endpointIn = ep; } else if (ep.getDirection() == UsbConstants.USB_DIR_OUT) { endpointOut = ep; } } } if (endpointIn == null || endpointOut == null) { Log.e(TAG, "Device has not IN/OUT Endpoint."); return "Device has not IN/OUT Endpoint."; } // デバイスの確保 usbConnection.claimInterface(usbIf, true); isReady = true; return null; }
@Override protected void initEndpoints() throws IOException { UsbInterface usbInterface = mDevice.getInterface(0); if (!mConnection.claimInterface(usbInterface, true)) { throw new IOException("Error claiming Prolific interface 0"); } for (int i = 0; i < usbInterface.getEndpointCount(); ++i) { UsbEndpoint currentEndpoint = usbInterface.getEndpoint(i); switch (currentEndpoint.getType()) { case UsbConstants.USB_ENDPOINT_XFER_BULK: if (currentEndpoint.getDirection() == UsbConstants.USB_DIR_IN) { mReadEndpoint = currentEndpoint; } else { mWriteEndpoint = currentEndpoint; } break; case UsbConstants.USB_ENDPOINT_XFER_INT: mControlEndpoint = currentEndpoint; break; } } }
public ZBCoordinator(Context context, String actionUsbPermission) { super(); UsbManager manager = (UsbManager) context.getSystemService(Context.USB_SERVICE); HashMap<String, UsbDevice> deviceList = manager.getDeviceList(); Iterator<UsbDevice> deviceIterator = deviceList.values().iterator(); UsbDevice device = null; while (deviceIterator.hasNext()) { UsbDevice devi = deviceIterator.next(); // TODO Remove hardcoded IDs if (devi.getProductId() == 0x05dc && devi.getVendorId() == 0x16c0) device = devi; // TODO Make sure this is the ZBCoordinator using RAW Descriptors } PendingIntent mPermissionIntent = PendingIntent.getBroadcast(context, 0, new Intent(actionUsbPermission), 0); if (device != null && !manager.hasPermission(device)) manager.requestPermission(device, mPermissionIntent); if (device != null && manager.hasPermission(device)) { UsbInterface intf = device.getInterface(0); this.endpointInt = intf.getEndpoint(0); this.usbDeviceConnection = manager.openDevice(device); this.usbDeviceConnection.claimInterface(intf, false); this.canUse = true; } }
private void setDevice(UsbDevice device) { mConnection = mUsbManager.openDevice(device); intf = device.getInterface(0); UsbEndpoint epOut = null; UsbEndpoint epIn = null; UsbEndpoint epEv = null; // Looking for Bulk Endpoints for (int i = 0; i < intf.getEndpointCount(); i++) { UsbEndpoint ep = intf.getEndpoint(i); if (ep.getType() == UsbConstants.USB_ENDPOINT_XFER_BULK) { if (ep.getDirection() == UsbConstants.USB_DIR_OUT) { epOut = ep; } else { epIn = ep; } } if (ep.getType() == UsbConstants.USB_ENDPOINT_XFER_INT) { epEv = ep; } } if (epOut == null || epIn == null || epEv == null) { throw new IllegalArgumentException("not all endpoints found"); } mEndpointBulkOut = epOut; mEndpointBulkIn = epIn; mEndpointIntr = epEv; inMaxPS = mEndpointBulkIn.getMaxPacketSize(); }
public void setDevice(UsbManager usbManager, UsbDevice usbDevice) { // Log.d(TAG, "setDevice " + usbDevice); device = usbDevice; if (device != null) { usbDeviceDump(usbDevice); UsbInterface controlInterface = device.getInterface(1); endpoint = controlInterface.getEndpoint(0); UsbDeviceConnection connection = usbManager.openDevice(device); if (connection != null && connection.claimInterface(controlInterface, true)) { controlConnection = connection; serial = UsbSerialDevice.createUsbSerialDevice(device, controlConnection); boolean t = serial.open(); Log.d("Set DEVICE : ", "" + t); serial.setBaudRate(9600); serial.setParity(UsbSerialInterface.PARITY_NONE); serial.setStopBits(UsbSerialInterface.STOP_BITS_1); serial.setDataBits(UsbSerialInterface.DATA_BITS_8); } else { Log.e(TAG, "open connection FAIL"); controlConnection = null; } } }
public void usbDeviceDump(UsbDevice usbDevice) { // Log.d(TAG, "usbDeviceDump " + usbDevice); if (usbDevice == null) { Log.e(TAG, "usbDevice is NULL!"); return; } int numInterfaces = usbDevice.getInterfaceCount(); // Log.d(TAG, numInterfaces + " interfaces"); Log.d( TAG, "Device found: VendorId=" + usbDevice.getVendorId() + " ProductId=" + usbDevice.getProductId()); for (int i = 0; i < numInterfaces; i++) { UsbInterface usbInterface = usbDevice.getInterface(i); // Log.d(TAG, "\tInterface(" + i + "): class=" + usbInterface.getInterfaceClass() + " // protocol=" + usbInterface.getInterfaceProtocol()); int numEndpoints = usbInterface.getEndpointCount(); // Log.d(TAG, numEndpoints + " endpoints"); for (int j = 0; j < numEndpoints; j++) { UsbEndpoint usbEndpoint = usbInterface.getEndpoint(j); // Log.d(TAG, "\t\tEndpoint(" + j + ")"); } } }
@Override public void open(UsbDeviceConnection connection) throws IOException { if (mConnection != null) { throw new IOException("Already open"); } mConnection = connection; boolean opened = false; try { Log.d(TAG, "claiming interfaces, count=" + mDevice.getInterfaceCount()); mControlInterface = mDevice.getInterface(0); Log.d(TAG, "Control iface=" + mControlInterface); // class should be USB_CLASS_COMM if (!mConnection.claimInterface(mControlInterface, true)) { throw new IOException("Could not claim control interface."); } mControlEndpoint = mControlInterface.getEndpoint(0); Log.d(TAG, "Control endpoint direction: " + mControlEndpoint.getDirection()); Log.d(TAG, "Claiming data interface."); mDataInterface = mDevice.getInterface(1); Log.d(TAG, "data iface=" + mDataInterface); // class should be USB_CLASS_CDC_DATA if (!mConnection.claimInterface(mDataInterface, true)) { throw new IOException("Could not claim data interface."); } mReadEndpoint = mDataInterface.getEndpoint(1); Log.d(TAG, "Read endpoint direction: " + mReadEndpoint.getDirection()); mWriteEndpoint = mDataInterface.getEndpoint(0); Log.d(TAG, "Write endpoint direction: " + mWriteEndpoint.getDirection()); if (mEnableAsyncReads) { Log.d(TAG, "Async reads enabled"); } else { Log.d(TAG, "Async reads disabled."); } opened = true; } finally { if (!opened) { mConnection = null; } } }
/** * Initialize the USB device. Determines endpoints and prepares communication. * * @throws IOException if the device cannot be opened */ private void initDevice() throws IOException { Log.d(LOG_TAG, "setDevice " + this.mUsbDevice); // find interface if (this.mUsbDevice.getInterfaceCount() != 1) { Log.e(LOG_TAG, "Could not find interface"); return; } mIntf = this.mUsbDevice.getInterface(0); // device should have two endpoints if (mIntf.getEndpointCount() != 2) { Log.e(LOG_TAG, "Could not find endpoints"); return; } // endpoints should be of type bulk UsbEndpoint ep = mIntf.getEndpoint(0); if (ep.getType() != UsbConstants.USB_ENDPOINT_XFER_BULK) { Log.e(LOG_TAG, "Endpoint is not of type bulk"); return; } // check endpoint direction if (ep.getDirection() == UsbConstants.USB_DIR_IN) { mEpIn = mIntf.getEndpoint(0); mEpOut = mIntf.getEndpoint(1); } else { mEpIn = mIntf.getEndpoint(1); mEpOut = mIntf.getEndpoint(0); } UsbDeviceConnection connection = mUsbManager.openDevice(mUsbDevice); if (connection != null && connection.claimInterface(mIntf, true)) { Log.d(LOG_TAG, "open SUCCESS"); mConnection = connection; } else { Log.d(LOG_TAG, "open FAIL"); throw new IOException("could not open usb connection"); } }
@Override public boolean open() { // Restart the working thread and writeThread if it has been killed before and get and claim // interface restartWorkingThread(); restartWriteThread(); if (connection.claimInterface(mInterface, true)) { Log.i(CLASS_ID, "Interface succesfully claimed"); } else { Log.i(CLASS_ID, "Interface could not be claimed"); return false; } // Assign endpoints int numberEndpoints = mInterface.getEndpointCount(); for (int i = 0; i <= numberEndpoints - 1; i++) { UsbEndpoint endpoint = mInterface.getEndpoint(i); if (endpoint.getType() == UsbConstants.USB_ENDPOINT_XFER_BULK && endpoint.getDirection() == UsbConstants.USB_DIR_IN) { inEndpoint = endpoint; } else { outEndpoint = endpoint; } } // Default Setup if (setControlCommand(XDCVCP_IFC_ENABLE, XDCVCP_UART_ENABLE, null) < 0) return false; setBaudRate(DEFAULT_BAUDRATE); if (setControlCommand(XDCVCP_SET_LINE_CTL, XDCVCP_LINE_CTL_DEFAULT, null) < 0) return false; setFlowControl(UsbSerialInterface.FLOW_CONTROL_OFF); if (setControlCommand(XDCVCP_SET_MHS, XDCVCP_MHS_DEFAULT, null) < 0) return false; // Initialize UsbRequest requestIN = new UsbRequest(); requestIN.initialize(connection, inEndpoint); // Pass references to the threads setThreadsParams(requestIN, outEndpoint); return true; }
public void run() { Log("USB Thread started"); UsbEndpoint readEp = null; UsbDeviceConnection usbConnection = null; UsbInterface Intf = null; UsbInterface Intf0 = null; UsbEndpoint readEp0 = null; UsbEndpoint writeEp0 = null; byte[] readbuffer = new byte[64]; Log("Entering Read loop"); interfaceclaimed = false; while (!_shouldstop) { if (_usbDevice == null) { Log("No device. Open device and Recheck in 1 sec..."); interfaceclaimed = false; FindDevice(); Sleep(10000); continue; } if (!interfaceclaimed) { Log("Read loop Aquiring Interface 0 and Endpoint 1"); Intf = _usbDevice.getInterface(1); readEp = Intf.getEndpoint(0); Log("Read loop Aquiring Interface 0 and Endpoint 0"); Intf0 = _usbDevice.getInterface(0); readEp0 = Intf0.getEndpoint(0); writeEp0 = Intf0.getEndpoint(1); if (!_usbManager.getDeviceList().containsKey(_deviceName)) { Log("Failed to connect to the device. Retrying to acquire it."); FindDevice(); if (!_usbManager.getDeviceList().containsKey(_deviceName)) { Log("No device. Recheking in 10 sec..."); _connectionHandler.onDeviceNotFound(); Sleep(10000); continue; } } try { usbConnection = _usbManager.openDevice(_usbDevice); if (usbConnection == null) { Log( "Cannot start reader because the user didn't gave me permissions or the device is not present. Retrying in 2 sec..."); _connectionHandler.onUSBPermissionError(); Sleep(2000); continue; } Log("USB loop claiming interface"); // Claim and lock the interface in the android system. if (usbConnection.claimInterface(Intf, true) && usbConnection.claimInterface(Intf0, true)) { Log("USB loop Interface claimed successful"); interfaceclaimed = true; _connectionHandler.onUSBDeviceClaimed(); } } catch (SecurityException e) { Log( "Cannot start reader because the user didn't gave me permissions. Retrying in 2 sec..."); interfaceclaimed = false; Sleep(2000); continue; } } /* int filed = readConnection.getFileDescriptor(); int epaddress = readEp.getAddress(); TeensyDeviceUsbNativeHelper nativehelper = new TeensyDeviceUsbNativeHelper(filed,64,epaddress); nativehelper.beginUrbReadLoop(); byte[] buffer2 = new byte[64]; nativehelper.readUrb(1000, buffer2); //_receivedQueue.add(buffer2); Log(String.format("Message received of lengths %s and content: %s", 64, composeString(buffer2))); */ synchronized (_writelocker) { // Queue a USBRequest to USB if any data is in queue if (_writeQueue.size() > 0) { byte[] writebuffer = _writeQueue.poll(); Log(String.format("Writing to USB: %s", CAN_Frame.bytesToHexString(writebuffer))); // Log("USB loop sending bulk write request"); if (usbConnection.bulkTransfer(writeEp0, writebuffer, 64, 100) < 0) { // failed to transfer Log("USB loop sending bulk write request FAILED"); } // else Log("USB loop sending bulk write request SUCCEEDED"); } } synchronized (_locker) { // Log("Read loop Waiting for requst to complete"); if (usbConnection.bulkTransfer(readEp0, readbuffer, 64, 100) >= 0) { byte[] readbuffertrimmed = new byte[readbuffer[0]]; System.arraycopy(readbuffer, 0, readbuffertrimmed, 0, readbuffer[0]); _receivedQueue.add(readbuffertrimmed); Log(String.format("Message received: %s", CAN_Frame.bytesToHexString(readbuffer))); _connectionHandler.onUSBRecieve(); } } // Sleep for 10 ms to pause, so other thread can write data or anything. // As both read and write data methods lock each other - they cannot be run in parallel. // Looks like Android is not so smart in planning the threads, so we need to give it a // small time // to switch the thread context. // Sleep(10); } if (usbConnection != null) { usbConnection.releaseInterface(Intf); usbConnection.releaseInterface(Intf0); interfaceclaimed = false; usbConnection.close(); _connectionHandler.onUsbStopped(); Log("USB Thread ENDED!"); } }
/** The man thread for the demo */ @Override public void run() { /* Get the OUT endpoint. It is the second endpoint in the interface */ UsbEndpoint endpointOUT = intf.getEndpoint(1); /* Get the IN endpoint. It is the first endpoint in the interface */ UsbEndpoint endpointIN = intf.getEndpoint(0); /* Create the packets that we are going to send to the attached USB * device. */ byte[] getPushButtonStatusPacket = new byte[] {(byte) 0x81}; byte[] toggleLEDsPacket = new byte[] {(byte) 0x80}; byte[] getPotentiometerRequest = new byte[] {(byte) 0x37}; byte[] getPotentiometerResults = new byte[64]; byte[] getPushButtonStatusResults = new byte[64]; int potentiometerLastResults = Integer.MAX_VALUE; int result = 0; boolean needToToggleLEDs = false; while (true) { /* If the connection was closed, destroy the connections and variables * and exit this thread. */ if (wasCloseRequested() == true) { destroy(); return; } /* Sleep the thread for a while */ try { Thread.sleep(50); } catch (InterruptedException e) { e.printStackTrace(); } /* Send the request to get the push button status */ do { result = connection.bulkTransfer( endpointOUT, getPushButtonStatusPacket, getPushButtonStatusPacket.length, 1000); } while ((result < 0) && (wasCloseRequested() == false)); /* Read the push button status */ do { result = connection.bulkTransfer( endpointIN, getPushButtonStatusResults, getPushButtonStatusResults.length, 1000); } while ((result < 0) && (wasCloseRequested() == false)); /* If there was data successfully read,... */ if (result > 0) { /* convert the byte data to a boolean representing the current button state */ boolean currentButtonState = (getPushButtonStatusResults[1] == CUSTOM_HID_DEMO_BUTTON_PRESSED) ? true : false; /* We only need to send a message to the GUI if the current button state is different than * the old button state. */ if ((currentButtonState != lastButtonState) || (buttonStatusInitialized == false)) { lastButtonState = currentButtonState; handler.obtainMessage(0, new MessageButton(lastButtonState)).sendToTarget(); } } /* Check to see if we need to toggle the LEDs. We are synchronizing on * The toggleLEDCount object here to insure that the user isn't changing * the value as we are checking it. */ synchronized (toggleLEDCount) { if (toggleLEDCount > 0) { needToToggleLEDs = true; toggleLEDCount--; } } /* If we need to toggle the LEDs, send out the toggle LED command */ if (needToToggleLEDs == true) { do { result = connection.bulkTransfer(endpointOUT, toggleLEDsPacket, toggleLEDsPacket.length, 1000); } while ((result < 0) && (wasCloseRequested() == false)); needToToggleLEDs = false; } /* Send the request to read the Potentiometer */ do { result = connection.bulkTransfer( endpointOUT, getPotentiometerRequest, getPotentiometerRequest.length, 1000); } while ((result < 0) && (wasCloseRequested() == false)); /* Read the results of that request */ do { result = connection.bulkTransfer( endpointIN, getPotentiometerResults, getPotentiometerResults.length, 1000); } while ((result < 0) && (wasCloseRequested() == false)); /* Convert the resulting data to an int */ byte[] potentiometerBuffer = new byte[] {0, 0, 0, 0}; potentiometerBuffer[0] = getPotentiometerResults[1]; potentiometerBuffer[1] = getPotentiometerResults[2]; ByteBuffer buf = ByteBuffer.wrap(potentiometerBuffer); buf.order(ByteOrder.LITTLE_ENDIAN); int potentiometerResults = buf.getInt(); /* If the new results are different from the previous results, then send * a message to the specified handler containing the new data. */ // handler.obtainMessage(0,new MessagePotentiometer((potentiometerResults * // 100)/0x3FF)).sendToTarget(); // potentiometerLastResults = potentiometerResults; } }
@Override public void open(UsbDeviceConnection connection) throws IOException { if (mConnection != null) { throw new IOException("Already open"); } UsbInterface usbInterface = mDevice.getInterface(0); if (!connection.claimInterface(usbInterface, true)) { throw new IOException("Error claiming Prolific interface 0"); } mConnection = connection; boolean opened = false; try { for (int i = 0; i < usbInterface.getEndpointCount(); ++i) { UsbEndpoint currentEndpoint = usbInterface.getEndpoint(i); switch (currentEndpoint.getAddress()) { case READ_ENDPOINT: mReadEndpoint = currentEndpoint; break; case WRITE_ENDPOINT: mWriteEndpoint = currentEndpoint; break; case INTERRUPT_ENDPOINT: mInterruptEndpoint = currentEndpoint; break; } } if (mDevice.getDeviceClass() == 0x02) { mDeviceType = DEVICE_TYPE_0; } else { try { Method getRawDescriptorsMethod = mConnection.getClass().getMethod("getRawDescriptors"); byte[] rawDescriptors = (byte[]) getRawDescriptorsMethod.invoke(mConnection); byte maxPacketSize0 = rawDescriptors[7]; if (maxPacketSize0 == 64) { mDeviceType = DEVICE_TYPE_HX; } else if ((mDevice.getDeviceClass() == 0x00) || (mDevice.getDeviceClass() == 0xff)) { mDeviceType = DEVICE_TYPE_1; } else { Log.w(TAG, "Could not detect PL2303 subtype, " + "Assuming that it is a HX device"); mDeviceType = DEVICE_TYPE_HX; } } catch (NoSuchMethodException e) { Log.w( TAG, "Method UsbDeviceConnection.getRawDescriptors, " + "required for PL2303 subtype detection, not " + "available! Assuming that it is a HX device"); mDeviceType = DEVICE_TYPE_HX; } catch (Exception e) { Log.e( TAG, "An unexpected exception occured while trying " + "to detect PL2303 subtype", e); } } setControlLines(mControlLinesValue); resetDevice(); doBlackMagic(); opened = true; } finally { if (!opened) { mConnection = null; connection.releaseInterface(usbInterface); } } }