@Override public final void sendAddressReads( Collection<EcuQuery> queries, byte id, PollingState pollState) { final int obdQueryListLength = queries.size(); for (int i = 0; i < obdQueryListLength; i += 6) { for (int j = i; (j < i + 6) && (j < obdQueryListLength); j++) { obdQueries.add(((ArrayList<EcuQuery>) queries).get(j)); } final byte[] request = protocol.constructReadAddressRequest(id, obdQueries); LOGGER.debug( String.format( "Mode:%d OBD Request ---> %s", pollState.getCurrentState(), asHex(request))); final byte[] response = protocol.constructReadAddressResponse(obdQueries, pollState); manager.send(request, response, pollState); final byte[] processedResponse = protocol.preprocessResponse(request, response, pollState); LOGGER.debug( String.format( "Mode:%d OBD Response <--- %s", pollState.getCurrentState(), asHex(processedResponse))); protocol.processReadAddressResponses(obdQueries, processedResponse, pollState); obdQueries.clear(); } }
@Override public void ecuReset(byte id) { byte[] request = protocol.constructEcuResetRequest(id); LOGGER.debug(String.format("OBD Reset Request ---> %s", asHex(request))); byte[] response = manager.send(request); byte[] processedResponse = protocol.preprocessResponse(request, response, new PollingStateImpl()); LOGGER.debug(String.format("OBD Reset Response <--- %s", asHex(processedResponse))); protocol.processEcuResetResponse(processedResponse); }
@Override // Build an init string similar to the SSM version so the logger definition // can reference supported parameters with ecubyte/bit attributes. public void ecuInit(EcuInitCallback callback, byte id) { final byte[] processedResponse = new byte[46]; final byte[] request = protocol.constructEcuInitRequest(id); LOGGER.debug(String.format("OBD Calibration ID Request ---> %s", asHex(request))); final byte[] tmp = manager.send(request); final byte[] response = protocol.preprocessResponse(request, tmp, new PollingStateImpl()); LOGGER.debug(String.format("OBD Calibration ID Response <--- %s", asHex(response))); System.arraycopy(response, 0, processedResponse, 0, response.length); int j = 7; while (response[j] != 0 && j < response.length) { j++; } final byte[] calIdStr = new byte[j - 7]; System.arraycopy(response, 7, calIdStr, 0, j - 7); System.arraycopy(calIdStr, 0, processedResponse, 5, 8); LOGGER.info(String.format("OBD Calibration ID: %s", new String(calIdStr))); final byte[] supportedPidsPid = { (byte) 0x00, (byte) 0x20, (byte) 0x40, (byte) 0x60, (byte) 0x80, (byte) 0xA0, (byte) 0xC0, (byte) 0xE0 }; int i = 13; for (byte pid : supportedPidsPid) { final byte[] pidRequest = protocol.constructReadPidRequest(id, new byte[] {pid}); LOGGER.debug(String.format("OBD PID Group %02X Request ---> %s", pid, asHex(pidRequest))); final byte[] pidtmp = manager.send(pidRequest); final byte[] pidPpResponse = protocol.preprocessResponse(pidRequest, pidtmp, new PollingStateImpl()); LOGGER.debug(String.format("OBD PID Group %02X Response <--- %s", pid, asHex(pidPpResponse))); System.arraycopy(pidPpResponse, 6, processedResponse, i, 4); i = i + 4; if ((pidPpResponse[pidPpResponse.length - 1] & 0x01) == 0) break; } // Check if PID 0x65 is supported and if so read it to obtain the Aux // Input support bits. Map the first byte into the init string. This // byte can be referenced as byte 40 by the ecubyte/bit attributes in // the logger definition to indicate supported switches. if ((processedResponse[25] & 0x08) > 0) { final byte[] aiRequest = protocol.constructReadPidRequest(id, new byte[] {0x65}); LOGGER.debug( String.format("OBD Auxiliary Inputs Support Request ---> %s", asHex(aiRequest))); final byte[] aiResponse = manager.send(aiRequest); final byte[] aiPpResponse = protocol.preprocessResponse(aiRequest, aiResponse, new PollingStateImpl()); LOGGER.debug( String.format("OBD Auxiliary Inputs Support Response <--- %s", asHex(aiPpResponse))); System.arraycopy(aiPpResponse, 6, processedResponse, 45, 1); } LOGGER.debug( String.format( "OBD Init Response <--- %s", asHex(processedResponse))); // contains CALID not ECUID protocol.processEcuInitResponse(callback, processedResponse); }