/// <summary>
/// This method writes to a symbol in RAM.
/// The ECU must not be write protected for this to work.
/// </summary>
/// <param name="a_symbolNumber">Symbol number to write to.</param>
/// <param name="a_data">Data to write.</param>
/// <returns></returns>
public bool writeSymbolRequestAddress(uint a_address, byte[] a_data)
{
LogDataString("writeSymbolRequest: " + a_address.ToString("X8") + "len: " + a_data.Length.ToString("X4"));
KWPReply reply = new KWPReply();
KWPResult result;
byte[] symbolNumberAndData = new byte[4 + a_data.Length];
//symbolNumberAndData[0] = (byte)(a_address >> 24);
symbolNumberAndData[0] = (byte)(a_address >> 16);
symbolNumberAndData[1] = (byte)(a_address >> 8);
symbolNumberAndData[2] = (byte)(a_address);
symbolNumberAndData[3] = (byte)(a_data.Length);
// len len
// adr adr adr
for (int i = 0; i < a_data.Length; i++)
symbolNumberAndData[i + 4] = a_data[i];
string requestString = "RequestString: ";
foreach (byte b in symbolNumberAndData)
{
requestString += b.ToString("X2") + " ";
}
Console.WriteLine(requestString);
// end dump to console
Console.WriteLine("SymbolNumberAndData length: " + symbolNumberAndData.Length.ToString("X8"));
KWPRequest t_request = new KWPRequest(0x3D, /*0x81, */symbolNumberAndData);
Console.WriteLine(t_request.ToString());
result = sendRequest(t_request, out reply);
if (result != KWPResult.OK)
{
Console.WriteLine("Result != KWPResult.OK");
return false;
}
Console.WriteLine("Result = " + reply.getData()[0].ToString("X2"));
Console.WriteLine("Result-total = " + reply.ToString());
if (reply.getData()[0] == 0x7D)
{
return true;
}
else
{
return false;
}
}
/// <summary>
/// sendEraseRequest sends an erase request to the ECU.
/// This method must be called before the ECU can be flashed.
/// </summary>
/// <returns>KWPResult</returns>
public KWPResult sendEraseRequest()
{
LogDataString("sendEraseRequest");
KWPReply reply = new KWPReply();
KWPReply reply2 = new KWPReply();
KWPResult result = KWPResult.Timeout;
int i = 0;
//First erase message. Up to 5 retries.
//Mode = 0x31
//PID = 0x52
//Expected result is 0x71
result = sendRequest(new KWPRequest(0x31, 0x52), out reply);
Console.WriteLine("Erase(1) " + reply.ToString());
if (result != KWPResult.OK)
return result;
while (reply.getMode() != 0x71)
{
System.Threading.Thread.Sleep(1000);
result = sendRequest(new KWPRequest(0x31, 0x52), out reply);
Console.WriteLine("Erase(2:" + i.ToString() + ") " + reply.ToString());
if (i++ > 15) return KWPResult.Timeout;
}
if (result != KWPResult.OK)
return result;
//Second erase message. Up to 10 retries.
//Mode = 0x31
//PID = 0x53
//Expected result is 0x71
i = 0;
result = sendRequest(new KWPRequest(0x31, 0x53), out reply2);
Console.WriteLine("Erase(3) " + reply2.ToString());
if (result != KWPResult.OK)
return result;
while (reply2.getMode() != 0x71)
{
System.Threading.Thread.Sleep(1000);
result = sendRequest(new KWPRequest(0x31, 0x53), out reply2);
Console.WriteLine("Erase(4:" + i.ToString() + ") " + reply2.ToString());
if (i++ > 20) return KWPResult.Timeout;
}
//Erase confirm message
//Mode = 0x3E
//Expected result is 0x7E
result = sendRequest(new KWPRequest(0x3E, 0x53), out reply2);
Console.WriteLine("Erase(5) " + reply2.ToString());
return result;
}
/// <summary>
/// This method writes to a symbol in RAM.
/// The ECU must not be write protected for this to work.
/// </summary>
/// <param name="a_symbolNumber">Symbol number to write to.</param>
/// <param name="a_data">Data to write.</param>
/// <returns></returns>
public bool writeSymbolRequest(uint a_symbolNumber, byte[] a_data)
{
LogDataString("writeSymbolRequest: " + a_symbolNumber.ToString());
KWPReply reply = new KWPReply();
KWPResult result;
int LengthToTx = a_data.Length;
if (LengthToTx > 0x41) LengthToTx = 0x41; // FA
byte[] symbolNumberAndData = new byte[3 + /*a_data.Length*/ LengthToTx];
//First two bytes should be the symbol number
symbolNumberAndData[0] = (byte)(a_symbolNumber >> 8);
symbolNumberAndData[1] = (byte)(a_symbolNumber);
symbolNumberAndData[2] = (byte)(0);
// len len
// adr adr adr
for (int i = 0; i < /*a_data.Length*/ LengthToTx; i++)
symbolNumberAndData[i + 3] = a_data[i];
string requestString = "RequestString: ";
foreach (byte b in symbolNumberAndData)
{
requestString += b.ToString("X2") + " ";
}
Console.WriteLine(requestString);
// end dump to console
Console.WriteLine("SymbolNumberAndData length: " + symbolNumberAndData.Length.ToString("X8"));
KWPRequest t_request = new KWPRequest(0x3D, 0x80, symbolNumberAndData);
Console.WriteLine(t_request.ToString());
result = sendRequest(t_request, out reply);
if (result != KWPResult.OK)
{
Console.WriteLine("Result != KWPResult.OK");
return false;
}
Console.WriteLine("Result = " + reply.getData()[0].ToString("X2"));
Console.WriteLine("Resulttotal = " + reply.ToString());
if (reply.getData()[0] == 0x7D)
{
return true;
}
else
{
return false;
}
}
public bool ResetECU()
{
LogDataString("ResetECU");
KWPReply reply = new KWPReply();
KWPResult result;
byte[] data = new byte[1];
data[0] = (byte)0x00;
KWPRequest req = new KWPRequest(0x11, 0x01, data);
Console.WriteLine(req.ToString());
result = sendRequest(req, out reply);
if (reply.getMode() == 0x51)
{
Console.WriteLine("Reset Success: " + reply.ToString());
return true;
}
else if (reply.getMode() == 0x7F)
{
Console.WriteLine("Reset Failed: " + reply.ToString());
}
return false;
}
public KWPResult sendEraseMemorySpaceRequest(Int32 StartAddress, Int32 Length)
{
/*02 FLASH memory erasure
1 start address (high byte)
2 start address (middle byte)
3 start address (low byte)
4 stop address (high byte)
5 stop address (middle byte)
6 stop address (low byte)
*/
Int32 StopAddress = StartAddress + Length;
LogDataString("sendEraseRequest");
KWPReply reply = new KWPReply();
KWPReply reply2 = new KWPReply();
KWPResult result = KWPResult.Timeout;
//First erase message. Up to 5 retries.
//Mode = 0x31
//PID = 0x51
//Expected result is 0x71
byte[] a_data = new byte[6];
int bt = 0;
//a_data[0] = (byte)(StartAddress >> 24);
a_data[bt++] = (byte)(StartAddress >> 16);
a_data[bt++] = (byte)(StartAddress >> 8);
a_data[bt++] = (byte)(StartAddress);
//a_data[4] = (byte)(Length >> 24);
a_data[bt++] = (byte)(StopAddress >> 16);
a_data[bt++] = (byte)(StopAddress >> 8);
a_data[bt++] = (byte)(StopAddress);
requestSequrityAccess(true);
KWPRequest req = new KWPRequest(0x31, 0x50, a_data);
result = sendRequest(req, out reply);
Console.WriteLine("Erase(1) " + reply.ToString());
/*if (result != KWPResult.OK)
return result;
System.Threading.Thread.Sleep(10000);
result = sendRequest(new KWPRequest(0x31, 0x53, a_data), out reply);
Console.WriteLine("Erase(2:" + i.ToString() + ") " + reply.ToString());
*/
if (result != KWPResult.OK)
return result;
result = sendRequest(new KWPRequest(0x3E, 0x50), out reply2); // tester present???
Console.WriteLine("reply on exit " + reply2.ToString());
return result;
}
public bool ReadDTCCodes(out List<string> list)
{
list = new List<string>();
LogDataString("ReadDTCCodes");
KWPReply reply = new KWPReply();
KWPResult result;
byte[] data = new byte[2];
data[0] = (byte)0xFF;
data[1] = (byte)0xFF;
//data[2] = (byte)0x00;
// Status byte
// 7 Warning lamp illuminated for this code
// 6 Warning lamp pending for this code, not illuminate but malfunction was detected
// 5 Warning lamp was previously illuminated for this code, malfunction not currently detected, code not yet erased
// 4 Stored trouble code
// 3 Manufacturer specific status
// 2 Manufacturer specific status
// 1 Current code - present at time of request
// 0 Maturing/intermittent code - insufficient data to consider as a malfunction
KWPRequest req = new KWPRequest(0x18 , 0x02); // Request Diagnostic Trouble Codes by Status
Console.WriteLine(req.ToString());
result = sendRequest(req, out reply);
Console.WriteLine(reply.ToString());
// J2190
// Multiple Mode $58 response messages may be reported to a single request, depending on the number of diagnostic
// trouble codes stored in the module. Each response message will report up to three DTCs for
// which at least one of the requested status bits is set. If no codes are stored in the module that meet the
// requested status, then the module will respond with the following:
// Reply: 58,00
if (reply.getMode() == 0x58)
{
if (reply.getPid() == 0x00)
{
Console.WriteLine("No DTC's");
list.Add("No DTC's");
return true;
}
else
{
//P0605
//P1231
//P1230
//P1530
//P1606
//P1460
//+ reply {Reply: 14,58,
// 06,
// 06,05,E4,
// 12,31,48,
// 12,30,E8,
// 15,30,E1,
// 16,06,E8,
// 14,60,41} TrionicCANLib.KWP.KWPReply
uint number = reply.getPid();
byte[] dtc = new byte[number*2];
byte[] read = reply.getData();
int j = 0;
int i = 0;
while(i < read.Length)
{
dtc[j++] = read[i++];
dtc[j++] = read[i++];
i++;
}
for (int n = 0; n < dtc.Length; n = n + 2)
{
list.Add("DTC: P" + dtc[n].ToString("X2") + dtc[n+1].ToString("X2"));
}
}
}
return false;
}
public bool ReadFreezeFrameData(uint frameNumber)
{
LogDataString("ReadFreezeFrameData");
KWPReply reply = new KWPReply();
KWPResult result;
byte[] data = new byte[1];
data[0] = (byte)0x00;
//data[1] = (byte)0x00;
//data[2] = (byte)0x00;
KWPRequest req = new KWPRequest(0x12, Convert.ToByte(frameNumber), data);
Console.WriteLine(req.ToString());
result = sendRequest(req, out reply);
Console.WriteLine(reply.ToString());
return true;
}
public bool ClearDTCCodes()
{
LogDataString("ClearDTCCodes");
KWPReply reply = new KWPReply();
KWPResult result;
byte[] data = new byte[1];
data[0] = (byte)0xFF;
//data[1] = (byte)0xFF;
//data[2] = (byte)0x00;
KWPRequest req = new KWPRequest(0x14, 0xFF, data);
Console.WriteLine(req.ToString());
result = sendRequest(req, out reply);
Console.WriteLine(reply.ToString());
return true;
}
/// <summary>
/// This method sends a KWPRequest and returns a KWPReply.
/// </summary>
/// <param name="a_request">The request.</param>
/// <param name="a_reply">The reply.</param>
/// <returns>KWPResult</returns>
private KWPResult sendRequest(KWPRequest a_request, out KWPReply a_reply, int expectedLength)
{
int _maxSendRetries = 3;
KWPResult _kwpResult = KWPResult.Timeout;
LogDataString("sendRequest");
KWPReply reply = new KWPReply();
RequestResult result;
a_reply = new KWPReply();
//<GS-11012010> was allemaal 1000
int keepAliveTimeout = 1000;
//Console.WriteLine("Checking KWP device open");
if (!m_kwpDevice.isOpen())
return KWPResult.DeviceNotConnected;
// reset the timer for keep alive (set to 1 seconds now)
if (stateTimer == null)
stateTimer = new System.Threading.Timer(sendKeepAlive, new Object(), keepAliveTimeout, keepAliveTimeout);
stateTimer.Change(keepAliveTimeout, keepAliveTimeout);
m_requestMutex.WaitOne();
int _retryCount = 0;
result = RequestResult.Unknown; // <GS-11022010>
while (_retryCount < _maxSendRetries && result != RequestResult.NoError)
{
LogDataString(a_request.ToString());
result = m_kwpDevice.sendRequest(a_request, out reply);
if ((int)reply.getLength() != expectedLength)
{
result = RequestResult.InvalidLength;
}
if (result == RequestResult.NoError)
{
a_reply = reply;
LogDataString(reply.ToString());
LogDataString(""); // empty line
m_requestMutex.ReleaseMutex();
//return KWPResult.OK;
_kwpResult = KWPResult.OK;
}
else
{
LogDataString("Timeout in KWPHandler::sendRequest");
m_requestMutex.ReleaseMutex();
//return KWPResult.Timeout;
_kwpResult = KWPResult.Timeout;
}
}
return _kwpResult;
}
/// <summary>
/// This method sends a KWPRequest and returns a KWPReply.
/// </summary>
/// <param name="a_request">The request.</param>
/// <param name="a_reply">The reply.</param>
/// <returns>KWPResult</returns>
private KWPResult sendRequest(KWPRequest a_request, out KWPReply a_reply)
{
LogDataString("sendRequest");
KWPReply reply = new KWPReply();
RequestResult result;
a_reply = new KWPReply();
//<GS-11012010> was allemaal 1000
int keepAliveTimeout = 1000;
//Console.WriteLine("Checking KWP device open");
if (!m_kwpDevice.isOpen())
return KWPResult.DeviceNotConnected;
// reset the timer for keep alive (set to 1 seconds now)
if (stateTimer == null)
stateTimer = new System.Threading.Timer(sendKeepAlive, new Object(), keepAliveTimeout, keepAliveTimeout);
stateTimer.Change(keepAliveTimeout, keepAliveTimeout);
m_requestMutex.WaitOne();
LogDataString(a_request.ToString());
result = m_kwpDevice.sendRequest(a_request, out reply);
a_reply = reply;
if (result == RequestResult.NoError)
{
LogDataString(reply.ToString());
LogDataString(""); // empty line
m_requestMutex.ReleaseMutex();
return KWPResult.OK;
}
else
{
LogDataString("Timeout in KWPHandler::sendRequest: " + result.ToString());
Console.WriteLine("Timeout in KWPHandler::sendRequest: " + result.ToString());
m_requestMutex.ReleaseMutex();
return KWPResult.Timeout;
}
}
/// <summary>
/// Send a request for a sequrity access with one out of two methods to
/// calculate the key.
/// </summary>
/// <param name="a_method">Key calculation method [1,2]</param>
/// <returns>true if sequrity access was granted, otherwise false</returns>
private bool requestSequrityAccessLevel(uint a_method)
{
LogDataString("requestSequrityAccessLevel: " + a_method.ToString());
KWPReply reply = new KWPReply();
KWPResult result;
byte[] seed = new byte[2];
byte[] key = new byte[2];
// Send a seed request.
KWPRequest requestForKey = new KWPRequest(0x27, 0x05);
Console.WriteLine("requestSequrityAccessLevel " + a_method.ToString() + " request for key: " + requestForKey.ToString());
result = sendRequest(requestForKey, out reply);
Console.WriteLine("requestSequrityAccessLevel " + a_method.ToString() + " request for key result: " + reply.ToString());
if (result != KWPResult.OK)
return false;
if (reply.getData().Length < 2)
return false;
seed[0] = reply.getData()[0];
seed[1] = reply.getData()[1];
if (a_method == 1)
key = calculateKey(seed, 0);
else
key = calculateKey(seed, 1);
// Send key reply.
KWPRequest sendKeyRequest = new KWPRequest(0x27, 0x06, key);
Console.WriteLine("requestSequrityAccessLevel " + a_method.ToString() + " send Key request: " + sendKeyRequest.ToString());
result = sendRequest(sendKeyRequest, out reply);
Console.WriteLine("requestSequrityAccessLevel " + a_method.ToString() + " send Key reply: " + reply.ToString());
if (result != KWPResult.OK)
{
Console.WriteLine("Security access request was not send");
return false;
}
//Check if sequrity was granted.
Console.WriteLine("Mode: " + reply.getMode().ToString("X2"));
Console.WriteLine("Data: " + reply.getData()[0].ToString("X2"));
if ((reply.getMode() == 0x67) && (reply.getData()[0] == 0x34)) // WAS [0]
{
Console.WriteLine("Security access granted: " + a_method.ToString());
return true;
}
Console.WriteLine("Security access was not granted: " + reply.ToString());
return false;
}
public bool ClearDTCCode(int dtccode)
{
LogDataString("ClearDTCCode: " + dtccode.ToString("X4"));
KWPReply reply = new KWPReply();
KWPResult result;
byte[] data = new byte[1];
data[0] = (byte)(dtccode & 0x00FF);
//data[1] = (byte)0xFF;
//data[2] = (byte)0x00;
KWPRequest req = new KWPRequest(0x14, (byte)(dtccode >> 8), data);
Console.WriteLine(req.ToString());
result = sendRequest(req, out reply);
Console.WriteLine(reply.ToString());
return true;
}
/// <summary>
/// This method sends a KWPRequest and returns a KWPReply.
/// </summary>
/// <param name="a_request">The request.</param>
/// <param name="a_reply">The reply.</param>
/// <returns>KWPResult</returns>
private KWPResult sendRequest(KWPRequest a_request, out KWPReply a_reply, int expectedLength)
{
int _maxSendRetries = 3;
KWPResult _kwpResult = KWPResult.Timeout;
logger.Trace("sendRequest");
KWPReply reply = new KWPReply();
RequestResult result;
a_reply = new KWPReply();
//Console.WriteLine("Checking KWP device open");
if (!m_kwpDevice.isOpen())
return KWPResult.DeviceNotConnected;
// reset the timer for keep alive (set to 1 seconds now)
if (stateTimer != null)
{
stateTimer.Change(keepAliveTimeout, keepAliveTimeout);
}
m_requestMutex.WaitOne();
int _retryCount = 0;
result = RequestResult.Unknown; // <GS-11022010>
while (_retryCount < _maxSendRetries && result != RequestResult.NoError)
{
logger.Trace(a_request.ToString());
result = m_kwpDevice.sendRequest(a_request, out reply);
if ((int)reply.getLength() != expectedLength)
{
result = RequestResult.InvalidLength;
}
if (result == RequestResult.NoError)
{
a_reply = reply;
logger.Trace(reply.ToString());
logger.Trace(""); // empty line
m_requestMutex.ReleaseMutex();
//return KWPResult.OK;
_kwpResult = KWPResult.OK;
}
else
{
logger.Trace("Error in KWPHandler::sendRequest" + result.ToString() + " " + reply.ToString());
m_requestMutex.ReleaseMutex();
//return KWPResult.Timeout;
_kwpResult = KWPResult.Timeout;
}
}
return _kwpResult;
}
/// <summary>
/// This method sends a KWPRequest and returns a KWPReply.
/// </summary>
/// <param name="a_request">The request.</param>
/// <param name="a_reply">The reply.</param>
/// <returns>KWPResult</returns>
private KWPResult sendRequest(KWPRequest a_request, out KWPReply a_reply)
{
logger.Trace("sendRequest");
KWPReply reply = new KWPReply();
RequestResult result;
a_reply = new KWPReply();
//Console.WriteLine("Checking KWP device open");
if (!m_kwpDevice.isOpen())
return KWPResult.DeviceNotConnected;
// reset the timer for keep alive (set to 1 seconds now)
if (stateTimer != null)
{
stateTimer.Change(keepAliveTimeout, keepAliveTimeout);
}
m_requestMutex.WaitOne();
logger.Trace(a_request.ToString());
for (int retry = 0; retry < 3; retry++)
{
result = m_kwpDevice.sendRequest(a_request, out reply);
a_reply = reply;
if (result == RequestResult.NoError)
{
logger.Trace(reply.ToString());
logger.Trace(""); // empty line
m_requestMutex.ReleaseMutex();
return KWPResult.OK;
}
else
{
logger.Trace("Error in KWPHandler::sendRequest: " + result.ToString() + " " + retry.ToString());
Console.WriteLine("Error in KWPHandler::sendRequest: " + result.ToString() + " " + retry.ToString());
}
}
m_requestMutex.ReleaseMutex();
return KWPResult.Timeout;
}