Blame |
Last modification |
View Log
| RSS feed
///============================================================================
/// This file is part of MIKROKOPTER SERIAL CONTROL TUTORIAL.
/// by JOHN C. MACDONALD at Ira A. Fulton College of Engineering and Technology
/// (http://hdl.lib.byu.edu/1877/2747)
/// (http://hdl.lib.byu.edu/1877/2748)
///============================================================================
/// made minor changes here...
///============================================================================
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Diagnostics;
namespace MKLiveView
{
static class FlightControllerMessage
{
public static byte[] CreateMessage
(char commandId,
byte address
)
{
return CreateMessage
(commandId, address,
new byte[0]);
}
public static byte[] CreateMessage
(char commandId,
byte address,
byte[] data
)
{
List
<byte> result
= new List
<byte>();
//Encoding.ASCII.GetBytes(command);
// add header
result
.Add(Convert
.ToByte('#'));
result
.Add((byte)(Convert
.ToByte('a') + address
));
result
.Add(Convert
.ToByte(commandId
));
// add data
result
.AddRange(Encode64
(data
));
// add footer
result
.AddRange(getCRCBytes
(result
.ToArray()));
result
.Add(Convert
.ToByte('\r'));
return result
.ToArray();
}
public static void ParseMessage
(byte[] message,
out char commandId,
out byte address,
out byte[] data
)
{
// Debug.Assert(message.Length >= 6);
if (message
.Length >= 6)
{
// header
// '#' == message[0]
byte[] Data
= new byte[message
.Length - 3];
Array
.Copy(message,
0, Data,
0, message
.Length - 3);
byte[] crcData
= getCRCBytes
(Data
);
if (crcData
.Length == 2 && crcData
[0] == message
[message
.Length - 3] && crcData
[1] == message
[message
.Length - 2])
{
commandId
= Convert
.ToChar(message
[2]);
address
= (byte)(message
[1] - Convert
.ToByte('a'));
// data
data
= Decode64
(message,
3, message
.Length - 6);
}
else
{
commandId
= '\0';
address
= 255;
data
= null;
}
}
else
{
commandId
= '\0';
address
= 0;
data
= null;
}
// footer
// CRC1 == message[message.Length - 3]
// CRC2 == message[message.Length - 2]
// '\r' == message[message.Length - 1]
}
public static byte[] Encode64
(byte[] data
)
{
List
<byte> encodedData
= new List
<byte>();
byte a,b,c
;
int index
= 0;
byte k
= Convert
.ToByte('=');
while (index
< data
.Length)
{
if (index
< data
.Length) a
= data
[index
++]; else a
= 0;
if (index
< data
.Length) b
= data
[index
++]; else b
= 0;
if (index
< data
.Length) c
= data
[index
++]; else c
= 0;
encodedData
.Add((byte)(k
+ (a
>> 2)));
encodedData
.Add((byte)(k
+ (((a
& 0x03
) << 4) | ((b
& 0xf0
) >> 4))));
encodedData
.Add((byte)(k
+ (((b
& 0x0f
) << 2) | ((c
& 0xc0
) >> 6))));
encodedData
.Add((byte)(k
+ ( c
& 0x3f
)));
}
return encodedData
.ToArray();
}
public static byte[] Decode64
(byte[] data,
int startIndex,
int count
)
{
// data should be in chunks of 4 right?
// Debug.Assert(count % 4 == 0);
List
<byte> decodedData
= new List
<byte>();
byte k
= Convert
.ToByte('=');
byte a,b,c,d
;
byte x,y,z
;
int index
= startIndex
;
while (index
<= count
+ startIndex
- 4)
{
a
= (byte)(data
[index
++] - k
);
b
= (byte)(data
[index
++] - k
);
c
= (byte)(data
[index
++] - k
);
d
= (byte)(data
[index
++] - k
);
x
= (byte)((a
<< 2) | (b
>> 4));
y
= (byte)(((b
& 0x0f
) << 4) | (c
>> 2));
z
= (byte)(((c
& 0x03
) << 6) | d
);
decodedData
.Add(x
);
decodedData
.Add(y
);
decodedData
.Add(z
);
}
return decodedData
.ToArray();
}
// cyclic redundancy check (CRC) or polynomial code checksum used to verify message
// it is an insecure hash function designed to detect accidental changes to raw computer data (wikipedia)
private static byte[] getCRCBytes
(byte[] data
)
{
byte[] crcBytes
= new byte[2];
uint tmpCRC
= 0;
for(int i
= 0; i
< data
.Length ;i
++)
{
tmpCRC
+= data
[i
];
}
tmpCRC
%= 4096;
crcBytes
[0] = (byte)(Convert
.ToByte('=') + tmpCRC
/ 64);
crcBytes
[1] = (byte)(Convert
.ToByte('=') + tmpCRC
% 64);
return crcBytes
;
}
}
}