Kenneth Dunlop
/
Ken_CAN_test
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Ken_CAN_test.cpp
- Committer:
- kendunlop
- Date:
- 2022-06-16
- Revision:
- 5:bf4c6278ca8b
- Parent:
- 4:e8e9bc25b1ca
- Child:
- 6:2882710e4f1e
File content as of revision 5:bf4c6278ca8b:
//This program was created by Ken 8th June 2022 to test the CAN output of a CAN Gateway.
#define kMajorVersion 0 //Defines a major and minor version to be shown later in the program.
#define kMinorVersion 5
#include "mbed.h" //Including mbed libraries. This should be all it needs to use the Mbed and CAN.
#include <string> //This is needed to make text strings work
#include <stdio.h>
#include <ctype.h> //For 'is digit' condition
#include <sstream> //This is used to convert an integer to hex
#include <time.h> //To measure how long a process took? Includes clock_t and CLOCKS_PER_SEC
#include <list> //To let me make lists of CAN IDs
RawSerial pc(USBTX, USBRX); // USB UART Terminal, tx, rx. Is needed for 'pc.printf' functions to work.
// NOTE: Original pins for CAN Bus 1 are 9 and 10.
CAN CanBus(p9, p10); //CANBus to use pins 29 and 30. This defines CanBus so other 'CanBus' lines will work.
CAN CanBus2(p30, p29); //CANBus2 for recieving to use pins 29 and 30. This defines CanBus so other 'CanBus' lines will work.
CANMessage messageIn;
//Define a CAN message to send
CANMessage messageOut1;
//Set messageOutText to a default message so it's defined.
string messageOutText = "";
string part = "";
int partincrement = 0;
__int64 incrementer = 0;
int CANCount = 0;
int spamon = 0;
int spamcount = 0;
int totalspamsever = 0;
int spamstarttime = 0;
int spamendtime = 0;
int vlistincrementer = 0;
//A function to deal with each CAN message part (e.g.: 301, 8, 01, 02...)
void dealwithpart(void)
{
int hextotal = 0;
partincrement = partincrement + 1;
//pc.printf("Dealing with part %d. (%s)\r\n", partincrement, part);
//int partincrementb = 0;
int textlength = part.length();
//int characterinc = 0;
//pc.printf("That's %d characters long.\r\n", textlength);
for (int i = 0; i < part.size(); i++)
{
//pc.printf("Examining character %d/%d.\r\n", (i+1), textlength);
char individualcharacter = part.at(i);
//pc.printf("That's '%c'.\r\n", individualcharacter);
int numberized = 0;
if(isdigit(individualcharacter))
{
//pc.printf("That character is a digit.\r\n");
numberized = individualcharacter - '0';
//pc.printf("Numberized that's '%d'.\r\n", numberized);
}
else
{
//pc.printf("That character is NOT a digit.\r\n");
int asciivalue = toupper(individualcharacter);
//pc.printf("Ascii value is %d.\r\n", asciivalue);
numberized = asciivalue - 55;
//pc.printf("Hex value is %d.\r\n", numberized);
}
//pc.printf("Eventual numberization is %d.\r\n", numberized);
//pc.printf("Hex total is now %d.\r\n", hextotal);
int powertoraise = part.size() - (i+1);
//pc.printf("Must multiply by 16 to the power of %d.\r\n", powertoraise);
int amounttoadd = numberized;
//pc.printf("powertoraise is '%d'.\r\n", powertoraise);
if (powertoraise == 1)
{
amounttoadd = numberized * 16;
//pc.printf("Multiplying by 16.\r\n");
//pc.printf("powertoraise is '%d'.\r\n", powertoraise);
}
if (powertoraise == 2)
{
amounttoadd = numberized * 256;
//pc.printf("Multiplying by 256.\r\n");
}
//pc.printf("Amount to add is therefore %d.\r\n", amounttoadd);
hextotal = hextotal + amounttoadd;
//pc.printf("hextotal so far for this part is therefore %d.\r\n", hextotal);
}
//pc.printf("hextotal for whole part is therefore %d.\r\n", hextotal);
//pc.printf("Need to convert that into true hex.\r\n");
std::stringstream sstream;
sstream << std::hex << hextotal;
//pc.printf("StringSteam says '%s'.\r\n", sstream.str());
if (partincrement == 1)
{messageOut1.id = hextotal;}
if (partincrement == 2)
{messageOut1.len = hextotal;}
if (partincrement >= 3)
{messageOut1.data[partincrement-3] = hextotal;}
//pc.printf("Part %d complete.\r\n", partincrement);
//pc.printf("--------------------------------------\r\n");
}
//A function to get a coherent CAN message from one, uninterrupted string
void getCANfromstring(void)
{
//pc.printf("messageOutText is '%s'\r\n", messageOutText);
remove(messageOutText.begin(), messageOutText.end(), ' '); //Remove the spaces from the text to send out so it can be parsed.
//pc.printf("After removing spaces, messageOutText is '%s'\r\n", messageOutText);
string startofstring = messageOutText.substr(0,20); //Take the first 20 characters of the newly-formed string to get a spaceless CAN message.
//pc.printf("String to parse is '%s'.\r\n", startofstring);
partincrement = 0;
part = startofstring.substr(0,3);
dealwithpart();
part = startofstring.substr(3,1);
dealwithpart();
part = startofstring.substr(4,2);
dealwithpart();
part = startofstring.substr(6,2);
dealwithpart();
part = startofstring.substr(8,2);
dealwithpart();
part = startofstring.substr(10,2);
dealwithpart();
part = startofstring.substr(12,2);
dealwithpart();
part = startofstring.substr(14,2);
dealwithpart();
part = startofstring.substr(16,2);
dealwithpart();
part = startofstring.substr(18,2);
dealwithpart();
}
void defineCANmessage(void)
{
//pc.printf("Defining CAN message 1.\r\n");
//messageOut1.format = CANStandard;
//messageOut1.id = 0x301;
//messageOut1.len = 8;
//messageOut1.data[0] = 0x06;
//messageOut1.data[1] = 0x3f;
//messageOut1.data[2] = 0xb2;
//messageOut1.data[3] = 0x29;
//messageOut1.data[4] = 0x19;
//messageOut1.data[5] = 0x97;
//messageOut1.data[6] = 0x67;
//messageOut1.data[7] = 0x37;
}
void printMessageOut (void)
{
//This function will print out whatever the CAN bus is sending out. Can't be used constantly as it sends '000 8 00 00 00 00 00 00 00 00' all the time.
pc.printf("Message OUT: %03X %01X %02X %02X %02X %02X %02X %02X %02X %02X\r\n",messageOut1.id,messageOut1.len,messageOut1.data[0],messageOut1.data[1],messageOut1.data[2],messageOut1.data[3],messageOut1.data[4],messageOut1.data[5],messageOut1.data[6],messageOut1.data[7]);
}
void printMessageIn (void)
{
//This function will print out whatever the CAN bus is receiving.
pc.printf("Message IN: %03X %01X %02X %02X %02X %02X %02X %02X %02X %02X\r\n",messageIn.id,messageIn.len,messageIn.data[0],messageIn.data[1],messageIn.data[2],messageIn.data[3],messageIn.data[4],messageIn.data[5],messageIn.data[6],messageIn.data[7]);
}
//The 'main' function will run as soon as the program starts.
int main()
{
pc.baud(115200); // serial port at 115200
CanBus.frequency(500 * 1000); // CAN bus at 500k
CanBus2.frequency(500 * 1000); // CAN bus at 500k
CanBus.reset(); // clear any bus errors
CanBus2.reset(); // clear any bus errors
//NOTE: Print messages must be below this line to work.
pc.printf("------------------------------------------\r\n");
pc.printf("Welcome to Ken CAN test.\r\n");
pc.printf("Setting CAN bus to 500k.\r\n");
pc.printf("Setting serial port to 115200.\r\n");
pc.printf("Using pins 9 and 10.\r\n");
pc.printf("Version %d.%d\r\n",kMajorVersion,kMinorVersion);
pc.printf("Build date %s %s\r\n",__DATE__,__TIME__);
pc.printf("------------------------------------------\r\n");
char c;
//Check for button presses
while (1)
{
if (pc.readable())
{
c = pc.getc();
if (c != NULL)
{
//When the a key is pressed, define a CAN message and send it.
//pc.printf("A key was pressed! (%c)\r\n", c);
messageOutText = "";
if (c == '1')
{messageOutText = "301 8 01 01 01 01 01 01 01 01";}
if (c == '2')
{messageOutText = "302 8 02 02 02 02 02 02 02 02";}
if (c == '3')
{messageOutText = "303 8 00 00 00 00 00 00 00 33";}
if (c == '4')
{messageOutText = "304 8 04 04 04 04 04 04 04 04";}
if (c == '5')
{messageOutText = "305 8 05 05 05 05 05 05 05 05";}
if (c == '6')
{messageOutText = "306 8 06 06 06 06 06 06 06 06";}
if (c == '7')
{messageOutText = "307 8 07 07 07 07 07 07 07 07";}
if (c == '8')
{messageOutText = "308 8 08 08 08 08 08 08 08 08";}
if (c == '9')
{messageOutText = "309 8 09 09 09 09 09 09 09 09";}
if (c == 'f')
{messageOutText = "FFF 8 FF FF FF FF FF FF FF FF";}
if (c == 'q')
{
pc.printf("Changing CAN bus speed to 125.\r\n");
CanBus.frequency(125 * 1000); // CAN bus at 125k
CanBus2.frequency(125 * 1000); // CAN bus at 125k
}
if (c == 'w')
{
pc.printf("Changing CAN bus speed to 250.\r\n");
CanBus.frequency(250 * 1000); // CAN bus at 250k
CanBus2.frequency(250 * 1000); // CAN bus at 250k
}
if (c == 'e')
{
pc.printf("Changing CAN bus speed to 500.\r\n");
CanBus.frequency(500 * 1000); // CAN bus at 500k
CanBus2.frequency(500 * 1000);// CAN bus at 500k
}
if (c == 'r')
{
pc.printf("Changing CAN bus speed to 1000.\r\n");
CanBus.frequency(1000 * 1000); // CAN bus at 1000k
CanBus2.frequency(1000 * 1000); // CAN bus at 1000k
}
if (c == 's')
{
pc.printf("Sending authentic sats message.\r\n");
messageOutText = "301 8 06 3F B2 29 12 97 67 37";
}
if (c == 'o')
{
incrementer = (incrementer * 16);
pc.printf("Multiplied Incrementer by 16. It's now now %d.\r\n", incrementer);
}
if (c == 'i')
{
incrementer = incrementer + 16;
std::stringstream sstream;
sstream << std::hex << incrementer;
string stringsofar = sstream.str();
//pc.printf("Incrementer is now %d.\r\n", incrementer);
//pc.printf("StringStream says '%s'.\r\n", stringsofar);
int length = stringsofar.length();
//pc.printf("Length is %d/16.\r\n", length);
for (int i = 0; i < (16-length); i++)
stringsofar = "0" + stringsofar;
//pc.printf("stringsofar says '%s'.\r\n", stringsofar);
messageOutText = "305 8 " + stringsofar;
//pc.printf("Will try to send '%s'.\r\n", messageOutText);
}
messageOut1.format = CANStandard;
if (c == 'z' and spamon == 0)
{
pc.printf("Starting spam sequence. Press 'x' to end. \r\n");
spamon = 1;
incrementer = 0;
spamcount = 0;
spamstarttime = clock();
}
//Pressing 'x' switches off spam mode
if (c == 'x' and spamon == 1)
{
//spamcount = 9999999;
spamon = 0;
int spamendtime = 0;
spamendtime = clock();
int spamtime = 0;
spamtime = spamendtime - spamstarttime;
int spamtimeseconds = 0;
spamtimeseconds = (spamtime / CLOCKS_PER_SEC);
pc.printf("Ending spam mode. Spammed %d times for %d ticks (%d seconds) at %d ticks per second.\r\n", spamcount, spamtime, spamtimeseconds, CLOCKS_PER_SEC);
//pc.printf("Clock right now is %d.\r\n", (spamtime));
//pc.printf("Ticks per second are %d.\r\n", CLOCKS_PER_SEC);
//pc.printf("Spam start/end is %d/%d.\r\n", spamstarttime, spamendtime);
//pc.printf("Spamtime was %d ticks.\r\n", spamtime);
int spamspersecond = 0;
spamspersecond = (10000 * spamcount);
//pc.printf("spamcount times 10,000 is %d.\r\n", spamspersecond);
spamspersecond = spamspersecond / spamtime;
//pc.printf("10,000 times spamcount divided by spamtime is %d spams per tick.\r\n", spamspersecond);
spamspersecond = ((spamspersecond * CLOCKS_PER_SEC))/10000;
pc.printf("Spams per second are %d.\r\n", spamspersecond);
pc.printf("Total spams ever are %d.\r\n", totalspamsever);
pc.printf("-------------------------\r\n");
}
if (c == 'v')
{
string mylist[] = {"301", "302", "303", "304", "305", "306", "307", "308", "309", "313", "314", "322", "324", "329", "32A"};
pc.printf("%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s.\r\n", mylist[0], mylist[1], mylist [2], mylist [3], mylist [4], mylist [5], mylist [6], mylist [7], mylist [8], mylist [9], mylist [10], mylist [11], mylist [12], mylist [13], mylist [14]);
pc.printf("Part %d of list says '%s'\r\n.", vlistincrementer, mylist[vlistincrementer]);
vlistincrementer++;
}
if (messageOutText != "")
{
getCANfromstring();
CanBus.write(messageOut1);
CanBus2.write(messageOut1);
if (spamon == 0)
{
printMessageOut();
}
messageOutText = "";
}
//If spam mode is on, spam an incrementing CAN message
}
}
// }
if (spamon == 1)
{
spamcount ++;
totalspamsever ++;
incrementer ++;
std::stringstream sstream;
sstream << std::hex << incrementer;
string stringsofar = sstream.str();
int length = stringsofar.length();
for (int i = 0; i < (16-length); i++)
stringsofar = "0" + stringsofar;
messageOutText = "333 8 " + stringsofar;
getCANfromstring();
CanBus.write(messageOut1);
wait(0.01);
}
//Check for CAN messages coming in
if (CanBus.read(messageIn))
{
CANCount ++;
printMessageIn();
}
}
}