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MegaSquirt.cpp
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MegaSquirt.cpp
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/* Copyright 2011 David Irvine
*
* This file is part of Loguino
*
* Loguino is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* Loguino is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
* You should have received a copy of the GNU General Public License
* along with Loguino. If not, see <http://www.gnu.org/licenses/>.
*
* $Rev: 153 $
* $Author: irvined $
* $Date: 2012-10-30 17:59:04 +0000 (Tue, 30 Oct 2012) $
*/
#include "MegaSquirt.h"
#define LAMBDA 14.1
//! Loads a new set of registers.
bool MegaSquirtData::loadData(byte newReg[112]){
uint8_t i=0;
for (i=0;i<=112;i++){
reg[i]=newReg[i];
}
return true;
}
//! The number of seconds since the controller was initialized.
uint16_t MegaSquirtData::MegaSquirtData::seconds(){
return ((reg[0] <<8)|reg[1]);
}
//! The pulse width for the primary injection circuit.
uint16_t MegaSquirtData::MegaSquirtData::pulseWidth1(){
return ((reg[2] <<8)|reg[3]);
}
//! The pulse width for the secondary injection circuit.
uint16_t MegaSquirtData::MegaSquirtData::pulseWidth2(){
return ((reg[4] <<8)|reg[5]);
}
//! The current engine RPM.
uint16_t MegaSquirtData::MegaSquirtData::rpm(){
return ((reg[6] <<8)|reg[7]);
}
//! The ignition advance in Degrees Before Top Dead Center.
int16_t MegaSquirtData::advance(){
return ((reg[8] <<8)|reg[9]);
}
//! A byte containing the register for the squirt status.
uint8_t MegaSquirtData::squirt(){
return reg[10];
}
//! Bank1 Ignition firing.
bool MegaSquirtData::firing1(){
return get_bit(squirt(), 0);
}
//! Bank2 Ignition firing.
bool MegaSquirtData::firing2(){
return get_bit(squirt(), 1);
}
//! Injector Circuit 1 scheduled to squirt.
bool MegaSquirtData::sched1(){
return get_bit(squirt(), 2);
}
//! Injector Circuit 1 Squirting.
bool MegaSquirtData::inj1(){
return get_bit(squirt(), 3);
}
//! Injector Circuit 2 scheduled to squirt.
bool MegaSquirtData::sched2(){
return get_bit(squirt(), 4);
}
//! Injector Circuit 2 Squirting.
bool MegaSquirtData::inj2(){
return get_bit(squirt(), 5);
}
//! Returns the register containing the Engine Operating/Status variables.
uint8_t MegaSquirtData::engine(){
return reg[11];
}
//! Engine ready to run.
bool MegaSquirtData::ready(){
return get_bit(engine(),0);
}
//! Engine Cranking.
bool MegaSquirtData::crank(){
return get_bit(engine(),1);
}
//! Engine in After Start Warmup Enrichment.
bool MegaSquirtData::startw(){
return get_bit(engine(),2);
}
//! Engine in Warmup Enrichment.
bool MegaSquirtData::warmup(){
return get_bit(engine(), 3);
}
//! TPS Based Acceleration active.
bool MegaSquirtData::tpsaen(){
return get_bit(engine(), 4);
}
//! TPS Based Deceleration active.
bool MegaSquirtData::tpsden(){
return get_bit(engine(), 5);
}
//! MAP Based Acceleration enrichment active.
bool MegaSquirtData::mapaen(){
return get_bit(engine(), 6);
}
//! AFR target Table 1.
uint8_t MegaSquirtData::afrtgt1(){
return reg[12];
}
//! AFR target Table 2.
uint8_t MegaSquirtData::afrtgt2(){
return reg[13];
}
//! Wideband O2 Sensor1 enabled. From wbo2 - indicates whether wb afr valid.
uint8_t MegaSquirtData::wbo2_en1(){
return reg[14];
}
//! Wideband O2 Sensor2enabled. From wbo2 - indicates whether wb afr valid.
uint8_t MegaSquirtData::wbo2_en2(){
return reg[15];
}
//! Barometric pressure in kPa x 10.
int16_t MegaSquirtData::barometer(){
return ((reg[16] <<8)|reg[17]);
}
//! Manifold Air Pressure in kPA x 10.
int16_t MegaSquirtData::map(){
return ((reg[18] <<8)|reg[19]);
}
//! Manifold Air Temperature in Fahrenheit x 10.
int16_t MegaSquirtData::mat(){
return ((reg[20] <<8)|reg[21]);
}
//! Coolant Temperature in Fahrenheit x 10.
int16_t MegaSquirtData::coolant(){
return int16_t(((reg[22] <<8)|reg[23]));
}
//! Throttle Position.
int16_t MegaSquirtData::tps(){
return ((reg[24] <<8)|reg[25]);
}
//! Battery Voltage.
int16_t MegaSquirtData::batteryVoltage(){
return ((reg[26] <<8)|reg[27]);
}
//! AFR Sensor 1.
int16_t MegaSquirtData::afr1(){
return ((reg[28] <<8)|reg[29]);
}
//! AFR Sensor 2.
int16_t MegaSquirtData::afr2(){
return ((reg[30] <<8)|reg[31]);
}
//! Knock Sensor.
int16_t MegaSquirtData::knock(){
return ((reg[32] <<8)|reg[33]);
}
//! AFR 1 as Lambda
int16_t MegaSquirtData::lambda1(){
return afr1()/LAMBDA;
}
//! AFR 2 as Lambda
int16_t MegaSquirtData::lambda2(){
return afr2()/LAMBDA;
}
//! Percent adjustment due to EGO Correction.
int16_t MegaSquirtData::egoCorrection1(){
return ((reg[34] <<8)|reg[35]);
}
//! Percent adjustment due to EGO Correction.
int16_t MegaSquirtData::egoCorrection(){
return ((egoCorrection1()+egoCorrection2())/2);
}
//! Percent adjustment due to EGO Correction.
int16_t MegaSquirtData::egoCorrection2(){
return ((reg[36] <<8)|reg[37]);
}
//! Percent adjustment due to air temperature.
int16_t MegaSquirtData::airCorrection(){
return ((reg[38] <<8)|reg[39]);
}
int16_t MegaSquirtData::warmupEnrich(){
return ((reg[40] <<8)|reg[41]);
}
int16_t MegaSquirtData::accelEnrich(){
return ((reg[42] <<8)|reg[43]);
}
int16_t MegaSquirtData::tpsfuelcut(){
return ((reg[44] <<8)|reg[45]);
}
int16_t MegaSquirtData::baroCorrection(){
return ((reg[46] <<8)|reg[47]);
}
int16_t MegaSquirtData::gammaEnrich(){
return ((reg[48] <<8)|reg[49]);
}
int16_t MegaSquirtData::veCurr1(){
return ((reg[50] <<8)|reg[51]);
}
int16_t MegaSquirtData::veCurr2(){
return ((reg[52] <<8)|reg[53]);
}
int16_t MegaSquirtData::veCurr(){
return veCurr1();
}
int16_t MegaSquirtData::iacstep(){
return ((reg[54] <<8)|reg[55]);
}
int16_t MegaSquirtData::coldAdvDeg(){
return ((reg[56] <<8)|reg[57]);
}
int16_t MegaSquirtData::tpsDOT(){
return ((reg[58] <<8)|reg[59]);
}
int16_t MegaSquirtData::mapDOT(){
return ((reg[60] <<8)|reg[61]);
}
int16_t MegaSquirtData::dwell(){
return ((reg[62] <<8)|reg[63]);
}
int16_t MegaSquirtData::maf(){
return ((reg[64] <<8)|reg[65]);
}
int16_t MegaSquirtData::calcMAP(){
return ((reg[66] <<8)|reg[67]);
}
int16_t MegaSquirtData::fuelCorrection(){
return ((reg[68] <<8)|reg[69]);
}
uint16_t MegaSquirtData::MegaSquirtData::portStatus()
{
return reg[70];
}
bool MegaSquirtData::port0()
{
return get_bit(portStatus(),0);
}
bool MegaSquirtData::port1()
{
return get_bit(portStatus(),2);
}
bool MegaSquirtData::port2()
{
return get_bit(portStatus(),2);
}
bool MegaSquirtData::port3()
{
return get_bit(portStatus(),3);
}
bool MegaSquirtData::port4()
{
return get_bit(portStatus(),4);
}
bool MegaSquirtData::port5()
{
return get_bit(portStatus(),5);
}
bool MegaSquirtData::port6()
{
return get_bit(portStatus(),6);
}
uint8_t MegaSquirtData::knockRetard()
{
return reg[71];
}
int16_t MegaSquirtData::xTauFuelCorr1()
{
return ((reg[72] <<8)|reg[73]);
}
int16_t MegaSquirtData::egoV1()
{
return ((reg[74] <<8)|reg[75]);
}
int16_t MegaSquirtData::egoV2()
{
return ((reg[76] <<8)|reg[77]);
}
int16_t MegaSquirtData::amcUpdates()
{
return ((reg[78] <<8)|reg[79]);
}
int16_t MegaSquirtData::kpaix()
{
return ((reg[80] <<8)|reg[81]);
}
//! X TAU Adjustment for VE table 2.
int16_t MegaSquirtData::xTauFuelCorr2()
{
return ((reg[82] <<8)|reg[83]);
}
int16_t MegaSquirtData::spare1()
{
return ((reg[84] <<8)|reg[85]);
}
int16_t MegaSquirtData::spare2()
{
return ((reg[86] <<8)|reg[87]);
}
int16_t MegaSquirtData::trig_fix()
{
return ((reg[88] <<8)|reg[89]);
}
int16_t MegaSquirtData::spare4()
{
return ((reg[90] <<8)|reg[91]);
}
int16_t MegaSquirtData::spare5()
{
return ((reg[92] <<8)|reg[93]);
}
int16_t MegaSquirtData::spare6()
{
return ((reg[94] <<8)|reg[95]);
}
int16_t MegaSquirtData::spare7()
{
return ((reg[96] <<8)|reg[97]);
}
int16_t MegaSquirtData::spare8()
{
return ((reg[98] <<8)|reg[99]);
}
int16_t MegaSquirtData::spare9()
{
return ((reg[100] <<8)|reg[101]);
}
//! Spare Byte 10.
int16_t MegaSquirtData::spare10()
{
return ((reg[102] <<8)|reg[103]);
}
//! Incremented on each tach pulse received.
uint16_t MegaSquirtData::tachCount()
{
return ((reg[104] <<8)|reg[105]);
}
uint8_t MegaSquirtData::ospare()
{
return reg[106];
}
uint8_t MegaSquirtData::cksum()
{
return reg[107];
}
//! Normalized time between trigger pulses, "fills in" missing teeth.
uint32_t MegaSquirtData::deltaT()
{
return ( (reg[108]<<24) | (reg[109]<<16) | (reg[110]<<8) | (reg[111]) );
}
bool MegaSquirtData::get_bit(byte b, int p)
{
b<<=(7-p);
if (b>=127){
return true;
}
return false;
}
byte MegaSquirt::begin(){
MS_PORT.begin(115200);
}
//! Sends the specified array of commands to the megasquirt and sets the
//! contents of data to the data returned by the controller. If
//! the controller returns the exact amount of data specified, then
//! returns MS_COMM_SUCCESS.
//!
//! However, if the amount of data returned by the controller is less than
//! the amount expected, returns MS_ERR_COMM_TIMEOUT. If the amount
//! of data returned is more than the amount expected, returns
//! MS_ERR_COMM_OVERFLOW
//!
//! Use this to send an arbitrary command to the MegaSquirt, and capture
//! any bytes returned by the controller.
//!
//! @param cmd An array of bytes to send to the controller
//! @param cmdLength The length of the cmd array.
//! @param data An array of bytes that will be populated with the data returned from the MegaSquirt
//! @param dataLength The number of bytes to be returned by the ECU.
byte MegaSquirt::runCommand(byte cmd[], byte cmdLength, byte data[], byte dataLength)
{
// Flush any leftover data from the last command.
MS_PORT.flush();
// Send the specified command to the controller.
byte i;
for (i=0;i<cmdLength;i++){
MS_PORT.write(cmd[i]);
}
unsigned long timeOut;
int counter;
// The Serial buffer is 64 bytes, this is less than the largest payload
// from the controller, as such don't wait, start reading the data right
// away and don't stop until either the requested number of bytes has
// been read or the timeout is reached.
//
counter=0;
timeOut=millis()+MS_WAIT_TIME;
while (counter<dataLength && millis()<timeOut)
{
while(counter<dataLength && MS_PORT.available()){
data[counter]=MS_PORT.read();
++counter;
}
}
// If there is still data pending to be read, raise OVERFLOW error.
if (MS_PORT.available()>0 && counter>=dataLength)
{
return MS_ERR_COMM_OVERFLOW;
}
// If the wrong amount of data was read, return timeout.
if (counter != dataLength){
return MS_ERR_COMM_TIMEOUT;
}
// Otherwise return success.
return MS_COMM_SUCCESS;
}
//! Sets sig to the signature of the megasquirt controller.
//! Use this to check the signature and version of the megasquirt.
//! @param sig Pointer to a String that will be set to the signature.
byte MegaSquirt::signature(String *sig)
{
// Signature (from Megasquirt main.c) is 32 bytes long.
byte data[32];
byte status;
byte cmd[1];
cmd[0]='S';
status=runCommand(cmd,1,data,32);
byte i=0;
for (i=0;i<32;i++){
*sig=*sig+(char)data[i];
}
return status;
}
//! Sets secs to the number of seconds the controller has been online.
//! The megasquirt controller records its uptime in seconds, this is primarily used for testing
//! communications with the controller.
//! @param secs pointer to uint16_t, that gets set to the number of seconds since power on.
byte MegaSquirt::seconds(uint16_t *secs)
{
byte status;
byte data[2];
byte cmd[1];
cmd[0]='c';
status=runCommand(cmd,1,data,2);
// combine the two bytes into one 16 bit value.
*secs=((uint16_t)data[0]<<8)|data[1];
return status;
}
//! Sets rev to the revision string returned by the megasquirt controller.
//! The revision string contains the version of the megasquirt controller.
//! @param rev Pointer to a string containing the revision of the controller.
byte MegaSquirt::revision(String *rev)
{
byte data[20];
byte status;
byte cmd[1];
cmd[0]='Q';
status=runCommand(cmd,1,data,20);
byte i=0;
for (i=0;i<20;i++){
*rev=*rev+String((char)data[i]);
}
return status;
}
//! Queries the megasquirt for a dump of all registers
//! @param table An array of MS_TABLE_SIZE bytes which is populated with the register data
/*
Offset Size Description
0 16 seconds
2 16 pulsewidth1
4 16 pulswidth 2
6 16 rpm
8 16 advance
10 8 engine
11 8 megasquirt
12 8 AFR Target 1
13 8 AFR Target 2
14 8 wb02 1
15 8 wb02 2
16 16 barometer
18 16 map
20 16 mat
22 16 coolant
24 16 tps
26 16 battery voltage
28 16 afr1
30 16 afr2
32 16 knock
34 16 egoCorrection1
36 16 EgoCorrection2
38 16 airCorrection
40 16 Warmup Enrichment
42 16 accelEnrich
44 16 tpsfuelcut
46 16 baroCorrection
48 16 gammaEnrich
50 16 veCurr1
52 16 veCurr2
54 16 iacstep
56 16 idleDC
56 16 coldAdvDeg
58 16 tpsDOT
60 16 mapDOT
62 16 dwell
64 16 maf
66 16 calcMAP
68 16 fuelCorrection
70 8 portStatus
71 8 knockRetard
72 16 xTauFuelCorr1
74 16 egoV1
76 16 egoV2
78 16 amcUpdates
80 16 kpaix
82 16 xTauFuelCorr2
84 16 spare1
86 16 spare2
88 16 trig_fix
90 16 spare4
92 16 spare5
94 16 spare6
96 16 spare7
98 16 spare8
100 16 spare9
102 16 spare10
104 16 tachCount
106 8 ospare
107 8 cksum
108 32 deltaT
*/
byte MegaSquirt::getData(byte table[])
{
byte status;
byte cmd[3];
cmd[0]='a';
cmd[1]=byte(0);
cmd[2]=byte(6);
Serial.println("Getting data from command a");
status=runCommand(cmd,3, table,MS_TABLE_LENGTH);
return status;
}