/Version 1.7/RS232_MUX.X/main.c - Annoter - RS232-MUX - Forge DGA

f4faa2c5

Enzo Niro

/*

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 * File:   main.c

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 * Author: eniro

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 * Version : 1.7

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 * Created on March 25, 2024, 3:51 PM

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*/

/*

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 TODO LIST :

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 * Remap all pins !!!

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 * Select UART1 as master port

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 * Rename VCOMA/2/3/4 as VCOMA/B/C/D ?

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*/

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#define F_CPU 24000000UL

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#include <xc.h>

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#include <stdio.h>

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#include <string.h>

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#include <math.h>

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#include <stdlib.h>

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#include <util/delay.h>

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#include <avr/interrupt.h>

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#include <avr/eeprom.h>

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#include "hardware_uart.h"

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#include "hardware_timer.h"

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#include "hardware_TL16C754C.h"

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#include "hardware_config.h"

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#include "frame_definitions.h"

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#include "parameters.h"

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//USART setup

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//To calculate BAUD value register -> BAUD = 64*FCLK/(16*FBAUDS)

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#define UART_BAUD_VALUE     833 // 10000 is equivalent as 9600 bauds (on 24MHz clock) according to datasheet

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#define USART0_REG          0x3

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#define BOOT_MSG            "RS232-MUX\r\n"

//OSC. setup

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#define FREQSEL     0x9

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#define _FREQSEL_REG_WR     ((FREQSEL) << 2)

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#define _USART0_REG_WR      (USART0_REG & 0x7)

enum portIndex {

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    PORT_VCOMA_INDEX = 0,

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    PORT_VCOMB_INDEX,

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    PORT_VCOMC_INDEX,

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    PORT_VCOMD_INDEX,

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    PORT_MCOM_INDEX,

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};

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//////////////////////////////////////////////////////////////

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//Prototypes

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void bootSequence(void);

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void setRAMCfg(cfgPort *cfg, uint8_t *localBuffer);

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void MCOM_scanframe(uint8_t *data, uint8_t n, cfgPort *localPort);

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void MCOM_sendframe(uint8_t *data, uint8_t n, uint8_t port);

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void VCOM_sendframe(uint8_t *data, uint8_t n);

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void senseDebugLeds(bool *hasWritten, bool *hasRead);

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void readCFG(bool EEPROM_read, cfgPort *localPort);

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//String comparator (better version...)

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bool stringComp(uint8_t *str1, uint8_t *str2, uint8_t n, uint8_t m);

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//reset watchdog counter

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#define WATCHDOG_RESET      asm("WDR")

//////////////////////////////////////////////////////////////////////////////

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//Little Keep save old configuration accessible everywhere (Not good as it is)

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cfgPort OLD_CFG[4];

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///////////////////////////

#ifdef USE_PORT_1

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#define INIT_PORT(w,x,y,z)               initPort1(w,x,y,z)

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#define TX_WRITE(x)                     txWrite1(x)

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#define RX_READ                         rxRead1()

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#define PORT_AVAILABLE                  portAvailable1()

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#else

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#ifdef USE_PORT_2

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#define INIT_PORT(w,x,y,z)               initPort2(w,x,y,z)

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#define TX_WRITE(x)                     txWrite2(x)

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#define RX_READ                         rxRead2()

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#define PORT_AVAILABLE                  portAvailable2()

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#else

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#ifdef USE_PORT_3

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#define INIT_PORT(w,x,y,z)               initPort3(w,x,y,z)

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#define TX_WRITE(x)                     txWrite3(x)

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#define RX_READ                         rxRead3()

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#define PORT_AVAILABLE                  portAvailable3()

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#else

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#ifdef USE_PORT_4

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#define INIT_PORT(w,x,y,z)               initPort4(w,x,y,z)

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#define TX_WRITE(x)                     txWrite4(x)

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#define RX_READ                         rxRead4()

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#define PORT_AVAILABLE                  portAvailable4()

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#else

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#error "Please choose an uart port..."

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#endif

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#endif

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#endif

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#endif

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int main(void) {

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    cfgPort VCOM_cfg[4];

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    uint8_t masterBuffer[64], bufferA[64], bufferB[64], bufferC[64], bufferD[64];

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    uint8_t VCOMAIndex = 0, VCOMBIndex = 0, VCOMCIndex = 0, VCOMDIndex = 0, MCOMIndex;

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    uint16_t MCOM_counter = 0;

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    uint16_t VCOMA_counter = 0;

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    uint16_t VCOMB_counter = 0;

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    uint16_t VCOMC_counter = 0;

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    uint16_t VCOMD_counter = 0;

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    bool VCOM_can_read[] = {false, false, false, false};

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    uint8_t debug;

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    uint8_t pipoDebugger;

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    bool writtenStatus = false; //put write status on master port

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    bool readStatus[] = {false, false, false, false, false}; // put read status on all ports

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    setWait(5000);

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    for(int i = 0; i < 64; i++)

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        bufferA[i] = 0;

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    for(int i = 0; i < 64; i++)

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        bufferB[i] = 0;

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    for(int i = 0; i < 64; i++)

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        bufferC[i] = 0;

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    for(int i = 0; i < 64; i++)

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        bufferD[i] = 0;

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    _PROTECTED_WRITE(CLKCTRL.OSCHFCTRLA, _FREQSEL_REG_WR); //switch to 24 MHz

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    //_delay_ms(3000);

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    //Enable pins (Port direction)

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    ADDR_ENABLE;        //Address pins

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    ENABLE_WR_RD_PINS;  //Read and Write pins

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    ENABLE_CS_PINS;     //Chip select pins

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    ENABLE_RESET_PIN;   //Reset pin

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    //////////////////////////////////////////////////////////////

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    //Remember to put high level on cs pins to disable devices...

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    SETCSA;

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    SETCSB;

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    SETCSC;

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    SETCSD;

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    //Also don't forget IOR and IOW

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    SETWR;

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    SETRD;

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    //////////////////////////////////////////////////////////////

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    ////////////////////////////////////////

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    //init TL16C IC

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    SETRST;

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    //_delay_ms(10);

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    setWait(100);

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    CLRRST;

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    setWait(5);

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    ////////////////////////////////////////

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    //Init virtual COM ports

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    setWait(20000);

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    //Debug

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    //char chrDebug[50];

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    //sprintf(chrDebug, "%x %x %x %x %x %x %x %x\r\n", eeprom_read_byte(0),eeprom_read_byte(1),eeprom_read_byte(2),eeprom_read_byte(3),eeprom_read_byte(4),eeprom_read_byte(5),eeprom_read_byte(6),eeprom_read_byte(7));

    getEEPROMCfg(); //at first read EEPROM configuration

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    readConfiguration(&VCOM_cfg[PORT_VCOMA_INDEX], PORT_VCOMA_INDEX); //Then read configuration for VCOMA

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    readConfiguration(&VCOM_cfg[PORT_VCOMB_INDEX], PORT_VCOMB_INDEX); //Then read configuration for VCOMB

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    readConfiguration(&VCOM_cfg[PORT_VCOMC_INDEX], PORT_VCOMC_INDEX); //Then read configuration for VCOMC

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    readConfiguration(&VCOM_cfg[PORT_VCOMD_INDEX], PORT_VCOMD_INDEX); //Then read configuration for VCOMD

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    //Read for old cfg (in case we want to read EEPROM...)

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    readConfiguration(&OLD_CFG[PORT_VCOMA_INDEX], PORT_VCOMA_INDEX); //Then read configuration for VCOMA

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    readConfiguration(&OLD_CFG[PORT_VCOMB_INDEX], PORT_VCOMB_INDEX); //Then read configuration for VCOMB

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    readConfiguration(&OLD_CFG[PORT_VCOMC_INDEX], PORT_VCOMC_INDEX); //Then read configuration for VCOMC

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    readConfiguration(&OLD_CFG[PORT_VCOMD_INDEX], PORT_VCOMD_INDEX); //Then read configuration for VCOMD

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    //Init Virtual Ports

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    initPortA(VCOM_cfg[PORT_VCOMA_INDEX].baud, VCOM_cfg[PORT_VCOMA_INDEX].dataByte, VCOM_cfg[PORT_VCOMA_INDEX].parity, VCOM_cfg[PORT_VCOMA_INDEX].stopBit);

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    initPortB(VCOM_cfg[PORT_VCOMB_INDEX].baud, VCOM_cfg[PORT_VCOMB_INDEX].dataByte, VCOM_cfg[PORT_VCOMB_INDEX].parity, VCOM_cfg[PORT_VCOMB_INDEX].stopBit);

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    initPortC(VCOM_cfg[PORT_VCOMC_INDEX].baud, VCOM_cfg[PORT_VCOMC_INDEX].dataByte, VCOM_cfg[PORT_VCOMC_INDEX].parity, VCOM_cfg[PORT_VCOMC_INDEX].stopBit);

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    initPortD(VCOM_cfg[PORT_VCOMD_INDEX].baud, VCOM_cfg[PORT_VCOMD_INDEX].dataByte, VCOM_cfg[PORT_VCOMD_INDEX].parity, VCOM_cfg[PORT_VCOMD_INDEX].stopBit);

    //Master Port

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    INIT_PORT(UART_BAUD_VALUE, F8BIT_MODE, ONE_STOPBIT, AVR32_NO_PARITY);

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    setWait(500);

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    /*for(int i = 0; i < 25; i++)

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        TX_WRITE(chrDebug[i]);

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}*/

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    timerInit(60000); //10 ms interrupt

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    sei(); //never forget to enable global interrupt mask !

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    PORTA.DIR = 0x3F;

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    //TODO : Enable WDT

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    while(1)

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        //WDT refresh (avoid program freeze when on crash...)

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        WATCHDOG_RESET;

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        ////////////////////////////////////////////////////////

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        //Read UART A

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        if(portA_available()) //Check if one byte available

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            /////////////////////////////////////////

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            //Frame check

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            VCOM_can_read[PORT_VCOMA_INDEX] = true;

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            if(getParitySetA()) //if parity set

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                if(getErrorStatusA()) //if parity failed (or stop bit also)

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                    VCOM_can_read[PORT_VCOMA_INDEX] = false;

            /////////////////////////////////////////

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            if(VCOM_can_read[PORT_VCOMA_INDEX]) //if we can read according to parity

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                readStatus[PORT_VCOMA_INDEX] = true;

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                bufferA[VCOMAIndex] = rxReadA();

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                VCOMAIndex++;

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                VCOMA_counter = 0; //for frame timeout

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            else //if read failed

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                rxReadA(); //flush serial

        ////////////////////////////////////////////////////////

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        //Read UART B

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        if(portB_available()) //Check if one byte available

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            /////////////////////////////////////////

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            //Frame check

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            VCOM_can_read[PORT_VCOMB_INDEX] = true;

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            if(getParitySetB()) //if parity set

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                if(getErrorStatusB()) //if parity failed (or stop bit also)

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                    VCOM_can_read[PORT_VCOMB_INDEX] = false;

            /////////////////////////////////////////

            if(VCOM_can_read[PORT_VCOMB_INDEX]) //if we can read according to parity

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                readStatus[PORT_VCOMB_INDEX] = true;

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                bufferB[VCOMBIndex] = rxReadB();

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                VCOMBIndex++;

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                //if(VCOMBIndex > 64)

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                //    VCOMBIndex = 0;

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                VCOMB_counter = 0; //for frame timeout

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            else //if read failed

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                rxReadB(); //flush serial

        ////////////////////////////////////////////////////////

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        //Read UART C

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        if(portC_available()) //Check if one byte available

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            /////////////////////////////////////////

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            //Frame check

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            VCOM_can_read[PORT_VCOMC_INDEX] = true;

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            if(getParitySetC()) //if parity set

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                if(getErrorStatusC()) //if parity failed (or stop bit also)

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                    VCOM_can_read[PORT_VCOMC_INDEX] = false;

            /////////////////////////////////////////

            if(VCOM_can_read[PORT_VCOMC_INDEX]) //if we can read according to parity

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                readStatus[PORT_VCOMC_INDEX] = true;

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                bufferC[VCOMCIndex] = rxReadC();

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                VCOMCIndex++;

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                //if(VCOMBIndex > 64)

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                //    VCOMBIndex = 0;

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                VCOMC_counter = 0; //for frame timeout

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            else //if read failed

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                rxReadC(); //flush serial

        ////////////////////////////////////////////////////////

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        //Read UART D

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        if(portD_available()) //Check if one byte available

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            /////////////////////////////////////////

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            //Frame check

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            VCOM_can_read[PORT_VCOMD_INDEX] = true;

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            if(getParitySetD()) //if parity set

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                if(getErrorStatusD()) //if parity failed (or stop bit also)

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                    VCOM_can_read[PORT_VCOMD_INDEX] = false;

            /////////////////////////////////////////

            if(VCOM_can_read[PORT_VCOMD_INDEX]) //if we can read according to parity

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                readStatus[PORT_VCOMD_INDEX] = true;

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                bufferD[VCOMDIndex] = rxReadD();

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                VCOMDIndex++;

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                //if(VCOMBIndex > 64)

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                //    VCOMBIndex = 0;

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                VCOMD_counter = 0; //for frame timeout

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            else //if read failed

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                rxReadD(); //flush serial

        ////////////////////////////////////////////////////////

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        //Read UART Master

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        if(PORT_AVAILABLE > 0) //check if we have bytes to read

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            readStatus[PORT_MCOM_INDEX] = true;

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            masterBuffer[MCOMIndex] = RX_READ; //store byte into buffer

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            MCOMIndex++; //increment to next byte

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            //if(MCOMIndex > 64)

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            //    MCOMIndex = 0;

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            MCOM_counter = 0; //refresh timeout counter

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        else

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            readStatus[PORT_MCOM_INDEX] = false;

        //Timed process (for leds, etc...)

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        if(getTimerFlag())

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            /////////////////////////////////////////////////////////

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            //Timeout process

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            //For master port

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            if(MCOMIndex > 0)

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                MCOM_counter++;

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            //For virtual port 1

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            if(VCOMAIndex > 0)

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                VCOMA_counter++;

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            //For virtual port 2

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            if(VCOMBIndex > 0)

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                VCOMB_counter++;

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            //For virtual port 3

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            if(VCOMCIndex > 0)

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                VCOMC_counter++;

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            //For virtual port 4

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            if(VCOMDIndex > 0)

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                VCOMD_counter++;

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            senseDebugLeds(&writtenStatus, readStatus);

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            clearTimerFlag();

        ///////////////////////////////////////

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        //When buf is ready from master

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        if(MCOM_counter > SERIAL_PORT_TIMEOUT_COUNT || MCOMIndex >= 64)

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            //Send buffer to VCOM

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            if(masterBuffer[1] == MASTER_ID) //check if frame is destinated to the MUX232

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460

                MCOM_scanframe(masterBuffer, MCOMIndex, VCOM_cfg);

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            else //otherwise send it through a VCOM

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                VCOM_sendframe(masterBuffer, MCOMIndex);

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            MCOMIndex = 0; //reset index buffer

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            MCOM_counter = 0; //reset counter

        ///////////////////////////////////////

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        //When buf is ready from VCOMA

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        if(VCOMA_counter > SERIAL_PORT_TIMEOUT_COUNT || VCOMAIndex >= 64)

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            writtenStatus = true;//Say a wrote has been made

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            //Send buffer to VCOM

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            MCOM_sendframe(bufferA, VCOMAIndex, PORT_VCOMA_INDEX);

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            VCOMAIndex = 0; //reset index buffer

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            VCOMA_counter = 0; //reset counter

        ///////////////////////////////////////

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        //When buf is ready from VCOMB

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        if(VCOMB_counter > SERIAL_PORT_TIMEOUT_COUNT || VCOMBIndex >= 64)

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            writtenStatus = true;//Say a wrote has been made

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            //Send buffer to VCOM

493

            MCOM_sendframe(bufferB, VCOMBIndex, PORT_VCOMB_INDEX);

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            VCOMBIndex = 0; //reset index buffer

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            VCOMB_counter = 0; //reset counter

        ///////////////////////////////////////

500

        //When buf is ready from VCOMC

501

        if(VCOMC_counter > SERIAL_PORT_TIMEOUT_COUNT || VCOMCIndex >= 64)

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            writtenStatus = true;//Say a wrote has been made

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            //Send buffer to VCOM

505

            MCOM_sendframe(bufferC, VCOMCIndex, PORT_VCOMC_INDEX);

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            VCOMCIndex = 0; //reset index buffer

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            VCOMC_counter = 0; //reset counter

        if(VCOMD_counter > SERIAL_PORT_TIMEOUT_COUNT || VCOMDIndex >= 64)

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            writtenStatus = true; //Say a wrote has been made

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            //Send buffer to VCOM

518

            MCOM_sendframe(bufferD, VCOMDIndex, PORT_VCOMD_INDEX);

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            VCOMDIndex = 0; //reset index buffer

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            VCOMD_counter = 0; //reset counter

    return 0;

///////////////////////////////////////////////////////////

535

//Functions / macros

536

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void readCFG(bool EEPROM_read, cfgPort *localPort)

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    cfgPort *debugPort;

540

541

    const uint8_t *dispBaud[] = {"9600", "19200", "38400"};

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    const uint8_t dispParity[] = {'N', 'E', 'O'}; //The Matrix has you...

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    const uint8_t dispData[] = {'5', '6', '7', '8'};

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    const uint8_t dispBit[] = {'1', '2'};

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    char msg[30]; //23 characters max

546

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    //Read EEPROM configuration or RAM ?

549

    //if(EEPROM_read)

550

    //    getEEPROMCfg();

    if(!EEPROM_read) //Read RAM CFG ?

555

        debugPort = &localPort[PORT_VCOMA_INDEX];

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    else

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        debugPort = &OLD_CFG[PORT_VCOMA_INDEX];

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        //readConfiguration(debugPort, PORT_VCOMA_INDEX); //or just get CFG read from EEPROM

560

    //Disp CFGRead bytes and display directly CFG

561

    for(int i = 0; i < 30; i++)

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        msg[i] = 0;

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565

    sprintf(msg, "%c%c%c%cVCOMA B%s F%c%c%c\r\n",

566

            STX,

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            MASTER_ID,

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            FRAME_ADDR_1,

569

            FRAME_ADDR_2,

570

            dispBaud[debugPort->baud],

571

            dispData[debugPort->dataByte],

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            dispParity[debugPort->parity],

573

            dispBit[debugPort->stopBit]

574

);

575

    for(uint8_t i = 0; i < 22; i++)

576

        TX_WRITE(msg[i]); //Display string

577

578

    if(!EEPROM_read) //Read RAM CFG ?

579

        debugPort = &localPort[PORT_VCOMB_INDEX];

580

    else

581

        debugPort = &OLD_CFG[PORT_VCOMB_INDEX];

582

        //readConfiguration(debugPort, PORT_VCOMB_INDEX); //or just get CFG read from EEPROM

583

    //Disp CFGRead bytes and display directly CFG

584

    for(int i = 0; i < 30; i++)

585

586

        msg[i] = 0;

587

588

589

    sprintf(msg, "%c%c%c%cVCOMB B%s F%c%c%c\r\n",

590

            STX,

591

            MASTER_ID,

592

            FRAME_ADDR_1,

593

            FRAME_ADDR_2,

594

            dispBaud[debugPort->baud],

595

            dispData[debugPort->dataByte],

596

            dispParity[debugPort->parity],

597

            dispBit[debugPort->stopBit]

598

);

599

    for(uint8_t i = 0; i < 22; i++)

600

        TX_WRITE(msg[i]); //Display string

601

602

    if(!EEPROM_read) //Read RAM CFG ?

603

        debugPort = &localPort[PORT_VCOMC_INDEX];

604

    else

605

        debugPort = &OLD_CFG[PORT_VCOMC_INDEX];

606

        //readConfiguration(debugPort, PORT_VCOMC_INDEX); //or just get CFG read from EEPROM

607

    //Disp CFGRead bytes and display directly CFG

608

    for(int i = 0; i < 30; i++)

609

610

        msg[i] = 0;

611

612

    sprintf(msg, "%c%c%c%cVCOMC B%s F%c%c%c\r\n",

613

            STX,

614

            MASTER_ID,

615

            FRAME_ADDR_1,

616

            FRAME_ADDR_2,

617

            dispBaud[debugPort->baud],

618

            dispData[debugPort->dataByte],

619

            dispParity[debugPort->parity],

620

            dispBit[debugPort->stopBit]

621

);

622

    for(uint8_t i = 0; i < 22; i++)

623

        TX_WRITE(msg[i]); //Display string

624

625

    if(!EEPROM_read) //Read RAM CFG ?

626

        debugPort = &localPort[PORT_VCOMD_INDEX];

627

    else

628

        debugPort = &OLD_CFG[PORT_VCOMD_INDEX];

629

        //readConfiguration(debugPort, PORT_VCOMD_INDEX); //or just get CFG read from EEPROM

630

    //Disp CFGRead bytes and display directly CFG

631

    for(int i = 0; i < 30; i++)

632

633

        msg[i] = 0;

634

635

    sprintf(msg, "%c%c%c%cVCOMD B%s F%c%c%c\r\n",

636

            STX,

637

            MASTER_ID,

638

            FRAME_ADDR_1,

639

            FRAME_ADDR_2,

640

            dispBaud[debugPort->baud],

641

            dispData[debugPort->dataByte],

642

            dispParity[debugPort->parity],

643

            dispBit[debugPort->stopBit]

644

);

645

    for(uint8_t i = 0; i < 22; i++)

646

        TX_WRITE(msg[i]); //Display string

//Set RAM Cfg that we must apply it to the EEPROM !

651

void setRAMCfg(cfgPort *cfg, uint8_t *localBuffer)

652

653

    //Set default CFG

654

    uint8_t localBaudsCfg = ADDR_BAUD_9600, localDataCfg = ADDR_DATA_F8;

655

    uint8_t localParityCfg = ADDR_PARITY_NONE, localSBCfg = ADDR_STOP_ONE;

656

    uint8_t localVCOMIndex;

657

    uint8_t localIndex;

658

    uint8_t i;

659

660

    ////////////////////////////////////////////////////////

661

    //VCOM CONFIGURATION

662

663

    //Be sure our first character is B (so we can estimate that frame is good enough)

664

    if (localBuffer[MAX232_B_STR_INDEX] == MAX232_B_STR_CHAR)

665

666

        localIndex = MAX232_B_STR_INDEX;

667

        i = 0;

668

        //Calculate number of bytes between B and F char into frame (9600 bauds or 19200/38400 bauds for example)

669

        while (localBuffer[localIndex] != MAX232_F_STR_CHAR)

670

671

            i++;

672

            localIndex++;

673

674

        if (i < 6) //number of char = 4 ? ("9600")

675

676

677

            //////////////////////////////////////////

678

            //At first set bauds speed

679

            if (localBuffer[MAX232_B_STR_INDEX + 1] == '9' && localBuffer[MAX232_B_STR_INDEX + 2] == '6' &&

680

                localBuffer[MAX232_B_STR_INDEX + 3] == '0' && localBuffer[MAX232_B_STR_INDEX + 4] == '0')

681

682

                //Put CFG into 9600 bauds

683

                localBaudsCfg = ADDR_BAUD_9600;

684

685

            //////////////////////////////////////////

686

            //Set Data bits

687

            localDataCfg = localBuffer[MAX232_B_STR_INDEX + 6] - '5'; // Shift to 0 because ADDR_DATA_F5 = 0, ADDR_DATA_F6 = 1, ect...

688

            //We have already localDataCfg as ADDR_PARITY_NONE (keep aat this value if it equals to 'N')

689

            //localParityCfg = (localBuffer[MAX232_B_STR_INDEX + 7] == 'N') ? ADDR_PARITY_NONE : localDataCfg;

690

            //Does it equals to ODD ?

691

            localParityCfg = (localBuffer[MAX232_B_STR_INDEX + 7] == 'O') ? ADDR_PARITY_ODD : localParityCfg;

692

            //or EVEN ?

693

            localParityCfg = (localBuffer[MAX232_B_STR_INDEX + 7] == 'E') ? ADDR_PARITY_EVEN : localParityCfg;

694

            //Read (localBuffer[MAX232_B_STR_INDEX + 8] for stop bits -> 1/2

695

            localSBCfg = (localBuffer[MAX232_B_STR_INDEX + 8] == '2'); //Return condition state only...

696

            //Read (localBuffer[MAX232_B_STR_INDEX + 10] VCOM -> A/B/C/D

697

            localVCOMIndex = localBuffer[MAX232_B_STR_INDEX + 10] - CESAR_SHIFT;

698

699

        else //number of char = 5 ? ("19200"/"38400")

700

701

            //////////////////////////////////////////

702

            //At first set bauds speed

703

704

            if (localBuffer[MAX232_B_STR_INDEX + 1] == '1' && localBuffer[MAX232_B_STR_INDEX + 2] == '9' &&

705

                localBuffer[MAX232_B_STR_INDEX + 3] == '2' && localBuffer[MAX232_B_STR_INDEX + 4] == '0' &&

706

                localBuffer[MAX232_B_STR_INDEX + 5] == '0')

707

708

                //Put CFG into 19200 bauds

709

                localBaudsCfg = ADDR_BAUD_19200;

710

711

712

            if (localBuffer[MAX232_B_STR_INDEX + 1] == '3' && localBuffer[MAX232_B_STR_INDEX + 2] == '8' &&

713

                localBuffer[MAX232_B_STR_INDEX + 3] == '4' && localBuffer[MAX232_B_STR_INDEX + 4] == '0' &&

714

                localBuffer[MAX232_B_STR_INDEX + 5] == '0')

715

716

                //Put CFG into 38400 bauds

717

                localBaudsCfg = ADDR_BAUD_38400;

718

719

720

            //////////////////////////////////////////

721

722

            //Set Data bits

723

            localDataCfg = localBuffer[MAX232_B_STR_INDEX + 7] - '5'; // Shift to 0 because ADDR_DATA_F5 = 0, ADDR_DATA_F6 = 1, ect...

724

            //We have already localDataCfg as ADDR_PARITY_NONE (keep aat this value if it equals to 'N')

725

            //localParityCfg = (localBuffer[MAX232_B_STR_INDEX + 7] == 'N') ? ADDR_PARITY_NONE : localDataCfg;

726

            //Does it equals to ODD ?

727

            localParityCfg = (localBuffer[MAX232_B_STR_INDEX + 8] == 'O') ? ADDR_PARITY_ODD : localParityCfg;

728

            //or EVEN ?

729

            localParityCfg = (localBuffer[MAX232_B_STR_INDEX + 8] == 'E') ? ADDR_PARITY_EVEN : localParityCfg;

730

            //Read (localBuffer[MAX232_B_STR_INDEX + 8] for stop bits -> 1/2

731

            localSBCfg = (localBuffer[MAX232_B_STR_INDEX + 9] == '2'); //Return condition state only for stop bits...

732

            //Read (localBuffer[MAX232_B_STR_INDEX + 10] VCOM -> A/B/C/D

733

            localVCOMIndex = localBuffer[MAX232_B_STR_INDEX + 11] - CESAR_SHIFT;

734

            //TX_WRITE('F'); TX_WRITE('D'); TX_WRITE('P'); TX_WRITE(localBuffer[MAX232_B_STR_INDEX + 9]);

735

            //TX_WRITE('F'); TX_WRITE('D'); TX_WRITE('P'); TX_WRITE(localBuffer[MAX232_B_STR_INDEX + 11]);

736

            //TX_WRITE('F'); TX_WRITE('D'); TX_WRITE('P'); TX_WRITE(localParityCfg);

737

738

        //Write into RAM buffer (and prepare for EEPROM writing)

739

        writeConfiguration(&cfg[localVCOMIndex], localBaudsCfg, localParityCfg, localDataCfg, localSBCfg, localVCOMIndex);

740

741

    ////////////////////////////////////////////////////////

//Read a frame destinated to the MUX232 itself

747

748

void MCOM_scanframe(uint8_t *data, uint8_t n, cfgPort *localPort)

749

750

751

    uint8_t *localBuffer; //Calculate byte quantity of effective data

752

    uint8_t i;

753

754

755

    while(localBuffer == NULL)

756

757

        localBuffer = malloc(n-6);

758

        setWait(5);

759

760

761

    for(i = 0; i < n-6; i++)

762

        localBuffer[i] = 0;

763

764

    //At first, check if first byte is the start of text

765

    if(data[0] == STX)

766

767

        if(data[2] == FRAME_ADDR_1 && data[3] == FRAME_ADDR_2) //check if we have the MUX address identifier

768

769

            if(data[n-1] == CR_CHAR) //check the end of text (second byte)

770

771

                if(data[n-2] == LF_CHAR) //check the end of text (first byte)

772

773

                    for(i = 0; i < n-6; i++) //regarder la valeur de n

774

775

                        localBuffer[i] = data[i + 4]; //Get effective data

776

777

                    //Once data was collected, analysis it

778

                    if(!stringComp(localBuffer, MAX232_WRITE_COMMAND, n-6, MAX232_WRITE_SIZE)) //if the command is Write configuration

779

780

                        //Save CFG into EEPROM

781

                        setEEPROMCfg();

782

                        TX_WRITE(0x2);

783

                        TX_WRITE(FRAME_ADDR_1);

784

                        TX_WRITE(FRAME_ADDR_2);

785

                        TX_WRITE(MASTER_ID);

786

                        TX_WRITE('W');TX_WRITE('R');

787

                        TX_WRITE('C');TX_WRITE('F');TX_WRITE('G');

788

                        TX_WRITE(LF_CHAR);TX_WRITE(CR_CHAR);

789

790

                        TX_WRITE(0x2);

791

                        TX_WRITE(FRAME_ADDR_1);

792

                        TX_WRITE(FRAME_ADDR_2);

793

                        TX_WRITE(MASTER_ID);

794

                        TX_WRITE('R');TX_WRITE('E');TX_WRITE('B');TX_WRITE('O');TX_WRITE('O');TX_WRITE('T');

795

                        TX_WRITE(LF_CHAR);TX_WRITE(CR_CHAR);

796

797

                        while(1); //Force WDT reboot

798

799

                    else if(!stringComp(localBuffer, MAX232_READ_RAM_COMMAND, n-6, MAX232_READ_RAM_SIZE)) //is this Read configuration ?

800

801

                        //Read CFG from RAM

802

                        readCFG(false, localPort);

803

804

                    else if(!stringComp(localBuffer, MAX232_READ_ROM_COMMAND, n-6, MAX232_READ_ROM_SIZE)) //is this Read configuration ?

805

806

                        //Read CFG from EEPROM

807

                        readCFG(true, localPort);

808

809

                    else //otherwise that might be set configuration

810

811

                        setRAMCfg(localPort, localBuffer);

812

                        TX_WRITE(0x2);

813

                        TX_WRITE(FRAME_ADDR_1);

814

                        TX_WRITE(FRAME_ADDR_2);

815

                        TX_WRITE(MASTER_ID);

816

                        TX_WRITE('S');TX_WRITE('E');TX_WRITE('T');

817

                        TX_WRITE('C');TX_WRITE('F');TX_WRITE('G');

818

                        TX_WRITE(LF_CHAR);TX_WRITE(CR_CHAR);

//Send a frame from virtual port to master port

829

830

void MCOM_sendframe(uint8_t *data, uint8_t n, uint8_t port)

831

832

    //////////////////////////

833

    //Send frame

834

835

    TX_WRITE(0x02); //STX

836

    TX_WRITE(port + CESAR_SHIFT); //Which virtual port called master port ?

837

    TX_WRITE(FRAME_ADDR_1); //ADDR

838

    TX_WRITE(FRAME_ADDR_2); //ADDR

839

840

    for(uint8_t i = 0; i < n; i++) //DATA

841

        TX_WRITE(data[i]);

842

843

    TX_WRITE(LF_CHAR); //End of frame

844

    TX_WRITE(CR_CHAR); //End of frame

845

    //////////////////////////

846

847

848

//////////////////////////////////////////////////////////////////////////////////////////

849

//Send a frame from master port to virtual port (that calculate whose port to send ?)

850

851

void VCOM_sendframe(uint8_t *data, uint8_t n)

852

853

    uint16_t addrFunctions[] = {&txWriteA, &txWriteB, &txWriteC, &txWriteD }; //list of available functions addresses

854

    void (*localTxWrite)(); //function pointer

855

856

857

    ////////////////////////////////

858

859

    //At first, check if first byte is the start of text

860

    if(data[0] == STX)

861

862

        if(data[2] == FRAME_ADDR_1 && data[3] == FRAME_ADDR_2) //check if we have the MUX address identifier

863

864

            if(data[n-1] == CR_CHAR) //check the end of text (second byte)

865

866

                if(data[n-2] == LF_CHAR) //check the end of text (first byte)

867

868

                    data[1]-=CESAR_SHIFT; //convert port index to buffer equivalent

869

                    localTxWrite = addrFunctions[(data[1] < 3) ? data[1] : 3 ]; //data[3]

870

                    for(int i = 4; i < n-2; i++) //send frame without (STX + FRAME_ADDR_B1 + FRAME_ADDR_B2 + LF_CHAR + CR_CHAR)

871

872

                        localTxWrite(data[i]);

void bootSequence(void)

888

889

    debugLedsTest();

/**

896

 <p><b>void debugLedsTest(void)</b></p>

897

 <p><b>Debug leds test sequence</b></p>

898

*/

899

void debugLedsTest(void)

900

901

902

    PORTA.OUT = 1;

903

    for(int i = 0; i < 6; i++)

904

905

        PORTA.OUT <<= 1;

906

        _delay_ms(125);

907

908

    PORTA.OUT = 0;

909

910

911

/**

912

 <p><b>void senseDebugLeds(void)</b></p>

913

 <p><b>Call this to update leds status</b></p>

914

*/

915

void senseDebugLeds(bool *hasWritten, bool *hasRead)

    ///////////////////////////

921

    //Check Master Port

922

    if(*hasWritten)

923

924

        PORTA.OUT |= 0x20;

925

        *hasWritten = false;

926

927

    else

928

        PORTA.OUT &= ~(0x20);

929

930

    if(hasRead[PORT_MCOM_INDEX])

931

932

        PORTA.OUT |= 0x10;

933

        hasRead[PORT_MCOM_INDEX] = false;

934

935

    else

936

        PORTA.OUT &= ~(0x10);

937

938

    ///////////////////////////

939

    //Check VCOMA

940

    if(hasRead[PORT_VCOMA_INDEX])

941

942

        PORTA.OUT |= 0x01;

943

        hasRead[PORT_VCOMA_INDEX] = false;

944

945

    else

946

        PORTA.OUT &= ~(0x01);

947

948

    ///////////////////////////

949

    //Check VCOMB

950

    if(hasRead[PORT_VCOMB_INDEX])

951

952

        PORTA.OUT |= 0x02;

953

        hasRead[PORT_VCOMB_INDEX] = false;

954

955

    else

956

        PORTA.OUT &= ~(0x02);

957

958

    ///////////////////////////

959

    //Check VCOMC

960

    if(hasRead[PORT_VCOMC_INDEX])

961

962

        PORTA.OUT |= 0x04;

963

        hasRead[PORT_VCOMC_INDEX] = false;

964

965

    else

966

        PORTA.OUT &= ~(0x04);

967

968

969

    ///////////////////////////

970

    //Check VCOMD

971

    if(hasRead[PORT_VCOMD_INDEX])

972

973

        PORTA.OUT |= 0x08;

974

        hasRead[PORT_VCOMD_INDEX] = false;

975

976

    else

977

        PORTA.OUT &= ~(0x08);

//String comparator (better version...)

982

bool stringComp(uint8_t *str1, uint8_t *str2, uint8_t n, uint8_t m)

983

984

    bool result = false;

985

986

    if(n == m)

987

988

        for(int i = 0; i < n; i++)

989

990

            //TX_WRITE('A');TX_WRITE(':');TX_WRITE(str1[i]);TX_WRITE(" ");

991

            //TX_WRITE('B');TX_WRITE(':');TX_WRITE(str2[i]);TX_WRITE("\n");TX_WRITE("\r");

992

            if(str1[i] != str2[i]) //different string...

993

                result = true; //haaaaaaaaaaaaaaaaaaaaaaaaaaaax

994

995

996

    else

997

998

        result = true;

    return result;

RS232-MUX

root / Version 1.7 / RS232_MUX.X / main.c @ f4faa2c5