CCS-COMM_BOARD/main2.cpp

// Some comments about author
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>

#include "DSP2833x_Device.h"
#include "DSP28x_Project.h"         // Device Headerfile and Examples Include File
#include "DSP2833x_Examples.h"
// #include "Protocol/CAN.h"
// #include "Protocol/CAN_data.h"
// #include "Protocol/DigitalIO.h"
#include "Periphery.h"

// #include "DSP28335/GPIO.h"

#include "DSP28335/SCIB.h"
#include "DSP28335/SCIBase.h"

#include "MODBUSRTU/ModbusRTUCRC.h"
#include "MODBUSRTU/ModbusRTUDefines.h"
#include "MODBUSRTU/ModbusRTUTransceiver.h"
#include "MODBUSRTU/ModbusRTUVariant.h"
#include "MODBUSRTU/ModbusRTUTransceiverBase.h"

#include "DSP28335/MeasureTimeInterval.h"

#include "WEINBUS/HeaderWeinbus.h"


//Functions declarations
void idle_loop(void);

interrupt void cpu_timer0_isr(void);
interrupt void cpu_timer1_isr(void);
interrupt void canb_isr(void);
interrupt void canb_box_isr(void);

// Periphery periphery;

//----------------------------------------------------------------------------------------
DSP28335::SCISetup              SCIbSetup;
DSP28335::SCIB                  scib(ScibRegs);

DSP28335::MeasureTimeInterval   interval_measure(CpuTimer2);

// MODBUS RTU - PORT & HMI
MODBUSRTU::ModbusRTUTransceiverSetup modbus;
MODBUSRTU::ModbusRTUCRC     crc;
MODBUSRTU::ModbusRTUTransceiver                 modbus_port(scib, interval_measure, crc);

WEINBUS::WeinbusSlave       hmi(crc);
MODBUSRTU::ModbusRTUTransceiverConfiguration    modbus_port_configuration;


// Registers to testing HMI interface
WEINBUS::REGISTER_32 test_hmi_float_reg_400 = WEINBUS::REGISTER_32(0);
WEINBUS::REGISTER_32 test_hmi_float_reg_401 = WEINBUS::REGISTER_32(0);
WEINBUS::REGISTER_32 test_hmi_float_reg_402 = WEINBUS::REGISTER_32(0);
WEINBUS::REGISTER_32 test_hmi_float_reg_403 = WEINBUS::REGISTER_32(0);
WEINBUS::REGISTER_32 test_hmi_float_reg_404 = WEINBUS::REGISTER_32(0);
//<>

void test_init_hmi_buffers();
void clear_array(uint16_t *pointer, uint16_t sizearray);
//----------------------------------------------------------------------------------------

volatile Uint16 infCounter = 0;
volatile Uint16 canISRcounter = 0;
volatile Uint16 canBoxISRcounter = 0;
volatile Uint16 testCounter = 0;

volatile bool init = true;
volatile bool startTX = false;
volatile bool update = false;
volatile bool sendRemote = false;

Uint16 modbusInit = 0;
int32 testVar = 0;

void main()
{
    ServiceDog();
    DisableDog();

    InitSysCtrl();

    DINT;

    InitPieCtrl();

    IER = 0x0000;
    IFR = 0x0000;

    InitPieVectTable();

    EALLOW;
    PieVectTable.TINT0 = &cpu_timer0_isr;
    PieVectTable.XINT13 = &cpu_timer1_isr;
    PieVectTable.ECAN0INTB = &canb_isr;
    PieVectTable.ECAN1INTB = &canb_box_isr;
    EDIS;

    InitCpuTimers();
    ConfigCpuTimer(&CpuTimer0, 150, 1000);  // 1ms
    ConfigCpuTimer(&CpuTimer1, 150, 5000);  // 5ms

    IER |= M_INT1;  // Enable CPU Interrupt 1
    IER |= M_INT9;  // Enable CPU Interrupt 9
    IER |= M_INT13; // Enable CPU Interrupt 13

    PieCtrlRegs.PIEIER1.bit.INTx7 = 1;
    PieCtrlRegs.PIEIER9.bit.INTx7 = 1;  // from 5 to 8
    PieCtrlRegs.PIEIER9.bit.INTx8 = 1;

    // periphery.config();

//----------------------------------------------------------------------------------------
    SCIbSetup.config.baudrate = SCIB_BAUDRATE_DEFAULT;
    SCIbSetup.config.parity   = SCIB_PARITY_DEFAULT;
    SCIbSetup.config.stopbits = SCIB_STOPBITS_DEFAULT;
    SCIbSetup.config.lenght   = SCIB_LENGHT_DEFAULT;
    SCIbSetup.gpio_setup      = SCIB_GPIO_SETUP_DEFAULT;

    modbus.gpio_re_de_setup = &DSP28335::GPIO::gpio_scib_re_de_setup;
    modbus.gpio_driver_enable = &DSP28335::GPIO::gpio_scib_re_de_set;
    modbus.gpio_receiver_enable = &DSP28335::GPIO::gpio_scib_re_de_clear;

    scib.setup(SCIbSetup);

    interval_measure.set_magic((Uint32)0);
    interval_measure.reset();

    modbus_port.setup(modbus);
//----------------------------------------------------------------------------------------

    // Enable global Interrupts and higher priority real-time debug events:
    EINT;   // Enable Global interrupt INTM
    ERTM;   // Enable Global realtime interrupt DBGM

    // periphery.updateVersionFPGA();

//----------------------------------------------------------------------------------------    
    
    // MODBUS RTU
    //
    modbus_port_configuration.node_id         = 0x5;
    modbus_port_configuration.config.baudrate = DSP28335::BR9600;
    modbus_port_configuration.config.parity   = DSP28335::NO;
    modbus_port_configuration.config.stopbits = DSP28335::ONE;
    modbus_port_configuration.config.lenght   = DSP28335::LEN8;
    //
    test_init_hmi_buffers();

    modbus_port.configure(modbus_port_configuration);

    clear_array((uint16_t *)hmi.rxStack, sizeof(hmi.rxStack)/sizeof(uint16_t));
    clear_array((uint16_t *)hmi.txStack, sizeof(hmi.txStack)/sizeof(uint16_t));

    modbus_port.setRXBuffer((uint16_t*)hmi.rxStack, &hmi.rxLength);
    modbus_port.setTXBuffer((uint16_t*)hmi.txStack, &hmi.txLength);

    interval_measure.set_magic(19);

//----------------------------------------------------------------------------------------

    CpuTimer0.RegsAddr->TCR.bit.TSS = 0;
    CpuTimer1.RegsAddr->TCR.bit.TSS = 0;

    idle_loop();
    //
}//end main()
//
//

void idle_loop()
{
    while (true)
    {
        infCounter++;

        // periphery.initExternalModbus();

        //
        // MODBUS RTU HMI Service
        //
        if(modbus_port.compare_state(MODBUSRTU::BREAK))
        {
            modbus_port.port_reset();
            //
        }
        else
        {
            modbus_port.execute();
            hmi.execute();
            //
        }//if else
        //<>

    }//end while

}//end idle_loop()


interrupt void cpu_timer0_isr(void)
{
    // periphery.processDigitalOutput();

    PieCtrlRegs.PIEACK.all |= PIEACK_GROUP1;
}//end


interrupt void cpu_timer1_isr(){
    CpuTimer1.InterruptCount++;

    // periphery.processDigitalInput();
}


interrupt void canb_isr(void){
    canISRcounter++;

    CANGIF0_REG CANGIF0_SHADOW;
    volatile Uint32 resetBit;

    CANGIF0_SHADOW.all = ECanbRegs.CANGIF0.all;

    if (CANGIF0_SHADOW.bit.WLIF0){
        resetBit = 256;
        ECanbRegs.CANGIF0.all = 256ul;
    }

    if (CANGIF0_SHADOW.bit.EPIF0){
        ECanbRegs.CANGIF0.all = 528ul;
    }

    PieCtrlRegs.PIEACK.all |= PIEACK_GROUP9;
}

interrupt void canb_box_isr(void){
    canBoxISRcounter++;

    // Just example
    //
    // volatile Uint32 boxNumberIsr;
    // boxNumberIsr = ECanbRegs.CANGIF1.bit.MIV1;

    // CANRMP_REG temp;
    // temp.all = 0;
    // temp.all = 1ul << 27;

    // ECanbRegs.CANRMP.all = temp.all;

    // MODBUS_COMM_CPU_Message27.mdh.all = ECanbMboxes.MBOX27.MDH.all;
    // MODBUS_COMM_CPU_Message27.mdl.all = ECanbMboxes.MBOX27.MDL.all;

    // temp.all = ECanbRegs.CANRMP.all;
    // if (temp.bit.RMP25){
    //     temp.all = 1ul << 25;
    //     ECanbRegs.CANRMP.all = temp.all;

    //     MODBUS_COMM_CPU_Message25.mdh.all = ECanbMboxes.MBOX25.MDH.all;
    //     MODBUS_COMM_CPU_Message25.mdl.all = ECanbMboxes.MBOX25.MDL.all;
    // }

    PieCtrlRegs.PIEACK.all |= PIEACK_GROUP9;
}


void test_init_hmi_buffers()
{
    //
    // hmi writeable registers
    hmi.inputRegisters.set(WEINBUS::INPUTREGISTERS, 400);
    hmi.inputRegisters.add( 0, &(float&)test_hmi_float_reg_400.f);
    hmi.inputRegisters.add( 1, &(float&)test_hmi_float_reg_401.f);
    hmi.inputRegisters.add( 2, &(float&)test_hmi_float_reg_402.f);
    hmi.inputRegisters.add( 3, &(float&)test_hmi_float_reg_403.f);
    hmi.inputRegisters.add( 4, &(float&)test_hmi_float_reg_404.f);
    //
    // hmi readable registers
    hmi.outputRegisters.set(WEINBUS::OUTPUTREGISTERS, 400);
    hmi.outputRegisters.add( 0 , &(float&)test_hmi_float_reg_400.f);
    hmi.outputRegisters.add( 1, &(float&)test_hmi_float_reg_401.f);
    hmi.outputRegisters.add( 2, &(float&)test_hmi_float_reg_402.f);
    hmi.outputRegisters.add( 3, &(float&)test_hmi_float_reg_403.f);
    hmi.outputRegisters.add( 4, &(float&)test_hmi_float_reg_404.f);
    //
}//
//

void clear_array(uint16_t *pointer, uint16_t sizearray)
{
    static uint16_t *p_array = 0;
    static uint16_t size_array = 0;

    p_array = pointer;
    size_array = sizearray;

    while(size_array--)
    {
        *p_array++ = 0;
    }
    //
}//
First test 1. Add an arbitrator class to control all necessary periphery main2.cpp represents it usage. main.cpp without periphery class. 2. Add XINTF init and DigitalIO interface 3. Change DI/O MBOX length to 2 bytes instead of 3 1 month ago			`// Some comments about author`
			`#include <stdint.h>`
			`#include <stdio.h>`
			`#include <stdlib.h>`
			`#include <string.h>`

			`#include "DSP2833x_Device.h"`
			`#include "DSP28x_Project.h" // Device Headerfile and Examples Include File`
			`#include "DSP2833x_Examples.h"`
Modbus still working here 4 weeks ago			`// #include "Protocol/CAN.h"`
			`// #include "Protocol/CAN_data.h"`
			`// #include "Protocol/DigitalIO.h"`
First test 1. Add an arbitrator class to control all necessary periphery main2.cpp represents it usage. main.cpp without periphery class. 2. Add XINTF init and DigitalIO interface 3. Change DI/O MBOX length to 2 bytes instead of 3 1 month ago			`#include "Periphery.h"`

Clean more 3 weeks ago			`// #include "DSP28335/GPIO.h"`
Clean project. Modbus still working 3 weeks ago
			`#include "DSP28335/SCIB.h"`
			`#include "DSP28335/SCIBase.h"`

			`#include "MODBUSRTU/ModbusRTUCRC.h"`
			`#include "MODBUSRTU/ModbusRTUDefines.h"`
			`#include "MODBUSRTU/ModbusRTUTransceiver.h"`
			`#include "MODBUSRTU/ModbusRTUVariant.h"`
			`#include "MODBUSRTU/ModbusRTUTransceiverBase.h"`

			`#include "DSP28335/MeasureTimeInterval.h"`
Modbus still working here 4 weeks ago
			`#include "WEINBUS/HeaderWeinbus.h"`


First test 1. Add an arbitrator class to control all necessary periphery main2.cpp represents it usage. main.cpp without periphery class. 2. Add XINTF init and DigitalIO interface 3. Change DI/O MBOX length to 2 bytes instead of 3 1 month ago
			`//Functions declarations`
			`void idle_loop(void);`

			`interrupt void cpu_timer0_isr(void);`
			`interrupt void cpu_timer1_isr(void);`
			`interrupt void canb_isr(void);`
			`interrupt void canb_box_isr(void);`

It works now The problem was with InitCPUTimers dunction (it was commented). But some fact was found: If you flash with correct software first - Modbus is working. Then, if you comment InitCPUTimers function and flash CPU again. The Modbus still working! But, if you turn off the power Modbus will not work after power up. The reason is unknown 3 weeks ago			`// Periphery periphery;`
First test 1. Add an arbitrator class to control all necessary periphery main2.cpp represents it usage. main.cpp without periphery class. 2. Add XINTF init and DigitalIO interface 3. Change DI/O MBOX length to 2 bytes instead of 3 1 month ago
Modbus still working here 4 weeks ago			`//----------------------------------------------------------------------------------------`
It works now The problem was with InitCPUTimers dunction (it was commented). But some fact was found: If you flash with correct software first - Modbus is working. Then, if you comment InitCPUTimers function and flash CPU again. The Modbus still working! But, if you turn off the power Modbus will not work after power up. The reason is unknown 3 weeks ago			`DSP28335::SCISetup SCIbSetup;`
			`DSP28335::SCIB scib(ScibRegs);`
Modbus still working here 4 weeks ago
It works now The problem was with InitCPUTimers dunction (it was commented). But some fact was found: If you flash with correct software first - Modbus is working. Then, if you comment InitCPUTimers function and flash CPU again. The Modbus still working! But, if you turn off the power Modbus will not work after power up. The reason is unknown 3 weeks ago			`DSP28335::MeasureTimeInterval interval_measure(CpuTimer2);`
Modbus still working here 4 weeks ago
It works now The problem was with InitCPUTimers dunction (it was commented). But some fact was found: If you flash with correct software first - Modbus is working. Then, if you comment InitCPUTimers function and flash CPU again. The Modbus still working! But, if you turn off the power Modbus will not work after power up. The reason is unknown 3 weeks ago			`// MODBUS RTU - PORT & HMI`
			`MODBUSRTU::ModbusRTUTransceiverSetup modbus;`
			`MODBUSRTU::ModbusRTUCRC crc;`
			`MODBUSRTU::ModbusRTUTransceiver modbus_port(scib, interval_measure, crc);`
Modbus still working here 4 weeks ago
It works now The problem was with InitCPUTimers dunction (it was commented). But some fact was found: If you flash with correct software first - Modbus is working. Then, if you comment InitCPUTimers function and flash CPU again. The Modbus still working! But, if you turn off the power Modbus will not work after power up. The reason is unknown 3 weeks ago			`WEINBUS::WeinbusSlave hmi(crc);`
			`MODBUSRTU::ModbusRTUTransceiverConfiguration modbus_port_configuration;`
Modbus still working here 4 weeks ago

			`// Registers to testing HMI interface`
			`WEINBUS::REGISTER_32 test_hmi_float_reg_400 = WEINBUS::REGISTER_32(0);`
			`WEINBUS::REGISTER_32 test_hmi_float_reg_401 = WEINBUS::REGISTER_32(0);`
			`WEINBUS::REGISTER_32 test_hmi_float_reg_402 = WEINBUS::REGISTER_32(0);`
			`WEINBUS::REGISTER_32 test_hmi_float_reg_403 = WEINBUS::REGISTER_32(0);`
			`WEINBUS::REGISTER_32 test_hmi_float_reg_404 = WEINBUS::REGISTER_32(0);`
			`//<>`

			`void test_init_hmi_buffers();`
			`void clear_array(uint16_t *pointer, uint16_t sizearray);`
			`//----------------------------------------------------------------------------------------`

First test 1. Add an arbitrator class to control all necessary periphery main2.cpp represents it usage. main.cpp without periphery class. 2. Add XINTF init and DigitalIO interface 3. Change DI/O MBOX length to 2 bytes instead of 3 1 month ago			`volatile Uint16 infCounter = 0;`
			`volatile Uint16 canISRcounter = 0;`
			`volatile Uint16 canBoxISRcounter = 0;`
			`volatile Uint16 testCounter = 0;`

			`volatile bool init = true;`
			`volatile bool startTX = false;`
			`volatile bool update = false;`
			`volatile bool sendRemote = false;`

			`Uint16 modbusInit = 0;`
			`int32 testVar = 0;`

			`void main()`
			`{`
			`ServiceDog();`
			`DisableDog();`

			`InitSysCtrl();`

			`DINT;`

			`InitPieCtrl();`

			`IER = 0x0000;`
			`IFR = 0x0000;`

			`InitPieVectTable();`

			`EALLOW;`
			`PieVectTable.TINT0 = &cpu_timer0_isr;`
			`PieVectTable.XINT13 = &cpu_timer1_isr;`
			`PieVectTable.ECAN0INTB = &canb_isr;`
			`PieVectTable.ECAN1INTB = &canb_box_isr;`
			`EDIS;`

It works now The problem was with InitCPUTimers dunction (it was commented). But some fact was found: If you flash with correct software first - Modbus is working. Then, if you comment InitCPUTimers function and flash CPU again. The Modbus still working! But, if you turn off the power Modbus will not work after power up. The reason is unknown 3 weeks ago			`InitCpuTimers();`
First test 1. Add an arbitrator class to control all necessary periphery main2.cpp represents it usage. main.cpp without periphery class. 2. Add XINTF init and DigitalIO interface 3. Change DI/O MBOX length to 2 bytes instead of 3 1 month ago			`ConfigCpuTimer(&CpuTimer0, 150, 1000); // 1ms`
			`ConfigCpuTimer(&CpuTimer1, 150, 5000); // 5ms`

			`IER \|= M_INT1; // Enable CPU Interrupt 1`
			`IER \|= M_INT9; // Enable CPU Interrupt 9`
			`IER \|= M_INT13; // Enable CPU Interrupt 13`

			`PieCtrlRegs.PIEIER1.bit.INTx7 = 1;`
			`PieCtrlRegs.PIEIER9.bit.INTx7 = 1; // from 5 to 8`
			`PieCtrlRegs.PIEIER9.bit.INTx8 = 1;`

It works now The problem was with InitCPUTimers dunction (it was commented). But some fact was found: If you flash with correct software first - Modbus is working. Then, if you comment InitCPUTimers function and flash CPU again. The Modbus still working! But, if you turn off the power Modbus will not work after power up. The reason is unknown 3 weeks ago			`// periphery.config();`
First test 1. Add an arbitrator class to control all necessary periphery main2.cpp represents it usage. main.cpp without periphery class. 2. Add XINTF init and DigitalIO interface 3. Change DI/O MBOX length to 2 bytes instead of 3 1 month ago
Modbus still working here 4 weeks ago			`//----------------------------------------------------------------------------------------`
It works now The problem was with InitCPUTimers dunction (it was commented). But some fact was found: If you flash with correct software first - Modbus is working. Then, if you comment InitCPUTimers function and flash CPU again. The Modbus still working! But, if you turn off the power Modbus will not work after power up. The reason is unknown 3 weeks ago			`SCIbSetup.config.baudrate = SCIB_BAUDRATE_DEFAULT;`
			`SCIbSetup.config.parity = SCIB_PARITY_DEFAULT;`
			`SCIbSetup.config.stopbits = SCIB_STOPBITS_DEFAULT;`
			`SCIbSetup.config.lenght = SCIB_LENGHT_DEFAULT;`
			`SCIbSetup.gpio_setup = SCIB_GPIO_SETUP_DEFAULT;`
Modbus still working here 4 weeks ago
It works now The problem was with InitCPUTimers dunction (it was commented). But some fact was found: If you flash with correct software first - Modbus is working. Then, if you comment InitCPUTimers function and flash CPU again. The Modbus still working! But, if you turn off the power Modbus will not work after power up. The reason is unknown 3 weeks ago			`modbus.gpio_re_de_setup = &DSP28335::GPIO::gpio_scib_re_de_setup;`
			`modbus.gpio_driver_enable = &DSP28335::GPIO::gpio_scib_re_de_set;`
			`modbus.gpio_receiver_enable = &DSP28335::GPIO::gpio_scib_re_de_clear;`
Modbus still working here 4 weeks ago
It works now The problem was with InitCPUTimers dunction (it was commented). But some fact was found: If you flash with correct software first - Modbus is working. Then, if you comment InitCPUTimers function and flash CPU again. The Modbus still working! But, if you turn off the power Modbus will not work after power up. The reason is unknown 3 weeks ago			`scib.setup(SCIbSetup);`
Modbus still working here 4 weeks ago
It works now The problem was with InitCPUTimers dunction (it was commented). But some fact was found: If you flash with correct software first - Modbus is working. Then, if you comment InitCPUTimers function and flash CPU again. The Modbus still working! But, if you turn off the power Modbus will not work after power up. The reason is unknown 3 weeks ago			`interval_measure.set_magic((Uint32)0);`
			`interval_measure.reset();`
Modbus still working here 4 weeks ago
It works now The problem was with InitCPUTimers dunction (it was commented). But some fact was found: If you flash with correct software first - Modbus is working. Then, if you comment InitCPUTimers function and flash CPU again. The Modbus still working! But, if you turn off the power Modbus will not work after power up. The reason is unknown 3 weeks ago			`modbus_port.setup(modbus);`
Modbus still working here 4 weeks ago			`//----------------------------------------------------------------------------------------`

First test 1. Add an arbitrator class to control all necessary periphery main2.cpp represents it usage. main.cpp without periphery class. 2. Add XINTF init and DigitalIO interface 3. Change DI/O MBOX length to 2 bytes instead of 3 1 month ago			`// Enable global Interrupts and higher priority real-time debug events:`
			`EINT; // Enable Global interrupt INTM`
			`ERTM; // Enable Global realtime interrupt DBGM`

It works now The problem was with InitCPUTimers dunction (it was commented). But some fact was found: If you flash with correct software first - Modbus is working. Then, if you comment InitCPUTimers function and flash CPU again. The Modbus still working! But, if you turn off the power Modbus will not work after power up. The reason is unknown 3 weeks ago			`// periphery.updateVersionFPGA();`
First test 1. Add an arbitrator class to control all necessary periphery main2.cpp represents it usage. main.cpp without periphery class. 2. Add XINTF init and DigitalIO interface 3. Change DI/O MBOX length to 2 bytes instead of 3 1 month ago
It works now The problem was with InitCPUTimers dunction (it was commented). But some fact was found: If you flash with correct software first - Modbus is working. Then, if you comment InitCPUTimers function and flash CPU again. The Modbus still working! But, if you turn off the power Modbus will not work after power up. The reason is unknown 3 weeks ago			`//----------------------------------------------------------------------------------------`
Modbus still working here 4 weeks ago
			`// MODBUS RTU`
			`//`
			`modbus_port_configuration.node_id = 0x5;`
			`modbus_port_configuration.config.baudrate = DSP28335::BR9600;`
			`modbus_port_configuration.config.parity = DSP28335::NO;`
			`modbus_port_configuration.config.stopbits = DSP28335::ONE;`
			`modbus_port_configuration.config.lenght = DSP28335::LEN8;`
			`//`
			`test_init_hmi_buffers();`

It works now The problem was with InitCPUTimers dunction (it was commented). But some fact was found: If you flash with correct software first - Modbus is working. Then, if you comment InitCPUTimers function and flash CPU again. The Modbus still working! But, if you turn off the power Modbus will not work after power up. The reason is unknown 3 weeks ago			`modbus_port.configure(modbus_port_configuration);`
Modbus still working here 4 weeks ago
			`clear_array((uint16_t *)hmi.rxStack, sizeof(hmi.rxStack)/sizeof(uint16_t));`
			`clear_array((uint16_t *)hmi.txStack, sizeof(hmi.txStack)/sizeof(uint16_t));`

It works now The problem was with InitCPUTimers dunction (it was commented). But some fact was found: If you flash with correct software first - Modbus is working. Then, if you comment InitCPUTimers function and flash CPU again. The Modbus still working! But, if you turn off the power Modbus will not work after power up. The reason is unknown 3 weeks ago			`modbus_port.setRXBuffer((uint16_t*)hmi.rxStack, &hmi.rxLength);`
			`modbus_port.setTXBuffer((uint16_t*)hmi.txStack, &hmi.txLength);`
Modbus still working here 4 weeks ago
Clean project. Modbus still working 3 weeks ago			`interval_measure.set_magic(19);`
Modbus still working here 4 weeks ago
			`//----------------------------------------------------------------------------------------`

First test 1. Add an arbitrator class to control all necessary periphery main2.cpp represents it usage. main.cpp without periphery class. 2. Add XINTF init and DigitalIO interface 3. Change DI/O MBOX length to 2 bytes instead of 3 1 month ago			`CpuTimer0.RegsAddr->TCR.bit.TSS = 0;`
			`CpuTimer1.RegsAddr->TCR.bit.TSS = 0;`

			`idle_loop();`
			`//`
			`}//end main()`
			`//`
			`//`

			`void idle_loop()`
			`{`
			`while (true)`
			`{`
			`infCounter++;`

It works now The problem was with InitCPUTimers dunction (it was commented). But some fact was found: If you flash with correct software first - Modbus is working. Then, if you comment InitCPUTimers function and flash CPU again. The Modbus still working! But, if you turn off the power Modbus will not work after power up. The reason is unknown 3 weeks ago			`// periphery.initExternalModbus();`
First test 1. Add an arbitrator class to control all necessary periphery main2.cpp represents it usage. main.cpp without periphery class. 2. Add XINTF init and DigitalIO interface 3. Change DI/O MBOX length to 2 bytes instead of 3 1 month ago
Clean project. Modbus still working 3 weeks ago			`//`
Modbus still working here 4 weeks ago			`// MODBUS RTU HMI Service`
			`//`
It works now The problem was with InitCPUTimers dunction (it was commented). But some fact was found: If you flash with correct software first - Modbus is working. Then, if you comment InitCPUTimers function and flash CPU again. The Modbus still working! But, if you turn off the power Modbus will not work after power up. The reason is unknown 3 weeks ago			`if(modbus_port.compare_state(MODBUSRTU::BREAK))`
Modbus still working here 4 weeks ago			`{`
It works now The problem was with InitCPUTimers dunction (it was commented). But some fact was found: If you flash with correct software first - Modbus is working. Then, if you comment InitCPUTimers function and flash CPU again. The Modbus still working! But, if you turn off the power Modbus will not work after power up. The reason is unknown 3 weeks ago			`modbus_port.port_reset();`
Modbus still working here 4 weeks ago			`//`
			`}`
			`else`
			`{`
It works now The problem was with InitCPUTimers dunction (it was commented). But some fact was found: If you flash with correct software first - Modbus is working. Then, if you comment InitCPUTimers function and flash CPU again. The Modbus still working! But, if you turn off the power Modbus will not work after power up. The reason is unknown 3 weeks ago			`modbus_port.execute();`
Modbus still working here 4 weeks ago			`hmi.execute();`
			`//`
			`}//if else`
			`//<>`

First test 1. Add an arbitrator class to control all necessary periphery main2.cpp represents it usage. main.cpp without periphery class. 2. Add XINTF init and DigitalIO interface 3. Change DI/O MBOX length to 2 bytes instead of 3 1 month ago			`}//end while`

			`}//end idle_loop()`


			`interrupt void cpu_timer0_isr(void)`
			`{`
It works now The problem was with InitCPUTimers dunction (it was commented). But some fact was found: If you flash with correct software first - Modbus is working. Then, if you comment InitCPUTimers function and flash CPU again. The Modbus still working! But, if you turn off the power Modbus will not work after power up. The reason is unknown 3 weeks ago			`// periphery.processDigitalOutput();`
First test 1. Add an arbitrator class to control all necessary periphery main2.cpp represents it usage. main.cpp without periphery class. 2. Add XINTF init and DigitalIO interface 3. Change DI/O MBOX length to 2 bytes instead of 3 1 month ago
			`PieCtrlRegs.PIEACK.all \|= PIEACK_GROUP1;`
			`}//end`


			`interrupt void cpu_timer1_isr(){`
			`CpuTimer1.InterruptCount++;`

It works now The problem was with InitCPUTimers dunction (it was commented). But some fact was found: If you flash with correct software first - Modbus is working. Then, if you comment InitCPUTimers function and flash CPU again. The Modbus still working! But, if you turn off the power Modbus will not work after power up. The reason is unknown 3 weeks ago			`// periphery.processDigitalInput();`
First test 1. Add an arbitrator class to control all necessary periphery main2.cpp represents it usage. main.cpp without periphery class. 2. Add XINTF init and DigitalIO interface 3. Change DI/O MBOX length to 2 bytes instead of 3 1 month ago			`}`


			`interrupt void canb_isr(void){`
			`canISRcounter++;`

			`CANGIF0_REG CANGIF0_SHADOW;`
			`volatile Uint32 resetBit;`

			`CANGIF0_SHADOW.all = ECanbRegs.CANGIF0.all;`

			`if (CANGIF0_SHADOW.bit.WLIF0){`
			`resetBit = 256;`
			`ECanbRegs.CANGIF0.all = 256ul;`
			`}`

			`if (CANGIF0_SHADOW.bit.EPIF0){`
			`ECanbRegs.CANGIF0.all = 528ul;`
			`}`

			`PieCtrlRegs.PIEACK.all \|= PIEACK_GROUP9;`
			`}`

			`interrupt void canb_box_isr(void){`
			`canBoxISRcounter++;`

			`// Just example`
			`//`
			`// volatile Uint32 boxNumberIsr;`
			`// boxNumberIsr = ECanbRegs.CANGIF1.bit.MIV1;`

			`// CANRMP_REG temp;`
			`// temp.all = 0;`
			`// temp.all = 1ul << 27;`

			`// ECanbRegs.CANRMP.all = temp.all;`

			`// MODBUS_COMM_CPU_Message27.mdh.all = ECanbMboxes.MBOX27.MDH.all;`
			`// MODBUS_COMM_CPU_Message27.mdl.all = ECanbMboxes.MBOX27.MDL.all;`

			`// temp.all = ECanbRegs.CANRMP.all;`
			`// if (temp.bit.RMP25){`
			`// temp.all = 1ul << 25;`
			`// ECanbRegs.CANRMP.all = temp.all;`

			`// MODBUS_COMM_CPU_Message25.mdh.all = ECanbMboxes.MBOX25.MDH.all;`
			`// MODBUS_COMM_CPU_Message25.mdl.all = ECanbMboxes.MBOX25.MDL.all;`
			`// }`

			`PieCtrlRegs.PIEACK.all \|= PIEACK_GROUP9;`
			`}`
Modbus still working here 4 weeks ago

			`void test_init_hmi_buffers()`
			`{`
			`//`
			`// hmi writeable registers`
			`hmi.inputRegisters.set(WEINBUS::INPUTREGISTERS, 400);`
			`hmi.inputRegisters.add( 0, &(float&)test_hmi_float_reg_400.f);`
			`hmi.inputRegisters.add( 1, &(float&)test_hmi_float_reg_401.f);`
			`hmi.inputRegisters.add( 2, &(float&)test_hmi_float_reg_402.f);`
			`hmi.inputRegisters.add( 3, &(float&)test_hmi_float_reg_403.f);`
			`hmi.inputRegisters.add( 4, &(float&)test_hmi_float_reg_404.f);`
			`//`
			`// hmi readable registers`
			`hmi.outputRegisters.set(WEINBUS::OUTPUTREGISTERS, 400);`
			`hmi.outputRegisters.add( 0 , &(float&)test_hmi_float_reg_400.f);`
			`hmi.outputRegisters.add( 1, &(float&)test_hmi_float_reg_401.f);`
			`hmi.outputRegisters.add( 2, &(float&)test_hmi_float_reg_402.f);`
			`hmi.outputRegisters.add( 3, &(float&)test_hmi_float_reg_403.f);`
			`hmi.outputRegisters.add( 4, &(float&)test_hmi_float_reg_404.f);`
			`//`
			`}//`
			`//`

			`void clear_array(uint16_t *pointer, uint16_t sizearray)`
			`{`
			`static uint16_t *p_array = 0;`
			`static uint16_t size_array = 0;`

			`p_array = pointer;`
			`size_array = sizearray;`

			`while(size_array--)`
			`{`
			`*p_array++ = 0;`
			`}`
			`//`
			`}//`