MotorControlModuleSDFM_TMS320F28388D/Projects/EFC_Communication/UMLibrary/driver/HiperfaceNetworkDriver.cpp

/*
 * HiperfaceNetworkDriver.cpp
 *
 *  Created on: 4 февр. 2020 г.
 *      Author: user
 */

#include "HiperfaceNetworkDriver.hh"

void driver::HiperfaceNetworkDriver::process() {

   switch( state ) {
   case not_processing: {
       if( process_message and message.pack_message(process_message) ) {
           connection.reset();
           flow_control.on();
           if( connection.send(data_buff.getDataToRead(), Message::getSendMessageLen(process_message)) ) {
               state = waiting_transfer_completion;
               timer.start( data_send_timeout_ms );
           } else {
               flow_control.off();
               setResult(process_message, driver::transmition_error);
               process_message = nullptr;
           }
       }
   } break;
   case waiting_transfer_completion: {
       if( connection.isDataSent() ) {
           timer.start( getMessageTimeout(baudrate, process_message) );
           flow_control.off();
           state = waiting_timeout;
       } else if( timer.delayFinished() ) {
           flow_control.off();
           connection.reset();
           setResult(process_message, driver::send_timeout_error);
           process_message = nullptr;
           state = not_processing;
       }
   } break;
   case waiting_timeout: {
       char * rec = data_buff.getBuff( Message::getRecMessageLen(process_message) );
       if( rec and connection.receive(rec, data_buff.size()) ) {
           warning = Header(message).error_bit;
           setResult(process_message, message.unpack_message( process_message ));
           timer.start(getAfterMessageTimeout(baudrate) );
           state = waiting_after_response;
       } else if( timer.delayFinished() ) {
           if( connection_error = connection.isRecieptionError() )  {
               connection.reset();
               setResult(process_message, driver::connection_error);
               process_message = nullptr;
               state = not_processing;
           } else {
               const unsigned short error_message_len = 4;
               char * rec = data_buff.getBuff( error_message_len );
               if( rec and connection.receive(rec, data_buff.size()) ) {
                   message.unpack_message( &status_request.message_control );
                   setResult(process_message, driver::hip_error);
                   process_message = nullptr;
                   state = not_processing;
               } else
                   state = read_error_code;
           }
       }
   } break;
   case read_error_code: {
       const unsigned short error_message_len = 4;
       char * rec = data_buff.getBuff( error_message_len );
       if( rec and connection.receive(rec, data_buff.size()) ) {
           message.unpack_message( &status_request.message_control );
           setResult(process_message, driver::hip_error);
       } else
           setResult(process_message, driver::timeout_error);

       process_message = nullptr;
       state = not_processing;
   } break;
   case waiting_after_response: {
       if( timer.delayFinished() ) {
            process_message = nullptr;
            state = not_processing;
       }
   } break;
   }

}

driver::HiperfaceNetworkDriver::HiperfaceNetworkDriver(
        driver::IDiscreteOutput & flow_control,
        peripheral::IUartPort & connection )
: flow_control(flow_control), connection(connection), message(data_buff.getBuff(0), data_buff.capacity()) {}

bool driver::HiperfaceNetworkDriver::send( MessageControl * message ) {

    if( Message::getRecMessageLen( message ) > data_buff.capacity()
            or Message::getSendMessageLen( message ) > data_buff.capacity() )
        return false;

    if( not process_message and ( process_message = message ) )
        return status_request.message_control.address = process_message->address, process_message->ans_ready_flag = false, true; else return false;

}

void driver::HiperfaceNetworkDriver::reset() {

    baudrate = default_baudrate;
    process_message = nullptr;
    state = not_processing;
    connection_error = false;
    warning = false;
    connection.reset();

}

void driver::HiperfaceNetworkDriver::setResult(
        MessageControl* process_message, const HipResult result ) {

    process_message->result = result;
    process_message->ans_ready_flag = true;

    error_code = result;

}

unsigned long driver::HiperfaceNetworkDriver::getAfterMessageTimeout(
        BaudRate baudrate ) {

    static unsigned long timeout_ms[] = {
        [HiperfaceNetworkDriver::br600]     = 96,
        [HiperfaceNetworkDriver::br1200]    = 48,
        [HiperfaceNetworkDriver::br2400]    = 24,
        [HiperfaceNetworkDriver::br4800]    = 12,
        [HiperfaceNetworkDriver::br9600]    = 6,
        [HiperfaceNetworkDriver::br19200]   = 3,
        [HiperfaceNetworkDriver::br38400]   = 2
    };

    return timeout_ms[baudrate];

}

unsigned long driver::HiperfaceNetworkDriver::getMessageTimeout(
        BaudRate baudrate, const MessageControl* message_control ) {

    //передача одного байта (11 бит согласно формату передачи)
    static unsigned long frame_times_us[] = {
        [HiperfaceNetworkDriver::br600]     = 18400,
        [HiperfaceNetworkDriver::br1200]    = 9200,
        [HiperfaceNetworkDriver::br2400]    = 4600,
        [HiperfaceNetworkDriver::br4800]    = 2300,
        [HiperfaceNetworkDriver::br9600]    = 1200,
        [HiperfaceNetworkDriver::br19200]   = 600,
        [HiperfaceNetworkDriver::br38400]   = 300
    };

    return 0.001f * ( frame_times_us[baudrate] * ( Message::getSendMessageLen(message_control) + Message::getRecMessageLen(message_control) ) )
    + message_control->timeout_ms + getAfterMessageTimeout(baudrate);

}