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tor-heredero-tokenring/phy_receiver.c

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2024-04-10 17:17:57 +00:00
//////////////////////////////////////////////////////////////////////////////////
/// \file phy_receiver.c
/// \brief Physical receiver thread
/// \author Pascal Sartoretti (sap at hevs dot ch)
/// \version 1.0 - original
/// \date 2018-02
//////////////////////////////////////////////////////////////////////////////////
#include "stm32f7xx_hal.h"
#include <stdio.h>
#include <string.h>
#include "main.h"
#include "ext_uart.h"
#include "ext_led.h"
uint8_t gInBuffer[256]; // generic byte receive buffer
uint8_t recByte;
uint8_t recPtr;
//////////////////////////////////////////////////////////////////////////////////
/// \brief Called on interrupt on RS232 received char
/// \param The uart handler (ext_uart)
//////////////////////////////////////////////////////////////////////////////////
void HAL_UART_RxCpltCallback(UART_HandleTypeDef *huart)
{
struct queueMsg_t queueMsg; // queue message
static uint8_t secondSTX; // STX repeated control
uint32_t size; // size of builded frame
osStatus_t retCode;
//------------------------------------------------------------------------------
// RECEIVED CHAR
//------------------------------------------------------------------------------
if (recByte == STX) // is it an STX char ?
{
//----------------------------------------------------------------------------
if(recPtr == 0) // is it first char ?
{
secondSTX = 0; // this is the first STX
}
//----------------------------------------------------------------------------
else // is not the first char
{
if (secondSTX == 1) // is it the second STX
{
secondSTX = 0; // clear secondSTX flag
HAL_UART_Receive_IT(&ext_uart,&recByte,1); // enable uart receiver 1 char
return; // and quit
}
secondSTX = 1; // set secondSTX to
}
}
//------------------------------------------------------------------------------
else // is not an STX char
{
if(secondSTX == 1) // if was a second STX
{
secondSTX = 0; // clearswap second STX flag
gInBuffer[0] = STX; // set first STX received
recPtr = 1; // set byte counter at 1
HAL_UART_Receive_IT(&ext_uart,&recByte,1); // enable uart receiver 1 char
return; // and quit
}
}
gInBuffer[recPtr] = recByte; // copy data in input buffer
recPtr++; // increment byte counter
//------------------------------------------------------------------------------
if(recPtr > 4) // received more than 4 bytes
{
if(gInBuffer[1]== TOKEN_TAG) // is it a token frame
{
size = TOKENSIZE; // size is token size
}
else // not a token frame
{
size = gInBuffer[3]+6; // get size in frame
}
if (recPtr == size) // check all bytes received
{
if(recByte == ETX) // last char received was ETX ?
{
queueMsg.type = FROM_PHY;
queueMsg.anyPtr = gInBuffer;
//------------------------------------------------------------------------
// QUEUE SEND (send received frame to physical receiver)
//------------------------------------------------------------------------
retCode = osMessageQueuePut(
queue_usartR_id,
&queueMsg,
osPriorityNormal,
0);
CheckRetCode(retCode,__LINE__,__FILE__,CONTINUE);
}
recPtr = 0; // reset bytes counter
}
}
HAL_UART_Receive_IT(&ext_uart,&recByte,1); // enable uart receiver 1 char
}
//////////////////////////////////////////////////////////////////////////////////
// THREAD PHYSICAL RECEIVER
//////////////////////////////////////////////////////////////////////////////////
void PhReceiver(void *argument)
{
struct queueMsg_t queueMsg; // queue message
uint8_t * msg;
uint8_t * qPtr;
size_t size;
osStatus_t retCode;
HAL_UART_Receive_IT(&ext_uart,&recByte,1); // enable uart receiver 1 char
//------------------------------------------------------------------------------
for (;;) // loop until doomsday
{
//----------------------------------------------------------------------------
// QUEUE READ
//----------------------------------------------------------------------------
retCode = osMessageQueueGet(
queue_usartR_id,
&queueMsg,
NULL,
osWaitForever);
CheckRetCode(retCode,__LINE__,__FILE__,CONTINUE);
qPtr = queueMsg.anyPtr;
//----------------------------------------------------------------------------
// DEBUG DISPLAY FRAME
//----------------------------------------------------------------------------
putchar('R'); // insert a R for Receive
putchar(':'); // insert a :
DebugFrame((char*)qPtr); // display frame on TERMINAL
if (qPtr[1] == TOKEN_TAG) // is it a token frame ?
{
size = TOKENSIZE; // yes -> token frame size
Ext_LED_PWM(1,100); // token is in station
}
else
{
size = qPtr[3]+6; // size of string + 6 (ETX,...)
}
//----------------------------------------------------------------------------
// MEMORY ALLOCATION
//----------------------------------------------------------------------------
msg = osMemoryPoolAlloc(memPool,osWaitForever);
memcpy(msg,&qPtr[1],size-2);
queueMsg.anyPtr = msg;
queueMsg.type = FROM_PHY;
if((msg[0] == TOKEN_TAG) || // is a token frame
((msg[1]>>3) == gTokenInterface.myAddress) || // is destination my address
((msg[0]>>3) == gTokenInterface.myAddress) || // is source my address
((msg[1]>>3) == BROADCAST_ADDRESS)) // is a broadcast frame
{
//--------------------------------------------------------------------------
// QUEUE SEND (send received frame to mac layer receiver)
//--------------------------------------------------------------------------
retCode = osMessageQueuePut(
queue_macR_id,
&queueMsg,
osPriorityNormal,
osWaitForever);
CheckRetCode(retCode,__LINE__,__FILE__,CONTINUE);
}
else
{
//--------------------------------------------------------------------------
// QUEUE SEND (send received frame to physical layer sender)
//--------------------------------------------------------------------------
retCode = osMessageQueuePut(
queue_phyS_id,
&queueMsg,
osPriorityNormal,
osWaitForever);
CheckRetCode(retCode,__LINE__,__FILE__,CONTINUE);
}
}
}