Ejemplo n.º 1
0
  void run () {
    int cnt;
    xprintf("receiver\n");

    while(1) {
      bool ok = fifo.get(cnt);
      if (ok) {
        PRINTF("reading %d\n", cnt);
      } else {
        suspendCallerUntil(NOW() + 1*SECONDS);
      }
    }
  }
Ejemplo n.º 2
0
   void print(PtrLen<const char> str)
    {
     SingleHook<Video::VideoConsole> hook(host);

     if( +hook )
       {
        fifo.get(*hook);

        hook->print(str);
       }
     else
       {
        fifo.put(str);
       }
    }
Ejemplo n.º 3
0
void CAN_Ctrl::IRQHandler(){
	CanMsg msg;
	uint64_t iflags= can_mb_int_flag(can);
#define CHECK_IFLAG(n) ((iflags & ((uint64_t)1<<(n))) != 0)

	if(CHECK_IFLAG(TX_MAILBOX)){

		if(txFifo.get(msg)){
			putIntoTxMailbox(msg);
		}else{
			txInProgrss=false;
			//This may call upCall multiple times for one hal, but it is simpleset solution
			for (int i=0;i<numFilters;i++){
				filters[i].owner->upCallWriteFinished();
			}
		}
		can_mb_int_ack(can,TX_MAILBOX);
	}

	while(CHECK_IFLAG(FIFO_FLAG_DATARDY)){
		if(numFilters>0){
			int32_t matchedFilter = REG_RD(REG_RXFIR(can->base)) & 0x1FF;
			if(matchedFilter >= numFilters){
				matchedFilter =numFilters-1;
			}

			getFromRxFifo(msg);
			if(filters[matchedFilter].owner_context->RxFifo.put(msg)){
				filters[matchedFilter].owner->upCallDataReady();
			}
			//Silently ignore FIFO overflow
		}

		can_mb_int_ack(can,FIFO_FLAG_DATARDY);
		iflags= can_mb_int_flag(can);

	}

}