📄 testuartphyp.nc
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// $Id: TestUARTPhyP.nc,v 1.4 2006/12/12 18:22:51 vlahan Exp $
/* tab:4
* "Copyright (c) 2000-2003 The Regents of the University of California.
* All rights reserved.
*
* Permission to use, copy, modify, and distribute this software and its
* documentation for any purpose, without fee, and without written agreement is
* hereby granted, provided that the above copyright notice, the following
* two paragraphs and the author appear in all copies of this software.
*
* IN NO EVENT SHALL THE UNIVERSITY OF CALIFORNIA BE LIABLE TO ANY PARTY FOR
* DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES ARISING OUT
* OF THE USE OF THIS SOFTWARE AND ITS DOCUMENTATION, EVEN IF THE UNIVERSITY OF
* CALIFORNIA HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* THE UNIVERSITY OF CALIFORNIA SPECIFICALLY DISCLAIMS ANY WARRANTIES,
* INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY
* AND FITNESS FOR A PARTICULAR PURPOSE. THE SOFTWARE PROVIDED HEREUNDER IS
* ON AN "AS IS" BASIS, AND THE UNIVERSITY OF CALIFORNIA HAS NO OBLIGATION TO
* PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS."
*
* Copyright (c) 2002-2003 Intel Corporation
* All rights reserved.
*
* This file is distributed under the terms in the attached INTEL-LICENSE
* file. If you do not find these files, copies can be found by writing to
* Intel Research Berkeley, 2150 Shattuck Avenue, Suite 1300, Berkeley, CA,
* 94704. Attention: Intel License Inquiry.
*/
module TestUARTPhyP {
uses {
interface Boot;
interface Alarm<TMilli, uint32_t> as TxTimer;
interface Alarm<TMilli, uint32_t> as RxTimer;
interface Alarm<TMilli, uint32_t> as TimerTimer;
interface Alarm<TMilli, uint32_t> as CCATimer;
// interface Alarm<TMilli, uint32_t> as SelfPollingTimer;
// interface Alarm<TMilli, uint32_t> as SleepTimer;
interface Leds;
interface TDA5250Control;
interface Random;
interface SplitControl as RadioSplitControl;
interface PhyPacketTx;
interface PhyPacketRx;
interface RadioByteComm;
}
}
implementation {
#define TIMER_RATE 500
#define NUM_BYTES 36
uint8_t bytes_sent;
bool sending;
event void Boot.booted() {
bytes_sent = 0;
sending = FALSE;
call RadioSplitControl.start();
}
event void RadioSplitControl.startDone(error_t error) {
call TxTimer.start(call Random.rand16() % TIMER_RATE);
call TimerTimer.start(call Random.rand16() % TIMER_RATE);
call RxTimer.start(call Random.rand16() % TIMER_RATE);
call CCATimer.start(call Random.rand16() % TIMER_RATE);
}
event void RadioSplitControl.stopDone(error_t error) {
call TxTimer.stop();
}
/***********************************************************************
* Commands and events
***********************************************************************/
async event void TxTimer.fired() {
atomic {
if(call TDA5250Control.TxMode() != FAIL) {
bytes_sent = 0;
sending = TRUE;
call Leds.led0On();
call Leds.led1On();
call Leds.led2On();
return;
}
}
call TxTimer.start(call Random.rand16() % TIMER_RATE);
}
async event void RxTimer.fired() {
if(sending == FALSE)
if(call TDA5250Control.RxMode() != FAIL)
return;
call RxTimer.start(call Random.rand16() % TIMER_RATE);
}
async event void CCATimer.fired() {
if(sending == FALSE)
if(call TDA5250Control.CCAMode() != FAIL)
return;
call CCATimer.start(call Random.rand16() % TIMER_RATE);
}
async event void TimerTimer.fired() {
if(sending == FALSE)
if(call TDA5250Control.TimerMode(call Random.rand16() % TIMER_RATE/20,
call Random.rand16() % TIMER_RATE/20) != FAIL)
return;
call TimerTimer.start(call Random.rand16() % TIMER_RATE);
}
// async event void SelfPollingTimer.fired() {
// if(sending == FALSE)
// if(call TDA5250Control.SelfPollingMode(call Random.rand16() % TIMER_RATE/20,
// call Random.rand16() % TIMER_RATE/20) != FAIL)
// return;
// call SelfPollingTimer.start(call Random.rand16() % TIMER_RATE);
// }
// async event void SleepTimer.fired() {
// if(sending == FALSE)
// if(call TDA5250Control.SleepMode() != FAIL)
// return;
// call SleepTimer.start(call Random.rand16() % TIMER_RATE);
// }
async event void TDA5250Control.TxModeDone(){
call PhyPacketTx.sendHeader();
}
async event void PhyPacketTx.sendHeaderDone(error_t error) {
call RadioByteComm.txByte(call Random.rand16() / 2);
}
async event void RadioByteComm.txByteReady(error_t error) {
if(++bytes_sent < NUM_BYTES)
call RadioByteComm.txByte(call Random.rand16() / 2);
else {
bytes_sent = 0;
call PhyPacketTx.sendFooter();
}
}
async event void PhyPacketTx.sendFooterDone(error_t error) {
call TDA5250Control.SleepMode();
sending = FALSE;
call TxTimer.start(call Random.rand16() % TIMER_RATE);
}
async event void TDA5250Control.TimerModeDone(){
call TimerTimer.start(call Random.rand16() % TIMER_RATE);
call Leds.led0On();
call Leds.led1On();
call Leds.led2Off();
}
async event void TDA5250Control.SelfPollingModeDone(){
// call SelfPollingTimer.start(call Random.rand16() % TIMER_RATE);
// call Leds.led0On();
// call Leds.led1Off();
// call Leds.led2On();
}
async event void TDA5250Control.RxModeDone(){
call RxTimer.start(call Random.rand16() % TIMER_RATE);
call Leds.led0Off();
call Leds.led1On();
call Leds.led2On();
}
async event void TDA5250Control.SleepModeDone(){
// call SleepTimer.start(call Random.rand16() % TIMER_RATE);
call Leds.led0Off();
call Leds.led1Off();
call Leds.led2On();
}
async event void TDA5250Control.CCAModeDone(){
call CCATimer.start(call Random.rand16() % TIMER_RATE);
call Leds.led0On();
call Leds.led1Off();
call Leds.led2Off();
}
async event void TDA5250Control.PWDDDInterrupt() {
}
async event void PhyPacketRx.recvHeaderDone() {}
async event void PhyPacketRx.recvFooterDone(bool error) {}
async event void RadioByteComm.rxByteReady(uint8_t data) {}
}
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