#include "PacketAck.h"
#include "RedMac.h"
+#ifdef DELTATIMEDEBUG
+#include "DeltaTrace.h"
+#endif
+
module RedMacP {
provides {
interface Init;
interface MacSend;
interface MacReceive;
interface Packet;
- interface LocalTime<T32khz> as LocalTime32khz;
interface Sleeptime;
interface Teamgeist;
interface ChannelCongestion;
+#ifdef MAC_EVAL
+ interface MacEval;
+#endif
}
uses {
interface StdControl as CcaStdControl;
interface Alarm<T32khz, uint16_t> as Timer;
interface Alarm<T32khz, uint16_t> as SampleTimer;
- interface Counter<T32khz,uint16_t> as Counter32khz16;
+ interface LocalTime<T32khz> as LocalTime32kHz;
+
+ interface Duplicate;
+ interface TimeDiff16;
+ interface TimeDiff32;
+
async command am_addr_t amAddress();
/*
interface GeneralIO as Led0;
#ifdef REDMAC_PERFORMANCE
interface Performance;
#endif
-
+#ifdef DELTATIMEDEBUG
+ interface DeltaTrace;
+#endif
}
}
implementation
#endif
#ifdef REDMAC_PERFORMANCE
- macTxStat_t txStat;
- macRxStat_t rxStat;
+ PfmTxMsg_t txStat;
+ PfmRxMsg_t rxStat;
#endif
/**************** Module Global Constants *****************/
enum {
+
+ BYTE_TIME=ENCODED_32KHZ_BYTE_TIME, // phy encoded
+ PREAMBLE_BYTE_TIME=TDA5250_32KHZ_BYTE_TIME, // no coding
+ PHY_HEADER_TIME=6*PREAMBLE_BYTE_TIME, // 6 Phy Preamble
+ TIME_CORRECTION=TDA5250_32KHZ_BYTE_TIME+2, // difference between txSFD and rxSFD
- BYTE_TIME=21, // byte at 23405 kBit/s, 4b6b encoded
- PREAMBLE_BYTE_TIME=14, // byte at 23405 kBit/s, no coding
- PHY_HEADER_TIME=84, // 6 Phy Preamble at 23405 bits/s
- TIME_CORRECTION=16, // difference between txSFD and rxSFD: 475us
-
SUB_HEADER_TIME=PHY_HEADER_TIME + sizeof(message_header_t)*BYTE_TIME,
SUB_FOOTER_TIME=2*BYTE_TIME, // 2 bytes crc
// DEFAULT_SLEEP_TIME=1625,
- // DEFAULT_SLEEP_TIME=3250,
- // DEFAULT_SLEEP_TIME=6500,
- // DEFAULT_SLEEP_TIME=9750,
+ // DEFAULT_SLEEP_TIME=2048,
+ // DEFAULT_SLEEP_TIME=4096,
+ // DEFAULT_SLEEP_TIME=8192,
DEFAULT_SLEEP_TIME=16384,
// DEFAULT_SLEEP_TIME=32768U,
+ // DEFAULT_SLEEP_TIME=65535U,
DATA_DETECT_TIME=17,
RX_SETUP_TIME=102, // time to set up receiver
TX_SETUP_TIME=58, // time to set up transmitter
TX_GAP_TIME = RX_ACK_TIMEOUT + TX_SETUP_TIME + 33,
// the duration of a send ACK
ACK_DURATION = SUB_HEADER_TIME + SUB_FOOTER_TIME,
+ NAV_FACTOR = 4,
+#ifndef MAC_EVAL
MAX_SHORT_RETRY=9,
MAX_LONG_RETRY=3,
- MAX_AGE=2*MAX_LONG_RETRY*MAX_SHORT_RETRY,
- MSG_TABLE_ENTRIES=20,
+ ADD_NAV = 2,
+ INCREASE_BACKOFF = TRUE,
+#endif
TOKEN_ACK_FLAG = 64,
TOKEN_ACK_MASK = 0x3f,
INVALID_SNR = 0xffff,
// reduced minimal backoff
ZERO_BACKOFF_MASK = 0xff
};
-
+
+#ifdef MAC_EVAL
+ uint8_t MAX_SHORT_RETRY = 9;
+ uint8_t MAX_LONG_RETRY = 3;
+ uint8_t ADD_NAV = 4;
+ bool INCREASE_BACKOFF = TRUE;
+#endif
+#ifdef DELTATIMEDEBUG
+ DeltaTrace_t dTrace;
+#endif
/**************** Module Global Variables *****************/
- typedef union
- {
- uint32_t op;
- struct {
- uint16_t lo;
- uint16_t hi;
- };
- } ui32parts_t;
-
/* flags */
typedef enum {
SWITCHING = 1,
TEAMGEIST_ACTIVE=128
} flags_t;
- /* duplicate suppression */
- typedef struct knownMessage_t {
- am_addr_t src;
- uint8_t token;
- uint8_t age;
- } knownMessage_t;
-
- knownMessage_t knownMsgTable[MSG_TABLE_ENTRIES];
uint8_t flags = 0;
uint8_t checkCounter = 0;
uint8_t shortRetryCounter = 0;
uint16_t localSleeptime = DEFAULT_SLEEP_TIME;
uint16_t rssiValue = 0;
uint32_t restLaufzeit = 0;
-
- uint16_t counter2sec = 127;
+
uint32_t rxTime = 0;
am_id_t teamgeistType = 0;
message_t ackMsg;
uint16_t MIN_BACKOFF_MASK;
-
+
/****** Secure switching of radio modes ***/
void interruptBackoffTimer();
}
}
- /**************** Helper functions ************************/
+ /**************** Helper functions ************************/
void computeBackoff();
void checkSend() {
uint32_t backoff(uint8_t counter) {
uint32_t rVal = call Random.rand16() & MIN_BACKOFF_MASK;
+ if(!INCREASE_BACKOFF) counter = 1;
return (rVal << counter) + ZERO_BACKOFF_MASK;
}
if(isFlagSet(&flags, TEAMGEIST_ACTIVE) &&
(getHeader(msg)->type == teamgeistType)) {
if(rssiValue != INVALID_SNR) snr = rssiValue;
- rVal = signal Teamgeist.needsAck(msg, getHeader(msg)->src, getHeader(msg)->dest, snr);
*level = 2;
+ rVal = signal Teamgeist.needsAck(msg, getHeader(msg)->src, getHeader(msg)->dest, snr);
}
}
}
sT = networkSleeptime;
}
if(msg == NULL) return;
- macHdr = (red_mac_header_t *)call SubPacket.getPayload(msg, NULL);
+ macHdr = (red_mac_header_t *)call SubPacket.getPayload(msg, sizeof(red_mac_header_t) + length);
macHdr->repetitionCounter = sT/(length * BYTE_TIME + SUB_HEADER_TIME + SUB_FOOTER_TIME +
TX_GAP_TIME) + 1;
atomic {
}
}
+ void storeStrength(message_t *m) {
+ if(rssiValue != INVALID_SNR) {
+ (getMetadata(m))->strength = rssiValue;
+ }
+ else {
+ if(call RssiAdcResource.isOwner()) {
+ (getMetadata(m))->strength = call ChannelMonitorData.readSnr();
+ }
+ else {
+ (getMetadata(m))->strength = 1;
+ }
+ }
+ }
+
bool prepareRepetition() {
bool repeat;
atomic {
}
return repeat;
}
-
+
void signalSendDone(error_t error) {
message_t *m;
error_t e = error;
#endif
longRetryCounter = 0;
shortRetryCounter = 0;
- if(rssiValue != INVALID_SNR) {
- (getMetadata(m))->strength = rssiValue;
- }
- else {
- (getMetadata(m))->strength = call ChannelMonitorData.readSnr();
- }
+ storeStrength(m);
if(isFlagSet(&flags, CANCEL_SEND)) {
e = ECANCEL;
}
}
void interruptBackoffTimer() {
- uint16_t now;
if(call Timer.isRunning()) {
- restLaufzeit = call Timer.getAlarm();
- call Timer.stop();
- now = call Timer.getNow();
- if(restLaufzeit >= now) {
- restLaufzeit = restLaufzeit - now;
- }
- else {
- restLaufzeit = (uint16_t)(-1) - restLaufzeit + now;
- }
+ restLaufzeit = call TimeDiff16.computeDelta(call Timer.getAlarm(), call Timer.getNow());
+ call Timer.stop();
if(restLaufzeit > MIN_BACKOFF_MASK << MAX_LONG_RETRY) {
restLaufzeit = call Random.rand16() & ZERO_BACKOFF_MASK;
}
}
bool isNewMsg(message_t* msg) {
- bool rVal = TRUE;
- uint8_t i;
- for(i=0; i < MSG_TABLE_ENTRIES; i++) {
- if((getHeader(msg)->src == knownMsgTable[i].src) &&
- (((getHeader(msg)->token) & TOKEN_ACK_MASK) == knownMsgTable[i].token) &&
- (knownMsgTable[i].age < MAX_AGE)) {
- knownMsgTable[i].age = 0;
- rVal = FALSE;
- break;
- }
- }
- return rVal;
- }
-
- unsigned findOldest() {
- unsigned i;
- unsigned oldIndex = 0;
- unsigned age = knownMsgTable[oldIndex].age;
- for(i = 1; i < MSG_TABLE_ENTRIES; i++) {
- if(age < knownMsgTable[i].age) {
- oldIndex = i;
- age = knownMsgTable[i].age;
- }
- }
- return oldIndex;
- }
+ return call Duplicate.isNew(getHeader(msg)->src,
+ getHeader(msg)->dest,
+ (getHeader(msg)->token) & TOKEN_ACK_MASK);
+ }
void rememberMsg(message_t* msg) {
- unsigned oldest = findOldest();
- knownMsgTable[oldest].src = getHeader(msg)->src;
- knownMsgTable[oldest].token = (getHeader(msg)->token) & TOKEN_ACK_MASK;
- knownMsgTable[oldest].age = 0;
+ call Duplicate.remember(getHeader(msg)->src, getHeader(msg)->dest,
+ (getHeader(msg)->token) & TOKEN_ACK_MASK);
}
void prepareAck(message_t* msg) {
getHeader(&ackMsg)->dest = getHeader(msg)->src;
getHeader(&ackMsg)->type = getHeader(msg)->type;
#ifdef REDMAC_DEBUG
- repCounter = ((red_mac_header_t *)call SubPacket.getPayload(msg, NULL))->repetitionCounter;
+ repCounter = ((red_mac_header_t *)
+ call SubPacket.getPayload(msg, sizeof(red_mac_header_t)))->repetitionCounter;
#endif
}
uint32_t calcGeneratedTime(red_mac_header_t *m) {
- return rxTime - m->time - TIME_CORRECTION;
+ uint32_t lt = rxTime - m->time - TIME_CORRECTION;
+#ifdef DELTATIMEDEBUG
+ dTrace.now = rxTime;
+ dTrace.msgTime = lt;
+ dTrace.delta = m->time;
+ call DeltaTrace.traceRx(&dTrace);
+#endif
+ return lt;
}
-
+
/**************** Init ************************/
command error_t Init.init(){
- uint8_t i;
atomic {
macState = INIT;
seqNo = call Random.rand16() % TOKEN_ACK_FLAG;
- for(i = 0; i < MSG_TABLE_ENTRIES; i++) {
- knownMsgTable[i].age = MAX_AGE;
- }
for(MIN_BACKOFF_MASK = 1; MIN_BACKOFF_MASK < networkSleeptime; ) {
MIN_BACKOFF_MASK = (MIN_BACKOFF_MASK << 1) + 1;
}
return call SubPacket.maxPayloadLength() - sizeof(red_mac_header_t);
}
- command void* Packet.getPayload(message_t* msg, uint8_t* len) {
- nx_uint8_t *payload = (nx_uint8_t *)call SubPacket.getPayload(msg, len);
- if (len != NULL) {
- *len -= sizeof(red_mac_header_t);
- }
+ command void* Packet.getPayload(message_t* msg, uint8_t len) {
+ nx_uint8_t *payload = (nx_uint8_t *)call SubPacket.getPayload(msg, len + sizeof(red_mac_header_t));
return (void*)(payload + sizeof(red_mac_header_t));
}
if(call RssiAdcResource.isOwner()) call ChannelMonitorData.getSnr();
}
else if(macState == RX_ACK) {
- // if(call RssiAdcResource.isOwner()) call ChannelMonitor.start();
- // sdDebug(132);
}
else if(macState == RX_ACK_P) {
}
if(seqNo >= TOKEN_ACK_FLAG) seqNo = 1;
#ifdef REDMAC_PERFORMANCE
txStat.payloadLength = txLen;
- txStat.interfaceTime = call LocalTime32khz.get();
+ txStat.interfaceTime = call LocalTime32kHz.get();
#endif
}
else {
rxStat.duplicate = PERF_UNKNOWN;
rxStat.repCounter = 0xff;
#endif
- // sdDebug(190);
+ sdDebug(190);
if(macState == RX_P) {
// sdDebug(191);
if(error == SUCCESS) {
rxStat.duplicate = PERF_NEW_MSG;
#endif
// sdDebug(194);
- if(rssiValue != INVALID_SNR) {
- (getMetadata(m))->strength = rssiValue;
- }
- else {
- if(call RssiAdcResource.isOwner()) {
- (getMetadata(m))->strength = call ChannelMonitorData.readSnr();
- }
- else {
- (getMetadata(m))->strength = 1;
- }
- }
+ storeStrength(msg);
+#ifdef DELTATIMEDEBUG
+ dTrace.sender = getHeader(msg)->src;
+#endif
getMetadata(msg)->time = calcGeneratedTime((red_mac_header_t*) payload);
getMetadata(msg)->ack = WAS_NOT_ACKED;
m = signal MacReceive.receiveDone(msg);
#endif
}
}
-#ifdef REDMAC_PERFORMANCE
else {
+#ifdef REDMAC_PERFORMANCE
rxStat.duplicate = PERF_REPEATED_MSG;
+#endif
}
-#endif
if(needsAckRx(msg, &level) && (action != RX)) {
- // sdDebug(197);
action = CCA_ACK;
+ if(level == 2) {
+ getMetadata(msg)->ack = WAS_ACKED;
+ }
}
else {
// sdDebug(198);
}
else {
// sdDebug(201);
- action = RX;
+ action = SLEEP;
}
}
else if(macState == RX_ACK_P) {
if(error == SUCCESS) {
if(ackIsForMe(msg)) {
// sdDebug(202);
- if(rssiValue != INVALID_SNR) {
- (getMetadata(txBufPtr))->strength = rssiValue;
- }
- else {
- if(call RssiAdcResource.isOwner()) {
- (getMetadata(txBufPtr))->strength = call ChannelMonitorData.readSnr();
- }
- else {
- (getMetadata(txBufPtr))->strength = 1;
- }
- }
getMetadata(txBufPtr)->ack = WAS_ACKED;
getMetadata(txBufPtr)->repetitions = txMacHdr->repetitionCounter;
if(isFlagSet(&flags, TEAMGEIST_ACTIVE) &&
action = SLEEP;
}
else {
- sdDebug(203);
- updateLongRetryCounters();
- action = RX;
+ // sdDebug(203);
+ updateLongRetryCounters(); // this will eventually schedule the right backoff
+ macState = SLEEP; // so much traffic is going on -- take a nap
+ setSleepMode();
+ action = INIT; // a difficult way to say: do nothing
}
}
else {
if(call Timer.isRunning()) {
- sdDebug(204);
+ // sdDebug(204);
action = RX_ACK;
}
else {
- sdDebug(205);
+ // sdDebug(205);
updateLongRetryCounters();
action = RX;
}
else if(action == SLEEP) {
macState = SLEEP;
if(isFlagSet(&flags, RESUME_BACKOFF)) {
+ nav = nav*(uint32_t)ADD_NAV/(uint32_t)NAV_FACTOR;
if(nav > restLaufzeit) restLaufzeit += nav;
}
else {
}
else if(macState == TX_ACK) {
checkCounter = 0;
- macState = RX;
- setRxMode();
+ macState = SLEEP;
+ setSleepMode();
+ // macState = RX;
+ // setRxMode();
// sdDebug(221);
#ifdef REDMAC_DEBUG
// sdDebug(40000U + repCounter);
async event void RadioTimeStamping.receivedSFD( uint16_t time ) {
if(call RssiAdcResource.isOwner()) call ChannelMonitorData.getSnr();
if(macState == RX_P) {
- rxTime = call LocalTime32khz.get();
+ rxTime = call LocalTime32kHz.get();
call ChannelMonitor.rxSuccess();
+ sdDebug(221);
}
}
async event void RadioTimeStamping.transmittedSFD( uint16_t time, message_t* p_msg ) {
- uint32_t now;
- uint32_t mTime;
if((macState == TX) && (p_msg == txBufPtr)) {
- now = call LocalTime32khz.get();
- mTime = getMetadata(p_msg)->time;
- if(now >= mTime) {
- txMacHdr->time = now - mTime;
- }
- else {
- // assume a clock wrap here
- txMacHdr->time = (uint32_t)(-1) - mTime + now;
- }
- }
- }
-
- async command uint32_t LocalTime32khz.get() {
- ui32parts_t time;
- atomic {
- time.lo = call Counter32khz16.get();
- time.hi = counter2sec;
- if(call Counter32khz16.isOverflowPending()) ++time.hi;
+#ifdef DELTATIMEDEBUG
+ dTrace.now = call LocalTime32kHz.get();
+ dTrace.msgTime = getMetadata(p_msg)->time;
+ dTrace.delta = call TimeDiff32.computeDelta(dTrace.now, dTrace.msgTime);
+ txMacHdr->time = dTrace.delta;
+ call DeltaTrace.traceTx(&dTrace);
+#else
+ txMacHdr->time =
+ call TimeDiff32.computeDelta(call LocalTime32kHz.get(), getMetadata(p_msg)->time);
+#endif
}
- return time.op;
}
- async event void Counter32khz16.overflow() {
- ++counter2sec;
- }
-
-
/****** Timer ******************************/
void checkOnBusy() {
setTxMode();
#ifdef REDMAC_PERFORMANCE
call Performance.macIdleOnCca();
- txStat.txModeTime = call LocalTime32khz.get();
+ txStat.txModeTime = call LocalTime32kHz.get();
#endif
}
}
// sdDebug(260);
}
}
-
- /****** SampleTimer ******************************/
-
- task void ageMsgsTask() {
- unsigned i;
- atomic {
- for(i = 0; i < MSG_TABLE_ENTRIES; i++) {
- if(knownMsgTable[i].age <= MAX_AGE) ++knownMsgTable[i].age;
- }
- }
- }
+ /****** SampleTimer ******************************/
async event void SampleTimer.fired() {
call SampleTimer.start(localSleeptime);
// sdDebug(270);
setRxMode();
call Timer.stop();
}
- post ageMsgsTask();
}
/***** Sleeptime **********************************/
default async event void ChannelCongestion.congestionEvent(uint8_t level) {}
- /***** unused Radio Modes events **************************/
+ /***** Mac Eval *******************************************/
+#ifdef MAC_EVAL
+ async command void MacEval.setBackoffMask(uint16_t mask) {
+ atomic MIN_BACKOFF_MASK = mask;
+ }
+ async command void MacEval.increaseBackoff(bool value) {
+ atomic INCREASE_BACKOFF = value;
+ }
+ async command void MacEval.addNav(uint8_t value) {
+ atomic ADD_NAV = value;
+ }
+ async command void MacEval.setLongRetry(uint8_t lr) {
+ atomic MAX_LONG_RETRY = lr;
+ }
+ async command void MacEval.setShortRetry(uint8_t sr) {
+ atomic MAX_SHORT_RETRY = sr;
+ }
+#endif
+ /***** unused Radio Modes events **************************/
async event void RadioModes.TimerModeDone() {}
async event void RadioModes.SelfPollingModeDone() {}
async event void RadioModes.PWDDDInterrupt() {}