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we now always listen before transmit - even if we have just completed a packet

1.2-legacy
geeksville 2020-05-02 08:29:51 -07:00
rodzic 4735b3ff5b
commit 2ad314f150
6 zmienionych plików z 115 dodań i 53 usunięć
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15
src/OSTimer.h 100644
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@ -0,0 +1,15 @@
#pragma once
#include <Arduino.h>
typedef void (*PendableFunction)(void *pvParameter1, uint32_t ulParameter2);
/**
* Schedule a callback to run. The callback must _not_ block, though it is called from regular thread level (not ISR)
*
* @return true if successful, false if the timer fifo is too full.
*/
inline bool scheduleCallback(PendableFunction callback, void *param1, uint32_t param2, uint32_t delayMsec)
{
return xTimerPendFunctionCall(callback, param1, param2, pdMS_TO_TICKS(delayMsec));
}

5
src/WorkerThread.cpp
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@ -38,7 +38,6 @@ void NotifiedWorkerThread::notifyFromISR(BaseType_t *highPriWoken, uint32_t v, e
void NotifiedWorkerThread::block()
{
xTaskNotifyWait(0, // don't clear notification on entry
0, // do not reset notification value on read
&notification, portMAX_DELAY); // Wait forever
xTaskNotifyWait(0, // don't clear notification on entry
clearOnRead, &notification, portMAX_DELAY); // Wait forever
}

7
src/WorkerThread.h
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@ -70,6 +70,13 @@ class NotifiedWorkerThread : public WorkerThread
*/
uint32_t notification = 0;
/**
* What notification bits should be cleared just after we read and return them in notification?
*
* Defaults to clear all of them.
*/
uint32_t clearOnRead = ULONG_MAX;
/**
* A method that should block execution - either waiting ona queue/mutex or a "task notification"
*/

120
src/mesh/RadioLibInterface.cpp
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@ -24,13 +24,13 @@ RadioLibInterface::RadioLibInterface(RADIOLIB_PIN_TYPE cs, RADIOLIB_PIN_TYPE irq
#define YIELD_FROM_ISR(x) portYIELD_FROM_ISR(x)
#endif
void INTERRUPT_ATTR RadioLibInterface::isrRxLevel0()
void INTERRUPT_ATTR RadioLibInterface::isrLevel0Common(PendingISR cause)
{
instance->disableInterrupt();
instance->pending = ISR_RX;
instance->pending = cause;
BaseType_t xHigherPriorityTaskWoken;
instance->notifyFromISR(&xHigherPriorityTaskWoken);
instance->notifyFromISR(&xHigherPriorityTaskWoken, cause, eSetValueWithOverwrite);
/* Force a context switch if xHigherPriorityTaskWoken is now set to pdTRUE.
The macro used to do this is dependent on the port and may be called
@ -38,18 +38,14 @@ void INTERRUPT_ATTR RadioLibInterface::isrRxLevel0()
YIELD_FROM_ISR(xHigherPriorityTaskWoken);
}
void INTERRUPT_ATTR RadioLibInterface::isrRxLevel0()
{
isrLevel0Common(ISR_RX);
}
void INTERRUPT_ATTR RadioLibInterface::isrTxLevel0()
{
instance->disableInterrupt();
instance->pending = ISR_TX;
BaseType_t xHigherPriorityTaskWoken;
instance->notifyFromISR(&xHigherPriorityTaskWoken);
/* Force a context switch if xHigherPriorityTaskWoken is now set to pdTRUE.
The macro used to do this is dependent on the port and may be called
portEND_SWITCHING_ISR. */
YIELD_FROM_ISR(xHigherPriorityTaskWoken);
isrLevel0Common(ISR_TX);
}
/** Our ISR code currently needs this to find our active instance
@ -108,25 +104,18 @@ bool RadioLibInterface::canSendImmediately()
/// bluetooth comms code. If the txmit queue is empty it might return an error
ErrorCode RadioLibInterface::send(MeshPacket *p)
{
// We wait _if_ we are partially though receiving a packet (rather than just merely waiting for one).
// To do otherwise would be doubly bad because not only would we drop the packet that was on the way in,
// we almost certainly guarantee no one outside will like the packet we are sending.
if (canSendImmediately()) {
// if the radio is idle, we can send right away
DEBUG_MSG("immediate send on mesh fr=0x%x,to=0x%x,id=%d\n (txGood=%d,rxGood=%d,rxBad=%d)\n", p->from, p->to, p->id,
txGood, rxGood, rxBad);
startSend(p);
return ERRNO_OK;
} else {
DEBUG_MSG("enqueuing packet for send from=0x%x, to=0x%x\n", p->from, p->to);
ErrorCode res = txQueue.enqueue(p, 0) ? ERRNO_OK : ERRNO_UNKNOWN;
if (res != ERRNO_OK) // we weren't able to queue it, so we must drop it to prevent leaks
packetPool.release(p);
DEBUG_MSG("enqueuing for send on mesh fr=0x%x,to=0x%x,id=%d\n (txGood=%d,rxGood=%d,rxBad=%d)\n", p->from, p->to, p->id,
txGood, rxGood, rxBad);
ErrorCode res = txQueue.enqueue(p, 0) ? ERRNO_OK : ERRNO_UNKNOWN;
if (res != ERRNO_OK) { // we weren't able to queue it, so we must drop it to prevent leaks
packetPool.release(p);
return res;
}
startTransmitTimer(false); // We want all sending/receiving to be done by our daemon thread
return res;
}
bool RadioLibInterface::canSleep()
@ -138,30 +127,75 @@ bool RadioLibInterface::canSleep()
return res;
}
/** radio helper thread callback.
We never immediately transmit after any operation (either rx or tx). Instead we should start receiving and
wait a random delay of 50 to 200 ms to make sure we are not stomping on someone else. The 50ms delay at the beginning ensures all
possible listeners have had time to finish processing the previous packet and now have their radio in RX state. The up to 200ms
random delay gives a chance for all possible senders to have high odds of detecting that someone else started transmitting first
and then they will wait until that packet finishes.
NOTE: the large flood rebroadcast delay might still be needed even with this approach. Because we might not be able to hear other
transmitters that we are potentially stomping on. Requires further thought.
FIXME, the 50ms and 200ms values should be tuned via logic analyzer later.
*/
void RadioLibInterface::loop()
{
PendingISR wasPending = pending;
pending = ISR_NONE;
if (wasPending == ISR_TX)
switch (notification) {
case ISR_TX:
handleTransmitInterrupt();
else if (wasPending == ISR_RX)
startReceive();
startTransmitTimer();
break;
case ISR_RX:
handleReceiveInterrupt();
else
assert(0); // We expected to receive a valid notification from the ISR
startReceive();
startTransmitTimer();
break;
case TRANSMIT_DELAY_COMPLETED:
// If we are not currently in receive mode, then restart the timer and try again later (this can happen if the main thread
// has placed the unit into standby) FIXME, how will this work if the chipset is in sleep mode?
if (!txQueue.isEmpty()) {
if (!canSendImmediately()) {
startTransmitTimer(); // try again in a little while
} else {
DEBUG_MSG("Transmit timer completed!\n");
startNextWork();
// Send any outgoing packets we have ready
MeshPacket *txp = txQueue.dequeuePtr(0);
assert(txp);
startSend(txp);
}
}
break;
default:
assert(0); // We expected to receive a valid notification from the ISR
}
}
void RadioLibInterface::startNextWork()
#include "OSTimer.h"
void RadioLibInterface::timerCallback(void *p1, uint32_t p2)
{
// First send any outgoing packets we have ready
MeshPacket *txp = txQueue.dequeuePtr(0);
if (txp)
startSend(txp);
else {
// Nothing to send, let's switch back to receive mode
startReceive();
RadioLibInterface *t = (RadioLibInterface *)p1;
t->timerRunning = false;
// We use without overwrite, so that if there is already an interrupt pending to be handled, that gets handle properly (the
// ISR handler will restart our timer)
t->notify(TRANSMIT_DELAY_COMPLETED, eSetValueWithoutOverwrite);
}
void RadioLibInterface::startTransmitTimer(bool withDelay)
{
// If we have work to do and the timer wasn't already scheduled, schedule it now
if (!timerRunning && !txQueue.isEmpty()) {
timerRunning = true;
uint32_t delay = withDelay ? 0 : random(50, 200); // See documentation for loop() wrt these values
scheduleCallback(timerCallback, this, 0, delay);
}
}

19
src/mesh/RadioLibInterface.h
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@ -14,9 +14,10 @@
class RadioLibInterface : public RadioInterface
{
/// Used as our notification from the ISR
enum PendingISR { ISR_NONE = 0, ISR_RX, ISR_TX };
enum PendingISR { ISR_NONE = 0, ISR_RX, ISR_TX, TRANSMIT_DELAY_COMPLETED };
volatile PendingISR pending = ISR_NONE;
volatile bool timerRunning = false;
/** Our ISR code currently needs this to find our active instance
*/
@ -25,7 +26,7 @@ class RadioLibInterface : public RadioInterface
/**
* Raw ISR handler that just calls our polymorphic method
*/
static void isrTxLevel0();
static void isrTxLevel0(), isrLevel0Common(PendingISR code);
/**
* Debugging counts
@ -43,8 +44,8 @@ class RadioLibInterface : public RadioInterface
*/
uint8_t syncWord = SX126X_SYNC_WORD_PRIVATE;
float currentLimit = 100; // FIXME
uint16_t preambleLength = 8; // 8 is default, but FIXME use longer to increase the amount of sleep time when receiving
float currentLimit = 100; // FIXME
uint16_t preambleLength = 32; // 8 is default, but FIXME use longer to increase the amount of sleep time when receiving
Module module; // The HW interface to the radio
@ -83,12 +84,18 @@ class RadioLibInterface : public RadioInterface
/** start an immediate transmit */
void startSend(MeshPacket *txp);
/** start a queued transmit (if we have one), else start receiving */
void startNextWork();
/** if we have something waiting to send, start a short random timer so we can come check for collision before actually doing
* the transmit
*
* If the timer was already running, we just wait for that one to occur.
* */
void startTransmitTimer(bool withDelay = true);
void handleTransmitInterrupt();
void handleReceiveInterrupt();
static void timerCallback(void *p1, uint32_t p2);
protected:
/**
* Convert our modemConfig enum into wf, sf, etc...

2
src/mesh/Router.cpp
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@ -49,7 +49,7 @@ void Router::loop()
ErrorCode Router::send(MeshPacket *p)
{
if (iface) {
DEBUG_MSG("Sending packet via interface fr=0x%x,to=0x%x,id=%d\n", p->from, p->to, p->id);
// DEBUG_MSG("Sending packet via interface fr=0x%x,to=0x%x,id=%d\n", p->from, p->to, p->id);
return iface->send(p);
} else {
DEBUG_MSG("Dropping packet - no interfaces - fr=0x%x,to=0x%x,id=%d\n", p->from, p->to, p->id);