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mini-beieli-node
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refactor

This commit is contained in:
Joerg Lehmann 2020-05-30 20:11:19 +02:00
parent 0c5c673e5e
commit 85b0f6db06
1 changed files with 36 additions and 224 deletions
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260
mini-beieli-node.ino
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@ -699,8 +699,6 @@ void StartNewIteration() {
{ {
os_runloop_once(); os_runloop_once();
delay(10); delay(10);
// gCatena.poll();
// yield();
} }
// handle timeout... // handle timeout...
if (send_in_progress) { if (send_in_progress) {
@ -733,6 +731,28 @@ void StartNewIteration() {
sleep_time_sec = 10; sleep_time_sec = 10;
} }
// Before we go to sleep, we'd like to be sure that this is safe!
if (config_data.debug_level > 0) {
gCatena.SafePrintf("We wait until is is safe to go to sleep...\n");
}
long loopCount = 0;
long prevPrint;
while(os_queryTimeCriticalJobs(ms2osticks(8000)) != 0)
{
loopCount++;
os_runloop_once();
if(millis() - prevPrint > 1000) {
prevPrint = millis();
if (config_data.debug_level > 0) {
gCatena.SafePrintf("LMIC.opmode: %#x\n", LMIC.opmode);
}
}
}
if (config_data.debug_level > 0) {
gCatena.SafePrintf("Now it is safe to go to sleep\n");
}
delay(10);
if (config_data.debug_level > 0) { if (config_data.debug_level > 0) {
gCatena.SafePrintf("now going to sleep for %d seconds...\n", sleep_time_sec); gCatena.SafePrintf("now going to sleep for %d seconds...\n", sleep_time_sec);
if (fUsbPower) { if (fUsbPower) {
@ -746,16 +766,23 @@ void StartNewIteration() {
} }
} }
// if we need to periodically reboot, we can do it now...
if (uint32_t(millis()) > gRebootMs) {
// time to reboot
if (config_data.debug_level > 0) {
gCatena.SafePrintf("Reached threshold to reboot...\n");
Serial.flush();
}
NVIC_SystemReset();
}
if (!fUsbPower) { if (!fUsbPower) {
DoDeepSleep(sleep_time_sec); DoDeepSleep(sleep_time_sec);
if (! stop_iterations) { if (! stop_iterations) {
StartNewIteration(); StartNewIteration();
} }
//os_setTimedCallback(
// &iterationJob,
// os_getTime() + sec2osticks(2),
// startNewIterationCb);
} }
else { else {
if (config_data.debug_level > 0) { if (config_data.debug_level > 0) {
@ -819,6 +846,8 @@ static void sendBufferDoneCb(
{ {
osjobcb_t pFn; osjobcb_t pFn;
send_in_progress = false;
if (config_data.debug_level > 1) { if (config_data.debug_level > 1) {
gLed.Set(LedPattern::Settling); gLed.Set(LedPattern::Settling);
gCatena.SafePrintf("LMIC.opmode in sendBufferDoneCb: %#x\n", LMIC.opmode); gCatena.SafePrintf("LMIC.opmode in sendBufferDoneCb: %#x\n", LMIC.opmode);
@ -827,7 +856,6 @@ static void sendBufferDoneCb(
pFn = settleDoneCb; pFn = settleDoneCb;
if (! fStatus) if (! fStatus)
{ {
send_in_progress = false;
if (!gLoRaWAN.IsProvisioned()) if (!gLoRaWAN.IsProvisioned())
{ {
// we'll talk about it at the callback. // we'll talk about it at the callback.
@ -865,178 +893,9 @@ static void txNotProvisionedCb(
static void settleDoneCb( static void settleDoneCb(
osjob_t* pSendJob) osjob_t* pSendJob)
{ {
const bool fDeepSleep = checkDeepSleep();
if (config_data.debug_level > 0) { if (config_data.debug_level > 0) {
gCatena.SafePrintf("settleDoneCb\n"); gCatena.SafePrintf("settleDoneCb - we are at the end of the callback chain!\n");
} }
if (config_data.debug_level > 2) {
// Terry vv
gCatena.SafePrintf("LMIC.rxDelay: %i\n", LMIC.rxDelay);
gCatena.SafePrintf("LMIC.dn2Dr: %i\n", LMIC.dn2Dr);
gCatena.SafePrintf("LMIC.dn2Freq: %i\n", LMIC.dn2Freq);
gCatena.SafePrintf("LMIC.rx1DrOffset: %i\n", LMIC.rx1DrOffset);
gCatena.SafePrintf("LMIC.adrAckReq: %i\n", LMIC.adrAckReq);
gCatena.SafePrintf("LMIC.adrEnabled: %i\n", LMIC.adrEnabled);
// Terry ^^
}
if (uint32_t(millis()) > gRebootMs) {
// time to reboot
NVIC_SystemReset();
}
if (! g_fPrintedSleeping)
doSleepAlert(fDeepSleep);
/* count what we're up to */
updateSleepCounters();
if (fDeepSleep)
doDeepSleep(pSendJob);
else
doLightSleep(pSendJob);
}
bool checkDeepSleep(void)
{
bool const fDeepSleepTest = gCatena.GetOperatingFlags() &
static_cast<uint32_t>(gCatena.OPERATING_FLAGS::fDeepSleepTest);
bool fDeepSleep;
if (fDeepSleepTest)
{
fDeepSleep = true;
}
#ifdef USBCON
else if (Serial.dtr())
{
fDeepSleep = false;
}
#endif
else if (gCatena.GetOperatingFlags() &
static_cast<uint32_t>(gCatena.OPERATING_FLAGS::fDisableDeepSleep))
{
fDeepSleep = false;
}
else if ((gCatena.GetOperatingFlags() &
static_cast<uint32_t>(gCatena.OPERATING_FLAGS::fUnattended)) != 0)
{
fDeepSleep = true;
}
else
{
fDeepSleep = false;
}
return fDeepSleep;
}
void doSleepAlert(const bool fDeepSleep)
{
g_fPrintedSleeping = true;
if (fDeepSleep)
{
bool const fDeepSleepTest = gCatena.GetOperatingFlags() &
static_cast<uint32_t>(gCatena.OPERATING_FLAGS::fDeepSleepTest);
const uint32_t deepSleepDelay = fDeepSleepTest ? 10 : 30;
if (config_data.debug_level > 2) {
gCatena.SafePrintf("using deep sleep in %u secs"
#ifdef USBCON
" (USB will disconnect while asleep)"
#endif
": ",
deepSleepDelay
);
}
// sleep and print
if (config_data.debug_level > 1) {
gLed.Set(LedPattern::TwoShort);
}
for (auto n = deepSleepDelay; n > 0; --n)
{
uint32_t tNow = millis();
while (uint32_t(millis() - tNow) < 1000)
{
os_runloop_once();
delay(10);
//gCatena.poll();
//yield();
}
if (config_data.debug_level > 2) {
gCatena.SafePrintf(".");
}
}
if (config_data.debug_level > 2) {
gCatena.SafePrintf("\nStarting deep sleep.\n");
}
uint32_t tNow = millis();
while (uint32_t(millis() - tNow) < 100)
{
os_runloop_once();
delay(10);
//gCatena.poll();
//yield();
}
}
else if (config_data.debug_level > 2) {
gCatena.SafePrintf("using light sleep\n");
}
}
void updateSleepCounters(void)
{
// update the sleep parameters
if (gTxCycleCount > 1)
{
// values greater than one are decremented and ultimately reset to default.
--gTxCycleCount;
}
else if (gTxCycleCount == 1)
{
// it's now one (otherwise we couldn't be here.)
if (config_data.debug_level > 2) {
gCatena.SafePrintf("resetting tx cycle to default: %u\n", CATCFG_T_CYCLE);
}
gTxCycleCount = 0;
gTxCycle = CATCFG_T_CYCLE;
}
else
{
// it's zero. Leave it alone.
}
}
void doDeepSleep(osjob_t *pJob)
{
bool const fDeepSleepTest = gCatena.GetOperatingFlags() &
static_cast<uint32_t>(gCatena.OPERATING_FLAGS::fDeepSleepTest);
uint32_t const sleepInterval = CATCFG_GetInterval(
fDeepSleepTest ? CATCFG_T_CYCLE_TEST : gTxCycle
);
if (config_data.debug_level > 0) {
gCatena.SafePrintf("doDeepSleep, sleepInterval: %d...\n", sleepInterval);
}
/* ok... now it's time for a deep sleep */
gLed.Set(LedPattern::Off);
deepSleepPrepare();
/* sleep */
gCatena.Sleep(sleepInterval);
/* recover from sleep */
deepSleepRecovery();
/* and now... we're awake again. trigger another measurement */
sleepDoneCb(pJob);
} }
void deepSleepPrepare(void) void deepSleepPrepare(void)
@ -1058,53 +917,6 @@ void deepSleepRecovery(void)
gSPI2.begin(); gSPI2.begin();
} }
void doLightSleep(osjob_t *pJob)
{
uint32_t interval = sec2osticks(CATCFG_GetInterval(gTxCycle));
if (config_data.debug_level > 1) {
gLed.Set(LedPattern::Sleeping);
gCatena.SafePrintf("doLightSleep\n");
}
if (gCatena.GetOperatingFlags() &
static_cast<uint32_t>(gCatena.OPERATING_FLAGS::fQuickLightSleep))
{
interval = 1;
}
os_setTimedCallback(
&iterationJob,
os_getTime() + interval,
sleepDoneCb
);
}
static void sleepDoneCb(osjob_t* pJob)
{
if (config_data.debug_level > 1) {
gLed.Set(LedPattern::WarmingUp);
}
if (config_data.debug_level > 0) {
gCatena.SafePrintf("sleepDoneCb\n");
}
os_setTimedCallback(
pJob,
os_getTime() + sec2osticks(CATCFG_T_WARMUP),
warmupDoneCb);
}
static void warmupDoneCb(osjob_t* pJob)
{
if (config_data.debug_level > 0) {
gCatena.SafePrintf("warmupDoneCb\n");
}
send_in_progress = false;
}
static void startNewIterationCb(osjob_t* pJob) static void startNewIterationCb(osjob_t* pJob)
{ {