prep v5.0.0 #713

Merged
muellerr merged 4 commits from v5.0.0-dev into main 2023-06-26 17:34:46 +02:00
10 changed files with 190 additions and 56 deletions

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@ -16,10 +16,22 @@ will consitute of a breaking change warranting a new major release:
# [unreleased] # [unreleased]
# [v4.1.0] # [v6.0.0] to be released
- Important bugfixes for PTME. See `q7s-package` CHANGELOG.
# [v5.0.0] to be released
v3.3.1 and all following version will now be moved to v5.0.0 with the additional changes listed
here. This was done because the firmware update (v4.0.0) is not working right now and it is not
known when and how it will be fixed. Because of that, all updates to make the SW work with the new
firmware, which are limited to a few files will be moved to a dev branch so regular development
compatible to the old firmware can continue.
## Changed ## Changed
- This version is compatible to the old firmware and some changes which only work with the new
firmware have been reverted.
- Added `sync` syscall in graceful shutdown handler - Added `sync` syscall in graceful shutdown handler
- Graceful shutdown is now performed by the reboot watchdog - Graceful shutdown is now performed by the reboot watchdog
- There is now a separate file for the total reboot counter. The reboot watchdog has its own local - There is now a separate file for the total reboot counter. The reboot watchdog has its own local

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@ -9,9 +9,9 @@
# ############################################################################## # ##############################################################################
cmake_minimum_required(VERSION 3.13) cmake_minimum_required(VERSION 3.13)
set(OBSW_VERSION_MAJOR 4) set(OBSW_VERSION_MAJOR 5)
set(OBSW_VERSION_MINOR 0) set(OBSW_VERSION_MINOR 0)
set(OBSW_VERSION_REVISION 1) set(OBSW_VERSION_REVISION 0)
# set(CMAKE_VERBOSE TRUE) # set(CMAKE_VERBOSE TRUE)

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@ -85,9 +85,13 @@ static constexpr char EN_RW_4[] = "enable_rw_4";
static constexpr char RAD_SENSOR_CHIP_SELECT[] = "rad_sensor_chip_select"; static constexpr char RAD_SENSOR_CHIP_SELECT[] = "rad_sensor_chip_select";
static constexpr char ENABLE_RADFET[] = "enable_radfet"; static constexpr char ENABLE_RADFET[] = "enable_radfet";
static constexpr char PAPB_BUSY_SIGNAL_VC0[] = "papb_busy_signal_vc0";
static constexpr char PAPB_EMPTY_SIGNAL_VC0[] = "papb_empty_signal_vc0"; static constexpr char PAPB_EMPTY_SIGNAL_VC0[] = "papb_empty_signal_vc0";
static constexpr char PAPB_BUSY_SIGNAL_VC1[] = "papb_busy_signal_vc1";
static constexpr char PAPB_EMPTY_SIGNAL_VC1[] = "papb_empty_signal_vc1"; static constexpr char PAPB_EMPTY_SIGNAL_VC1[] = "papb_empty_signal_vc1";
static constexpr char PAPB_BUSY_SIGNAL_VC2[] = "papb_busy_signal_vc2";
static constexpr char PAPB_EMPTY_SIGNAL_VC2[] = "papb_empty_signal_vc2"; static constexpr char PAPB_EMPTY_SIGNAL_VC2[] = "papb_empty_signal_vc2";
static constexpr char PAPB_BUSY_SIGNAL_VC3[] = "papb_busy_signal_vc3";
static constexpr char PAPB_EMPTY_SIGNAL_VC3[] = "papb_empty_signal_vc3"; static constexpr char PAPB_EMPTY_SIGNAL_VC3[] = "papb_empty_signal_vc3";
static constexpr char PTME_RESETN[] = "ptme_resetn"; static constexpr char PTME_RESETN[] = "ptme_resetn";

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@ -190,6 +190,7 @@ ReturnValue_t CoreController::initialize() {
sif::warning << "Subscribing for GPS GPS_FIX_CHANGE event failed" << std::endl; sif::warning << "Subscribing for GPS GPS_FIX_CHANGE event failed" << std::endl;
} }
if (common::OBSW_VERSION_MAJOR >= 6 or common::OBSW_VERSION_MAJOR == 4) {
UioMapper sysRomMapper(q7s::UIO_SYS_ROM); UioMapper sysRomMapper(q7s::UIO_SYS_ROM);
result = sysRomMapper.getMappedAdress(&mappedSysRomAddr, UioMapper::Permissions::READ_ONLY); result = sysRomMapper.getMappedAdress(&mappedSysRomAddr, UioMapper::Permissions::READ_ONLY);
if (result != returnvalue::OK) { if (result != returnvalue::OK) {
@ -197,6 +198,7 @@ ReturnValue_t CoreController::initialize() {
sif::error << "Getting mapped SYS ROM UIO address failed" << std::endl; sif::error << "Getting mapped SYS ROM UIO address failed" << std::endl;
return ObjectManager::CHILD_INIT_FAILED; return ObjectManager::CHILD_INIT_FAILED;
} }
}
return returnvalue::OK; return returnvalue::OK;
} }
@ -2518,11 +2520,14 @@ void CoreController::announceVersionInfo() {
} }
triggerEvent(VERSION_INFO, p1, p2); triggerEvent(VERSION_INFO, p1, p2);
if (common::OBSW_VERSION_MAJOR >= 6 or common::OBSW_VERSION_MAJOR == 4) {
if (mappedSysRomAddr != nullptr) { if (mappedSysRomAddr != nullptr) {
uint32_t p1Firmware = *(reinterpret_cast<uint32_t *>(mappedSysRomAddr)); uint32_t p1Firmware = *(reinterpret_cast<uint32_t *>(mappedSysRomAddr));
uint32_t p2Firmware = *(reinterpret_cast<uint32_t *>(mappedSysRomAddr) + 1); uint32_t p2Firmware = *(reinterpret_cast<uint32_t *>(mappedSysRomAddr) + 1);
triggerEvent(FIRMWARE_INFO, p1Firmware, p2Firmware); triggerEvent(FIRMWARE_INFO, p1Firmware, p2Firmware);
} }
}
} }
void CoreController::announceCurrentImageInfo() { void CoreController::announceCurrentImageInfo() {

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@ -731,12 +731,20 @@ ReturnValue_t ObjectFactory::createCcsdsComponents(CcsdsComponentArgs& args) {
// GPIO definitions of signals connected to the virtual channel interfaces of the PTME IP Core // GPIO definitions of signals connected to the virtual channel interfaces of the PTME IP Core
GpioCookie* gpioCookiePtmeIp = new GpioCookie; GpioCookie* gpioCookiePtmeIp = new GpioCookie;
GpiodRegularByLineName* gpio = nullptr; GpiodRegularByLineName* gpio = nullptr;
gpio = new GpiodRegularByLineName(q7s::gpioNames::PAPB_BUSY_SIGNAL_VC0, "PAPB VC0");
gpioCookiePtmeIp->addGpio(gpioIds::VC0_PAPB_BUSY, gpio);
gpio = new GpiodRegularByLineName(q7s::gpioNames::PAPB_EMPTY_SIGNAL_VC0, "PAPB VC0"); gpio = new GpiodRegularByLineName(q7s::gpioNames::PAPB_EMPTY_SIGNAL_VC0, "PAPB VC0");
gpioCookiePtmeIp->addGpio(gpioIds::VC0_PAPB_EMPTY, gpio); gpioCookiePtmeIp->addGpio(gpioIds::VC0_PAPB_EMPTY, gpio);
gpio = new GpiodRegularByLineName(q7s::gpioNames::PAPB_BUSY_SIGNAL_VC1, "PAPB VC1");
gpioCookiePtmeIp->addGpio(gpioIds::VC1_PAPB_BUSY, gpio);
gpio = new GpiodRegularByLineName(q7s::gpioNames::PAPB_EMPTY_SIGNAL_VC1, "PAPB VC1"); gpio = new GpiodRegularByLineName(q7s::gpioNames::PAPB_EMPTY_SIGNAL_VC1, "PAPB VC1");
gpioCookiePtmeIp->addGpio(gpioIds::VC1_PAPB_EMPTY, gpio); gpioCookiePtmeIp->addGpio(gpioIds::VC1_PAPB_EMPTY, gpio);
gpio = new GpiodRegularByLineName(q7s::gpioNames::PAPB_BUSY_SIGNAL_VC2, "PAPB VC2");
gpioCookiePtmeIp->addGpio(gpioIds::VC2_PAPB_BUSY, gpio);
gpio = new GpiodRegularByLineName(q7s::gpioNames::PAPB_EMPTY_SIGNAL_VC2, "PAPB VC2"); gpio = new GpiodRegularByLineName(q7s::gpioNames::PAPB_EMPTY_SIGNAL_VC2, "PAPB VC2");
gpioCookiePtmeIp->addGpio(gpioIds::VC2_PAPB_EMPTY, gpio); gpioCookiePtmeIp->addGpio(gpioIds::VC2_PAPB_EMPTY, gpio);
gpio = new GpiodRegularByLineName(q7s::gpioNames::PAPB_BUSY_SIGNAL_VC3, "PAPB VC3");
gpioCookiePtmeIp->addGpio(gpioIds::VC3_PAPB_BUSY, gpio);
gpio = new GpiodRegularByLineName(q7s::gpioNames::PAPB_EMPTY_SIGNAL_VC3, "PAPB VC3"); gpio = new GpiodRegularByLineName(q7s::gpioNames::PAPB_EMPTY_SIGNAL_VC3, "PAPB VC3");
gpioCookiePtmeIp->addGpio(gpioIds::VC3_PAPB_EMPTY, gpio); gpioCookiePtmeIp->addGpio(gpioIds::VC3_PAPB_EMPTY, gpio);
gpio = new GpiodRegularByLineName(q7s::gpioNames::PTME_RESETN, "PTME RESETN", gpio = new GpiodRegularByLineName(q7s::gpioNames::PTME_RESETN, "PTME RESETN",
@ -745,14 +753,19 @@ ReturnValue_t ObjectFactory::createCcsdsComponents(CcsdsComponentArgs& args) {
gpioChecker(args.gpioComIF.addGpios(gpioCookiePtmeIp), "PTME PAPB VCs"); gpioChecker(args.gpioComIF.addGpios(gpioCookiePtmeIp), "PTME PAPB VCs");
// Creating virtual channel interfaces // Creating virtual channel interfaces
VirtualChannelIF* vc0 = new PapbVcInterface(&args.gpioComIF, gpioIds::VC0_PAPB_EMPTY, VirtualChannelIF* vc0 =
new PapbVcInterface(&args.gpioComIF, gpioIds::VC0_PAPB_BUSY, gpioIds::VC0_PAPB_EMPTY,
q7s::UIO_PTME, q7s::uiomapids::PTME_VC0); q7s::UIO_PTME, q7s::uiomapids::PTME_VC0);
VirtualChannelIF* vc1 = new PapbVcInterface(&args.gpioComIF, gpioIds::VC1_PAPB_EMPTY, VirtualChannelIF* vc1 =
new PapbVcInterface(&args.gpioComIF, gpioIds::VC1_PAPB_BUSY, gpioIds::VC1_PAPB_EMPTY,
q7s::UIO_PTME, q7s::uiomapids::PTME_VC1); q7s::UIO_PTME, q7s::uiomapids::PTME_VC1);
VirtualChannelIF* vc2 = new PapbVcInterface(&args.gpioComIF, gpioIds::VC2_PAPB_EMPTY, VirtualChannelIF* vc2 =
new PapbVcInterface(&args.gpioComIF, gpioIds::VC2_PAPB_BUSY, gpioIds::VC2_PAPB_EMPTY,
q7s::UIO_PTME, q7s::uiomapids::PTME_VC2); q7s::UIO_PTME, q7s::uiomapids::PTME_VC2);
VirtualChannelIF* vc3 = new PapbVcInterface(&args.gpioComIF, gpioIds::VC3_PAPB_EMPTY, VirtualChannelIF* vc3 =
new PapbVcInterface(&args.gpioComIF, gpioIds::VC3_PAPB_BUSY, gpioIds::VC3_PAPB_EMPTY,
q7s::UIO_PTME, q7s::uiomapids::PTME_VC3); q7s::UIO_PTME, q7s::uiomapids::PTME_VC3);
// Creating ptme object and adding virtual channel interfaces // Creating ptme object and adding virtual channel interfaces
Ptme* ptme = new Ptme(objects::PTME); Ptme* ptme = new Ptme(objects::PTME);
ptme->addVcInterface(ccsds::VC0, vc0); ptme->addVcInterface(ccsds::VC0, vc0);
@ -1017,6 +1030,7 @@ void ObjectFactory::createRadSensorChipSelect(LinuxLibgpioIF* gpioIF) {
void ObjectFactory::createPlI2cResetGpio(LinuxLibgpioIF* gpioIF) { void ObjectFactory::createPlI2cResetGpio(LinuxLibgpioIF* gpioIF) {
using namespace gpio; using namespace gpio;
if (common::OBSW_VERSION_MAJOR >= 6 or common::OBSW_VERSION_MAJOR == 4) {
if (gpioIF == nullptr) { if (gpioIF == nullptr) {
return; return;
} }
@ -1029,4 +1043,5 @@ void ObjectFactory::createPlI2cResetGpio(LinuxLibgpioIF* gpioIF) {
gpioIF->pullLow(gpioIds::PL_I2C_ARESETN); gpioIF->pullLow(gpioIds::PL_I2C_ARESETN);
TaskFactory::delayTask(1); TaskFactory::delayTask(1);
gpioIF->pullHigh(gpioIds::PL_I2C_ARESETN); gpioIF->pullHigh(gpioIds::PL_I2C_ARESETN);
}
} }

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@ -96,9 +96,13 @@ enum gpioId_t {
SPI_MUX, SPI_MUX,
VC0_PAPB_EMPTY, VC0_PAPB_EMPTY,
VC0_PAPB_BUSY,
VC1_PAPB_EMPTY, VC1_PAPB_EMPTY,
VC1_PAPB_BUSY,
VC2_PAPB_EMPTY, VC2_PAPB_EMPTY,
VC2_PAPB_BUSY,
VC3_PAPB_EMPTY, VC3_PAPB_EMPTY,
VC3_PAPB_BUSY,
PTME_RESETN, PTME_RESETN,
PDEC_RESET, PDEC_RESET,

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@ -7,16 +7,20 @@
#include "fsfw/serviceinterface/ServiceInterface.h" #include "fsfw/serviceinterface/ServiceInterface.h"
PapbVcInterface::PapbVcInterface(LinuxLibgpioIF* gpioComIF, gpioId_t papbEmptyId, PapbVcInterface::PapbVcInterface(LinuxLibgpioIF* gpioComIF, gpioId_t papbBusyId,
std::string uioFile, int mapNum) gpioId_t papbEmptyId, std::string uioFile, int mapNum)
: gpioComIF(gpioComIF), papbEmptyId(papbEmptyId), uioFile(std::move(uioFile)), mapNum(mapNum) {} : gpioComIF(gpioComIF),
papbBusyId(papbBusyId),
papbEmptyId(papbEmptyId),
uioFile(std::move(uioFile)),
mapNum(mapNum) {}
PapbVcInterface::~PapbVcInterface() {} PapbVcInterface::~PapbVcInterface() {}
ReturnValue_t PapbVcInterface::initialize() { ReturnValue_t PapbVcInterface::initialize() {
UioMapper uioMapper(uioFile, mapNum); UioMapper uioMapper(uioFile, mapNum);
ReturnValue_t result = uioMapper.getMappedAdress(const_cast<uint32_t**>(&vcBaseReg), ReturnValue_t result = uioMapper.getMappedAdress(const_cast<uint32_t**>(&vcBaseReg),
UioMapper::Permissions::READ_WRITE); UioMapper::Permissions::WRITE_ONLY);
if (result != returnvalue::OK) { if (result != returnvalue::OK) {
return result; return result;
} }
@ -28,16 +32,63 @@ ReturnValue_t PapbVcInterface::write(const uint8_t* data, size_t size) {
if (size < 4) { if (size < 4) {
return returnvalue::FAILED; return returnvalue::FAILED;
} }
if (pollReadyForPacket()) { if (pollInterfaceReadiness(0, true) == returnvalue::OK) {
startPacketTransfer(ByteWidthCfg::ONE); startPacketTransfer(ByteWidthCfg::ONE);
} else { } else {
return DirectTmSinkIF::IS_BUSY; return DirectTmSinkIF::IS_BUSY;
} }
// TODO: This should work but does not.. :(
// size_t idx = 0;
// while (idx < size) {
//
// nanosleep(&BETWEEN_POLL_DELAY, &remDelay);
// if ((size - idx) < 4) {
// *vcBaseReg = CONFIG_DATA_INPUT | (size - idx - 1);
// usleep(1);
// }
// if (pollPapbBusySignal(2) == returnvalue::OK) {
// // vcBaseReg + DATA_REG_OFFSET + 3 = static_cast<uint8_t>(data + idx);
// // vcBaseReg + DATA_REG_OFFSET + 2 = static_cast<uint8_t>(data + idx + 1);
// // vcBaseReg + DATA_REG_OFFSET + 1 = static_cast<uint8_t>(data + idx + 2);
// // vcBaseReg + DATA_REG_OFFSET = static_cast<uint8_t>(data + idx + 3);
//
// // std::memcpy((vcBaseReg + DATA_REG_OFFSET), data + idx , nextWriteSize);
// *(vcBaseReg + DATA_REG_OFFSET) = *reinterpret_cast<const uint32_t*>(data + idx);
// //uint8_t* byteReg = reinterpret_cast<uint8_t*>(vcBaseReg + DATA_REG_OFFSET);
//
// //byteReg[0] = data[idx];
// //byteReg[1] = data[idx];
// } else {
// abortPacketTransfer();
// return returnvalue::FAILED;
// }
// // TODO: Change this after the bugfix. Right now, the PAPB ignores the content of the byte
// // width configuration.5
// // It's okay to increment by a larger amount for the last segment here, loop will be over
// // in any case.
// idx += 4;
// }
for (size_t idx = 0; idx < size; idx++) { for (size_t idx = 0; idx < size; idx++) {
// if (pollInterfaceReadiness(2, false) == returnvalue::OK) { // This delay is super-important, DO NOT REMOVE!
// Polling the GPIO or the config register too often messes up the scheduler.
// TODO: Maybe this should not be done like this. It would be better if there was a custom
// FPGA module which can accept packets and then takes care of dumping that packet into
// the PTME. DMA would be an ideal solution for this.
nanosleep(&BETWEEN_POLL_DELAY, &remDelay);
if (pollInterfaceReadiness(2, false) == returnvalue::OK) {
*(vcBaseReg + DATA_REG_OFFSET) = static_cast<uint32_t>(data[idx]); *(vcBaseReg + DATA_REG_OFFSET) = static_cast<uint32_t>(data[idx]);
} else {
abortPacketTransfer();
return returnvalue::FAILED;
} }
}
nanosleep(&BETWEEN_POLL_DELAY, &remDelay);
if (pollInterfaceReadiness(2, false) == returnvalue::OK) {
completePacketTransfer(); completePacketTransfer();
} else {
abortPacketTransfer();
return returnvalue::FAILED;
}
return returnvalue::OK; return returnvalue::OK;
} }
@ -47,33 +98,60 @@ void PapbVcInterface::startPacketTransfer(ByteWidthCfg initWidth) {
void PapbVcInterface::completePacketTransfer() { *vcBaseReg = CONFIG_END; } void PapbVcInterface::completePacketTransfer() { *vcBaseReg = CONFIG_END; }
bool PapbVcInterface::pollReadyForPacket() const { ReturnValue_t PapbVcInterface::pollInterfaceReadiness(uint32_t maxPollRetries,
bool checkReadyState) const {
uint32_t busyIdx = 0;
nextDelay.tv_nsec = FIRST_DELAY_PAPB_POLLING_NS;
while (true) {
// Check if PAPB interface is ready to receive data. Use the configuration register for this. // Check if PAPB interface is ready to receive data. Use the configuration register for this.
// Bit 5, see PTME ptme_001_01-0-7-r2 Table 31. // Bit 5, see PTME ptme_001_01-0-7-r2 Table 31.
uint32_t reg = *vcBaseReg; uint32_t reg = *vcBaseReg;
// bool busy = (reg >> 5) & 0b1; bool busy = (reg >> 5) & 0b1;
return (reg >> 6) & 0b1; bool ready = (reg >> 6) & 0b1;
if (not busy) {
return returnvalue::OK;
}
if (checkReadyState and not ready) {
return PAPB_BUSY;
}
busyIdx++;
if (busyIdx >= maxPollRetries) {
return PAPB_BUSY;
}
// Ignore signal handling here for now.
nanosleep(&nextDelay, &remDelay);
// Adaptive delay.
if (nextDelay.tv_nsec * 2 <= MAX_DELAY_PAPB_POLLING_NS) {
nextDelay.tv_nsec *= 2;
}
}
return returnvalue::OK;
} }
bool PapbVcInterface::isVcInterfaceBufferEmpty() { void PapbVcInterface::isVcInterfaceBufferEmpty() {
ReturnValue_t result = returnvalue::OK; ReturnValue_t result = returnvalue::OK;
gpio::Levels papbEmptyState = gpio::Levels::HIGH; gpio::Levels papbEmptyState = gpio::Levels::HIGH;
result = gpioComIF->readGpio(papbEmptyId, papbEmptyState); result = gpioComIF->readGpio(papbEmptyId, papbEmptyState);
if (result != returnvalue::OK) { if (result != returnvalue::OK) {
sif::error << "PapbVcInterface::isVcInterfaceBufferEmpty: Failed to read papb empty signal" sif::warning << "PapbVcInterface::isVcInterfaceBufferEmpty: Failed to read papb empty signal"
<< std::endl; << std::endl;
return true; return;
} }
if (papbEmptyState == gpio::Levels::HIGH) { if (papbEmptyState == gpio::Levels::HIGH) {
return true; sif::debug << "PapbVcInterface::isVcInterfaceBufferEmpty: Buffer is empty" << std::endl;
} else {
sif::debug << "PapbVcInterface::isVcInterfaceBufferEmpty: Buffer is not empty" << std::endl;
} }
return false; return;
} }
bool PapbVcInterface::isBusy() const { return not pollReadyForPacket(); } bool PapbVcInterface::isBusy() const { return pollInterfaceReadiness(0, true) == PAPB_BUSY; }
void PapbVcInterface::cancelTransfer() { abortPacketTransfer(); } void PapbVcInterface::cancelTransfer() { abortPacketTransfer(); }

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@ -30,7 +30,8 @@ class PapbVcInterface : public VirtualChannelIF {
* @param uioFile UIO file providing access to the PAPB bus * @param uioFile UIO file providing access to the PAPB bus
* @param mapNum Map number of UIO map associated with this virtual channel * @param mapNum Map number of UIO map associated with this virtual channel
*/ */
PapbVcInterface(LinuxLibgpioIF* gpioComIF, gpioId_t papbEmptyId, std::string uioFile, int mapNum); PapbVcInterface(LinuxLibgpioIF* gpioComIF, gpioId_t papbBusyId, gpioId_t papbEmptyId,
std::string uioFile, int mapNum);
virtual ~PapbVcInterface(); virtual ~PapbVcInterface();
bool isBusy() const override; bool isBusy() const override;
@ -82,6 +83,9 @@ class PapbVcInterface : public VirtualChannelIF {
static constexpr long int MAX_DELAY_PAPB_POLLING_NS = 40; static constexpr long int MAX_DELAY_PAPB_POLLING_NS = 40;
LinuxLibgpioIF* gpioComIF = nullptr; LinuxLibgpioIF* gpioComIF = nullptr;
/** Pulled to low when virtual channel not ready to receive data */
gpioId_t papbBusyId = gpio::NO_GPIO;
/** High when external buffer memory of virtual channel is empty */ /** High when external buffer memory of virtual channel is empty */
gpioId_t papbEmptyId = gpio::NO_GPIO; gpioId_t papbEmptyId = gpio::NO_GPIO;
@ -116,13 +120,13 @@ class PapbVcInterface : public VirtualChannelIF {
* *
* @return returnvalue::OK when ready to receive data else PAPB_BUSY. * @return returnvalue::OK when ready to receive data else PAPB_BUSY.
*/ */
inline bool pollReadyForPacket() const; inline ReturnValue_t pollInterfaceReadiness(uint32_t maxPollRetries, bool checkReadyState) const;
/** /**
* @brief This function can be used for debugging to check whether there are packets in * @brief This function can be used for debugging to check whether there are packets in
* the packet buffer of the virtual channel or not. * the packet buffer of the virtual channel or not.
*/ */
bool isVcInterfaceBufferEmpty(); void isVcInterfaceBufferEmpty();
/** /**
* @brief This function sends a complete telemetry transfer frame data field (1105 bytes) * @brief This function sends a complete telemetry transfer frame data field (1105 bytes)

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@ -42,7 +42,13 @@ ReturnValue_t PersistentLogTmStoreTask::performOperation(uint8_t opCode) {
if (not someonesBusy) { if (not someonesBusy) {
TaskFactory::delayTask(100); TaskFactory::delayTask(100);
} else if (vcBusyDuringDump) { } else if (vcBusyDuringDump) {
// TODO: Might not be necessary
sif::debug << "VC busy, delaying" << std::endl;
TaskFactory::delayTask(10); TaskFactory::delayTask(10);
} else {
// TODO: Would be best to remove this, but not delaying here can lead to evil issues.
// Polling the PAPB of the PTME core too often leads to scheuduling issues.
TaskFactory::delayTask(2);
} }
} }
} }

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@ -24,7 +24,13 @@ ReturnValue_t PersistentSingleTmStoreTask::performOperation(uint8_t opCode) {
if (not busy) { if (not busy) {
TaskFactory::delayTask(100); TaskFactory::delayTask(100);
} else if (dumpContext.vcBusyDuringDump) { } else if (dumpContext.vcBusyDuringDump) {
sif::debug << "VC busy, delaying" << std::endl;
// TODO: Might not be necessary
TaskFactory::delayTask(10); TaskFactory::delayTask(10);
} else {
// TODO: Would be best to remove this, but not delaying here can lead to evil issues.
// Polling the PAPB of the PTME core too often leads to scheuduling issues.
TaskFactory::delayTask(2);
} }
} }
} }