eive-obsw/linux/ipcore/AxiPtmeConfig.cpp

#include "AxiPtmeConfig.h"

#include <fsfw/ipc/MutexGuard.h>

#include "fsfw/serviceinterface/ServiceInterface.h"
#include "fsfw_hal/linux/uio/UioMapper.h"

AxiPtmeConfig::AxiPtmeConfig(object_id_t objectId, std::string axiUio, int mapNum)
    : SystemObject(objectId), axiUio(std::move(axiUio)), mapNum(mapNum) {
  mutex = MutexFactory::instance()->createMutex();
  if (mutex == nullptr) {
    sif::warning << "Failed to create mutex" << std::endl;
  }
}

AxiPtmeConfig::~AxiPtmeConfig() {}

ReturnValue_t AxiPtmeConfig::initialize() {
  UioMapper uioMapper(axiUio, mapNum);
  ReturnValue_t result =
      uioMapper.getMappedAdress(&baseAddress, UioMapper::Permissions::READ_WRITE);
  if (result != returnvalue::OK) {
    return result;
  }
  return returnvalue::OK;
}

ReturnValue_t AxiPtmeConfig::writeCaduRateReg(uint8_t rateVal) {
  ReturnValue_t result = mutex->lockMutex(timeoutType, mutexTimeout);
  if (result != returnvalue::OK) {
    sif::warning << "AxiPtmeConfig::writeCaduRateReg: Failed to lock mutex" << std::endl;
    return returnvalue::FAILED;
  }
  *(baseAddress + CADU_BITRATE_REG) = static_cast<uint32_t>(rateVal);
  result = mutex->unlockMutex();
  if (result != returnvalue::OK) {
    sif::warning << "AxiPtmeConfig::writeCaduRateReg: Failed to unlock mutex" << std::endl;
    return returnvalue::FAILED;
  }
  return returnvalue::OK;
}

uint8_t AxiPtmeConfig::readCaduRateReg() {
  MutexGuard mg(mutex);
  return static_cast<uint8_t>(*(baseAddress + CADU_BITRATE_REG));
}

void AxiPtmeConfig::enableTxclockManipulator() {
  writeBit(COMMON_CONFIG_REG, true, BitPos::EN_TX_CLK_MANIPULATOR);
}

void AxiPtmeConfig::disableTxclockManipulator() {
  writeBit(COMMON_CONFIG_REG, false, BitPos::EN_TX_CLK_MANIPULATOR);
}

void AxiPtmeConfig::enableTxclockInversion() {
  writeBit(COMMON_CONFIG_REG, true, BitPos::INVERT_CLOCK);
}

void AxiPtmeConfig::disableTxclockInversion() {
  writeBit(COMMON_CONFIG_REG, false, BitPos::INVERT_CLOCK);
}

void AxiPtmeConfig::enableBatPriorityBit() {
  writeBit(COMMON_CONFIG_REG, true, BitPos::EN_BAT_PRIORITY);
}

void AxiPtmeConfig::disableBatPriorityBit() {
  writeBit(COMMON_CONFIG_REG, false, BitPos::EN_BAT_PRIORITY);
}

void AxiPtmeConfig::writeReg(uint32_t regOffset, uint32_t writeVal) {
  MutexGuard mg(mutex, timeoutType, mutexTimeout);
  *(baseAddress + regOffset / ADRESS_DIVIDER) = writeVal;
}

uint32_t AxiPtmeConfig::readReg(uint32_t regOffset) {
  MutexGuard mg(mutex, timeoutType, mutexTimeout);
  return *(baseAddress + regOffset / ADRESS_DIVIDER);
}

void AxiPtmeConfig::writePollThreshold(AxiPtmeConfig::IdlePollThreshold pollThreshold) {
  uint32_t regVal = readCommonCfgReg();
  // Clear bits first
  regVal &= ~(0b111 << 3);
  regVal |= (static_cast<uint8_t>(pollThreshold) << 3);
  writeCommonCfgReg(regVal);
}

AxiPtmeConfig::IdlePollThreshold AxiPtmeConfig::readPollThreshold() {
  uint32_t regVal = readCommonCfgReg();
  return static_cast<AxiPtmeConfig::IdlePollThreshold>((regVal >> 3) & 0b111);
}

void AxiPtmeConfig::writeCommonCfgReg(uint32_t value) { writeReg(COMMON_CONFIG_REG, value); }
uint32_t AxiPtmeConfig::readCommonCfgReg() { return readReg(COMMON_CONFIG_REG); }

void AxiPtmeConfig::writeBit(uint32_t regOffset, bool bitVal, BitPos bitPos) {
  uint32_t readVal = readReg(regOffset);
  uint32_t writeVal =
      (readVal & ~(1 << static_cast<uint32_t>(bitPos))) | bitVal << static_cast<uint32_t>(bitPos);
  writeReg(regOffset, writeVal);
}
dynamic switching of cadu data sample time and clock manipulation 2022-01-30 17:16:17 +01:00			`#include "AxiPtmeConfig.h"`

add SW IF for manipulating poll threshold 2023-04-02 14:22:52 +02:00			`#include <fsfw/ipc/MutexGuard.h>`

dynamic switching of cadu data sample time and clock manipulation 2022-01-30 17:16:17 +01:00			`#include "fsfw/serviceinterface/ServiceInterface.h"`
			`#include "fsfw_hal/linux/uio/UioMapper.h"`

			`AxiPtmeConfig::AxiPtmeConfig(object_id_t objectId, std::string axiUio, int mapNum)`
bufixes for PDEC 2022-10-27 14:02:34 +02:00			`: SystemObject(objectId), axiUio(std::move(axiUio)), mapNum(mapNum) {`
dynamic switching of cadu data sample time and clock manipulation 2022-01-30 17:16:17 +01:00			`mutex = MutexFactory::instance()->createMutex();`
			`if (mutex == nullptr) {`
			`sif::warning << "Failed to create mutex" << std::endl;`
			`}`
			`}`

			`AxiPtmeConfig::~AxiPtmeConfig() {}`

			`ReturnValue_t AxiPtmeConfig::initialize() {`
			`UioMapper uioMapper(axiUio, mapNum);`
why indeed 2023-06-29 14:49:57 +02:00			`ReturnValue_t result =`
			`uioMapper.getMappedAdress(&baseAddress, UioMapper::Permissions::READ_WRITE);`
all retval replacements 2022-08-24 17:27:47 +02:00			`if (result != returnvalue::OK) {`
dynamic switching of cadu data sample time and clock manipulation 2022-01-30 17:16:17 +01:00			`return result;`
			`}`
all retval replacements 2022-08-24 17:27:47 +02:00			`return returnvalue::OK;`
dynamic switching of cadu data sample time and clock manipulation 2022-01-30 17:16:17 +01:00			`}`

			`ReturnValue_t AxiPtmeConfig::writeCaduRateReg(uint8_t rateVal) {`
why indeed 2023-06-29 14:49:57 +02:00			`ReturnValue_t result = mutex->lockMutex(timeoutType, mutexTimeout);`
all retval replacements 2022-08-24 17:27:47 +02:00			`if (result != returnvalue::OK) {`
dynamic switching of cadu data sample time and clock manipulation 2022-01-30 17:16:17 +01:00			`sif::warning << "AxiPtmeConfig::writeCaduRateReg: Failed to lock mutex" << std::endl;`
all retval replacements 2022-08-24 17:27:47 +02:00			`return returnvalue::FAILED;`
dynamic switching of cadu data sample time and clock manipulation 2022-01-30 17:16:17 +01:00			`}`
			`*(baseAddress + CADU_BITRATE_REG) = static_cast<uint32_t>(rateVal);`
			`result = mutex->unlockMutex();`
all retval replacements 2022-08-24 17:27:47 +02:00			`if (result != returnvalue::OK) {`
dynamic switching of cadu data sample time and clock manipulation 2022-01-30 17:16:17 +01:00			`sif::warning << "AxiPtmeConfig::writeCaduRateReg: Failed to unlock mutex" << std::endl;`
all retval replacements 2022-08-24 17:27:47 +02:00			`return returnvalue::FAILED;`
dynamic switching of cadu data sample time and clock manipulation 2022-01-30 17:16:17 +01:00			`}`
all retval replacements 2022-08-24 17:27:47 +02:00			`return returnvalue::OK;`
dynamic switching of cadu data sample time and clock manipulation 2022-01-30 17:16:17 +01:00			`}`

only reset PTME on rate change init 2023-06-26 14:39:03 +02:00			`uint8_t AxiPtmeConfig::readCaduRateReg() {`
			`MutexGuard mg(mutex);`
			`return static_cast<uint8_t>(*(baseAddress + CADU_BITRATE_REG));`
			`}`

add SW IF for manipulating poll threshold 2023-04-02 14:22:52 +02:00			`void AxiPtmeConfig::enableTxclockManipulator() {`
			`writeBit(COMMON_CONFIG_REG, true, BitPos::EN_TX_CLK_MANIPULATOR);`
dynamic switching of cadu data sample time and clock manipulation 2022-01-30 17:16:17 +01:00			`}`

add SW IF for manipulating poll threshold 2023-04-02 14:22:52 +02:00			`void AxiPtmeConfig::disableTxclockManipulator() {`
			`writeBit(COMMON_CONFIG_REG, false, BitPos::EN_TX_CLK_MANIPULATOR);`
dynamic switching of cadu data sample time and clock manipulation 2022-01-30 17:16:17 +01:00			`}`

add SW IF for manipulating poll threshold 2023-04-02 14:22:52 +02:00			`void AxiPtmeConfig::enableTxclockInversion() {`
			`writeBit(COMMON_CONFIG_REG, true, BitPos::INVERT_CLOCK);`
dynamic switching of cadu data sample time and clock manipulation 2022-01-30 17:16:17 +01:00			`}`

add SW IF for manipulating poll threshold 2023-04-02 14:22:52 +02:00			`void AxiPtmeConfig::disableTxclockInversion() {`
			`writeBit(COMMON_CONFIG_REG, false, BitPos::INVERT_CLOCK);`
dynamic switching of cadu data sample time and clock manipulation 2022-01-30 17:16:17 +01:00			`}`

add SW IF for manipulating poll threshold 2023-04-02 14:22:52 +02:00			`void AxiPtmeConfig::enableBatPriorityBit() {`
			`writeBit(COMMON_CONFIG_REG, true, BitPos::EN_BAT_PRIORITY);`
set bat priority bit on transmitter enable 2023-03-17 14:51:00 +01:00			`}`

add SW IF for manipulating poll threshold 2023-04-02 14:22:52 +02:00			`void AxiPtmeConfig::disableBatPriorityBit() {`
			`writeBit(COMMON_CONFIG_REG, false, BitPos::EN_BAT_PRIORITY);`
set bat priority bit on transmitter enable 2023-03-17 14:51:00 +01:00			`}`

add SW IF for manipulating poll threshold 2023-04-02 14:22:52 +02:00			`void AxiPtmeConfig::writeReg(uint32_t regOffset, uint32_t writeVal) {`
			`MutexGuard mg(mutex, timeoutType, mutexTimeout);`
dynamic switching of cadu data sample time and clock manipulation 2022-01-30 17:16:17 +01:00			`*(baseAddress + regOffset / ADRESS_DIVIDER) = writeVal;`
			`}`

add SW IF for manipulating poll threshold 2023-04-02 14:22:52 +02:00			`uint32_t AxiPtmeConfig::readReg(uint32_t regOffset) {`
			`MutexGuard mg(mutex, timeoutType, mutexTimeout);`
			`return *(baseAddress + regOffset / ADRESS_DIVIDER);`
dynamic switching of cadu data sample time and clock manipulation 2022-01-30 17:16:17 +01:00			`}`

add SW IF for manipulating poll threshold 2023-04-02 14:22:52 +02:00			`void AxiPtmeConfig::writePollThreshold(AxiPtmeConfig::IdlePollThreshold pollThreshold) {`
			`uint32_t regVal = readCommonCfgReg();`
			`// Clear bits first`
			`regVal &= ~(0b111 << 3);`
			`regVal \|= (static_cast<uint8_t>(pollThreshold) << 3);`
			`writeCommonCfgReg(regVal);`
			`}`

			`AxiPtmeConfig::IdlePollThreshold AxiPtmeConfig::readPollThreshold() {`
			`uint32_t regVal = readCommonCfgReg();`
			`return static_cast<AxiPtmeConfig::IdlePollThreshold>((regVal >> 3) & 0b111);`
			`}`

poll threshold param cmd handling 2023-04-02 15:32:04 +02:00			`void AxiPtmeConfig::writeCommonCfgReg(uint32_t value) { writeReg(COMMON_CONFIG_REG, value); }`
			`uint32_t AxiPtmeConfig::readCommonCfgReg() { return readReg(COMMON_CONFIG_REG); }`

add SW IF for manipulating poll threshold 2023-04-02 14:22:52 +02:00			`void AxiPtmeConfig::writeBit(uint32_t regOffset, bool bitVal, BitPos bitPos) {`
			`uint32_t readVal = readReg(regOffset);`
applied clanf formatting 2022-01-31 08:09:58 +01:00			`uint32_t writeVal =`
			`(readVal & ~(1 << static_cast<uint32_t>(bitPos))) \| bitVal << static_cast<uint32_t>(bitPos);`
add SW IF for manipulating poll threshold 2023-04-02 14:22:52 +02:00			`writeReg(regOffset, writeVal);`
			`}`