Merge pull request 'prep v8.2.0' (#907 ) from prep-release into main

Reviewed-on: #907
prep v8.2.0
2024-06-26 15:49:20 +02:00 · 2024-06-26 15:45:20 +02:00 · 2024-06-26 15:36:31 +02:00 · 2024-06-26 13:34:14 +02:00 · 2024-06-26 13:30:34 +02:00 · 2024-06-25 13:45:03 +02:00
147 changed files with 9336 additions and 4060 deletions
--- a/.gitignore
+++ b/.gitignore
@ -22,3 +22,7 @@ __pycache__
 !/.idea/cmake.xml
 generators/*.db
 # Clangd LSP
 /compile_commands.json
 /.cache
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@ -16,6 +16,361 @@ will consitute of a breaking change warranting a new major release:
 # [unreleased]
 # [v8.2.0] 2024-06-26
 ## Changed
 - STR quaternions are now used by the `MEKF` by default
 - Changed nominal `SUS Assembly` side to `B Side`.
 - Changed source for state machine of detumbling to SUS and MGM only.
 - Changed `FusedRotRateData` dataset to always display rotation rate from SUS and MGM.
 - Solution from `QUEST` will be set to invalid if sun vector and magnetic field vector are too close
  to each other.
 - Changed collection intervals of dataset collection
  - `GPS Controller`: `GPS Set` to 60s
  - `MTQ Handler`: `HK with Torque`, `HK without Torque` to 60s
  - `RW Handler`: `Status Set` to 30s
  - `STR Handler`: `Solution Set` to 30s
  - `ACS Controller`: `MGM Sensor`, `MGM Processed`, `SUS Sensor`, `SUS Processed`, `GYR Sensor`,
    `GPS Processed` to 60s
  - `ACS Controller` at or below `IDLE`: `CTRL Values`, `ACT Commands`, `Attitude Estimation`,
    `Fused Rotation Rate` to 30s
  - `ACS Controller` above `IDLE`: `CTRL Values`, `ACT Commands`, `Attitude Estimation`,
    `Fused Rotation Rate` to 10s
 ## Fixed
 - Added null termination for PLOC MPSoC image taking command which could possibly lead to
  default target filenames.
 # [v8.1.1] 2024-06-05
 ## Added
 - PLOC SUPV MPSoC update re-try logic for the `WRITE_MEMORY` command. These packets form  > 98%
  of all packets required for a software update, but the update mechanism is not tolerant against
  occasional glitches on the RS485 communication to the PLOC SUPV. A simple re-try mechanism which
  tries to re-attempt packet handling up to three times for those packets is introduced.
 # [v8.1.0] 2024-05-29
 ## Fixed
 - Small fix for transition failure handling of the MPSoC when the `START_MPSOC` action command
  to the supervisor fails.
 - Fixed inits of arrays within the `MEKF` not being zeros.
 - Important bugfix for PLOC SUPV: The SUPV previously was able to steal packets from the special
  communication helper, for example during software updates.
 - Corrected sigma of STR for `MEKF`.
 ## Added
 - Added new command to cancel the PLOC SUPV special communication helper.
 # [v8.0.0] 2024-05-13
 - `eive-tmtc` v7.0.0
 ## Fixed
 - Fixed calculation for target rotation rate during pointing modes.
 - Possible fix for MPSoC file read algorithm.
 ## Changed
 - Reworked MPSoC handler to be compatible to new MPSoC software image and use
  new device handler base class. This should increase the reliability of the communication
  significantly.
 - MPSoC device modes IDLE, SNAPSHOT and REPLAY are now modelled using submodes.
 - Commanding a submode the device is already in will not result in a completion failure
  anymore.
 ## Added
 - Added `VERIFY_BOOT` command for MPSoC.
 - New command for MPSoC to store camera image in chunks.
 # [v7.8.1] 2024-04-11
 ## Fixed
 - Reverted fix for wrong order in quaternion multiplication for computation of the error quaternion.
 # [v7.8.0] 2024-04-10
 ## Changed
 - Reverted lower OP limit of `PLOC` to -10°C.
 - All pointing laws are now allowed to use the `MEKF` per default.
 - Changed limits in `PWR Controller`.
 - PUS time service: Now dumps the time before and after relative timeshift or setting absolute time
 - The `GPS Controller` does not set itself to `OFF` anymore, if it has not detected a valid fix for
  some time. Instead it attempts to reset both GNSS devices once.
 - The maximum time to reach a fix is shortened from 30min to 15min.
 - The time the reset pin of the GNSS devices is pulled is prolonged from 5ms to 10s.
 - A `GPS FIX HAS CHANGED` is now only triggered if no fix change has been detected within the past
  2min. This means, this event might be thrown with a 2min delay. It is instantly thrown, if the mode
  of the controller is changed. As arguments it now displays the new fix and the numer of fix changes
  missed.
 - The number of satellites seen and used is reset to 0, in case they are set to invalid.
 - Altitude, latitude and longitude messages are not checked anymore, in case the mode message was
  already invalid.
 ## Added
 - PUS timeservice relative timeshift.
 ## Fixed
 - Fixed wrong order in quaternion multiplication for computation of the error quaternion.
 - Re-worked some FDIR logic in the FSFW. The former logic prevented events with a severity
  higher than INFO if the device was in EXTERNAL CONTROL. The new logic will allow to trigger
  events but still inhibit FDIR reactions if the device is in EXTERNAL CONTROL.
 # [v7.7.4] 2024-03-21
 ## Changed
 - Rotational rate limit for the GS target pointing is now seperated from controller limit. It
  is also reduced to 0.75°/s now.
 ## Fixed
 - Fixed wrong sign in calculation of total current within the `PWR Controller`.
 # [v7.7.3] 2024-03-18
 - Bumped `eive-fsfw`
 ## Added
 - Added parameter to disable STR input for MEKF.
 ## Changed
 - If a primary heater is set to `EXTERNAL CONTROL` and `ON`, the `TCS Controller` will no
  try to control the temperature of that object.
 - Set lower OP limit of `PLOC` to -5°C.
 ## Fixed
 - Added prevention of sign jump for target quaternion of GS pointing, which would reduce the
  performance of the controller.
 - Heaters set to `EXTERNAL CONTROL` no longer can be switched off by the `TCS Controller`, if
  they violate the maximum burn duration of the controller.
 # [v7.7.2] 2024-03-06
 ## Fixed
 - Camera and E-band antenna now point towards the target instead of away from the target for the
  pointing target mode.
 # [v7.7.1] 2024-03-06
 - Bumped `eive-tmtc` to v6.1.1
 - Bumped `eive-fsfw`
 ## Added
 - The `CoreController` now sets the leap seconds on initalization. They are stored in a persistent
  file. If the file does yet not exist, it will be created. The leap seconds can be updated using an
  action command. This will also update the file.
 ## Fixed
 - Fixed wrong dimension of a matrix within the `MEKF`, which would lead to a seg fault, if the
  star tracker was available.
 - Fixed case in which control values within the `AcsController` could become NaN.
 # [v7.7.0] 2024-02-29
 - Bumped `eive-tmtc` to v6.1.0
 - Bumped `eive-fsfw`
 ## Fixed
 - PLOC SUPV sets: Added missing `PoolReadGuard` instantiations when reading boot status report
  and latchup status report.
 - PLOC SUPV latchup report could not be handled previously.
 - Bugfix in PLOC SUPV latchup report parsing.
 - Bugfix in PLOC MPSoC HK set: Set and variables were not set valid.
 - The `PTG_CTRL_NO_ATTITUDE_INFORMATION` will now actually trigger a fallback into safe mode
  and is triggered by the `AcsController` now.
 - Fixed a corner case, in which an invalid speed command could be sent to the `RwHandler`.
 - Fixed calculation of desaturation torque for faulty RWs.
 - Fixed bugs within the `MEKF` and simplified the code.
 ## Changed
 - `FusedRotationRate` now only uses rotation rate from QUEST and STR in higher modes
 - QUEST and STR rates are now allowed per default
 - Changed PTG Strat priorities to favor STR before MEKF.
 - Increased message queue depth and maximum number of handled messages per cycle for
  `PusServiceBase` based classes (especially PUS scheduler).
 - `MathOperations` functions were moved to their appropriate classes within the `eive-fsfw`
 - Changed pointing strategy for target groundstation mode to prevent blinding of the STR. This
  also limits the rotation for the reference target quaternion to prevent spikes in required
  rotation rates.
 - Updated QUEST and Sun Vector Params to new values.
 - Removed the satellites's angular momentum from desaturation calculation.
 - Bumped internal `sagittactl` library to v11.11.
 ## Added
 - Updated STR handler to unlock and allow using the secondary firmware slot.
 - STR handling for new BlobStats TM set.
 - Added new action command to update the standard deviations within the `MEKF` from the
  `AcsParameters`.
 # [v7.6.1] 2024-02-05
 ## Changed
 - Guidance now uses the coordinate functions from the FSFW.
 - Idle should now point the STR away from the earth
 ## Fixed
 - Fixed bugs in `Guidance::comparePtg` and corrected overloading
 - Detumbling State Machine is now robust to commanded mode changes.
 # [v7.6.0] 2024-01-30
 - Bumped `eive-tmtc` to v5.13.0
 - Bumped `eive-fsfw`
 ## Added
 - Added new parameter for MPSoC which allows to skip SUPV commanding.
 ## Changed
 - Increased allowed mode transition time for PLOC SUPV.
 - Detumbling can now be triggered from all modes of the `AcsController`. In case the
  current mode is a higher pointing mode, the STR will be set to faulty, to trigger a
  transition to safe first. Then, in a second step, a transition to detumble is triggered.
 ## Fixed
 - If the PCDU handler fails reading data from the IPC store, it will
  not try to do a deserialization anymore.
 - All action commands sent by the PLOC SUPV to itself will have no sender now.
 - RW speed commands get reset to 0 RPM, if the `AcsController` has changed its mode
  to Safe
 - Antistiction for RWs will set commanded speed to 0 RPM, if a wheel is detected as not
  working
 - Removed parameter to disable antistiction, as deactivating it would result in the
  `AcsController` being allowed sending invalid speed commands to the RW Handler, which
  would then trigger FDIR and turning off the functioning device
 - `RwHandler` returnvalues would use the `INTERFACE_ID` of the `DeviceHandlerBase`
 - The `AcsController` will reset its stored guidance values on mode change and lost
  orientation.
 - The nullspace controller will only be used if all RWs are available.
 - Calculation of required rotation rate in pointing modes has been fixed to actual
  calculation of rotation rate from two quaternions.
 - Fixed alignment matrix and pseudo inverses of RWs, to match the wrong definition of
  positive rotation.
 # [v7.5.5] 2024-01-22
 ## Fixed
 - Calculation of error quaternion was done with inverse of the required target quaternion.
 # [v7.5.4] 2024-01-16
 ## Fixed
 - Pointing strategy now actually uses fused rotation rate source instead of its valid flag.
 - All datasets now get updated during pointing mode, even if the strategy is a fault one.
 # [v7.5.3] 2023-12-19
 ## Fixed
 - Set STR quaternions to invalid in device handler if the solution is not trustworthy.
 # [v7.5.2] 2023-12-14
 ## Fixed
 - Fixed faulty scaling within the QUEST algorithm.
 # [v7.5.1] 2023-12-13
 - `eive-tmtc` v5.12.1
 ## Changed
 - Increased the maximum number of scheduled telecommands from 500 to 4000. Merry Christmas!
 ## Fixed
 - Faulty mapping of input values for QUEST algorithm.
 - Fixed validity check for QUEST algorithm.
 # [v7.5.0] 2023-12-06
 - `eive-tmtc` v5.12.0
 ## Changed
 - ACS-Board default side changed to B-Side
 - The TLE uploaded now gets stored in a file on the filesystem. It will always be stored on
  the current active SD Card. After a reboot, the TLE will be read from the filesystem.
  A filesystem change via `prefSD` on bootup, can lead to the TLE not being read, even
  though it is there.
 - Added action cmd to read the currently stored TLE.
 - Both the `AcsController` and the `PwrController` now use the monotonic clock to calculate
  the time difference.
 - `ACS Controller` now has the function `performAttitudeControl` which is called prior to passing
  on to the relevant mode functions. It handles all telemetry relevant functions, which were
  always called, regardless of the mode.
 ## Added
 - Higher ACS modes can now be entered without a running `MEKF`. Higher modes will collect their
  quaternion and rotational rate depending on the available sources.
 - `QUEST` attitude estimation was added to the `AcsController`.
 - The fused rotational rate can now be estimated from `QUEST` and the `STR`.
 # [v7.4.1] 2023-12-06
 ## Fixed
 - Schedule SCEX again. Scheduling was removed accidentaly when Payload Task was converted to a PST.
 - SCEX transition was previously 0 seconds.. which did not lead to bugs? In any case it is 5
  seconds now.
 # [v7.4.0] 2023-11-30
 - `eive-tmtc` v5.11.0
 ## Changed
 - Rewrote the PLOC Supervisor Handler, which is now based on a new device handler base class.
  Added ADC and Logging Counters telemetry set support.
 ## Fixed
 - Increase allowed time for PTME writers to finish partial transfers. A duration of 200 ms was
  not sufficient for cases where 3 writers write concurrently.
 - Fixed state issue for PTME writer object where the writer was not reset properly after a timeout
  of a partial transfer. This was a major bug blocking the whole VC if it occured.
 - STR config path was previously hardcoded to `/mnt/sd0/startracker/flight-config.json`.
  A new abstraction was introduces which now uses the active SD card to build the correct
  config path when initializing the star tracker.
 ## Added
 - PL PCDU: Add command to enable and disable channel order checks.
 - Added new PUS 15 subservice `DELETE_BY_TIME_RANGE` which allows to also specify a deletion
  start time when deleting packets from the persistent TM store.
 - Introduced a new `RELOAD_JSON_CFG_FILE` command for the STR to reload the JSON configuration
  data based on the current output of the config file path getter function. A reboot of the
  device is still necessary to load the configuration to the STR.
 # [v7.3.0] 2023-11-07
 ## Changed
@ -23,6 +378,7 @@ will consitute of a breaking change warranting a new major release:
 - Changed PDEC addresses depending on which firmware version is used. It is suspected that
  the previous addresses were invalid and not properly covered by the Linux memory protection.
  The OBSW will use the old addresses for older FW versions.
 - Reverted some STR ComIF behaviour back to an older software version.
 ## Added
--- a/CMakeLists.txt
+++ b/CMakeLists.txt
@ -9,8 +9,8 @@
 # ##############################################################################
 cmake_minimum_required(VERSION 3.13)
-set(OBSW_VERSION_MAJOR 7)
+set(OBSW_VERSION_MAJOR 8)
-set(OBSW_VERSION_MINOR 3)
+set(OBSW_VERSION_MINOR 2)
 set(OBSW_VERSION_REVISION 0)
 # set(CMAKE_VERBOSE TRUE)
@ -64,7 +64,7 @@ include(EiveHelpers)
 option(EIVE_ADD_ETL_LIB "Add ETL library" ON)
 option(EIVE_ADD_JSON_LIB "Add JSON library" ON)
-set(OBSW_MAX_SCHEDULED_TCS 500)
+set(OBSW_MAX_SCHEDULED_TCS 4000)
 if(EIVE_Q7S_EM)
  set(OBSW_Q7S_EM
--- a/linux/payload/PlocMpsocHandler.cpp
+++ b/linux/payload/PlocMpsocHandler.cpp
@ -2,14 +2,15 @@
 #include <linux/payload/PlocMpsocHandler.h>
 #include <linux/payload/plocSupvDefs.h>
 #include <sstream>
 #include "OBSWConfig.h"
 #include "fsfw/datapool/PoolReadGuard.h"
 #include "fsfw/globalfunctions/CRC.h"
 #include "fsfw/ipc/QueueFactory.h"
 #include "fsfw/parameters/HasParametersIF.h"
 PlocMpsocHandler::PlocMpsocHandler(object_id_t objectId, object_id_t uartComIFid,
-                                   CookieIF* comCookie, PlocMpsocSpecialComHelper* plocMPSoCHelper,
+                                   CookieIF* comCookie,
                                   PlocMpsocSpecialComHelperLegacy* plocMPSoCHelper,
                                   Gpio uartIsolatorSwitch, object_id_t supervisorHandler)
    : DeviceHandlerBase(objectId, uartComIFid, comCookie),
      hkReport(this),
@ -20,9 +21,8 @@ PlocMpsocHandler::PlocMpsocHandler(object_id_t objectId, object_id_t uartComIFid
  if (comCookie == nullptr) {
    sif::error << "PlocMPSoCHandler: Invalid communication cookie" << std::endl;
  }
-  eventQueue = QueueFactory::instance()->createMessageQueue(EventMessage::EVENT_MESSAGE_SIZE * 5);
+  eventQueue = QueueFactory::instance()->createMessageQueue(10);
-  commandActionHelperQueue =
+  commandActionHelperQueue = QueueFactory::instance()->createMessageQueue(10);
      QueueFactory::instance()->createMessageQueue(EventMessage::EVENT_MESSAGE_SIZE * 5);
  spParams.maxSize = sizeof(commandBuffer);
  spParams.buf = commandBuffer;
 }
@ -54,24 +54,26 @@ ReturnValue_t PlocMpsocHandler::initialize() {
    return result;
  }
  result = manager->subscribeToEvent(
-      eventQueue->getId(), event::getEventId(PlocMpsocSpecialComHelper::MPSOC_FLASH_WRITE_FAILED));
+      eventQueue->getId(),
      event::getEventId(PlocMpsocSpecialComHelperLegacy::MPSOC_FLASH_WRITE_FAILED));
  if (result != returnvalue::OK) {
    return ObjectManagerIF::CHILD_INIT_FAILED;
  }
  result = manager->subscribeToEvent(
      eventQueue->getId(),
-      event::getEventId(PlocMpsocSpecialComHelper::MPSOC_FLASH_WRITE_SUCCESSFUL));
+      event::getEventId(PlocMpsocSpecialComHelperLegacy::MPSOC_FLASH_WRITE_SUCCESSFUL));
  if (result != returnvalue::OK) {
    return ObjectManagerIF::CHILD_INIT_FAILED;
  }
  result = manager->subscribeToEvent(
      eventQueue->getId(),
-      event::getEventId(PlocMpsocSpecialComHelper::MPSOC_FLASH_READ_SUCCESSFUL));
+      event::getEventId(PlocMpsocSpecialComHelperLegacy::MPSOC_FLASH_READ_SUCCESSFUL));
  if (result != returnvalue::OK) {
    return ObjectManagerIF::CHILD_INIT_FAILED;
  }
  result = manager->subscribeToEvent(
-      eventQueue->getId(), event::getEventId(PlocMpsocSpecialComHelper::MPSOC_FLASH_READ_FAILED));
+      eventQueue->getId(),
      event::getEventId(PlocMpsocSpecialComHelperLegacy::MPSOC_FLASH_READ_FAILED));
  if (result != returnvalue::OK) {
    return ObjectManagerIF::CHILD_INIT_FAILED;
  }
@ -139,7 +141,7 @@ ReturnValue_t PlocMpsocHandler::executeAction(ActionId_t actionId, MessageQueueI
  }
  if (specialComHelperExecuting) {
-    return MPSoCReturnValuesIF::MPSOC_HELPER_EXECUTING;
+    return mpsoc::MPSOC_HELPER_EXECUTING;
  }
  switch (actionId) {
@ -408,7 +410,7 @@ ReturnValue_t PlocMpsocHandler::scanForReply(const uint8_t* start, size_t remain
      sif::debug << "PlocMPSoCHandler::scanForReply: Reply has invalid APID 0x" << std::hex
                 << std::setfill('0') << std::setw(2) << apid << std::dec << std::endl;
      *foundLen = remainingSize;
-      return MPSoCReturnValuesIF::INVALID_APID;
+      return mpsoc::INVALID_APID;
    }
  }
@ -445,7 +447,7 @@ ReturnValue_t PlocMpsocHandler::interpretDeviceReply(DeviceCommandId_t id, const
    }
    case (mpsoc::TM_FLASH_DIRECTORY_CONTENT): {
      result = verifyPacket(packet, foundPacketLen);
-      if (result == MPSoCReturnValuesIF::CRC_FAILURE) {
+      if (result == mpsoc::CRC_FAILURE) {
        sif::warning << "PLOC MPSoC: Flash directory content reply invalid CRC" << std::endl;
      }
      /** Send data to commanding queue */
@ -557,7 +559,7 @@ ReturnValue_t PlocMpsocHandler::prepareTcMemRead(const uint8_t* commandData,
 ReturnValue_t PlocMpsocHandler::prepareTcFlashDelete(const uint8_t* commandData,
                                                     size_t commandDataLen) {
  if (commandDataLen > config::MAX_PATH_SIZE + config::MAX_FILENAME_SIZE) {
-    return MPSoCReturnValuesIF::NAME_TOO_LONG;
+    return mpsoc::NAME_TOO_LONG;
  }
  ReturnValue_t result = returnvalue::OK;
  mpsoc::TcFlashDelete tcFlashDelete(spParams, sequenceCount);
@ -718,7 +720,7 @@ ReturnValue_t PlocMpsocHandler::finishTcPrep(mpsoc::TcBase& tcBase) {
 ReturnValue_t PlocMpsocHandler::verifyPacket(const uint8_t* start, size_t foundLen) {
  if (CRC::crc16ccitt(start, foundLen) != 0) {
-    return MPSoCReturnValuesIF::CRC_FAILURE;
+    return mpsoc::CRC_FAILURE;
  }
  return returnvalue::OK;
 }
@ -727,12 +729,12 @@ ReturnValue_t PlocMpsocHandler::handleAckReport(const uint8_t* data) {
  ReturnValue_t result = returnvalue::OK;
  result = verifyPacket(data, mpsoc::SIZE_ACK_REPORT);
-  if (result == MPSoCReturnValuesIF::CRC_FAILURE) {
+  if (result == mpsoc::CRC_FAILURE) {
    sif::warning << "PlocMPSoCHandler::handleAckReport: CRC failure" << std::endl;
    nextReplyId = mpsoc::NONE;
    replyRawReplyIfnotWiretapped(data, mpsoc::SIZE_ACK_REPORT);
    triggerEvent(MPSOC_HANDLER_CRC_FAILURE);
-    sendFailureReport(mpsoc::ACK_REPORT, MPSoCReturnValuesIF::CRC_FAILURE);
+    sendFailureReport(mpsoc::ACK_REPORT, mpsoc::CRC_FAILURE);
    disableAllReplies();
    return IGNORE_REPLY_DATA;
  }
@ -771,7 +773,7 @@ ReturnValue_t PlocMpsocHandler::handleExecutionReport(const uint8_t* data) {
  ReturnValue_t result = returnvalue::OK;
  result = verifyPacket(data, mpsoc::SIZE_EXE_REPORT);
-  if (result == MPSoCReturnValuesIF::CRC_FAILURE) {
+  if (result == mpsoc::CRC_FAILURE) {
    sif::warning << "PlocMPSoCHandler::handleExecutionReport: CRC failure" << std::endl;
    nextReplyId = mpsoc::NONE;
    return result;
@ -792,9 +794,9 @@ ReturnValue_t PlocMpsocHandler::handleExecutionReport(const uint8_t* data) {
      uint16_t status = mpsoc::getStatusFromRawData(data);
      sif::warning << "MPSoC EXE Failure: " << mpsoc::getStatusString(status) << std::endl;
      triggerEvent(EXE_FAILURE, commandId, status);
-      sendFailureReport(mpsoc::EXE_REPORT, MPSoCReturnValuesIF::RECEIVED_EXE_FAILURE);
+      sendFailureReport(mpsoc::EXE_REPORT, mpsoc::RECEIVED_EXE_FAILURE);
      result = IGNORE_REPLY_DATA;
-      cmdDoneHandler(false, MPSoCReturnValuesIF::RECEIVED_EXE_FAILURE);
+      cmdDoneHandler(false, mpsoc::RECEIVED_EXE_FAILURE);
      break;
    }
    default: {
@ -810,7 +812,7 @@ ReturnValue_t PlocMpsocHandler::handleExecutionReport(const uint8_t* data) {
 ReturnValue_t PlocMpsocHandler::handleMemoryReadReport(const uint8_t* data) {
  ReturnValue_t result = returnvalue::OK;
  result = verifyPacket(data, tmMemReadReport.rememberRequestedSize);
-  if (result == MPSoCReturnValuesIF::CRC_FAILURE) {
+  if (result == mpsoc::CRC_FAILURE) {
    sif::warning << "PlocMPSoCHandler::handleMemoryReadReport: Memory read report has invalid crc"
                 << std::endl;
  }
@ -998,12 +1000,13 @@ ReturnValue_t PlocMpsocHandler::handleGetHkReport(const uint8_t* data) {
  if (result != returnvalue::OK) {
    return result;
  }
  hkReport.setValidity(true, true);
  return returnvalue::OK;
 }
 ReturnValue_t PlocMpsocHandler::handleCamCmdRpt(const uint8_t* data) {
  ReturnValue_t result = verifyPacket(data, foundPacketLen);
-  if (result == MPSoCReturnValuesIF::CRC_FAILURE) {
+  if (result == mpsoc::CRC_FAILURE) {
    sif::warning << "PlocMPSoCHandler::handleCamCmdRpt: CRC failure" << std::endl;
  }
  SpacePacketReader packetReader(data, foundPacketLen);
@ -1396,6 +1399,9 @@ bool PlocMpsocHandler::handleHwStartup() {
  return true;
 #endif
  if (powerState == PowerState::IDLE) {
    if (skipSupvCommandingToOn) {
      powerState = PowerState::DONE;
    } else {
      if (supv::SUPV_ON) {
        commandActionHelper.commandAction(supervisorHandler, supv::START_MPSOC);
        supvTransitionCd.resetTimer();
@ -1406,6 +1412,7 @@ bool PlocMpsocHandler::handleHwStartup() {
        setMode(MODE_OFF);
      }
    }
  }
  if (powerState == PowerState::SUPV_FAILED) {
    setMode(MODE_OFF);
    powerState = PowerState::IDLE;
@ -1533,3 +1540,20 @@ ReturnValue_t PlocMpsocHandler::checkModeCommand(Mode_t commandedMode, Submode_t
  }
  return DeviceHandlerBase::checkModeCommand(commandedMode, commandedSubmode, msToReachTheMode);
 }
 ReturnValue_t PlocMpsocHandler::getParameter(uint8_t domainId, uint8_t uniqueId,
                                             ParameterWrapper* parameterWrapper,
                                             const ParameterWrapper* newValues,
                                             uint16_t startAtIndex) {
  if (uniqueId == mpsoc::ParamId::SKIP_SUPV_ON_COMMANDING) {
    uint8_t value = 0;
    newValues->getElement(&value);
    if (value > 1) {
      return HasParametersIF::INVALID_VALUE;
    }
    parameterWrapper->set(skipSupvCommandingToOn);
    return returnvalue::OK;
  }
  return DeviceHandlerBase::getParameter(domainId, uniqueId, parameterWrapper, newValues,
                                         startAtIndex);
 }
--- a/linux/payload/PlocMpsocHandler.h
+++ b/linux/payload/PlocMpsocHandler.h
@ -1,23 +1,19 @@
 #ifndef BSP_Q7S_DEVICES_PLOC_PLOCMPSOCHANDLER_H_
 #define BSP_Q7S_DEVICES_PLOC_PLOCMPSOCHANDLER_H_
-#include <linux/payload/PlocMpsocSpecialComHelper.h>
+#include <linux/payload/PlocMpsocSpecialComHelperLegacy.h>
 #include <linux/payload/mpsocRetvals.h>
 #include <linux/payload/plocMpsocHelpers.h>
 #include <linux/payload/plocSupvDefs.h>
 #include <mission/controller/controllerdefinitions/PowerCtrlDefinitions.h>
 #include <string>
 #include "fsfw/action/CommandActionHelper.h"
 #include "fsfw/action/CommandsActionsIF.h"
 #include "fsfw/devicehandlers/DeviceHandlerBase.h"
 #include "fsfw/ipc/QueueFactory.h"
 #include "fsfw/tmtcservices/SourceSequenceCounter.h"
 #include "fsfw_hal/linux/gpio/Gpio.h"
 #include "fsfw_hal/linux/serial/SerialComIF.h"
-static constexpr bool DEBUG_MPSOC_COMMUNICATION = false;
+static constexpr bool DEBUG_MPSOC_COMMUNICATION = true;
 /**
 * @brief	This is the device handler for the MPSoC of the payload computer.
@ -48,7 +44,7 @@ class PlocMpsocHandler : public DeviceHandlerBase, public CommandsActionsIF {
   * @param supervisorHandler   Object ID of the supervisor handler
   */
  PlocMpsocHandler(object_id_t objectId, object_id_t uartComIFid, CookieIF* comCookie,
-                   PlocMpsocSpecialComHelper* plocMPSoCHelper, Gpio uartIsolatorSwitch,
+                   PlocMpsocSpecialComHelperLegacy* plocMPSoCHelper, Gpio uartIsolatorSwitch,
                   object_id_t supervisorHandler);
  virtual ~PlocMpsocHandler();
  virtual ReturnValue_t initialize() override;
@ -171,7 +167,7 @@ class PlocMpsocHandler : public DeviceHandlerBase, public CommandsActionsIF {
  SerialComIF* uartComIf = nullptr;
-  PlocMpsocSpecialComHelper* specialComHelper = nullptr;
+  PlocMpsocSpecialComHelperLegacy* specialComHelper = nullptr;
  Gpio uartIsolatorSwitch;
  object_id_t supervisorHandler = 0;
  CommandActionHelper commandActionHelper;
@ -186,7 +182,7 @@ class PlocMpsocHandler : public DeviceHandlerBase, public CommandsActionsIF {
  };
  TmMemReadReport tmMemReadReport;
-  Countdown cmdCountdown = Countdown(10000);
+  Countdown cmdCountdown = Countdown(15000);
  struct TelemetryBuffer {
    uint16_t length = 0;
@ -201,6 +197,8 @@ class PlocMpsocHandler : public DeviceHandlerBase, public CommandsActionsIF {
  PowerState powerState = PowerState::IDLE;
  uint8_t skipSupvCommandingToOn = false;
  /**
   * @brief   Handles events received from the PLOC MPSoC helper
   */
@ -316,6 +314,9 @@ class PlocMpsocHandler : public DeviceHandlerBase, public CommandsActionsIF {
  pwrctrl::EnablePl enablePl = pwrctrl::EnablePl(objects::POWER_CONTROLLER);
  ReturnValue_t checkModeCommand(Mode_t commandedMode, Submode_t commandedSubmode,
                                 uint32_t* msToReachTheMode) override;
  ReturnValue_t getParameter(uint8_t domainId, uint8_t uniqueId, ParameterWrapper* parameterWrapper,
                             const ParameterWrapper* newValues, uint16_t startAtIndex) override;
 };
 #endif /* BSP_Q7S_DEVICES_PLOC_PLOCMPSOCHANDLER_H_ */
--- a/archive/PlocMpsocSpecialComHelperLegacy.cpp
+++ b/archive/PlocMpsocSpecialComHelperLegacy.cpp
@ -0,0 +1,545 @@
 #include <fsfw/globalfunctions/arrayprinter.h>
 #include <fsfw/tasks/TaskFactory.h>
 #include <linux/payload/PlocMpsocSpecialComHelperLegacy.h>
 #include <unistd.h>
 #include <filesystem>
 #include <fstream>
 #ifdef XIPHOS_Q7S
 #include "bsp_q7s/fs/FilesystemHelper.h"
 #endif
 #include "mission/utility/Timestamp.h"
 using namespace ploc;
 PlocMpsocSpecialComHelperLegacy::PlocMpsocSpecialComHelperLegacy(object_id_t objectId)
    : SystemObject(objectId) {
  spParams.buf = commandBuffer;
  spParams.maxSize = sizeof(commandBuffer);
 }
 PlocMpsocSpecialComHelperLegacy::~PlocMpsocSpecialComHelperLegacy() {}
 ReturnValue_t PlocMpsocSpecialComHelperLegacy::initialize() {
 #ifdef XIPHOS_Q7S
  sdcMan = SdCardManager::instance();
  if (sdcMan == nullptr) {
    sif::warning << "PlocMPSoCHelper::initialize: Invalid SD Card Manager" << std::endl;
    return returnvalue::FAILED;
  }
 #endif
  return returnvalue::OK;
 }
 ReturnValue_t PlocMpsocSpecialComHelperLegacy::performOperation(uint8_t operationCode) {
  ReturnValue_t result = returnvalue::OK;
  semaphore.acquire();
  while (true) {
 #if OBSW_THREAD_TRACING == 1
    trace::threadTrace(opCounter, "PLOC MPSOC Helper");
 #endif
    switch (internalState) {
      case InternalState::IDLE: {
        semaphore.acquire();
        break;
      }
      case InternalState::FLASH_WRITE: {
        result = performFlashWrite();
        if (result == returnvalue::OK) {
          triggerEvent(MPSOC_FLASH_WRITE_SUCCESSFUL, sequenceCount->get());
        } else {
          triggerEvent(MPSOC_FLASH_WRITE_FAILED, sequenceCount->get());
        }
        internalState = InternalState::IDLE;
        break;
      }
      case InternalState::FLASH_READ: {
        result = performFlashRead();
        if (result == returnvalue::OK) {
          triggerEvent(MPSOC_FLASH_READ_SUCCESSFUL, sequenceCount->get());
        } else {
          triggerEvent(MPSOC_FLASH_READ_FAILED, sequenceCount->get());
        }
        internalState = InternalState::IDLE;
        break;
      }
      default:
        sif::debug << "PlocMPSoCHelper::performOperation: Invalid state" << std::endl;
        break;
    }
  }
 }
 ReturnValue_t PlocMpsocSpecialComHelperLegacy::setComIF(
    DeviceCommunicationIF* communicationInterface_) {
  uartComIF = dynamic_cast<SerialComIF*>(communicationInterface_);
  if (uartComIF == nullptr) {
    sif::warning << "PlocMPSoCHelper::initialize: Invalid uart com if" << std::endl;
    return returnvalue::FAILED;
  }
  return returnvalue::OK;
 }
 void PlocMpsocSpecialComHelperLegacy::setComCookie(CookieIF* comCookie_) { comCookie = comCookie_; }
 void PlocMpsocSpecialComHelperLegacy::setSequenceCount(SourceSequenceCounter* sequenceCount_) {
  sequenceCount = sequenceCount_;
 }
 ReturnValue_t PlocMpsocSpecialComHelperLegacy::startFlashWrite(std::string obcFile,
                                                               std::string mpsocFile) {
  if (internalState != InternalState::IDLE) {
    return returnvalue::FAILED;
  }
  ReturnValue_t result = startFlashReadOrWriteBase(std::move(obcFile), std::move(mpsocFile));
  if (result != returnvalue::OK) {
    return result;
  }
  internalState = InternalState::FLASH_WRITE;
  return semaphore.release();
 }
 ReturnValue_t PlocMpsocSpecialComHelperLegacy::startFlashRead(std::string obcFile,
                                                              std::string mpsocFile,
                                                              size_t readFileSize) {
  if (internalState != InternalState::IDLE) {
    return returnvalue::FAILED;
  }
  ReturnValue_t result = startFlashReadOrWriteBase(std::move(obcFile), std::move(mpsocFile));
  if (result != returnvalue::OK) {
    return result;
  }
  flashReadAndWrite.totalReadSize = readFileSize;
  internalState = InternalState::FLASH_READ;
  return semaphore.release();
 }
 void PlocMpsocSpecialComHelperLegacy::resetHelper() {
  spParams.buf = commandBuffer;
  terminate = false;
  uartComIF->flushUartRxBuffer(comCookie);
 }
 void PlocMpsocSpecialComHelperLegacy::stopProcess() { terminate = true; }
 ReturnValue_t PlocMpsocSpecialComHelperLegacy::performFlashWrite() {
  ReturnValue_t result = returnvalue::OK;
  std::ifstream file(flashReadAndWrite.obcFile, std::ifstream::binary);
  if (file.bad()) {
    return returnvalue::FAILED;
  }
  result = flashfopen(mpsoc::FileAccessModes::WRITE | mpsoc::FileAccessModes::OPEN_ALWAYS);
  if (result != returnvalue::OK) {
    return result;
  }
  // Set position of next character to end of file input stream
  file.seekg(0, file.end);
  // tellg returns position of character in input stream
  size_t remainingSize = file.tellg();
  size_t dataLength = 0;
  size_t bytesRead = 0;
  while (remainingSize > 0) {
    if (terminate) {
      return returnvalue::OK;
    }
    // The minus 4 is necessary for unknown reasons. Maybe some bug in the ILH software?
    if (remainingSize > mpsoc::MAX_FLASH_WRITE_DATA_SIZE - 4) {
      dataLength = mpsoc::MAX_FLASH_WRITE_DATA_SIZE - 4;
    } else {
      dataLength = remainingSize;
    }
    if (file.bad() or not file.is_open()) {
      return FILE_WRITE_ERROR;
    }
    file.seekg(bytesRead, file.beg);
    file.read(reinterpret_cast<char*>(fileBuf.data()), dataLength);
    bytesRead += dataLength;
    remainingSize -= dataLength;
    mpsoc::TcFlashWrite tc(spParams, *sequenceCount);
    result = tc.setPayload(fileBuf.data(), dataLength);
    if (result != returnvalue::OK) {
      return result;
    }
    result = tc.finishPacket();
    if (result != returnvalue::OK) {
      return result;
    }
    (*sequenceCount)++;
    result = handlePacketTransmissionNoReply(tc);
    if (result != returnvalue::OK) {
      return result;
    }
  }
  result = flashfclose();
  if (result != returnvalue::OK) {
    return result;
  }
  return result;
 }
 ReturnValue_t PlocMpsocSpecialComHelperLegacy::performFlashRead() {
  std::error_code e;
  std::ofstream ofile(flashReadAndWrite.obcFile, std::ios::trunc | std::ios::binary);
  if (ofile.bad()) {
    return returnvalue::FAILED;
  }
  ReturnValue_t result = flashfopen(mpsoc::FileAccessModes::READ);
  if (result != returnvalue::OK) {
    std::filesystem::remove(flashReadAndWrite.obcFile, e);
    return result;
  }
  size_t readSoFar = 0;
  size_t nextReadSize = mpsoc::MAX_FLASH_READ_DATA_SIZE;
  while (readSoFar < flashReadAndWrite.totalReadSize) {
    if (terminate) {
      std::filesystem::remove(flashReadAndWrite.obcFile, e);
      return returnvalue::OK;
    }
    nextReadSize = mpsoc::MAX_FLASH_READ_DATA_SIZE;
    if (flashReadAndWrite.totalReadSize - readSoFar < mpsoc::MAX_FLASH_READ_DATA_SIZE) {
      nextReadSize = flashReadAndWrite.totalReadSize - readSoFar;
    }
    if (ofile.bad() or not ofile.is_open()) {
      std::filesystem::remove(flashReadAndWrite.obcFile, e);
      return FILE_READ_ERROR;
    }
    mpsoc::TcFlashRead flashReadRequest(spParams, *sequenceCount);
    result = flashReadRequest.setPayload(nextReadSize);
    if (result != returnvalue::OK) {
      std::filesystem::remove(flashReadAndWrite.obcFile, e);
      return result;
    }
    result = flashReadRequest.finishPacket();
    if (result != returnvalue::OK) {
      std::filesystem::remove(flashReadAndWrite.obcFile, e);
      return result;
    }
    (*sequenceCount)++;
    result = handlePacketTransmissionFlashRead(flashReadRequest, ofile, nextReadSize);
    if (result != returnvalue::OK) {
      std::filesystem::remove(flashReadAndWrite.obcFile, e);
      return result;
    }
    readSoFar += nextReadSize;
  }
  result = flashfclose();
  if (result != returnvalue::OK) {
    return result;
  }
  return result;
 }
 ReturnValue_t PlocMpsocSpecialComHelperLegacy::flashfopen(uint8_t mode) {
  spParams.buf = commandBuffer;
  mpsoc::FlashFopen flashFopen(spParams, *sequenceCount);
  ReturnValue_t result = flashFopen.setPayload(flashReadAndWrite.mpsocFile, mode);
  if (result != returnvalue::OK) {
    return result;
  }
  result = flashFopen.finishPacket();
  if (result != returnvalue::OK) {
    return result;
  }
  (*sequenceCount)++;
  result = handlePacketTransmissionNoReply(flashFopen);
  if (result != returnvalue::OK) {
    return result;
  }
  return returnvalue::OK;
 }
 ReturnValue_t PlocMpsocSpecialComHelperLegacy::flashfclose() {
  spParams.buf = commandBuffer;
  mpsoc::FlashFclose flashFclose(spParams, *sequenceCount);
  ReturnValue_t result = flashFclose.finishPacket();
  if (result != returnvalue::OK) {
    return result;
  }
  (*sequenceCount)++;
  result = handlePacketTransmissionNoReply(flashFclose);
  if (result != returnvalue::OK) {
    return result;
  }
  return result;
 }
 ReturnValue_t PlocMpsocSpecialComHelperLegacy::handlePacketTransmissionFlashRead(
    mpsoc::TcFlashRead& tc, std::ofstream& ofile, size_t expectedReadLen) {
  ReturnValue_t result = sendCommand(tc);
  if (result != returnvalue::OK) {
    return result;
  }
  result = handleAck();
  if (result != returnvalue::OK) {
    return result;
  }
  result = handleTmReception();
  if (result != returnvalue::OK) {
    return result;
  }
  // We have the nominal case where the flash read report appears first, or the case where we
  // get an EXE failure immediately.
  if (spReader.getApid() == mpsoc::apid::TM_FLASH_READ_REPORT) {
    result = handleFlashReadReply(ofile, expectedReadLen);
    if (result != returnvalue::OK) {
      return result;
    }
    return handleExe();
  } else if (spReader.getApid() == mpsoc::apid::EXE_FAILURE) {
    handleExeFailure();
  } else {
    triggerEvent(MPSOC_EXE_INVALID_APID, spReader.getApid(), static_cast<uint32_t>(internalState));
    sif::warning << "PLOC MPSoC: Expected execution report "
                 << "but received space packet with apid " << std::hex << spReader.getApid()
                 << std::endl;
  }
  return returnvalue::FAILED;
 }
 ReturnValue_t PlocMpsocSpecialComHelperLegacy::handlePacketTransmissionNoReply(ploc::SpTcBase& tc) {
  ReturnValue_t result = sendCommand(tc);
  if (result != returnvalue::OK) {
    return result;
  }
  result = handleAck();
  if (result != returnvalue::OK) {
    return result;
  }
  return handleExe();
 }
 ReturnValue_t PlocMpsocSpecialComHelperLegacy::sendCommand(ploc::SpTcBase& tc) {
  ReturnValue_t result = returnvalue::OK;
  result = uartComIF->sendMessage(comCookie, tc.getFullPacket(), tc.getFullPacketLen());
  if (result != returnvalue::OK) {
    sif::warning << "PlocMPSoCHelper::sendCommand: Failed to send command" << std::endl;
    triggerEvent(MPSOC_SENDING_COMMAND_FAILED, result, static_cast<uint32_t>(internalState));
    return result;
  }
  return result;
 }
 ReturnValue_t PlocMpsocSpecialComHelperLegacy::handleAck() {
  ReturnValue_t result = returnvalue::OK;
  result = handleTmReception();
  if (result != returnvalue::OK) {
    return result;
  }
  result = checkReceivedTm();
  if (result != returnvalue::OK) {
    return result;
  }
  uint16_t apid = spReader.getApid();
  if (apid != mpsoc::apid::ACK_SUCCESS) {
    handleAckApidFailure(spReader);
    return returnvalue::FAILED;
  }
  return returnvalue::OK;
 }
 void PlocMpsocSpecialComHelperLegacy::handleAckApidFailure(const ploc::SpTmReader& reader) {
  uint16_t apid = reader.getApid();
  if (apid == mpsoc::apid::ACK_FAILURE) {
    uint16_t status = mpsoc::getStatusFromRawData(reader.getFullData());
    sif::warning << "PLOC MPSoC ACK Failure: " << mpsoc::getStatusString(status) << std::endl;
    triggerEvent(MPSOC_ACK_FAILURE_REPORT, static_cast<uint32_t>(internalState), status);
  } else {
    triggerEvent(MPSOC_ACK_INVALID_APID, apid, static_cast<uint32_t>(internalState));
    sif::warning << "PlocMPSoCHelper::handleAckApidFailure: Expected acknowledgement report "
                 << "but received space packet with apid " << std::hex << apid << std::endl;
  }
 }
 ReturnValue_t PlocMpsocSpecialComHelperLegacy::handleExe() {
  ReturnValue_t result = returnvalue::OK;
  result = handleTmReception();
  if (result != returnvalue::OK) {
    return result;
  }
  result = checkReceivedTm();
  if (result != returnvalue::OK) {
    return result;
  }
  uint16_t apid = spReader.getApid();
  if (apid == mpsoc::apid::EXE_FAILURE) {
    handleExeFailure();
    return returnvalue::FAILED;
  } else if (apid != mpsoc::apid::EXE_SUCCESS) {
    triggerEvent(MPSOC_EXE_INVALID_APID, apid, static_cast<uint32_t>(internalState));
    sif::warning << "PLOC MPSoC: Expected execution report "
                 << "but received space packet with apid " << std::hex << apid << std::endl;
  }
  return returnvalue::OK;
 }
 void PlocMpsocSpecialComHelperLegacy::handleExeFailure() {
  uint16_t status = mpsoc::getStatusFromRawData(spReader.getFullData());
  sif::warning << "PLOC MPSoC EXE Failure: " << mpsoc::getStatusString(status) << std::endl;
  triggerEvent(MPSOC_EXE_FAILURE_REPORT, static_cast<uint32_t>(internalState));
 }
 ReturnValue_t PlocMpsocSpecialComHelperLegacy::handleTmReception() {
  ReturnValue_t result = returnvalue::OK;
  tmCountdown.resetTimer();
  size_t readBytes = 0;
  size_t currentBytes = 0;
  uint32_t usleepDelay = 5;
  size_t fullPacketLen = 0;
  while (true) {
    if (tmCountdown.hasTimedOut()) {
      triggerEvent(MPSOC_READ_TIMEOUT, tmCountdown.getTimeoutMs());
      return returnvalue::FAILED;
    }
    result = receive(tmBuf.data() + readBytes, 6, &currentBytes);
    if (result != returnvalue::OK) {
      return result;
    }
    spReader.setReadOnlyData(tmBuf.data(), tmBuf.size());
    fullPacketLen = spReader.getFullPacketLen();
    readBytes += currentBytes;
    if (readBytes == 6) {
      break;
    }
    usleep(usleepDelay);
    if (usleepDelay < 200000) {
      usleepDelay *= 4;
    }
  }
  while (true) {
    if (tmCountdown.hasTimedOut()) {
      triggerEvent(MPSOC_READ_TIMEOUT, tmCountdown.getTimeoutMs());
      return returnvalue::FAILED;
    }
    result = receive(tmBuf.data() + readBytes, fullPacketLen - readBytes, &currentBytes);
    readBytes += currentBytes;
    if (fullPacketLen == readBytes) {
      break;
    }
    usleep(usleepDelay);
    if (usleepDelay < 200000) {
      usleepDelay *= 4;
    }
  }
  // arrayprinter::print(tmBuf.data(), readBytes);
  return result;
 }
 ReturnValue_t PlocMpsocSpecialComHelperLegacy::handleFlashReadReply(std::ofstream& ofile,
                                                                    size_t expectedReadLen) {
  ReturnValue_t result = checkReceivedTm();
  if (result != returnvalue::OK) {
    return result;
  }
  uint16_t apid = spReader.getApid();
  if (apid != mpsoc::apid::TM_FLASH_READ_REPORT) {
    triggerEvent(MPSOC_FLASH_READ_PACKET_ERROR, FlashReadErrorType::FLASH_READ_APID_ERROR);
    sif::warning << "PLOC MPSoC Flash Read: Unexpected APID" << std::endl;
    return result;
  }
  const uint8_t* packetData = spReader.getPacketData();
  size_t deserDummy = spReader.getPacketDataLen() - mpsoc::CRC_SIZE;
  uint32_t receivedReadLen = 0;
  // I think this is buggy, weird stuff in the short name field.
  //  std::string receivedShortName = std::string(reinterpret_cast<const char*>(packetData), 12);
  //  if (receivedShortName != flashReadAndWrite.mpsocFile.substr(0, 11)) {
  //    sif::warning << "PLOC MPSoC Flash Read: Missmatch between request file name and "
  //                    "received file name"
  //                 << std::endl;
  //    triggerEvent(MPSOC_FLASH_READ_PACKET_ERROR, FlashReadErrorType::FLASH_READ_FILENAME_ERROR);
  //    return returnvalue::FAILED;
  //  }
  packetData += 12;
  result = SerializeAdapter::deSerialize(&receivedReadLen, &packetData, &deserDummy,
                                         SerializeIF::Endianness::NETWORK);
  if (result != returnvalue::OK) {
    return result;
  }
  if (receivedReadLen != expectedReadLen) {
    sif::warning << "PLOC MPSoC Flash Read: Missmatch between request read length and "
                    "received read length"
                 << std::endl;
    triggerEvent(MPSOC_FLASH_READ_PACKET_ERROR, FlashReadErrorType::FLASH_READ_READLEN_ERROR);
    return returnvalue::FAILED;
  }
  ofile.write(reinterpret_cast<const char*>(packetData), receivedReadLen);
  return returnvalue::OK;
 }
 ReturnValue_t PlocMpsocSpecialComHelperLegacy::fileCheck(std::string obcFile) {
 #ifdef XIPHOS_Q7S
  ReturnValue_t result = FilesystemHelper::checkPath(obcFile);
  if (result != returnvalue::OK) {
    return result;
  }
 #elif defined(TE0720_1CFA)
  if (not std::filesystem::exists(obcFile)) {
    sif::warning << "PlocMPSoCHelper::startFlashWrite: File " << obcFile << "does not exist"
                 << std::endl;
    return returnvalue::FAILED;
  }
 #endif
  return returnvalue::OK;
 }
 ReturnValue_t PlocMpsocSpecialComHelperLegacy::startFlashReadOrWriteBase(std::string obcFile,
                                                                         std::string mpsocFile) {
  ReturnValue_t result = fileCheck(obcFile);
  if (result != returnvalue::OK) {
    return result;
  }
  flashReadAndWrite.obcFile = std::move(obcFile);
  flashReadAndWrite.mpsocFile = std::move(mpsocFile);
  resetHelper();
  return returnvalue::OK;
 }
 ReturnValue_t PlocMpsocSpecialComHelperLegacy::checkReceivedTm() {
  ReturnValue_t result = spReader.checkSize();
  if (result != returnvalue::OK) {
    sif::error << "PLOC MPSoC: Size check on received TM failed" << std::endl;
    triggerEvent(MPSOC_TM_SIZE_ERROR);
    return result;
  }
  result = spReader.checkCrc();
  if (result != returnvalue::OK) {
    sif::warning << "PLOC MPSoC: CRC check failed" << std::endl;
    triggerEvent(MPSOC_TM_CRC_MISSMATCH, *sequenceCount);
    return result;
  }
  uint16_t recvSeqCnt = spReader.getSequenceCount();
  if (recvSeqCnt != *sequenceCount) {
    triggerEvent(MPSOC_HELPER_SEQ_CNT_MISMATCH, *sequenceCount, recvSeqCnt);
    *sequenceCount = recvSeqCnt;
  }
  // This sequence count ping pong does not make any sense but it is how the MPSoC expects it.
  (*sequenceCount)++;
  return returnvalue::OK;
 }
 ReturnValue_t PlocMpsocSpecialComHelperLegacy::receive(uint8_t* data, size_t requestBytes,
                                                       size_t* readBytes) {
  ReturnValue_t result = returnvalue::OK;
  uint8_t* buffer = nullptr;
  result = uartComIF->requestReceiveMessage(comCookie, requestBytes);
  if (result != returnvalue::OK) {
    sif::warning << "PlocMPSoCHelper::receive: Failed to request reply" << std::endl;
    triggerEvent(MPSOC_HELPER_REQUESTING_REPLY_FAILED, result,
                 static_cast<uint32_t>(static_cast<uint32_t>(internalState)));
    return returnvalue::FAILED;
  }
  result = uartComIF->readReceivedMessage(comCookie, &buffer, readBytes);
  if (result != returnvalue::OK) {
    sif::warning << "PlocMPSoCHelper::receive: Failed to read received message" << std::endl;
    triggerEvent(MPSOC_HELPER_READING_REPLY_FAILED, result, static_cast<uint32_t>(internalState));
    return returnvalue::FAILED;
  }
  if (*readBytes > 0) {
    std::memcpy(data, buffer, *readBytes);
  }
  return result;
 }
--- a/archive/PlocMpsocSpecialComHelperLegacy.h
+++ b/archive/PlocMpsocSpecialComHelperLegacy.h
@ -0,0 +1,200 @@
 #ifndef BSP_Q7S_DEVICES_PLOCMPSOCHELPER_H_
 #define BSP_Q7S_DEVICES_PLOCMPSOCHELPER_H_
 #include <linux/payload/plocMpsocHelpers.h>
 #include <mission/utility/trace.h>
 #include <string>
 #include "OBSWConfig.h"
 #include "fsfw/devicehandlers/CookieIF.h"
 #include "fsfw/objectmanager/SystemObject.h"
 #include "fsfw/osal/linux/BinarySemaphore.h"
 #include "fsfw/returnvalues/returnvalue.h"
 #include "fsfw/tasks/ExecutableObjectIF.h"
 #include "fsfw/tmtcservices/SourceSequenceCounter.h"
 #include "fsfw_hal/linux/serial/SerialComIF.h"
 #ifdef XIPHOS_Q7S
 #include "bsp_q7s/fs/SdCardManager.h"
 #endif
 /**
 * @brief   Helper class for MPSoC of PLOC intended to accelerate large data transfers between
 *          MPSoC and OBC.
 * @author  J. Meier
 */
 class PlocMpsocSpecialComHelperLegacy : public SystemObject, public ExecutableObjectIF {
 public:
  static const uint8_t SUBSYSTEM_ID = SUBSYSTEM_ID::PLOC_MPSOC_HELPER;
  //! [EXPORT] : [COMMENT] Flash write fails
  static const Event MPSOC_FLASH_WRITE_FAILED = MAKE_EVENT(0, severity::LOW);
  //! [EXPORT] : [COMMENT] Flash write successful
  static const Event MPSOC_FLASH_WRITE_SUCCESSFUL = MAKE_EVENT(1, severity::INFO);
  //! [EXPORT] : [COMMENT] Communication interface returned failure when trying to send the command
  //! to the MPSoC
  //! P1: Return value returned by the communication interface sendMessage function
  //! P2: Internal state of MPSoC helper
  static const Event MPSOC_SENDING_COMMAND_FAILED = MAKE_EVENT(2, severity::LOW);
  //! [EXPORT] : [COMMENT] Request receive message of communication interface failed
  //! P1: Return value returned by the communication interface requestReceiveMessage function
  //! P2: Internal state of MPSoC helper
  static const Event MPSOC_HELPER_REQUESTING_REPLY_FAILED = MAKE_EVENT(3, severity::LOW);
  //! [EXPORT] : [COMMENT] Reading receive message of communication interface failed
  //! P1: Return value returned by the communication interface readingReceivedMessage function
  //! P2: Internal state of MPSoC helper
  static const Event MPSOC_HELPER_READING_REPLY_FAILED = MAKE_EVENT(4, severity::LOW);
  //! [EXPORT] : [COMMENT] Did not receive acknowledgment report
  //! P1: Number of bytes missing
  //! P2: Internal state of MPSoC helper
  static const Event MPSOC_MISSING_ACK = MAKE_EVENT(5, severity::LOW);
  //! [EXPORT] : [COMMENT] Did not receive execution report
  //! P1: Number of bytes missing
  //! P2: Internal state of MPSoC helper
  static const Event MPSOC_MISSING_EXE = MAKE_EVENT(6, severity::LOW);
  //! [EXPORT] : [COMMENT] Received acknowledgment failure report
  //! P1: Internal state of MPSoC
  static const Event MPSOC_ACK_FAILURE_REPORT = MAKE_EVENT(7, severity::LOW);
  //! [EXPORT] : [COMMENT] Received execution failure report
  //! P1: Internal state of MPSoC
  static const Event MPSOC_EXE_FAILURE_REPORT = MAKE_EVENT(8, severity::LOW);
  //! [EXPORT] : [COMMENT] Expected acknowledgment report but received space packet with other apid
  //! P1: Apid of received space packet
  //! P2: Internal state of MPSoC
  static const Event MPSOC_ACK_INVALID_APID = MAKE_EVENT(9, severity::LOW);
  //! [EXPORT] : [COMMENT] Expected execution report but received space packet with other apid
  //! P1: Apid of received space packet
  //! P2: Internal state of MPSoC
  static const Event MPSOC_EXE_INVALID_APID = MAKE_EVENT(10, severity::LOW);
  //! [EXPORT] : [COMMENT] Received sequence count does not match expected sequence count
  //! P1: Expected sequence count
  //! P2: Received sequence count
  static const Event MPSOC_HELPER_SEQ_CNT_MISMATCH = MAKE_EVENT(11, severity::LOW);
  static const Event MPSOC_TM_SIZE_ERROR = MAKE_EVENT(12, severity::LOW);
  static const Event MPSOC_TM_CRC_MISSMATCH = MAKE_EVENT(13, severity::LOW);
  static const Event MPSOC_FLASH_READ_PACKET_ERROR = MAKE_EVENT(14, severity::LOW);
  static const Event MPSOC_FLASH_READ_FAILED = MAKE_EVENT(15, severity::LOW);
  static const Event MPSOC_FLASH_READ_SUCCESSFUL = MAKE_EVENT(16, severity::INFO);
  static const Event MPSOC_READ_TIMEOUT = MAKE_EVENT(17, severity::LOW);
  enum FlashReadErrorType : uint32_t {
    FLASH_READ_APID_ERROR = 0,
    FLASH_READ_FILENAME_ERROR = 1,
    FLASH_READ_READLEN_ERROR = 2
  };
  PlocMpsocSpecialComHelperLegacy(object_id_t objectId);
  virtual ~PlocMpsocSpecialComHelperLegacy();
  ReturnValue_t initialize() override;
  ReturnValue_t performOperation(uint8_t operationCode = 0) override;
  ReturnValue_t setComIF(DeviceCommunicationIF* communicationInterface_);
  void setComCookie(CookieIF* comCookie_);
  /**
   * @brief   Starts flash write sequence
   *
   * @param obcFile   File where to read from the data
   * @param mpsocFile The file of the MPSoC where should be written to
   *
   * @return  returnvalue::OK if successful, otherwise error return value
   */
  ReturnValue_t startFlashWrite(std::string obcFile, std::string mpsocFile);
  /**
   *
   * @param obcFile Full target file name on OBC
   * @param mpsocFile The file on the MPSoC which should be copied ot the OBC
   * @param readFileSize The size of the file on the MPSoC.
   * @return
   */
  ReturnValue_t startFlashRead(std::string obcFile, std::string mpsocFile, size_t readFileSize);
  /**
   * @brief   Can be used to interrupt a running data transfer.
   */
  void stopProcess();
  /**
   * @brief   Sets the sequence count object responsible for the sequence count handling
   */
  void setSequenceCount(SourceSequenceCounter* sequenceCount_);
 private:
  static const uint8_t INTERFACE_ID = CLASS_ID::PLOC_MPSOC_HELPER;
  //! [EXPORT] : [COMMENT] File error occured for file transfers from OBC to the MPSoC.
  static const ReturnValue_t FILE_WRITE_ERROR = MAKE_RETURN_CODE(0xA0);
  //! [EXPORT] : [COMMENT] File error occured for file transfers from MPSoC to OBC.
  static const ReturnValue_t FILE_READ_ERROR = MAKE_RETURN_CODE(0xA1);
  // Maximum number of times the communication interface retries polling data from the reply
  // buffer
  static const int RETRIES = 10000;
  struct FlashInfo {
    std::string obcFile;
    std::string mpsocFile;
  };
  struct FlashRead : public FlashInfo {
    size_t totalReadSize = 0;
  };
  struct FlashRead flashReadAndWrite;
 #if OBSW_THREAD_TRACING == 1
  uint32_t opCounter = 0;
 #endif
  enum class InternalState { IDLE, FLASH_WRITE, FLASH_READ };
  InternalState internalState = InternalState::IDLE;
  BinarySemaphore semaphore;
 #ifdef XIPHOS_Q7S
  SdCardManager* sdcMan = nullptr;
 #endif
  uint8_t commandBuffer[mpsoc::MAX_COMMAND_SIZE];
  SpacePacketCreator creator;
  ploc::SpTcParams spParams = ploc::SpTcParams(creator);
  Countdown tmCountdown = Countdown(5000);
  std::array<uint8_t, mpsoc::SP_MAX_DATA_SIZE> fileBuf{};
  std::array<uint8_t, mpsoc::MAX_REPLY_SIZE> tmBuf{};
  bool terminate = false;
  /**
   * Communication interface of MPSoC responsible for low level access. Must be set by the
   * MPSoC Handler.
   */
  SerialComIF* uartComIF = nullptr;
  // Communication cookie. Must be set by the MPSoC Handler
  CookieIF* comCookie = nullptr;
  // Sequence count, must be set by Ploc MPSoC Handler
  SourceSequenceCounter* sequenceCount = nullptr;
  ploc::SpTmReader spReader;
  void resetHelper();
  ReturnValue_t performFlashWrite();
  ReturnValue_t performFlashRead();
  ReturnValue_t flashfopen(uint8_t accessMode);
  ReturnValue_t flashfclose();
  ReturnValue_t handlePacketTransmissionNoReply(ploc::SpTcBase& tc);
  ReturnValue_t handlePacketTransmissionFlashRead(mpsoc::TcFlashRead& tc, std::ofstream& ofile,
                                                  size_t expectedReadLen);
  ReturnValue_t handleFlashReadReply(std::ofstream& ofile, size_t expectedReadLen);
  ReturnValue_t sendCommand(ploc::SpTcBase& tc);
  ReturnValue_t receive(uint8_t* data, size_t requestBytes, size_t* readBytes);
  ReturnValue_t handleAck();
  ReturnValue_t handleExe();
  ReturnValue_t startFlashReadOrWriteBase(std::string obcFile, std::string mpsocFile);
  ReturnValue_t fileCheck(std::string obcFile);
  void handleAckApidFailure(const ploc::SpTmReader& reader);
  void handleExeFailure();
  ReturnValue_t handleTmReception();
  ReturnValue_t checkReceivedTm();
 };
 #endif /* BSP_Q7S_DEVICES_PLOCMPSOCHELPER_H_ */
--- a/linux/payload/PlocSupervisorHandler.cpp
+++ b/linux/payload/PlocSupervisorHandler.cpp
@ -19,8 +19,6 @@
 using namespace supv;
 using namespace returnvalue;
 std::atomic_bool supv::SUPV_ON = false;
 PlocSupervisorHandler::PlocSupervisorHandler(object_id_t objectId, CookieIF* comCookie,
                                             Gpio uartIsolatorSwitch, power::Switch_t powerSwitch,
                                             PlocSupvUartManager& supvHelper)
@ -29,7 +27,7 @@ PlocSupervisorHandler::PlocSupervisorHandler(object_id_t objectId, CookieIF* com
      hkset(this),
      bootStatusReport(this),
      latchupStatusReport(this),
-      loggingReport(this),
+      countersReport(this),
      adcReport(this),
      powerSwitch(powerSwitch),
      uartManager(supvHelper) {
@ -61,6 +59,19 @@ ReturnValue_t PlocSupervisorHandler::initialize() {
 }
 void PlocSupervisorHandler::performOperationHook() {
  if (normalCommandIsPending and normalCmdCd.hasTimedOut()) {
    // Event, FDIR, printout? Leads to spam though and normally should not happen..
    normalCommandIsPending = false;
  }
  if (commandIsPending and cmdCd.hasTimedOut()) {
    // Event, FDIR, printout? Leads to spam though and normally should not happen..
    commandIsPending = false;
    //    if(iter->second.sendReplyTo != NO_COMMANDER) {
    //      actionHelper.finish(true, iter->second.sendReplyTo, iter->first, returnvalue::OK);
    //    }
    disableAllReplies();
  }
  EventMessage event;
  for (ReturnValue_t result = eventQueue->receiveMessage(&event); result == returnvalue::OK;
       result = eventQueue->receiveMessage(&event)) {
@ -172,13 +183,16 @@ void PlocSupervisorHandler::doShutDown() {
  nextReplyId = supv::NONE;
  uartManager.stop();
  uartIsolatorSwitch.pullLow();
  disableAllReplies();
  supv::SUPV_ON = false;
  startupState = StartupState::OFF;
 }
 ReturnValue_t PlocSupervisorHandler::buildNormalDeviceCommand(DeviceCommandId_t* id) {
-  if (not commandIsExecuting(GET_HK_REPORT)) {
+  if (not normalCommandIsPending) {
    *id = GET_HK_REPORT;
    normalCommandIsPending = true;
    normalCmdCd.resetTimer();
    return buildCommandFromCommand(*id, nullptr, 0);
  }
  return NOTHING_TO_SEND;
@ -274,8 +288,7 @@ ReturnValue_t PlocSupervisorHandler::buildCommandFromCommand(DeviceCommandId_t d
      break;
    }
    case SET_GPIO: {
-      prepareSetGpioCmd(commandData);
+      result = prepareSetGpioCmd(commandData, commandDataLen);
      result = returnvalue::OK;
      break;
    }
    case FACTORY_RESET: {
@ -283,8 +296,7 @@ ReturnValue_t PlocSupervisorHandler::buildCommandFromCommand(DeviceCommandId_t d
      break;
    }
    case READ_GPIO: {
-      prepareReadGpioCmd(commandData);
+      result = prepareReadGpioCmd(commandData, commandDataLen);
      result = returnvalue::OK;
      break;
    }
    case SET_SHUTDOWN_TIMEOUT: {
@ -321,12 +333,25 @@ ReturnValue_t PlocSupervisorHandler::buildCommandFromCommand(DeviceCommandId_t d
      result = prepareWipeMramCmd(commandData);
      break;
    }
    case REQUEST_ADC_REPORT: {
      prepareEmptyCmd(Apid::ADC_MON, static_cast<uint8_t>(tc::AdcMonId::REQUEST_ADC_SAMPLE));
      result = returnvalue::OK;
      break;
    }
    case REQUEST_LOGGING_COUNTERS: {
      prepareEmptyCmd(Apid::DATA_LOGGER,
                      static_cast<uint8_t>(tc::DataLoggerServiceId::REQUEST_COUNTERS));
      result = returnvalue::OK;
      break;
    }
    default:
      sif::debug << "PlocSupervisorHandler::buildCommandFromCommand: Command not implemented"
                 << std::endl;
      result = DeviceHandlerIF::COMMAND_NOT_IMPLEMENTED;
      break;
  }
  commandIsPending = true;
  cmdCd.resetTimer();
  return result;
 }
@ -358,6 +383,8 @@ void PlocSupervisorHandler::fillCommandAndReplyMap() {
  insertInCommandMap(SET_ADC_THRESHOLD);
  insertInCommandMap(SET_ADC_WINDOW_AND_STRIDE);
  insertInCommandMap(RESET_PL);
  insertInCommandMap(REQUEST_ADC_REPORT);
  insertInCommandMap(REQUEST_LOGGING_COUNTERS);
  // ACK replies, use countdown for them
  insertInReplyMap(ACK_REPORT, 0, nullptr, SIZE_ACK_REPORT, false, &acknowledgementReportTimeout);
@ -368,7 +395,7 @@ void PlocSupervisorHandler::fillCommandAndReplyMap() {
  insertInReplyMap(HK_REPORT, 3, &hkset);
  insertInReplyMap(BOOT_STATUS_REPORT, 3, &bootStatusReport, SIZE_BOOT_STATUS_REPORT);
  insertInReplyMap(LATCHUP_REPORT, 3, &latchupStatusReport, SIZE_LATCHUP_STATUS_REPORT);
-  insertInReplyMap(LOGGING_REPORT, 3, &loggingReport, SIZE_LOGGING_REPORT);
+  insertInReplyMap(COUNTERS_REPORT, 3, &countersReport, SIZE_COUNTERS_REPORT);
  insertInReplyMap(ADC_REPORT, 3, &adcReport, SIZE_ADC_REPORT);
 }
@ -410,13 +437,13 @@ ReturnValue_t PlocSupervisorHandler::enableReplyInReplyMap(DeviceCommandMap::ite
      }
      break;
    }
-    case LOGGING_REQUEST_COUNTERS: {
+    case REQUEST_LOGGING_COUNTERS: {
      enabledReplies = 3;
      result =
-          DeviceHandlerBase::enableReplyInReplyMap(command, enabledReplies, true, LOGGING_REPORT);
+          DeviceHandlerBase::enableReplyInReplyMap(command, enabledReplies, true, COUNTERS_REPORT);
      if (result != returnvalue::OK) {
        sif::debug << "PlocSupervisorHandler::enableReplyInReplyMap: Reply with id "
-                   << LOGGING_REPORT << " not in replyMap" << std::endl;
+                   << COUNTERS_REPORT << " not in replyMap" << std::endl;
      }
      break;
    }
@ -541,6 +568,9 @@ ReturnValue_t PlocSupervisorHandler::scanForReply(const uint8_t* start, size_t r
    }
    case (Apid::HK): {
      if (tmReader.getServiceId() == static_cast<uint8_t>(supv::tm::HkId::REPORT)) {
        normalCommandIsPending = false;
        // Yeah apparently this is needed??
        disableCommand(GET_HK_REPORT);
        *foundLen = tmReader.getFullPacketLen();
        *foundId = ReplyId::HK_REPORT;
        return OK;
@ -559,6 +589,14 @@ ReturnValue_t PlocSupervisorHandler::scanForReply(const uint8_t* start, size_t r
      }
      break;
    }
    case (Apid::ADC_MON): {
      if (tmReader.getServiceId() == static_cast<uint8_t>(supv::tm::AdcMonId::ADC_REPORT)) {
        *foundLen = tmReader.getFullPacketLen();
        *foundId = ReplyId::ADC_REPORT;
        return OK;
      }
      break;
    }
    case (Apid::MEM_MAN): {
      if (tmReader.getServiceId() ==
          static_cast<uint8_t>(supv::tm::MemManId::UPDATE_STATUS_REPORT)) {
@ -566,6 +604,15 @@ ReturnValue_t PlocSupervisorHandler::scanForReply(const uint8_t* start, size_t r
        *foundId = ReplyId::UPDATE_STATUS_REPORT;
        return OK;
      }
      break;
    }
    case (Apid::DATA_LOGGER): {
      if (tmReader.getServiceId() ==
          static_cast<uint8_t>(supv::tm::DataLoggerId::COUNTERS_REPORT)) {
        *foundLen = tmReader.getFullPacketLen();
        *foundId = ReplyId::COUNTERS_REPORT;
        return OK;
      }
    }
  }
  handleBadApidServiceCombination(SUPV_UNKNOWN_TM, apid, tmReader.getServiceId());
@ -578,6 +625,14 @@ void PlocSupervisorHandler::handlePacketPrint() {
    if ((tmReader.getServiceId() == static_cast<uint8_t>(supv::tm::TmtcId::ACK)) or
        (tmReader.getServiceId() == static_cast<uint8_t>(supv::tm::TmtcId::NAK))) {
      AcknowledgmentReport ack(tmReader);
      ReturnValue_t result = ack.parse();
      if (result != returnvalue::OK) {
        sif::warning << "PlocSupervisorHandler: Parsing ACK failed" << std::endl;
      }
      if (REDUCE_NORMAL_MODE_PRINTOUT and ack.getRefModuleApid() == (uint8_t)supv::Apid::HK and
          ack.getRefServiceId() == (uint8_t)supv::tc::HkId::GET_REPORT) {
        return;
      }
      const char* printStr = "???";
      if (tmReader.getServiceId() == static_cast<uint8_t>(supv::tm::TmtcId::ACK)) {
        printStr = "ACK";
@ -592,7 +647,15 @@ void PlocSupervisorHandler::handlePacketPrint() {
    } else if ((tmReader.getServiceId() == static_cast<uint8_t>(supv::tm::TmtcId::EXEC_ACK)) or
               (tmReader.getServiceId() == static_cast<uint8_t>(supv::tm::TmtcId::EXEC_NAK))) {
      ExecutionReport exe(tmReader);
      ReturnValue_t result = exe.parse();
      if (result != returnvalue::OK) {
        sif::warning << "PlocSupervisorHandler: Parsing EXE failed" << std::endl;
      }
      const char* printStr = "???";
      if (REDUCE_NORMAL_MODE_PRINTOUT and exe.getRefModuleApid() == (uint8_t)supv::Apid::HK and
          exe.getRefServiceId() == (uint8_t)supv::tc::HkId::GET_REPORT) {
        return;
      }
      if (tmReader.getServiceId() == static_cast<uint8_t>(supv::tm::TmtcId::EXEC_ACK)) {
        printStr = "ACK EXE";
@ -627,12 +690,22 @@ ReturnValue_t PlocSupervisorHandler::interpretDeviceReply(DeviceCommandId_t id,
      result = handleBootStatusReport(packet);
      break;
    }
    case (COUNTERS_REPORT): {
      result = genericHandleTm("COUNTERS", packet, countersReport);
 #if OBSW_VERBOSE_LEVEL >= 1 && OBSW_DEBUG_PLOC_SUPERVISOR == 1
      countersReport.printSet();
 #endif
      break;
    }
    case (LATCHUP_REPORT): {
      result = handleLatchupStatusReport(packet);
      break;
    }
    case (ADC_REPORT): {
-      result = handleAdcReport(packet);
+      result = genericHandleTm("ADC", packet, adcReport);
 #if OBSW_VERBOSE_LEVEL >= 1 && OBSW_DEBUG_PLOC_SUPERVISOR == 1
      adcReport.printSet();
 #endif
      break;
    }
    case (EXE_REPORT): {
@ -697,13 +770,8 @@ ReturnValue_t PlocSupervisorHandler::initializeLocalDataPool(localpool::DataPool
  localDataPoolMap.emplace(supv::LATCHUP_RPT_TIME_YEAR, new PoolEntry<uint8_t>({0}));
  localDataPoolMap.emplace(supv::LATCHUP_RPT_IS_SET, new PoolEntry<uint8_t>({0}));
-  localDataPoolMap.emplace(supv::LATCHUP_HAPPENED_CNT_0, new PoolEntry<uint32_t>({0}));
+  localDataPoolMap.emplace(supv::SIGNATURE, new PoolEntry<uint32_t>());
-  localDataPoolMap.emplace(supv::LATCHUP_HAPPENED_CNT_1, new PoolEntry<uint32_t>({0}));
+  localDataPoolMap.emplace(supv::LATCHUP_HAPPENED_CNTS, &latchupCounters);
  localDataPoolMap.emplace(supv::LATCHUP_HAPPENED_CNT_2, new PoolEntry<uint32_t>({0}));
  localDataPoolMap.emplace(supv::LATCHUP_HAPPENED_CNT_3, new PoolEntry<uint32_t>({0}));
  localDataPoolMap.emplace(supv::LATCHUP_HAPPENED_CNT_4, new PoolEntry<uint32_t>({0}));
  localDataPoolMap.emplace(supv::LATCHUP_HAPPENED_CNT_5, new PoolEntry<uint32_t>({0}));
  localDataPoolMap.emplace(supv::LATCHUP_HAPPENED_CNT_6, new PoolEntry<uint32_t>({0}));
  localDataPoolMap.emplace(supv::ADC_DEVIATION_TRIGGERS_CNT, new PoolEntry<uint32_t>({0}));
  localDataPoolMap.emplace(supv::TC_RECEIVED_CNT, new PoolEntry<uint32_t>({0}));
  localDataPoolMap.emplace(supv::TM_AVAILABLE_CNT, new PoolEntry<uint32_t>({0}));
@ -712,41 +780,22 @@ ReturnValue_t PlocSupervisorHandler::initializeLocalDataPool(localpool::DataPool
  localDataPoolMap.emplace(supv::MPSOC_BOOT_FAILED_ATTEMPTS, new PoolEntry<uint32_t>({0}));
  localDataPoolMap.emplace(supv::MPSOC_POWER_UP, new PoolEntry<uint32_t>({0}));
  localDataPoolMap.emplace(supv::MPSOC_UPDATES, new PoolEntry<uint32_t>({0}));
-  localDataPoolMap.emplace(supv::LAST_RECVD_TC, new PoolEntry<uint32_t>({0}));
+  localDataPoolMap.emplace(supv::MPSOC_HEARTBEAT_RESETS, new PoolEntry<uint32_t>({0}));
  localDataPoolMap.emplace(supv::CPU_WDT_RESETS, new PoolEntry<uint32_t>({0}));
  localDataPoolMap.emplace(supv::PS_HEARTBEATS_LOST, new PoolEntry<uint32_t>({0}));
  localDataPoolMap.emplace(supv::PL_HEARTBEATS_LOST, new PoolEntry<uint32_t>({0}));
  localDataPoolMap.emplace(supv::EB_TASK_LOST, new PoolEntry<uint32_t>({0}));
  localDataPoolMap.emplace(supv::BM_TASK_LOST, new PoolEntry<uint32_t>({0}));
  localDataPoolMap.emplace(supv::LM_TASK_LOST, new PoolEntry<uint32_t>({0}));
  localDataPoolMap.emplace(supv::AM_TASK_LOST, new PoolEntry<uint32_t>({0}));
  localDataPoolMap.emplace(supv::TCTMM_TASK_LOST, new PoolEntry<uint32_t>({0}));
  localDataPoolMap.emplace(supv::MM_TASK_LOST, new PoolEntry<uint32_t>({0}));
  localDataPoolMap.emplace(supv::HK_TASK_LOST, new PoolEntry<uint32_t>({0}));
  localDataPoolMap.emplace(supv::DL_TASK_LOST, new PoolEntry<uint32_t>({0}));
  localDataPoolMap.emplace(supv::RWS_TASKS_LOST, new PoolEntry<uint32_t>(3));
-  localDataPoolMap.emplace(supv::ADC_RAW_0, new PoolEntry<uint16_t>({0}));
+  localDataPoolMap.emplace(supv::ADC_RAW, &adcRawEntry);
-  localDataPoolMap.emplace(supv::ADC_RAW_1, new PoolEntry<uint16_t>({0}));
+  localDataPoolMap.emplace(supv::ADC_ENG, &adcEngEntry);
  localDataPoolMap.emplace(supv::ADC_RAW_2, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_RAW_3, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_RAW_4, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_RAW_5, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_RAW_6, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_RAW_7, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_RAW_8, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_RAW_9, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_RAW_10, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_RAW_11, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_RAW_12, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_RAW_13, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_RAW_14, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_RAW_15, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_ENG_0, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_ENG_1, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_ENG_2, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_ENG_3, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_ENG_4, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_ENG_5, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_ENG_6, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_ENG_7, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_ENG_8, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_ENG_9, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_ENG_10, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_ENG_11, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_ENG_12, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_ENG_13, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_ENG_14, new PoolEntry<uint16_t>({0}));
  localDataPoolMap.emplace(supv::ADC_ENG_15, new PoolEntry<uint16_t>({0}));
  poolManager.subscribeForRegularPeriodicPacket(
      subdp::RegularHkPeriodicParams(hkset.getSid(), false, 10.0));
@ -871,6 +920,7 @@ ReturnValue_t PlocSupervisorHandler::handleExecutionReport(const uint8_t* data)
  } else if (tmReader.getServiceId() == static_cast<uint8_t>(supv::tm::TmtcId::EXEC_NAK)) {
    handleExecutionFailureReport(report);
  }
  commandIsPending = false;
  nextReplyId = supv::NONE;
  return result;
 }
@ -1105,37 +1155,31 @@ ReturnValue_t PlocSupervisorHandler::handleLatchupStatusReport(const uint8_t* da
  return result;
 }
-ReturnValue_t PlocSupervisorHandler::handleAdcReport(const uint8_t* data) {
+ReturnValue_t PlocSupervisorHandler::genericHandleTm(const char* contextString, const uint8_t* data,
                                                     LocalPoolDataSetBase& set) {
  ReturnValue_t result = returnvalue::OK;
-  result = verifyPacket(data, supv::SIZE_ADC_REPORT);
+  result = verifyPacket(data, tmReader.getFullPacketLen());
  if (result == result::CRC_FAILURE) {
-    sif::error << "PlocSupervisorHandler::handleAdcReport: ADC report has "
+    sif::warning << "PlocSupervisorHandler: " << contextString << " report has "
-               << "invalid crc" << std::endl;
+                 << "invalid CRC" << std::endl;
    return result;
  }
  const uint8_t* dataField = data + supv::PAYLOAD_OFFSET;
-  result = adcReport.read();
+  PoolReadGuard pg(&set);
-  if (result != returnvalue::OK) {
+  if (pg.getReadResult() != returnvalue::OK) {
    return result;
  }
-  adcReport.setValidityBufferGeneration(false);
+  set.setValidityBufferGeneration(false);
-  size_t size = adcReport.getSerializedSize();
+  size_t size = set.getSerializedSize();
-  result = adcReport.deSerialize(&dataField, &size, SerializeIF::Endianness::BIG);
+  result = set.deSerialize(&dataField, &size, SerializeIF::Endianness::BIG);
  if (result != returnvalue::OK) {
-    sif::warning << "PlocSupervisorHandler::handleAdcReport: Deserialization failed" << std::endl;
+    sif::warning << "PlocSupervisorHandler: Deserialization failed" << std::endl;
  }
-  adcReport.setValidityBufferGeneration(true);
+  set.setValidityBufferGeneration(true);
-  adcReport.setValidity(true, true);
+  set.setValidity(true, true);
  result = adcReport.commit();
  if (result != returnvalue::OK) {
    return result;
  }
 #if OBSW_VERBOSE_LEVEL >= 1 && OBSW_DEBUG_PLOC_SUPERVISOR == 1
  adcReport.printSet();
 #endif
  nextReplyId = supv::EXE_REPORT;
  return result;
 }
@ -1157,8 +1201,8 @@ void PlocSupervisorHandler::setNextReplyId() {
    case supv::CONSECUTIVE_MRAM_DUMP:
      nextReplyId = supv::CONSECUTIVE_MRAM_DUMP;
      break;
-    case supv::LOGGING_REQUEST_COUNTERS:
+    case supv::REQUEST_LOGGING_COUNTERS:
-      nextReplyId = supv::LOGGING_REPORT;
+      nextReplyId = supv::COUNTERS_REPORT;
      break;
    case supv::REQUEST_ADC_REPORT:
      nextReplyId = supv::ADC_REPORT;
@ -1407,7 +1451,11 @@ ReturnValue_t PlocSupervisorHandler::prepareRunAutoEmTest(const uint8_t* command
  return returnvalue::OK;
 }
-ReturnValue_t PlocSupervisorHandler::prepareSetGpioCmd(const uint8_t* commandData) {
+ReturnValue_t PlocSupervisorHandler::prepareSetGpioCmd(const uint8_t* commandData,
                                                       size_t commandDataLen) {
  if (commandDataLen < 3) {
    return HasActionsIF::INVALID_PARAMETERS;
  }
  uint8_t port = *commandData;
  uint8_t pin = *(commandData + 1);
  uint8_t val = *(commandData + 2);
@ -1420,7 +1468,11 @@ ReturnValue_t PlocSupervisorHandler::prepareSetGpioCmd(const uint8_t* commandDat
  return returnvalue::OK;
 }
-ReturnValue_t PlocSupervisorHandler::prepareReadGpioCmd(const uint8_t* commandData) {
+ReturnValue_t PlocSupervisorHandler::prepareReadGpioCmd(const uint8_t* commandData,
                                                        size_t commandDataLen) {
  if (commandDataLen < 2) {
    return HasActionsIF::INVALID_PARAMETERS;
  }
  uint8_t port = *commandData;
  uint8_t pin = *(commandData + 1);
  supv::ReadGpio packet(spParams);
@ -1466,6 +1518,7 @@ ReturnValue_t PlocSupervisorHandler::prepareSetShutdownTimeoutCmd(const uint8_t*
    sif::warning
        << "PlocSupervisorHandler::prepareSetShutdownTimeoutCmd: Failed to deserialize timeout"
        << std::endl;
    return result;
  }
  supv::SetShutdownTimeout packet(spParams);
  result = packet.buildPacket(timeout);
@ -1517,8 +1570,8 @@ void PlocSupervisorHandler::disableAllReplies() {
      disableReply(LATCHUP_REPORT);
      break;
    }
-    case LOGGING_REQUEST_COUNTERS: {
+    case REQUEST_LOGGING_COUNTERS: {
-      disableReply(LOGGING_REPORT);
+      disableReply(COUNTERS_REPORT);
      break;
    }
    default: {
@ -1532,6 +1585,9 @@ void PlocSupervisorHandler::disableAllReplies() {
 void PlocSupervisorHandler::disableReply(DeviceCommandId_t replyId) {
  DeviceReplyMap::iterator iter = deviceReplyMap.find(replyId);
  if (iter == deviceReplyMap.end()) {
    return;
  }
  DeviceReplyInfo* info = &(iter->second);
  info->delayCycles = 0;
  info->active = false;
@ -1562,6 +1618,9 @@ void PlocSupervisorHandler::sendFailureReport(DeviceCommandId_t replyId, ReturnV
 void PlocSupervisorHandler::disableExeReportReply() {
  DeviceReplyIter iter = deviceReplyMap.find(supv::EXE_REPORT);
  if (iter == deviceReplyMap.end()) {
    return;
  }
  DeviceReplyInfo* info = &(iter->second);
  info->delayCycles = 0;
  info->command = deviceCommandMap.end();
@ -1584,7 +1643,9 @@ ReturnValue_t PlocSupervisorHandler::handleMramDumpPacket(DeviceCommandId_t id)
    result = handleMramDumpFile(id);
    if (result != returnvalue::OK) {
      DeviceCommandMap::iterator iter = deviceCommandMap.find(id);
      if (iter != deviceCommandMap.end()) {
        actionHelper.finish(false, iter->second.sendReplyTo, id, result);
      }
      disableAllReplies();
      nextReplyId = supv::NONE;
      return result;
@ -1851,7 +1912,12 @@ ReturnValue_t PlocSupervisorHandler::eventSubscription() {
 ReturnValue_t PlocSupervisorHandler::handleExecutionSuccessReport(ExecutionReport& report) {
  DeviceCommandId_t commandId = getPendingCommand();
-  ReturnValue_t result = OK;
+  DeviceCommandMap::iterator iter = deviceCommandMap.find(commandId);
  if (iter != deviceCommandMap.end() and iter->second.sendReplyTo != NO_COMMANDER) {
    actionHelper.finish(true, iter->second.sendReplyTo, iter->first, returnvalue::OK);
    iter->second.isExecuting = false;
  }
  commandIsPending = false;
  switch (commandId) {
    case supv::READ_GPIO: {
      // TODO: Fix
@ -1859,13 +1925,12 @@ ReturnValue_t PlocSupervisorHandler::handleExecutionSuccessReport(ExecutionRepor
 #if OBSW_DEBUG_PLOC_SUPERVISOR == 1
      sif::info << "PlocSupervisorHandler: Read GPIO TM, State: " << gpioState << std::endl;
 #endif /* OBSW_DEBUG_PLOC_SUPERVISOR == 1 */
-      DeviceCommandMap::iterator iter = deviceCommandMap.find(commandId);
+      if (iter != deviceCommandMap.end() and iter->second.sendReplyTo == NO_COMMAND_ID) {
      if (iter->second.sendReplyTo == NO_COMMAND_ID) {
        return returnvalue::OK;
      }
      uint8_t data[sizeof(gpioState)];
      size_t size = 0;
-      result = SerializeAdapter::serialize(&gpioState, data, &size, sizeof(gpioState),
+      ReturnValue_t result = SerializeAdapter::serialize(&gpioState, data, &size, sizeof(gpioState),
                                                         SerializeIF::Endianness::BIG);
      if (result != returnvalue::OK) {
        sif::debug << "PlocSupervisorHandler: Failed to deserialize GPIO state" << std::endl;
@ -1942,6 +2007,11 @@ uint32_t PlocSupervisorHandler::getTransitionDelayMs(Mode_t modeFrom, Mode_t mod
  return 7000;
 }
 void PlocSupervisorHandler::disableCommand(DeviceCommandId_t cmd) {
  auto commandIter = deviceCommandMap.find(GET_HK_REPORT);
  commandIter->second.isExecuting = false;
 }
 ReturnValue_t PlocSupervisorHandler::checkModeCommand(Mode_t commandedMode,
                                                      Submode_t commandedSubmode,
                                                      uint32_t* msToReachTheMode) {
--- a/linux/payload/PlocSupervisorHandler.h
+++ b/linux/payload/PlocSupervisorHandler.h
@ -20,7 +20,8 @@
 using supv::ExecutionReport;
 using supv::TcBase;
-static constexpr bool DEBUG_PLOC_SUPV = false;
+static constexpr bool DEBUG_PLOC_SUPV = true;
 static constexpr bool REDUCE_NORMAL_MODE_PRINTOUT = true;
 /**
 * @brief	This is the device handler for the supervisor of the PLOC which is programmed by
@ -67,26 +68,6 @@ class PlocSupervisorHandler : public DeviceHandlerBase {
  void doOffActivity() override;
 private:
  static const uint8_t SUBSYSTEM_ID = SUBSYSTEM_ID::PLOC_SUPERVISOR_HANDLER;
  //! [EXPORT] : [COMMENT] PLOC supervisor crc failure in telemetry packet
  static const Event SUPV_MEMORY_READ_RPT_CRC_FAILURE = MAKE_EVENT(1, severity::LOW);
  //! [EXPORT] : [COMMENT] Unhandled event. P1: APID, P2: Service ID
  static constexpr Event SUPV_UNKNOWN_TM = MAKE_EVENT(2, severity::LOW);
  static constexpr Event SUPV_UNINIMPLEMENTED_TM = MAKE_EVENT(3, severity::LOW);
  //! [EXPORT] : [COMMENT] PLOC supervisor received acknowledgment failure report
  static const Event SUPV_ACK_FAILURE = MAKE_EVENT(4, severity::LOW);
  //! [EXPORT] : [COMMENT] PLOC received execution failure report
  //! P1: ID of command for which the execution failed
  //! P2: Status code sent by the supervisor handler
  static const Event SUPV_EXE_FAILURE = MAKE_EVENT(5, severity::LOW);
  //! [EXPORT] : [COMMENT] PLOC supervisor reply has invalid crc
  static const Event SUPV_CRC_FAILURE_EVENT = MAKE_EVENT(6, severity::LOW);
  //! [EXPORT] : [COMMENT] Supervisor helper currently executing a command
  static const Event SUPV_HELPER_EXECUTING = MAKE_EVENT(7, severity::LOW);
  //! [EXPORT] : [COMMENT] Failed to build the command to shutdown the MPSoC
  static const Event SUPV_MPSOC_SHUTDOWN_BUILD_FAILED = MAKE_EVENT(8, severity::LOW);
  static const uint16_t APID_MASK = 0x7FF;
  static const uint16_t PACKET_SEQUENCE_COUNT_MASK = 0x3FFF;
  static const uint8_t EXE_STATUS_OFFSET = 10;
@ -94,15 +75,14 @@ class PlocSupervisorHandler : public DeviceHandlerBase {
  // 5 s
  static const uint32_t EXECUTION_DEFAULT_TIMEOUT = 5000;
  // 70 S
-  static const uint32_t ACKNOWLEDGE_DEFAULT_TIMEOUT = 70000;
+  static const uint32_t ACKNOWLEDGE_DEFAULT_TIMEOUT = 5000;
  // 60 s
  static const uint32_t MRAM_DUMP_EXECUTION_TIMEOUT = 60000;
  // 70 s
  static const uint32_t COPY_ADC_TO_MRAM_TIMEOUT = 70000;
  // 60 s
  static const uint32_t MRAM_DUMP_TIMEOUT = 60000;
-  // 4 s
+
  static const uint32_t BOOT_TIMEOUT = 4000;
  enum class StartupState : uint8_t {
    OFF,
    BOOTING,
@ -131,11 +111,18 @@ class PlocSupervisorHandler : public DeviceHandlerBase {
  LinuxLibgpioIF* gpioComIF = nullptr;
  Gpio uartIsolatorSwitch;
  bool shutdownCmdSent = false;
  // Yeah, I am using an extra variable because I once again don't know
  // what the hell the base class is doing and I don't care anymore.
  bool normalCommandIsPending = false;
  // True men implement their reply timeout handling themselves!
  Countdown normalCmdCd = Countdown(2000);
  bool commandIsPending = false;
  Countdown cmdCd = Countdown(2000);
  supv::HkSet hkset;
  supv::BootStatusReport bootStatusReport;
  supv::LatchupStatusReport latchupStatusReport;
-  supv::LoggingReport loggingReport;
+  supv::CountersReport countersReport;
  supv::AdcReport adcReport;
  const power::Switch_t powerSwitch = power::NO_SWITCH;
@ -164,9 +151,12 @@ class PlocSupervisorHandler : public DeviceHandlerBase {
  Countdown executionReportTimeout = Countdown(EXECUTION_DEFAULT_TIMEOUT, false);
  Countdown acknowledgementReportTimeout = Countdown(ACKNOWLEDGE_DEFAULT_TIMEOUT, false);
  // Vorago nees some time to boot properly
-  Countdown bootTimeout = Countdown(BOOT_TIMEOUT);
+  Countdown bootTimeout = Countdown(supv::BOOT_TIMEOUT_MS);
  Countdown mramDumpTimeout = Countdown(MRAM_DUMP_TIMEOUT);
  PoolEntry<uint16_t> adcRawEntry = PoolEntry<uint16_t>(16);
  PoolEntry<uint16_t> adcEngEntry = PoolEntry<uint16_t>(16);
  PoolEntry<uint32_t> latchupCounters = PoolEntry<uint32_t>(7);
  PoolEntry<uint8_t> fmcStateEntry = PoolEntry<uint8_t>(1);
  PoolEntry<uint8_t> bootStateEntry = PoolEntry<uint8_t>(1);
  PoolEntry<uint8_t> bootCyclesEntry = PoolEntry<uint8_t>(1);
@ -231,8 +221,13 @@ class PlocSupervisorHandler : public DeviceHandlerBase {
  ReturnValue_t handleBootStatusReport(const uint8_t* data);
  ReturnValue_t handleLatchupStatusReport(const uint8_t* data);
  ReturnValue_t handleCounterReport(const uint8_t* data);
  void handleBadApidServiceCombination(Event result, unsigned int apid, unsigned int serviceId);
  ReturnValue_t handleAdcReport(const uint8_t* data);
  ReturnValue_t genericHandleTm(const char* contextString, const uint8_t* data,
                                LocalPoolDataSetBase& set);
  void disableCommand(DeviceCommandId_t cmd);
  /**
   * @brief   Depending on the current active command, this function sets the reply id of the
@ -301,8 +296,8 @@ class PlocSupervisorHandler : public DeviceHandlerBase {
  ReturnValue_t prepareSetAdcThresholdCmd(const uint8_t* commandData);
  ReturnValue_t prepareRunAutoEmTest(const uint8_t* commandData);
  ReturnValue_t prepareWipeMramCmd(const uint8_t* commandData);
-  ReturnValue_t prepareSetGpioCmd(const uint8_t* commandData);
+  ReturnValue_t prepareSetGpioCmd(const uint8_t* commandData, size_t commandDataLen);
-  ReturnValue_t prepareReadGpioCmd(const uint8_t* commandData);
+  ReturnValue_t prepareReadGpioCmd(const uint8_t* commandData, size_t commandDataLen);
  /**
   * @brief   Copies the content of a space packet to the command buffer.
--- a/bsp_hosted/OBSWConfig.h.in
+++ b/bsp_hosted/OBSWConfig.h.in
@ -48,6 +48,7 @@
 #define OBSW_SWITCH_TO_NORMAL_MODE_AFTER_STARTUP    1
 #define OBSW_PRINT_MISSED_DEADLINES                 1
 #define OBSW_MPSOC_JTAG_BOOT                        0
 #define OBSW_SYRLINKS_SIMULATED                     1
 #define OBSW_ADD_TEST_CODE                          0
 #define OBSW_ADD_TEST_TASK                          0
--- a/bsp_hosted/fsfwconfig/events/translateEvents.cpp
+++ b/bsp_hosted/fsfwconfig/events/translateEvents.cpp
@ -1,7 +1,7 @@
 /**
- * @brief    Auto-generated event translation file. Contains 315 translations.
+ * @brief    Auto-generated event translation file. Contains 325 translations.
 * @details
- * Generated on: 2023-10-27 14:24:05
+ * Generated on: 2024-05-06 13:47:38
 */
 #include "translateEvents.h"
@ -82,8 +82,11 @@ const char *BIT_LOCK_STRING = "BIT_LOCK";
 const char *BIT_LOCK_LOST_STRING = "BIT_LOCK_LOST";
 const char *FRAME_PROCESSING_FAILED_STRING = "FRAME_PROCESSING_FAILED";
 const char *CLOCK_SET_STRING = "CLOCK_SET";
-const char *CLOCK_DUMP_STRING = "CLOCK_DUMP";
+const char *CLOCK_DUMP_LEGACY_STRING = "CLOCK_DUMP_LEGACY";
 const char *CLOCK_SET_FAILURE_STRING = "CLOCK_SET_FAILURE";
 const char *CLOCK_DUMP_STRING = "CLOCK_DUMP";
 const char *CLOCK_DUMP_BEFORE_SETTING_TIME_STRING = "CLOCK_DUMP_BEFORE_SETTING_TIME";
 const char *CLOCK_DUMP_AFTER_SETTING_TIME_STRING = "CLOCK_DUMP_AFTER_SETTING_TIME";
 const char *TC_DELETION_FAILED_STRING = "TC_DELETION_FAILED";
 const char *TEST_STRING = "TEST";
 const char *CHANGE_OF_SETUP_PARAMETER_STRING = "CHANGE_OF_SETUP_PARAMETER";
@ -94,14 +97,17 @@ const char *FILESTORE_ERROR_STRING = "FILESTORE_ERROR";
 const char *FILENAME_TOO_LARGE_ERROR_STRING = "FILENAME_TOO_LARGE_ERROR";
 const char *HANDLING_CFDP_REQUEST_FAILED_STRING = "HANDLING_CFDP_REQUEST_FAILED";
 const char *SAFE_RATE_VIOLATION_STRING = "SAFE_RATE_VIOLATION";
-const char *SAFE_RATE_RECOVERY_STRING = "SAFE_RATE_RECOVERY";
+const char *RATE_RECOVERY_STRING = "RATE_RECOVERY";
 const char *MULTIPLE_RW_INVALID_STRING = "MULTIPLE_RW_INVALID";
 const char *MEKF_INVALID_INFO_STRING = "MEKF_INVALID_INFO";
 const char *MEKF_RECOVERY_STRING = "MEKF_RECOVERY";
 const char *MEKF_AUTOMATIC_RESET_STRING = "MEKF_AUTOMATIC_RESET";
-const char *MEKF_INVALID_MODE_VIOLATION_STRING = "MEKF_INVALID_MODE_VIOLATION";
+const char *PTG_CTRL_NO_ATTITUDE_INFORMATION_STRING = "PTG_CTRL_NO_ATTITUDE_INFORMATION";
 const char *SAFE_MODE_CONTROLLER_FAILURE_STRING = "SAFE_MODE_CONTROLLER_FAILURE";
 const char *TLE_TOO_OLD_STRING = "TLE_TOO_OLD";
 const char *TLE_FILE_READ_FAILED_STRING = "TLE_FILE_READ_FAILED";
 const char *PTG_RATE_VIOLATION_STRING = "PTG_RATE_VIOLATION";
 const char *DETUMBLE_TRANSITION_FAILED_STRING = "DETUMBLE_TRANSITION_FAILED";
 const char *SWITCH_CMD_SENT_STRING = "SWITCH_CMD_SENT";
 const char *SWITCH_HAS_CHANGED_STRING = "SWITCH_HAS_CHANGED";
 const char *SWITCHING_Q7S_DENIED_STRING = "SWITCHING_Q7S_DENIED";
@ -136,6 +142,7 @@ const char *MPSOC_HANDLER_SEQUENCE_COUNT_MISMATCH_STRING = "MPSOC_HANDLER_SEQUEN
 const char *MPSOC_SHUTDOWN_FAILED_STRING = "MPSOC_SHUTDOWN_FAILED";
 const char *SUPV_NOT_ON_STRING = "SUPV_NOT_ON";
 const char *SUPV_REPLY_TIMEOUT_STRING = "SUPV_REPLY_TIMEOUT";
 const char *CAM_MUST_BE_ON_FOR_SNAPSHOT_MODE_STRING = "CAM_MUST_BE_ON_FOR_SNAPSHOT_MODE";
 const char *SELF_TEST_I2C_FAILURE_STRING = "SELF_TEST_I2C_FAILURE";
 const char *SELF_TEST_SPI_FAILURE_STRING = "SELF_TEST_SPI_FAILURE";
 const char *SELF_TEST_ADC_FAILURE_STRING = "SELF_TEST_ADC_FAILURE";
@ -157,6 +164,8 @@ const char *SUPV_EXE_FAILURE_STRING = "SUPV_EXE_FAILURE";
 const char *SUPV_CRC_FAILURE_EVENT_STRING = "SUPV_CRC_FAILURE_EVENT";
 const char *SUPV_HELPER_EXECUTING_STRING = "SUPV_HELPER_EXECUTING";
 const char *SUPV_MPSOC_SHUTDOWN_BUILD_FAILED_STRING = "SUPV_MPSOC_SHUTDOWN_BUILD_FAILED";
 const char *SUPV_ACK_UNKNOWN_COMMAND_STRING = "SUPV_ACK_UNKNOWN_COMMAND";
 const char *SUPV_EXE_ACK_UNKNOWN_COMMAND_STRING = "SUPV_EXE_ACK_UNKNOWN_COMMAND";
 const char *SANITIZATION_FAILED_STRING = "SANITIZATION_FAILED";
 const char *MOUNTED_SD_CARD_STRING = "MOUNTED_SD_CARD";
 const char *SEND_MRAM_DUMP_FAILED_STRING = "SEND_MRAM_DUMP_FAILED";
@ -236,6 +245,7 @@ const char *SIDE_SWITCH_TRANSITION_NOT_ALLOWED_12903_STRING = "SIDE_SWITCH_TRANS
 const char *CHILDREN_LOST_MODE_STRING = "CHILDREN_LOST_MODE";
 const char *GPS_FIX_CHANGE_STRING = "GPS_FIX_CHANGE";
 const char *CANT_GET_FIX_STRING = "CANT_GET_FIX";
 const char *RESET_FAIL_STRING = "RESET_FAIL";
 const char *P60_BOOT_COUNT_STRING = "P60_BOOT_COUNT";
 const char *BATT_MODE_STRING = "BATT_MODE";
 const char *BATT_MODE_CHANGED_STRING = "BATT_MODE_CHANGED";
@ -478,9 +488,15 @@ const char *translateEvents(Event event) {
    case (8900):
      return CLOCK_SET_STRING;
    case (8901):
-      return CLOCK_DUMP_STRING;
+      return CLOCK_DUMP_LEGACY_STRING;
    case (8902):
      return CLOCK_SET_FAILURE_STRING;
    case (8903):
      return CLOCK_DUMP_STRING;
    case (8904):
      return CLOCK_DUMP_BEFORE_SETTING_TIME_STRING;
    case (8905):
      return CLOCK_DUMP_AFTER_SETTING_TIME_STRING;
    case (9100):
      return TC_DELETION_FAILED_STRING;
    case (9700):
@ -502,7 +518,7 @@ const char *translateEvents(Event event) {
    case (11200):
      return SAFE_RATE_VIOLATION_STRING;
    case (11201):
-      return SAFE_RATE_RECOVERY_STRING;
+      return RATE_RECOVERY_STRING;
    case (11202):
      return MULTIPLE_RW_INVALID_STRING;
    case (11203):
@ -512,11 +528,17 @@ const char *translateEvents(Event event) {
    case (11205):
      return MEKF_AUTOMATIC_RESET_STRING;
    case (11206):
-      return MEKF_INVALID_MODE_VIOLATION_STRING;
+      return PTG_CTRL_NO_ATTITUDE_INFORMATION_STRING;
    case (11207):
      return SAFE_MODE_CONTROLLER_FAILURE_STRING;
    case (11208):
      return TLE_TOO_OLD_STRING;
    case (11209):
      return TLE_FILE_READ_FAILED_STRING;
    case (11210):
      return PTG_RATE_VIOLATION_STRING;
    case (11211):
      return DETUMBLE_TRANSITION_FAILED_STRING;
    case (11300):
      return SWITCH_CMD_SENT_STRING;
    case (11301):
@ -585,6 +607,8 @@ const char *translateEvents(Event event) {
      return SUPV_NOT_ON_STRING;
    case (11608):
      return SUPV_REPLY_TIMEOUT_STRING;
    case (11609):
      return CAM_MUST_BE_ON_FOR_SNAPSHOT_MODE_STRING;
    case (11701):
      return SELF_TEST_I2C_FAILURE_STRING;
    case (11702):
@ -627,6 +651,10 @@ const char *translateEvents(Event event) {
      return SUPV_HELPER_EXECUTING_STRING;
    case (12008):
      return SUPV_MPSOC_SHUTDOWN_BUILD_FAILED_STRING;
    case (12009):
      return SUPV_ACK_UNKNOWN_COMMAND_STRING;
    case (12010):
      return SUPV_EXE_ACK_UNKNOWN_COMMAND_STRING;
    case (12100):
      return SANITIZATION_FAILED_STRING;
    case (12101):
@ -785,6 +813,8 @@ const char *translateEvents(Event event) {
      return GPS_FIX_CHANGE_STRING;
    case (13101):
      return CANT_GET_FIX_STRING;
    case (13102):
      return RESET_FAIL_STRING;
    case (13200):
      return P60_BOOT_COUNT_STRING;
    case (13201):
--- a/bsp_hosted/fsfwconfig/objects/translateObjects.cpp
+++ b/bsp_hosted/fsfwconfig/objects/translateObjects.cpp
@ -1,8 +1,8 @@
 /**
 * @brief  Auto-generated object translation file.
 * @details
- * Contains 175 translations.
+ * Contains 176 translations.
- * Generated on: 2023-10-27 14:24:05
+ * Generated on: 2024-05-06 13:47:38
 */
 #include "translateObjects.h"
@ -65,6 +65,7 @@ const char *PTME_VC3_CFDP_TM_STRING = "PTME_VC3_CFDP_TM";
 const char *PLOC_MPSOC_HANDLER_STRING = "PLOC_MPSOC_HANDLER";
 const char *PLOC_SUPERVISOR_HANDLER_STRING = "PLOC_SUPERVISOR_HANDLER";
 const char *PLOC_SUPERVISOR_HELPER_STRING = "PLOC_SUPERVISOR_HELPER";
 const char *PLOC_MPSOC_COMMUNICATION_STRING = "PLOC_MPSOC_COMMUNICATION";
 const char *SCEX_STRING = "SCEX";
 const char *SOLAR_ARRAY_DEPL_HANDLER_STRING = "SOLAR_ARRAY_DEPL_HANDLER";
 const char *HEATER_HANDLER_STRING = "HEATER_HANDLER";
@ -302,6 +303,8 @@ const char *translateObject(object_id_t object) {
      return PLOC_SUPERVISOR_HANDLER_STRING;
    case 0x44330017:
      return PLOC_SUPERVISOR_HELPER_STRING;
    case 0x44330018:
      return PLOC_MPSOC_COMMUNICATION_STRING;
    case 0x44330032:
      return SCEX_STRING;
    case 0x444100A2:
--- a/bsp_hosted/objectFactory.cpp
+++ b/bsp_hosted/objectFactory.cpp
@ -38,9 +38,7 @@
 #include "devices/gpioIds.h"
 #include "fsfw_hal/linux/gpio/Gpio.h"
-#include "linux/payload/PlocMpsocHandler.h"
+#include "linux/payload/FreshSupvHandler.h"
 #include "linux/payload/PlocMpsocSpecialComHelper.h"
 #include "linux/payload/PlocSupervisorHandler.h"
 #include "linux/payload/PlocSupvUartMan.h"
 #include "test/gpio/DummyGpioIF.h"
 #endif
@ -79,7 +77,10 @@ void ObjectFactory::produce(void* args) {
    switcherList.emplace_back(initVal);
  }
  dummySwitcher->setInitialSwitcherList(switcherList);
 #ifdef PLATFORM_UNIX
  // Obsolete dev handler..
  /*
  new SerialComIF(objects::UART_COM_IF);
 #if OBSW_ADD_PLOC_MPSOC == 1
  std::string mpscoDev = "";
@ -90,17 +91,19 @@ void ObjectFactory::produce(void* args) {
  new PlocMpsocHandler(objects::PLOC_MPSOC_HANDLER, objects::UART_COM_IF, mpsocCookie,
                       plocMpsocHelper, Gpio(gpioIds::ENABLE_MPSOC_UART, dummyGpioIF),
                       objects::PLOC_SUPERVISOR_HANDLER);
-#endif /* OBSW_ADD_PLOC_MPSOC == 1 */
+#endif // OBSW_ADD_PLOC_MPSOC == 1
  */
 #if OBSW_ADD_PLOC_SUPERVISOR == 1
  std::string plocSupvString = "/dev/ploc_supv";
  auto supervisorCookie =
      new SerialCookie(objects::PLOC_SUPERVISOR_HANDLER, plocSupvString, uart::PLOC_SUPV_BAUD,
                       supv::MAX_PACKET_SIZE * 20, UartModes::NON_CANONICAL);
  supervisorCookie->setNoFixedSizeReply();
-  auto supvHelper = new PlocSupvUartManager(objects::PLOC_SUPERVISOR_HELPER);
+  new PlocSupvUartManager(objects::PLOC_SUPERVISOR_HELPER);
-  new PlocSupervisorHandler(objects::PLOC_SUPERVISOR_HANDLER, supervisorCookie,
+  DhbConfig dhbConf(objects::PLOC_SUPERVISOR_HANDLER);
-                            Gpio(gpioIds::ENABLE_SUPV_UART, dummyGpioIF), pcdu::PDU1_CH6_PLOC_12V,
+  auto* supvHandler =
-                            *supvHelper);
+      new FreshSupvHandler(dhbConf, supervisorCookie, Gpio(gpioIds::ENABLE_SUPV_UART, dummyGpioIF),
                           dummySwitcher, power::PDU1_CH6_PLOC_12V);
 #endif /* OBSW_ADD_PLOC_SUPERVISOR == 1 */
 #endif
--- a/bsp_q7s/CMakeLists.txt
+++ b/bsp_q7s/CMakeLists.txt
@ -25,3 +25,4 @@ add_subdirectory(memory)
 add_subdirectory(callbacks)
 add_subdirectory(xadc)
 add_subdirectory(fs)
 add_subdirectory(acs)
--- a/bsp_q7s/acs/CMakeLists.txt
+++ b/bsp_q7s/acs/CMakeLists.txt
@ -0,0 +1 @@
 # target_sources(${OBSW_NAME} PUBLIC <Source File List>)
--- a/bsp_q7s/acs/StrConfigPathGetter.h
+++ b/bsp_q7s/acs/StrConfigPathGetter.h
@ -0,0 +1,23 @@
 #include <optional>
 #include "bsp_q7s/fs/SdCardManager.h"
 #include "mission/acs/str/strHelpers.h"
 class StrConfigPathGetter : public startracker::SdCardConfigPathGetter {
 public:
  StrConfigPathGetter(SdCardManager& sdcMan) : sdcMan(sdcMan) {}
  std::optional<std::string> getCfgPath() override {
    if (!sdcMan.isSdCardUsable(std::nullopt)) {
      return std::nullopt;
    }
    if (sdcMan.getActiveSdCard() == sd::SdCard::SLOT_1) {
      return std::string("/mnt/sd1/startracker/flight-config.json");
    } else {
      return std::string("/mnt/sd0/startracker/flight-config.json");
    }
  }
 private:
  SdCardManager& sdcMan;
 };
--- a/bsp_q7s/core/CoreController.cpp
+++ b/bsp_q7s/core/CoreController.cpp
@ -480,6 +480,16 @@ ReturnValue_t CoreController::executeAction(ActionId_t actionId, MessageQueueId_
      successRecipient = commandedBy;
      return returnvalue::OK;
    }
    case (UPDATE_LEAP_SECONDS): {
      if (size != sizeof(uint16_t)) {
        return HasActionsIF::INVALID_PARAMETERS;
      }
      ReturnValue_t result = actionUpdateLeapSeconds(data);
      if (result != returnvalue::OK) {
        return result;
      }
      return HasActionsIF::EXECUTION_FINISHED;
    }
    default: {
      return HasActionsIF::INVALID_ACTION_ID;
    }
@ -1411,6 +1421,9 @@ void CoreController::performMountedSdCardOperations() {
      if (not timeFileInitDone) {
        initClockFromTimeFile();
      }
      if (not leapSecondsInitDone) {
        initLeapSeconds();
      }
      performRebootWatchdogHandling(false);
      performRebootCountersHandling(false);
    }
@ -2066,14 +2079,78 @@ ReturnValue_t CoreController::backupTimeFileHandler() {
  return returnvalue::OK;
 }
 void CoreController::initLeapSeconds() {
  ReturnValue_t result = initLeapSecondsFromFile();
  if (result != returnvalue::OK) {
    Clock::setLeapSeconds(config::LEAP_SECONDS);
    writeLeapSecondsToFile(config::LEAP_SECONDS);
  }
  leapSecondsInitDone = true;
 }
 ReturnValue_t CoreController::initLeapSecondsFromFile() {
  std::string fileName = currMntPrefix + LEAP_SECONDS_FILE;
  std::error_code e;
  if (sdcMan->isSdCardUsable(std::nullopt) and std::filesystem::exists(fileName, e)) {
    std::ifstream leapSecondsFile(fileName);
    std::string nextWord;
    std::getline(leapSecondsFile, nextWord);
    std::istringstream iss(nextWord);
    iss >> nextWord;
    if (iss.bad() or nextWord != "LEAP") {
      return returnvalue::FAILED;
    }
    iss >> nextWord;
    if (iss.bad() or nextWord != "SECONDS:") {
      return returnvalue::FAILED;
    }
    iss >> nextWord;
    uint16_t leapSeconds = 0;
    leapSeconds = std::stoi(nextWord.c_str());
    if (iss.bad()) {
      return returnvalue::FAILED;
    }
    Clock::setLeapSeconds(leapSeconds);
    return returnvalue::OK;
  }
  sif::error
      << "CoreController::leapSecondsFileHandler: Initalization of leap seconds from file failed"
      << std::endl;
  return returnvalue::FAILED;
 };
 ReturnValue_t CoreController::writeLeapSecondsToFile(const uint16_t leapSeconds) {
  std::string fileName = currMntPrefix + LEAP_SECONDS_FILE;
  if (not sdcMan->isSdCardUsable(std::nullopt)) {
    return returnvalue::FAILED;
  }
  std::ofstream leapSecondsFile(fileName.c_str(), std::ofstream::out | std::ofstream::trunc);
  if (not leapSecondsFile.good()) {
    sif::error << "CoreController::leapSecondsFileHandler: Error opening leap seconds file: "
               << strerror(errno) << std::endl;
    return returnvalue::FAILED;
  }
  leapSecondsFile << "LEAP SECONDS: " << leapSeconds << std::endl;
  return returnvalue::OK;
 };
 ReturnValue_t CoreController::actionUpdateLeapSeconds(const uint8_t *data) {
  uint16_t leapSeconds = data[1] | (data[0] << 8);
  ReturnValue_t result = writeLeapSecondsToFile(leapSeconds);
  if (result != returnvalue::OK) {
    return result;
  }
  Clock::setLeapSeconds(leapSeconds);
  return returnvalue::OK;
 }
 ReturnValue_t CoreController::initClockFromTimeFile() {
  using namespace GpsHyperion;
  using namespace std;
  std::string fileName = currMntPrefix + BACKUP_TIME_FILE;
  std::error_code e;
  if (sdcMan->isSdCardUsable(std::nullopt) and std::filesystem::exists(fileName, e) and
-      ((gpsFix == FixMode::UNKNOWN or gpsFix == FixMode::NOT_SEEN) or
+      ((gpsFix == FixMode::NOT_SEEN) or not utility::timeSanityCheck())) {
       not utility::timeSanityCheck())) {
    ifstream timeFile(fileName);
    string nextWord;
    getline(timeFile, nextWord);
--- a/bsp_q7s/core/CoreController.h
+++ b/bsp_q7s/core/CoreController.h
@ -9,7 +9,7 @@
 #include <fsfw/parameters/ReceivesParameterMessagesIF.h>
 #include <fsfw_hal/linux/uio/UioMapper.h>
 #include <libxiphos.h>
-#include <mission/acs/archive/GPSDefinitions.h>
+#include <linux/acs/GPSDefinitions.h>
 #include <mission/utility/trace.h>
 #include <atomic>
@ -150,6 +150,8 @@ class CoreController : public ExtendedControllerBase, public ReceivesParameterMe
      std::string(core::LEGACY_REBOOT_WATCHDOG_FILE_NAME);
  const std::string REBOOT_WATCHDOG_FILE =
      "/" + std::string(core::CONF_FOLDER) + "/" + std::string(core::REBOOT_WATCHDOG_FILE_NAME);
  const std::string LEAP_SECONDS_FILE =
      "/" + std::string(core::CONF_FOLDER) + "/" + std::string(core::LEAP_SECONDS_FILE_NAME);
  const std::string BACKUP_TIME_FILE =
      "/" + std::string(core::CONF_FOLDER) + "/" + std::string(core::TIME_FILE_NAME);
  const std::string REBOOT_COUNTERS_FILE =
@ -209,7 +211,7 @@ class CoreController : public ExtendedControllerBase, public ReceivesParameterMe
  static constexpr MutexIF::TimeoutType TIMEOUT_TYPE = MutexIF::TimeoutType::WAITING;
  static constexpr uint32_t MUTEX_TIMEOUT = 20;
  bool enableHkSet = false;
-  GpsHyperion::FixMode gpsFix = GpsHyperion::FixMode::UNKNOWN;
+  GpsHyperion::FixMode gpsFix = GpsHyperion::FixMode::NOT_SEEN;
  // States for SD state machine, which is used in non-blocking mode
  enum class SdStates {
@ -296,6 +298,7 @@ class CoreController : public ExtendedControllerBase, public ReceivesParameterMe
  std::string currMntPrefix;
  bool timeFileInitDone = false;
  bool leapSecondsInitDone = false;
  bool performOneShotSdCardOpsSwitch = false;
  uint8_t shortSdCardCdCounter = 0;
 #if OBSW_THREAD_TRACING == 1
@ -335,7 +338,11 @@ class CoreController : public ExtendedControllerBase, public ReceivesParameterMe
  void performMountedSdCardOperations();
  ReturnValue_t initVersionFile();
  void initLeapSeconds();
  ReturnValue_t initLeapSecondsFromFile();
  ReturnValue_t initClockFromTimeFile();
  ReturnValue_t actionUpdateLeapSeconds(const uint8_t* data);
  ReturnValue_t writeLeapSecondsToFile(const uint16_t leapSeconds);
  ReturnValue_t performSdCardCheck();
  ReturnValue_t backupTimeFileHandler();
  ReturnValue_t initBootCopyFile();
--- a/bsp_q7s/em/emObjectFactory.cpp
+++ b/bsp_q7s/em/emObjectFactory.cpp
@ -152,7 +152,7 @@ void ObjectFactory::produce(void* args) {
 #endif
 #if OBSW_ADD_STAR_TRACKER == 1
-  createStrComponents(pwrSwitcher);
+  createStrComponents(pwrSwitcher, *SdCardManager::instance());
 #endif /* OBSW_ADD_STAR_TRACKER == 1 */
 #if OBSW_ADD_PL_PCDU == 1
@ -175,7 +175,7 @@ void ObjectFactory::produce(void* args) {
  createScexComponents(q7s::UART_SCEX_DEV, pwrSwitcher, *SdCardManager::instance(), false,
                       power::Switches::PDU1_CH5_SOLAR_CELL_EXP_5V);
 #endif
-  createAcsController(true, enableHkSets);
+  createAcsController(true, enableHkSets, *SdCardManager::instance());
  HeaterHandler* heaterHandler;
  createHeaterComponents(gpioComIF, pwrSwitcher, healthTable, heaterHandler);
  createThermalController(*heaterHandler, true);
--- a/bsp_q7s/fmObjectFactory.cpp
+++ b/bsp_q7s/fmObjectFactory.cpp
@ -109,7 +109,7 @@ void ObjectFactory::produce(void* args) {
  createPayloadComponents(gpioComIF, *pwrSwitcher);
 #if OBSW_ADD_STAR_TRACKER == 1
-  createStrComponents(pwrSwitcher);
+  createStrComponents(pwrSwitcher, *SdCardManager::instance());
 #endif /* OBSW_ADD_STAR_TRACKER == 1 */
 #if OBSW_ADD_CCSDS_IP_CORES == 1
@ -130,6 +130,6 @@ void ObjectFactory::produce(void* args) {
  createMiscComponents();
  createThermalController(*heaterHandler, false);
-  createAcsController(true, enableHkSets);
+  createAcsController(true, enableHkSets, *SdCardManager::instance());
  satsystem::init(false);
 }
--- a/bsp_q7s/objectFactory.cpp
+++ b/bsp_q7s/objectFactory.cpp
@ -10,10 +10,10 @@
 #include <linux/acs/RwPollingTask.h>
 #include <linux/acs/StrComHandler.h>
 #include <linux/com/SyrlinksComHandler.h>
 #include <linux/payload/FreshMpsocHandler.h>
 #include <linux/payload/MpsocCommunication.h>
 #include <linux/payload/PlocMemoryDumper.h>
 #include <linux/payload/PlocMpsocHandler.h>
 #include <linux/payload/PlocMpsocSpecialComHelper.h>
 #include <linux/payload/PlocSupervisorHandler.h>
 #include <linux/payload/ScexUartReader.h>
 #include <linux/payload/plocMpsocHelpers.h>
 #include <linux/power/CspComIF.h>
@ -37,11 +37,10 @@
 #include <cstring>
 #include "OBSWConfig.h"
 #include "bsp_q7s/acs/StrConfigPathGetter.h"
 #include "bsp_q7s/boardtest/Q7STestTask.h"
 #include "bsp_q7s/callbacks/gnssCallback.h"
 #include "bsp_q7s/callbacks/pcduSwitchCb.h"
 #include "bsp_q7s/callbacks/q7sGpioCallbacks.h"
 #include "bsp_q7s/callbacks/rwSpiCallback.h"
 #include "busConf.h"
 #include "ccsdsConfig.h"
 #include "devConf.h"
@ -49,6 +48,7 @@
 #include "devices/gpioIds.h"
 #include "devices/powerSwitcherList.h"
 #include "eive/definitions.h"
 #include "eive/objects.h"
 #include "fsfw/ipc/QueueFactory.h"
 #include "linux/ObjectFactory.h"
 #include "linux/boardtest/I2cTestClass.h"
@ -60,7 +60,12 @@
 #include "linux/ipcore/PdecHandler.h"
 #include "linux/ipcore/Ptme.h"
 #include "linux/ipcore/PtmeConfig.h"
 #include "linux/payload/FreshSupvHandler.h"
 #include "linux/payload/MpsocCommunication.h"
 #include "linux/payload/PlocMpsocSpecialComHelper.h"
 #include "linux/payload/SerialConfig.h"
 #include "mission/config/configfile.h"
 #include "mission/power/defs.h"
 #include "mission/system/acs/AcsBoardFdir.h"
 #include "mission/system/acs/AcsSubsystem.h"
 #include "mission/system/acs/RwAssembly.h"
@ -68,11 +73,11 @@
 #include "mission/system/acs/acsModeTree.h"
 #include "mission/system/com/SyrlinksFdir.h"
 #include "mission/system/com/comModeTree.h"
 #include "mission/system/payload/payloadModeTree.h"
 #include "mission/system/power/GomspacePowerFdir.h"
 #include "mission/system/tcs/RtdFdir.h"
 #include "mission/system/tcs/TcsBoardAssembly.h"
 #include "mission/system/tcs/tcsModeTree.h"
 #include "mission/system/tree/payloadModeTree.h"
 #include "mission/tmtc/tmFilters.h"
 #include "mission/utility/GlobalConfigHandler.h"
 #include "tmtc/pusIds.h"
@ -511,7 +516,7 @@ void ObjectFactory::createAcsBoardComponents(SpiComIF& spiComIF, LinuxLibgpioIF*
  debugGps = true;
 #endif
  RESET_ARGS_GNSS.gpioComIF = gpioComIF;
-  RESET_ARGS_GNSS.waitPeriodMs = 5;
+  RESET_ARGS_GNSS.waitPeriodMs = 10 * 1e3;
  auto gpsCtrl = new GpsHyperionLinuxController(objects::GPS_CONTROLLER, objects::NO_OBJECT,
                                                enableHkSets, debugGps);
  gpsCtrl->setResetPinTriggerFunction(gps::triggerGpioResetPin, &RESET_ARGS_GNSS);
@ -612,11 +617,11 @@ void ObjectFactory::createSyrlinksComponents(PowerSwitchIF* pwrSwitcher) {
 #endif
 }
-void ObjectFactory::createPayloadComponents(LinuxLibgpioIF* gpioComIF, PowerSwitchIF& pwrSwitch) {
+void ObjectFactory::createPayloadComponents(LinuxLibgpioIF* gpioComIF, PowerSwitchIF& pwrSwitcher) {
  using namespace gpio;
  std::stringstream consumer;
  auto* camSwitcher =
-      new CamSwitcher(objects::CAM_SWITCHER, pwrSwitch, power::PDU2_CH8_PAYLOAD_CAMERA);
+      new CamSwitcher(objects::CAM_SWITCHER, pwrSwitcher, power::PDU2_CH8_PAYLOAD_CAMERA);
  camSwitcher->connectModeTreeParent(satsystem::payload::SUBSYSTEM);
 #if OBSW_ADD_PLOC_MPSOC == 1
  consumer << "0x" << std::hex << objects::PLOC_MPSOC_HANDLER;
@ -625,14 +630,15 @@ void ObjectFactory::createPayloadComponents(LinuxLibgpioIF* gpioComIF, PowerSwit
  auto mpsocGpioCookie = new GpioCookie;
  mpsocGpioCookie->addGpio(gpioIds::ENABLE_MPSOC_UART, gpioConfigMPSoC);
  gpioChecker(gpioComIF->addGpios(mpsocGpioCookie), "PLOC MPSoC");
-  auto mpsocCookie =
+  SerialConfig serialCfg(q7s::UART_PLOC_MPSOC_DEV, serial::PLOC_MPSOC_BAUD, mpsoc::MAX_REPLY_SIZE,
-      new SerialCookie(objects::PLOC_MPSOC_HANDLER, q7s::UART_PLOC_MPSOC_DEV,
+                         UartModes::NON_CANONICAL);
-                       serial::PLOC_MPSOC_BAUD, mpsoc::MAX_REPLY_SIZE, UartModes::NON_CANONICAL);
+  auto mpsocCommunication = new MpsocCommunication(objects::PLOC_MPSOC_COMMUNICATION, serialCfg);
-  mpsocCookie->setNoFixedSizeReply();
+  auto specialComHelper =
-  auto plocMpsocHelper = new PlocMpsocSpecialComHelper(objects::PLOC_MPSOC_HELPER);
+      new PlocMpsocSpecialComHelper(objects::PLOC_MPSOC_HELPER, *mpsocCommunication);
-  auto* mpsocHandler = new PlocMpsocHandler(
+  DhbConfig dhbConf(objects::PLOC_MPSOC_HANDLER);
-      objects::PLOC_MPSOC_HANDLER, objects::UART_COM_IF, mpsocCookie, plocMpsocHelper,
+  auto* mpsocHandler = new FreshMpsocHandler(
-      Gpio(gpioIds::ENABLE_MPSOC_UART, gpioComIF), objects::PLOC_SUPERVISOR_HANDLER);
+      dhbConf, *mpsocCommunication, *specialComHelper, Gpio(gpioIds::ENABLE_MPSOC_UART, gpioComIF),
      objects::PLOC_SUPERVISOR_HANDLER, pwrSwitcher, power::PDU2_CH8_PAYLOAD_CAMERA);
  mpsocHandler->connectModeTreeParent(satsystem::payload::SUBSYSTEM);
 #endif /* OBSW_ADD_PLOC_MPSOC == 1 */
 #if OBSW_ADD_PLOC_SUPERVISOR == 1
@ -650,11 +656,11 @@ void ObjectFactory::createPayloadComponents(LinuxLibgpioIF* gpioComIF, PowerSwit
      new SerialCookie(objects::PLOC_SUPERVISOR_HANDLER, plocSupvDev, serial::PLOC_SUPV_BAUD,
                       supv::MAX_PACKET_SIZE * 20, UartModes::NON_CANONICAL);
  supervisorCookie->setNoFixedSizeReply();
-  auto supvHelper = new PlocSupvUartManager(objects::PLOC_SUPERVISOR_HELPER);
+  new PlocSupvUartManager(objects::PLOC_SUPERVISOR_HELPER);
-  auto* supvHandler = new PlocSupervisorHandler(objects::PLOC_SUPERVISOR_HANDLER, supervisorCookie,
+  dhbConf = DhbConfig(objects::PLOC_SUPERVISOR_HANDLER);
-                                                Gpio(gpioIds::ENABLE_SUPV_UART, gpioComIF),
+  auto* supvHandler =
-                                                power::PDU1_CH6_PLOC_12V, *supvHelper);
+      new FreshSupvHandler(dhbConf, supervisorCookie, Gpio(gpioIds::ENABLE_SUPV_UART, gpioComIF),
-  supvHandler->setPowerSwitcher(&pwrSwitch);
+                           pwrSwitcher, power::PDU1_CH6_PLOC_12V);
  supvHandler->connectModeTreeParent(satsystem::payload::SUBSYSTEM);
 #endif /* OBSW_ADD_PLOC_SUPERVISOR == 1 */
  static_cast<void>(consumer);
@ -935,7 +941,7 @@ void ObjectFactory::createTestComponents(LinuxLibgpioIF* gpioComIF) {
 #endif
 }
-void ObjectFactory::createStrComponents(PowerSwitchIF* pwrSwitcher) {
+void ObjectFactory::createStrComponents(PowerSwitchIF* pwrSwitcher, SdCardManager& sdcMan) {
  auto* strAssy = new StrAssembly(objects::STR_ASSY);
  strAssy->connectModeTreeParent(satsystem::acs::ACS_SUBSYSTEM);
  auto* starTrackerCookie =
@ -949,9 +955,10 @@ void ObjectFactory::createStrComponents(PowerSwitchIF* pwrSwitcher) {
    sif::error << "No valid Star Tracker parameter JSON file" << std::endl;
  }
  auto strFdir = new StrFdir(objects::STAR_TRACKER);
  auto cfgGetter = new StrConfigPathGetter(sdcMan);
  auto starTracker =
      new StarTrackerHandler(objects::STAR_TRACKER, objects::STR_COM_IF, starTrackerCookie,
-                             paramJsonFile, strComIF, power::PDU1_CH2_STAR_TRACKER_5V);
+                             strComIF, power::PDU1_CH2_STAR_TRACKER_5V, *cfgGetter, sdcMan);
  starTracker->setPowerSwitcher(pwrSwitcher);
  starTracker->connectModeTreeParent(*strAssy);
  starTracker->setCustomFdir(strFdir);
--- a/bsp_q7s/objectFactory.h
+++ b/bsp_q7s/objectFactory.h
@ -15,6 +15,8 @@
 #include <atomic>
 #include <string>
 #include "bsp_q7s/fs/SdCardManager.h"
 class LinuxLibgpioIF;
 class SerialComIF;
 class SpiComIF;
@ -75,7 +77,7 @@ void createHeaterComponents(GpioIF* gpioIF, PowerSwitchIF* pwrSwitcher, HealthTa
                            HeaterHandler*& heaterHandler);
 void createImtqComponents(PowerSwitchIF* pwrSwitcher, bool enableHkSets, const char* i2cDev);
 void createBpxBatteryComponent(bool enableHkSets, const char* i2cDev);
-void createStrComponents(PowerSwitchIF* pwrSwitcher);
+void createStrComponents(PowerSwitchIF* pwrSwitcher, SdCardManager& sdcMan);
 void createSolarArrayDeploymentComponents(PowerSwitchIF& pwrSwitcher, GpioIF& gpioIF);
 void createSyrlinksComponents(PowerSwitchIF* pwrSwitcher);
 void createPayloadComponents(LinuxLibgpioIF* gpioComIF, PowerSwitchIF& pwrSwitcher);
--- a/bsp_q7s/scheduling.cpp
+++ b/bsp_q7s/scheduling.cpp
@ -383,11 +383,9 @@ void scheduling::initTasks() {
  }
 #endif /* OBSW_ADD_PLOC_SUPERVISOR */
-  PeriodicTaskIF* plTask = factory->createPeriodicTask(
+  FixedTimeslotTaskIF* plTask = factory->createFixedTimeslotTask(
-      "PL_TASK", 25, PeriodicTaskIF::MINIMUM_STACK_SIZE, 0.5, missedDeadlineFunc, &RR_SCHEDULING);
+      "PL_TASK", 25, PeriodicTaskIF::MINIMUM_STACK_SIZE, 0.5, missedDeadlineFunc);
-  plTask->addComponent(objects::CAM_SWITCHER);
+  pst::pstPayload(plTask);
  scheduling::addMpsocSupvHandlers(plTask);
  scheduling::scheduleScexDev(plTask);
 #if OBSW_ADD_SCEX_DEVICE == 1
  PeriodicTaskIF* scexReaderTask;
--- a/cmake/scripts/q7s/q7s-make-debug.sh
+++ b/cmake/scripts/q7s/q7s-make-debug.sh
@ -24,6 +24,8 @@ if [ ! -z "${EIVE_Q7S_EM}" ]; then
    build_defs="EIVE_Q7S_EM=ON"
 fi
 build_defs="${build_defs} CMAKE_EXPORT_COMPILE_COMMANDS=ON" 
 os_fsfw="linux"
 tgt_bsp="arm/q7s"
 build_dir="cmake-build-debug-q7s"
--- a/cmake/scripts/q7s/q7s-make-release.sh
+++ b/cmake/scripts/q7s/q7s-make-release.sh
@ -24,6 +24,8 @@ if [ ! -z "${EIVE_Q7S_EM}" ]; then
    build_defs="EIVE_Q7S_EM=ON"
 fi
 build_defs="${build_defs} CMAKE_EXPORT_COMPILE_COMMANDS=ON" 
 os_fsfw="linux"
 tgt_bsp="arm/q7s"
 build_dir="cmake-build-release-q7s"
--- a/common/config/eive/definitions.h
+++ b/common/config/eive/definitions.h
@ -20,6 +20,9 @@ static constexpr char OBSW_VERSION_FILE_PATH[] = "/usr/share/eive-obsw/obsw_vers
 // ISO8601 timestamp.
 static constexpr char FILE_DATE_FORMAT[] = "%FT%H%M%SZ";
 // Leap Seconds as of 2024-03-04
 static constexpr uint16_t LEAP_SECONDS = 37;
 static constexpr uint16_t EIVE_PUS_APID = 0x65;
 static constexpr uint16_t EIVE_CFDP_APID = 0x66;
 static constexpr uint16_t EIVE_LOCAL_CFDP_ENTITY_ID = EIVE_CFDP_APID;
--- a/common/config/eive/objects.h
+++ b/common/config/eive/objects.h
@ -77,6 +77,7 @@ enum commonObjects : uint32_t {
  PLOC_MPSOC_HANDLER = 0x44330015,
  PLOC_SUPERVISOR_HANDLER = 0x44330016,
  PLOC_SUPERVISOR_HELPER = 0x44330017,
  PLOC_MPSOC_COMMUNICATION = 0x44330018,
  SCEX = 0x44330032,
  SOLAR_ARRAY_DEPL_HANDLER = 0x444100A2,
  HEATER_HANDLER = 0x444100A4,
--- a/common/config/eive/resultClassIds.h
+++ b/common/config/eive/resultClassIds.h
@ -42,6 +42,7 @@ enum commonClassIds : uint8_t {
  PERSISTENT_TM_STORE,      // PTM
  TM_SINK,                  // TMS
  VIRTUAL_CHANNEL,          // VCS
  PLOC_MPSOC_COM,           // PLMPCOM
  COMMON_CLASS_ID_END       // [EXPORT] : [END]
 };
 }
--- a/dummies/GpsCtrlDummy.h
+++ b/dummies/GpsCtrlDummy.h
@ -2,7 +2,7 @@
 #define DUMMIES_GPSCTRLDUMMY_H_
 #include <fsfw/controller/ExtendedControllerBase.h>
-#include <mission/acs/archive/GPSDefinitions.h>
+#include <linux/acs/GPSDefinitions.h>
 class GpsCtrlDummy : public ExtendedControllerBase {
 public:
--- a/dummies/GpsDhbDummy.cpp
+++ b/dummies/GpsDhbDummy.cpp
@ -1,5 +1,5 @@
 #include <dummies/GpsDhbDummy.h>
-#include <mission/acs/archive/GPSDefinitions.h>
+#include <linux/acs/GPSDefinitions.h>
 GpsDhbDummy::GpsDhbDummy(object_id_t objectId, object_id_t comif, CookieIF *comCookie)
    : DeviceHandlerBase(objectId, comif, comCookie) {}
--- a/dummies/helperFactory.cpp
+++ b/dummies/helperFactory.cpp
@ -40,8 +40,8 @@
 #include "mission/genericFactory.h"
 #include "mission/system/acs/acsModeTree.h"
 #include "mission/system/com/comModeTree.h"
 #include "mission/system/payload/payloadModeTree.h"
 #include "mission/system/tcs/tcsModeTree.h"
 #include "mission/system/tree/payloadModeTree.h"
 #include "mission/tcs/defs.h"
 void dummy::createDummies(DummyCfg cfg, PowerSwitchIF& pwrSwitcher, GpioIF* gpioIF,
--- a/2
+++ b/2
@ -1 +1 @@
-Subproject commit cc3e64e70d90f6a2b5c59215b2569c1771e890f0
+Subproject commit 42867ad0cba088ab1cb6cb672d001f991f7e4a60
--- a/generators/bsp_hosted_events.csv
+++ b/generators/bsp_hosted_events.csv
@ -75,9 +75,12 @@ Event ID (dec); Event ID (hex); Name; Severity; Description; File Path
 7902;0x1ede;BIT_LOCK;INFO;A Bit Lock signal. Was detected. P1: raw BLO state, P2: 0;fsfw/src/fsfw/datalinklayer/DataLinkLayer.h
 7903;0x1edf;BIT_LOCK_LOST;INFO;A previously found Bit Lock signal was lost. P1: raw BLO state, P2: 0;fsfw/src/fsfw/datalinklayer/DataLinkLayer.h
 7905;0x1ee1;FRAME_PROCESSING_FAILED;LOW;The CCSDS Board could not interpret a TC;fsfw/src/fsfw/datalinklayer/DataLinkLayer.h
-8900;0x22c4;CLOCK_SET;INFO;No description;fsfw/src/fsfw/pus/Service9TimeManagement.h
+8900;0x22c4;CLOCK_SET;INFO;Clock has been set. P1: old timeval seconds. P2: new timeval seconds.;fsfw/src/fsfw/pus/Service9TimeManagement.h
-8901;0x22c5;CLOCK_DUMP;INFO;No description;fsfw/src/fsfw/pus/Service9TimeManagement.h
+8901;0x22c5;CLOCK_DUMP_LEGACY;INFO;Clock dump event. P1: timeval seconds P2: timeval milliseconds.;fsfw/src/fsfw/pus/Service9TimeManagement.h
-8902;0x22c6;CLOCK_SET_FAILURE;LOW;No description;fsfw/src/fsfw/pus/Service9TimeManagement.h
+8902;0x22c6;CLOCK_SET_FAILURE;LOW;Clock could not be set. P1: Returncode.;fsfw/src/fsfw/pus/Service9TimeManagement.h
 8903;0x22c7;CLOCK_DUMP;INFO;Clock dump event. P1: timeval seconds P2: timeval microseconds.;fsfw/src/fsfw/pus/Service9TimeManagement.h
 8904;0x22c8;CLOCK_DUMP_BEFORE_SETTING_TIME;INFO;No description;fsfw/src/fsfw/pus/Service9TimeManagement.h
 8905;0x22c9;CLOCK_DUMP_AFTER_SETTING_TIME;INFO;No description;fsfw/src/fsfw/pus/Service9TimeManagement.h
 9100;0x238c;TC_DELETION_FAILED;MEDIUM;Deletion of a TC from the map failed. P1: First 32 bit of request ID, P2. Last 32 bit of Request ID;fsfw/src/fsfw/pus/Service11TelecommandScheduling.h
 9700;0x25e4;TEST;INFO;No description;fsfw/src/fsfw/pus/Service17Test.h
 10600;0x2968;CHANGE_OF_SETUP_PARAMETER;LOW;No description;fsfw/src/fsfw_hal/devicehandlers/MgmLIS3MDLHandler.h
@ -88,14 +91,17 @@ Event ID (dec); Event ID (hex); Name; Severity; Description; File Path
 10804;0x2a34;FILENAME_TOO_LARGE_ERROR;LOW;P1: Transaction step ID, P2: 0 for source file name, 1 for dest file name;fsfw/src/fsfw/cfdp/handler/defs.h
 10805;0x2a35;HANDLING_CFDP_REQUEST_FAILED;LOW;CFDP request handling failed. P2: Returncode.;fsfw/src/fsfw/cfdp/handler/defs.h
 11200;0x2bc0;SAFE_RATE_VIOLATION;MEDIUM;The limits for the rotation in safe mode were violated.;mission/acs/defs.h
-11201;0x2bc1;SAFE_RATE_RECOVERY;MEDIUM;The system has recovered from a safe rate rotation violation.;mission/acs/defs.h
+11201;0x2bc1;RATE_RECOVERY;MEDIUM;The system has recovered from a rate rotation violation.;mission/acs/defs.h
 11202;0x2bc2;MULTIPLE_RW_INVALID;HIGH;Multiple RWs are invalid, uncommandable and therefore higher ACS modes cannot be maintained.;mission/acs/defs.h
 11203;0x2bc3;MEKF_INVALID_INFO;INFO;MEKF was not able to compute a solution. P1: MEKF state on exit;mission/acs/defs.h
 11204;0x2bc4;MEKF_RECOVERY;INFO;MEKF is able to compute a solution again.;mission/acs/defs.h
 11205;0x2bc5;MEKF_AUTOMATIC_RESET;INFO;MEKF performed an automatic reset after detection of nonfinite values.;mission/acs/defs.h
-11206;0x2bc6;MEKF_INVALID_MODE_VIOLATION;HIGH;MEKF was not able to compute a solution during any pointing ACS mode for a prolonged time.;mission/acs/defs.h
+11206;0x2bc6;PTG_CTRL_NO_ATTITUDE_INFORMATION;HIGH;For a prolonged time, no attitude information was available for the Pointing Controller. Falling back to Safe Mode.;mission/acs/defs.h
 11207;0x2bc7;SAFE_MODE_CONTROLLER_FAILURE;HIGH;The ACS safe mode controller was not able to compute a solution and has failed. P1: Missing information about magnetic field, P2: Missing information about rotational rate;mission/acs/defs.h
 11208;0x2bc8;TLE_TOO_OLD;INFO;The TLE for the SGP4 Propagator has become too old.;mission/acs/defs.h
 11209;0x2bc9;TLE_FILE_READ_FAILED;LOW;The TLE could not be read from the filesystem.;mission/acs/defs.h
 11210;0x2bca;PTG_RATE_VIOLATION;MEDIUM;The limits for the rotation in pointing mode were violated.;mission/acs/defs.h
 11211;0x2bcb;DETUMBLE_TRANSITION_FAILED;HIGH;The detumble transition has failed. //! P1: Last detumble state before failure.;mission/acs/defs.h
 11300;0x2c24;SWITCH_CMD_SENT;INFO;Indicates that a FSFW object requested setting a switch P1: 1 if on was requested, 0 for off | P2: Switch Index;mission/power/defs.h
 11301;0x2c25;SWITCH_HAS_CHANGED;INFO;Indicated that a switch state has changed P1: New switch state, 1 for on, 0 for off | P2: Switch Index;mission/power/defs.h
 11302;0x2c26;SWITCHING_Q7S_DENIED;MEDIUM;No description;mission/power/defs.h
@ -122,14 +128,15 @@ Event ID (dec); Event ID (hex); Name; Severity; Description; File Path
 11506;0x2cf2;DEPL_SA1_GPIO_SWTICH_OFF_FAILED;HIGH;No description;mission/SolarArrayDeploymentHandler.h
 11507;0x2cf3;DEPL_SA2_GPIO_SWTICH_OFF_FAILED;HIGH;No description;mission/SolarArrayDeploymentHandler.h
 11508;0x2cf4;AUTONOMOUS_DEPLOYMENT_COMPLETED;INFO;No description;mission/SolarArrayDeploymentHandler.h
-11601;0x2d51;MEMORY_READ_RPT_CRC_FAILURE;LOW;PLOC crc failure in telemetry packet;linux/payload/PlocMpsocHandler.h
+11601;0x2d51;MEMORY_READ_RPT_CRC_FAILURE;LOW;PLOC crc failure in telemetry packet;linux/payload/plocMpsocHelpers.h
-11602;0x2d52;ACK_FAILURE;LOW;PLOC receive acknowledgment failure report P1: Command Id which leads the acknowledgment failure report P2: The status field inserted by the MPSoC into the data field;linux/payload/PlocMpsocHandler.h
+11602;0x2d52;ACK_FAILURE;LOW;PLOC receive acknowledgment failure report P1: Command Id which leads the acknowledgment failure report P2: The status field inserted by the MPSoC into the data field;linux/payload/plocMpsocHelpers.h
-11603;0x2d53;EXE_FAILURE;LOW;PLOC receive execution failure report P1: Command Id which leads the execution failure report P2: The status field inserted by the MPSoC into the data field;linux/payload/PlocMpsocHandler.h
+11603;0x2d53;EXE_FAILURE;LOW;PLOC receive execution failure report P1: Command Id which leads the execution failure report P2: The status field inserted by the MPSoC into the data field;linux/payload/plocMpsocHelpers.h
-11604;0x2d54;MPSOC_HANDLER_CRC_FAILURE;LOW;PLOC reply has invalid crc;linux/payload/PlocMpsocHandler.h
+11604;0x2d54;MPSOC_HANDLER_CRC_FAILURE;LOW;PLOC reply has invalid crc;linux/payload/plocMpsocHelpers.h
-11605;0x2d55;MPSOC_HANDLER_SEQUENCE_COUNT_MISMATCH;LOW;Packet sequence count in received space packet does not match expected count P1: Expected sequence count P2: Received sequence count;linux/payload/PlocMpsocHandler.h
+11605;0x2d55;MPSOC_HANDLER_SEQUENCE_COUNT_MISMATCH;LOW;Packet sequence count in received space packet does not match expected count P1: Expected sequence count P2: Received sequence count;linux/payload/plocMpsocHelpers.h
-11606;0x2d56;MPSOC_SHUTDOWN_FAILED;HIGH;Supervisor fails to shutdown MPSoC. Requires to power off the PLOC and thus also to shutdown the supervisor.;linux/payload/PlocMpsocHandler.h
+11606;0x2d56;MPSOC_SHUTDOWN_FAILED;HIGH;Supervisor fails to shutdown MPSoC. Requires to power off the PLOC and thus also to shutdown the supervisor.;linux/payload/plocMpsocHelpers.h
-11607;0x2d57;SUPV_NOT_ON;LOW;SUPV not on for boot or shutdown process. P1: 0 for OFF transition, 1 for ON transition.;linux/payload/PlocMpsocHandler.h
+11607;0x2d57;SUPV_NOT_ON;LOW;SUPV not on for boot or shutdown process. P1: 0 for OFF transition, 1 for ON transition.;linux/payload/plocMpsocHelpers.h
-11608;0x2d58;SUPV_REPLY_TIMEOUT;LOW;No description;linux/payload/PlocMpsocHandler.h
+11608;0x2d58;SUPV_REPLY_TIMEOUT;LOW;SUPV reply timeout.;linux/payload/plocMpsocHelpers.h
 11609;0x2d59;CAM_MUST_BE_ON_FOR_SNAPSHOT_MODE;LOW;Camera must be commanded on first.;linux/payload/plocMpsocHelpers.h
 11701;0x2db5;SELF_TEST_I2C_FAILURE;LOW;Get self test result returns I2C failure P1: Indicates on which axis the failure occurred. 0 -> INIT, 1 -> +X, 2 -> -X, 3 -> +Y, 4 -> -Y, 5 -> +Z, 6 -> -Z, 7 -> FINA;mission/acs/ImtqHandler.h
 11702;0x2db6;SELF_TEST_SPI_FAILURE;LOW;Get self test result returns SPI failure. This concerns the MTM connectivity. P1: Indicates on which axis the failure occurred. 0 -> INIT, 1 -> +X, 2 -> -X, 3 -> +Y, 4 -> -Y, 5 -> +Z, 6 -> -Z, 7 -> FINA;mission/acs/ImtqHandler.h
 11703;0x2db7;SELF_TEST_ADC_FAILURE;LOW;Get self test result returns failure in measurement of current and temperature. P1: Indicates on which axis the failure occurred. 0 -> INIT, 1 -> +X, 2 -> -X, 3 -> +Y, 4 -> -Y, 5 -> +Z, 6 -> -Z, 7 -> FINA;mission/acs/ImtqHandler.h
@ -143,14 +150,16 @@ Event ID (dec); Event ID (hex); Name; Severity; Description; File Path
 11901;0x2e7d;BOOTING_FIRMWARE_FAILED_EVENT;LOW;Failed to boot firmware;mission/acs/str/StarTrackerHandler.h
 11902;0x2e7e;BOOTING_BOOTLOADER_FAILED_EVENT;LOW;Failed to boot star tracker into bootloader mode;mission/acs/str/StarTrackerHandler.h
 11903;0x2e7f;COM_ERROR_REPLY_RECEIVED;LOW;Received COM error. P1:  Communication Error ID (datasheet p32);mission/acs/str/StarTrackerHandler.h
-12001;0x2ee1;SUPV_MEMORY_READ_RPT_CRC_FAILURE;LOW;PLOC supervisor crc failure in telemetry packet;linux/payload/PlocSupervisorHandler.h
+12001;0x2ee1;SUPV_MEMORY_READ_RPT_CRC_FAILURE;LOW;PLOC supervisor crc failure in telemetry packet;linux/payload/plocSupvDefs.h
-12002;0x2ee2;SUPV_UNKNOWN_TM;LOW;Unhandled event. P1: APID, P2: Service ID;linux/payload/PlocSupervisorHandler.h
+12002;0x2ee2;SUPV_UNKNOWN_TM;LOW;Unhandled event. P1: APID, P2: Service ID;linux/payload/plocSupvDefs.h
-12003;0x2ee3;SUPV_UNINIMPLEMENTED_TM;LOW;No description;linux/payload/PlocSupervisorHandler.h
+12003;0x2ee3;SUPV_UNINIMPLEMENTED_TM;LOW;No description;linux/payload/plocSupvDefs.h
-12004;0x2ee4;SUPV_ACK_FAILURE;LOW;PLOC supervisor received acknowledgment failure report;linux/payload/PlocSupervisorHandler.h
+12004;0x2ee4;SUPV_ACK_FAILURE;LOW;PLOC supervisor received acknowledgment failure report;linux/payload/plocSupvDefs.h
-12005;0x2ee5;SUPV_EXE_FAILURE;LOW;PLOC received execution failure report P1: ID of command for which the execution failed P2: Status code sent by the supervisor handler;linux/payload/PlocSupervisorHandler.h
+12005;0x2ee5;SUPV_EXE_FAILURE;LOW;PLOC received execution failure report P1: ID of command for which the execution failed P2: Status code sent by the supervisor handler;linux/payload/plocSupvDefs.h
-12006;0x2ee6;SUPV_CRC_FAILURE_EVENT;LOW;PLOC supervisor reply has invalid crc;linux/payload/PlocSupervisorHandler.h
+12006;0x2ee6;SUPV_CRC_FAILURE_EVENT;LOW;PLOC supervisor reply has invalid crc;linux/payload/plocSupvDefs.h
-12007;0x2ee7;SUPV_HELPER_EXECUTING;LOW;Supervisor helper currently executing a command;linux/payload/PlocSupervisorHandler.h
+12007;0x2ee7;SUPV_HELPER_EXECUTING;LOW;Supervisor helper currently executing a command;linux/payload/plocSupvDefs.h
-12008;0x2ee8;SUPV_MPSOC_SHUTDOWN_BUILD_FAILED;LOW;Failed to build the command to shutdown the MPSoC;linux/payload/PlocSupervisorHandler.h
+12008;0x2ee8;SUPV_MPSOC_SHUTDOWN_BUILD_FAILED;LOW;Failed to build the command to shutdown the MPSoC;linux/payload/plocSupvDefs.h
 12009;0x2ee9;SUPV_ACK_UNKNOWN_COMMAND;LOW;Received ACK, but no related command is unknown or has not been sent  by this software instance. P1: Module APID. P2: Service ID.;linux/payload/plocSupvDefs.h
 12010;0x2eea;SUPV_EXE_ACK_UNKNOWN_COMMAND;LOW;Received ACK EXE, but no related command is unknown or has not been sent  by this software instance. P1: Module APID. P2: Service ID.;linux/payload/plocSupvDefs.h
 12100;0x2f44;SANITIZATION_FAILED;LOW;No description;bsp_q7s/fs/SdCardManager.h
 12101;0x2f45;MOUNTED_SD_CARD;INFO;No description;bsp_q7s/fs/SdCardManager.h
 12300;0x300c;SEND_MRAM_DUMP_FAILED;LOW;Failed to send mram dump command to supervisor handler P1: Return value of commandAction function P2: Start address of MRAM to dump with this command;linux/payload/PlocMemoryDumper.h
@ -228,8 +237,9 @@ Event ID (dec); Event ID (hex); Name; Severity; Description; File Path
 12902;0x3266;POWER_STATE_MACHINE_TIMEOUT;MEDIUM;No description;mission/system/acs/SusAssembly.h
 12903;0x3267;SIDE_SWITCH_TRANSITION_NOT_ALLOWED;LOW;Not implemented, would increase already high complexity. Operator should instead command the assembly off first and then command the assembly on into the desired mode/submode combination;mission/system/acs/SusAssembly.h
 13000;0x32c8;CHILDREN_LOST_MODE;MEDIUM;No description;mission/system/tcs/TcsBoardAssembly.h
-13100;0x332c;GPS_FIX_CHANGE;INFO;Fix has changed. P1: Old fix. P2: New fix 0: Not seen, 1: No Fix, 2: 2D-Fix, 3: 3D-Fix;mission/acs/archive/GPSDefinitions.h
+13100;0x332c;GPS_FIX_CHANGE;INFO;Fix has changed. P1: New fix. P2: Missed fix changes 0: Not seen, 1: No Fix, 2: 2D-Fix, 3: 3D-Fix;linux/acs/GPSDefinitions.h
-13101;0x332d;CANT_GET_FIX;LOW;Could not get fix in maximum allowed time. P1: Maximum allowed time to get a fix after the GPS was switched on.;mission/acs/archive/GPSDefinitions.h
+13101;0x332d;CANT_GET_FIX;MEDIUM;Could not get fix in maximum allowed time. Trying to reset both GNSS devices. P1: Maximum allowed time to get a fix after the GPS was switched on.;linux/acs/GPSDefinitions.h
 13102;0x332e;RESET_FAIL;HIGH;Failed to reset an GNNS Device. P1: Board-Side.;linux/acs/GPSDefinitions.h
 13200;0x3390;P60_BOOT_COUNT;INFO;P60 boot count is broadcasted once at SW startup. P1: Boot count;mission/power/P60DockHandler.h
 13201;0x3391;BATT_MODE;INFO;Battery mode is broadcasted at startup. P1: Mode;mission/power/P60DockHandler.h
 13202;0x3392;BATT_MODE_CHANGED;MEDIUM;Battery mode has changed. P1: Old mode. P2: New mode;mission/power/P60DockHandler.h
--- a/generators/bsp_hosted_objects.csv
+++ b/generators/bsp_hosted_objects.csv
@ -57,6 +57,7 @@
 0x44330015;PLOC_MPSOC_HANDLER
 0x44330016;PLOC_SUPERVISOR_HANDLER
 0x44330017;PLOC_SUPERVISOR_HELPER
 0x44330018;PLOC_MPSOC_COMMUNICATION
 0x44330032;SCEX
 0x444100A2;SOLAR_ARRAY_DEPL_HANDLER
 0x444100A4;HEATER_HANDLER
--- a/generators/bsp_hosted_returnvalues.csv
+++ b/generators/bsp_hosted_returnvalues.csv
@ -387,6 +387,7 @@ Full ID (hex); Name; Description; Unique ID; Subsytem Name; File Path
 0x4304;PUS11_InvalidRelativeTime;No description;4;PUS_SERVICE_11;fsfw/src/fsfw/pus/Service11TelecommandScheduling.h
 0x4305;PUS11_ContainedTcTooSmall;No description;5;PUS_SERVICE_11;fsfw/src/fsfw/pus/Service11TelecommandScheduling.h
 0x4306;PUS11_ContainedTcCrcMissmatch;No description;6;PUS_SERVICE_11;fsfw/src/fsfw/pus/Service11TelecommandScheduling.h
 0x4307;PUS11_MapIsFull;No description;7;PUS_SERVICE_11;fsfw/src/fsfw/pus/Service11TelecommandScheduling.h
 0x4400;FILS_GenericFileError;No description;0;FILE_SYSTEM;fsfw/src/fsfw/filesystem/HasFileSystemIF.h
 0x4401;FILS_GenericDirError;No description;1;FILE_SYSTEM;fsfw/src/fsfw/filesystem/HasFileSystemIF.h
 0x4402;FILS_FilesystemInactive;No description;2;FILE_SYSTEM;fsfw/src/fsfw/filesystem/HasFileSystemIF.h
@ -453,6 +454,12 @@ Full ID (hex); Name; Description; Unique ID; Subsytem Name; File Path
 0x5208;IMTQ_CmdErrUnknown;No description;8;IMTQ_HANDLER;mission/acs/imtqHelpers.h
 0x5209;IMTQ_StartupCfgError;No description;9;IMTQ_HANDLER;mission/acs/imtqHelpers.h
 0x520a;IMTQ_UnexpectedSelfTestReply;The status reply to a self test command was received but no self test command has been sent. This should normally never happen.;10;IMTQ_HANDLER;mission/acs/imtqHelpers.h
 0x53a0;RWHA_InvalidSpeed;Action Message with invalid speed was received. Valid speeds must be in the range of [-65000, 1000] or [1000, 65000];160;RW_HANDLER;mission/acs/RwHandler.h
 0x53a1;RWHA_InvalidRampTime;Action Message with invalid ramp time was received.;161;RW_HANDLER;mission/acs/RwHandler.h
 0x53a2;RWHA_SetSpeedCommandInvalidLength;Received set speed command has invalid length. Should be 6.;162;RW_HANDLER;mission/acs/RwHandler.h
 0x53a3;RWHA_ExecutionFailed;Command execution failed;163;RW_HANDLER;mission/acs/RwHandler.h
 0x53a4;RWHA_CrcError;Reaction wheel reply has invalid crc;164;RW_HANDLER;mission/acs/RwHandler.h
 0x53a5;RWHA_ValueNotRead;No description;165;RW_HANDLER;mission/acs/RwHandler.h
 0x53b0;RWHA_SpiWriteFailure;No description;176;RW_HANDLER;mission/acs/rwHelpers.h
 0x53b1;RWHA_SpiReadFailure;Used by the spi send function to tell a failing read call;177;RW_HANDLER;mission/acs/rwHelpers.h
 0x53b2;RWHA_MissingStartSign;Can be used by the HDLC decoding mechanism to inform about a missing start sign 0x7E;178;RW_HANDLER;mission/acs/rwHelpers.h
@ -486,12 +493,8 @@ Full ID (hex); Name; Description; Unique ID; Subsytem Name; File Path
 0x54b6;STRH_StartrackerAlreadyBooted;Star tracker is already in firmware mode;182;STR_HANDLER;mission/acs/str/StarTrackerHandler.h
 0x54b7;STRH_StartrackerNotRunningFirmware;Star tracker must be in firmware mode to run this command;183;STR_HANDLER;mission/acs/str/StarTrackerHandler.h
 0x54b8;STRH_StartrackerNotRunningBootloader;Star tracker must be in bootloader mode to run this command;184;STR_HANDLER;mission/acs/str/StarTrackerHandler.h
-0x59a0;SUSS_InvalidSpeed;Action Message with invalid speed was received. Valid speeds must be in the range of [-65000, 1000] or [1000, 65000];160;SUS_HANDLER;mission/acs/RwHandler.h
+0x59a0;SUSS_ErrorUnlockMutex;No description;160;SUS_HANDLER;mission/acs/archive/LegacySusHandler.h
-0x59a1;SUSS_InvalidRampTime;Action Message with invalid ramp time was received.;161;SUS_HANDLER;mission/acs/RwHandler.h
+0x59a1;SUSS_ErrorLockMutex;No description;161;SUS_HANDLER;mission/acs/archive/LegacySusHandler.h
 0x59a2;SUSS_SetSpeedCommandInvalidLength;Received set speed command has invalid length. Should be 6.;162;SUS_HANDLER;mission/acs/RwHandler.h
 0x59a3;SUSS_ExecutionFailed;Command execution failed;163;SUS_HANDLER;mission/acs/RwHandler.h
 0x59a4;SUSS_CrcError;Reaction wheel reply has invalid crc;164;SUS_HANDLER;mission/acs/RwHandler.h
 0x59a5;SUSS_ValueNotRead;No description;165;SUS_HANDLER;mission/acs/RwHandler.h
 0x5e00;GOMS_PacketTooLong;No description;0;GOM_SPACE_HANDLER;mission/power/GomspaceDeviceHandler.h
 0x5e01;GOMS_InvalidTableId;No description;1;GOM_SPACE_HANDLER;mission/power/GomspaceDeviceHandler.h
 0x5e02;GOMS_InvalidAddress;No description;2;GOM_SPACE_HANDLER;mission/power/GomspaceDeviceHandler.h
@ -508,7 +511,11 @@ Full ID (hex); Name; Description; Unique ID; Subsytem Name; File Path
 0x67a2;SADPL_MainSwitchTimeoutFailure;No description;162;SA_DEPL_HANDLER;mission/SolarArrayDeploymentHandler.h
 0x67a3;SADPL_SwitchingDeplSa1Failed;No description;163;SA_DEPL_HANDLER;mission/SolarArrayDeploymentHandler.h
 0x67a4;SADPL_SwitchingDeplSa2Failed;No description;164;SA_DEPL_HANDLER;mission/SolarArrayDeploymentHandler.h
-0x6a00;ACSCTRL_FileDeletionFailed;File deletion failed and at least one file is still existent.;0;ACS_CTRL;mission/controller/AcsController.h
+0x6aa0;ACSCTRL_FileDeletionFailed;File deletion failed and at least one file is still existent.;160;ACS_CTRL;mission/controller/controllerdefinitions/AcsCtrlDefinitions.h
 0x6aa1;ACSCTRL_WriteFileFailed;Writing the TLE to the file has failed.;161;ACS_CTRL;mission/controller/controllerdefinitions/AcsCtrlDefinitions.h
 0x6aa2;ACSCTRL_ReadFileFailed;Reading the TLE to the file has failed.;162;ACS_CTRL;mission/controller/controllerdefinitions/AcsCtrlDefinitions.h
 0x6aa3;ACSCTRL_SingleRwUnavailable;A single RW has failed.;163;ACS_CTRL;mission/controller/controllerdefinitions/AcsCtrlDefinitions.h
 0x6aa4;ACSCTRL_MultipleRwUnavailable;Multiple RWs have failed.;164;ACS_CTRL;mission/controller/controllerdefinitions/AcsCtrlDefinitions.h
 0x6b02;ACSMEKF_MekfUninitialized;No description;2;ACS_MEKF;mission/controller/acs/MultiplicativeKalmanFilter.h
 0x6b03;ACSMEKF_MekfNoGyrData;No description;3;ACS_MEKF;mission/controller/acs/MultiplicativeKalmanFilter.h
 0x6b04;ACSMEKF_MekfNoModelVectors;No description;4;ACS_MEKF;mission/controller/acs/MultiplicativeKalmanFilter.h
@ -522,4 +529,5 @@ Full ID (hex); Name; Description; Unique ID; Subsytem Name; File Path
 0x6f00;TMS_IsBusy;No description;0;TM_SINK;mission/tmtc/DirectTmSinkIF.h
 0x6f01;TMS_PartiallyWritten;No description;1;TM_SINK;mission/tmtc/DirectTmSinkIF.h
 0x6f02;TMS_NoWriteActive;No description;2;TM_SINK;mission/tmtc/DirectTmSinkIF.h
 0x6f03;TMS_Timeout;No description;3;TM_SINK;mission/tmtc/DirectTmSinkIF.h
 0x7000;VCS_ChannelDoesNotExist;No description;0;VIRTUAL_CHANNEL;mission/com/VirtualChannel.h
--- a/generators/bsp_q7s_events.csv
+++ b/generators/bsp_q7s_events.csv
@ -75,9 +75,12 @@ Event ID (dec); Event ID (hex); Name; Severity; Description; File Path
 7902;0x1ede;BIT_LOCK;INFO;A Bit Lock signal. Was detected. P1: raw BLO state, P2: 0;fsfw/src/fsfw/datalinklayer/DataLinkLayer.h
 7903;0x1edf;BIT_LOCK_LOST;INFO;A previously found Bit Lock signal was lost. P1: raw BLO state, P2: 0;fsfw/src/fsfw/datalinklayer/DataLinkLayer.h
 7905;0x1ee1;FRAME_PROCESSING_FAILED;LOW;The CCSDS Board could not interpret a TC;fsfw/src/fsfw/datalinklayer/DataLinkLayer.h
-8900;0x22c4;CLOCK_SET;INFO;No description;fsfw/src/fsfw/pus/Service9TimeManagement.h
+8900;0x22c4;CLOCK_SET;INFO;Clock has been set. P1: old timeval seconds. P2: new timeval seconds.;fsfw/src/fsfw/pus/Service9TimeManagement.h
-8901;0x22c5;CLOCK_DUMP;INFO;No description;fsfw/src/fsfw/pus/Service9TimeManagement.h
+8901;0x22c5;CLOCK_DUMP_LEGACY;INFO;Clock dump event. P1: timeval seconds P2: timeval milliseconds.;fsfw/src/fsfw/pus/Service9TimeManagement.h
-8902;0x22c6;CLOCK_SET_FAILURE;LOW;No description;fsfw/src/fsfw/pus/Service9TimeManagement.h
+8902;0x22c6;CLOCK_SET_FAILURE;LOW;Clock could not be set. P1: Returncode.;fsfw/src/fsfw/pus/Service9TimeManagement.h
 8903;0x22c7;CLOCK_DUMP;INFO;Clock dump event. P1: timeval seconds P2: timeval microseconds.;fsfw/src/fsfw/pus/Service9TimeManagement.h
 8904;0x22c8;CLOCK_DUMP_BEFORE_SETTING_TIME;INFO;No description;fsfw/src/fsfw/pus/Service9TimeManagement.h
 8905;0x22c9;CLOCK_DUMP_AFTER_SETTING_TIME;INFO;No description;fsfw/src/fsfw/pus/Service9TimeManagement.h
 9100;0x238c;TC_DELETION_FAILED;MEDIUM;Deletion of a TC from the map failed. P1: First 32 bit of request ID, P2. Last 32 bit of Request ID;fsfw/src/fsfw/pus/Service11TelecommandScheduling.h
 9700;0x25e4;TEST;INFO;No description;fsfw/src/fsfw/pus/Service17Test.h
 10600;0x2968;CHANGE_OF_SETUP_PARAMETER;LOW;No description;fsfw/src/fsfw_hal/devicehandlers/MgmLIS3MDLHandler.h
@ -88,14 +91,17 @@ Event ID (dec); Event ID (hex); Name; Severity; Description; File Path
 10804;0x2a34;FILENAME_TOO_LARGE_ERROR;LOW;P1: Transaction step ID, P2: 0 for source file name, 1 for dest file name;fsfw/src/fsfw/cfdp/handler/defs.h
 10805;0x2a35;HANDLING_CFDP_REQUEST_FAILED;LOW;CFDP request handling failed. P2: Returncode.;fsfw/src/fsfw/cfdp/handler/defs.h
 11200;0x2bc0;SAFE_RATE_VIOLATION;MEDIUM;The limits for the rotation in safe mode were violated.;mission/acs/defs.h
-11201;0x2bc1;SAFE_RATE_RECOVERY;MEDIUM;The system has recovered from a safe rate rotation violation.;mission/acs/defs.h
+11201;0x2bc1;RATE_RECOVERY;MEDIUM;The system has recovered from a rate rotation violation.;mission/acs/defs.h
 11202;0x2bc2;MULTIPLE_RW_INVALID;HIGH;Multiple RWs are invalid, uncommandable and therefore higher ACS modes cannot be maintained.;mission/acs/defs.h
 11203;0x2bc3;MEKF_INVALID_INFO;INFO;MEKF was not able to compute a solution. P1: MEKF state on exit;mission/acs/defs.h
 11204;0x2bc4;MEKF_RECOVERY;INFO;MEKF is able to compute a solution again.;mission/acs/defs.h
 11205;0x2bc5;MEKF_AUTOMATIC_RESET;INFO;MEKF performed an automatic reset after detection of nonfinite values.;mission/acs/defs.h
-11206;0x2bc6;MEKF_INVALID_MODE_VIOLATION;HIGH;MEKF was not able to compute a solution during any pointing ACS mode for a prolonged time.;mission/acs/defs.h
+11206;0x2bc6;PTG_CTRL_NO_ATTITUDE_INFORMATION;HIGH;For a prolonged time, no attitude information was available for the Pointing Controller. Falling back to Safe Mode.;mission/acs/defs.h
 11207;0x2bc7;SAFE_MODE_CONTROLLER_FAILURE;HIGH;The ACS safe mode controller was not able to compute a solution and has failed. P1: Missing information about magnetic field, P2: Missing information about rotational rate;mission/acs/defs.h
 11208;0x2bc8;TLE_TOO_OLD;INFO;The TLE for the SGP4 Propagator has become too old.;mission/acs/defs.h
 11209;0x2bc9;TLE_FILE_READ_FAILED;LOW;The TLE could not be read from the filesystem.;mission/acs/defs.h
 11210;0x2bca;PTG_RATE_VIOLATION;MEDIUM;The limits for the rotation in pointing mode were violated.;mission/acs/defs.h
 11211;0x2bcb;DETUMBLE_TRANSITION_FAILED;HIGH;The detumble transition has failed. //! P1: Last detumble state before failure.;mission/acs/defs.h
 11300;0x2c24;SWITCH_CMD_SENT;INFO;Indicates that a FSFW object requested setting a switch P1: 1 if on was requested, 0 for off | P2: Switch Index;mission/power/defs.h
 11301;0x2c25;SWITCH_HAS_CHANGED;INFO;Indicated that a switch state has changed P1: New switch state, 1 for on, 0 for off | P2: Switch Index;mission/power/defs.h
 11302;0x2c26;SWITCHING_Q7S_DENIED;MEDIUM;No description;mission/power/defs.h
@ -122,14 +128,15 @@ Event ID (dec); Event ID (hex); Name; Severity; Description; File Path
 11506;0x2cf2;DEPL_SA1_GPIO_SWTICH_OFF_FAILED;HIGH;No description;mission/SolarArrayDeploymentHandler.h
 11507;0x2cf3;DEPL_SA2_GPIO_SWTICH_OFF_FAILED;HIGH;No description;mission/SolarArrayDeploymentHandler.h
 11508;0x2cf4;AUTONOMOUS_DEPLOYMENT_COMPLETED;INFO;No description;mission/SolarArrayDeploymentHandler.h
-11601;0x2d51;MEMORY_READ_RPT_CRC_FAILURE;LOW;PLOC crc failure in telemetry packet;linux/payload/PlocMpsocHandler.h
+11601;0x2d51;MEMORY_READ_RPT_CRC_FAILURE;LOW;PLOC crc failure in telemetry packet;linux/payload/plocMpsocHelpers.h
-11602;0x2d52;ACK_FAILURE;LOW;PLOC receive acknowledgment failure report P1: Command Id which leads the acknowledgment failure report P2: The status field inserted by the MPSoC into the data field;linux/payload/PlocMpsocHandler.h
+11602;0x2d52;ACK_FAILURE;LOW;PLOC receive acknowledgment failure report P1: Command Id which leads the acknowledgment failure report P2: The status field inserted by the MPSoC into the data field;linux/payload/plocMpsocHelpers.h
-11603;0x2d53;EXE_FAILURE;LOW;PLOC receive execution failure report P1: Command Id which leads the execution failure report P2: The status field inserted by the MPSoC into the data field;linux/payload/PlocMpsocHandler.h
+11603;0x2d53;EXE_FAILURE;LOW;PLOC receive execution failure report P1: Command Id which leads the execution failure report P2: The status field inserted by the MPSoC into the data field;linux/payload/plocMpsocHelpers.h
-11604;0x2d54;MPSOC_HANDLER_CRC_FAILURE;LOW;PLOC reply has invalid crc;linux/payload/PlocMpsocHandler.h
+11604;0x2d54;MPSOC_HANDLER_CRC_FAILURE;LOW;PLOC reply has invalid crc;linux/payload/plocMpsocHelpers.h
-11605;0x2d55;MPSOC_HANDLER_SEQUENCE_COUNT_MISMATCH;LOW;Packet sequence count in received space packet does not match expected count P1: Expected sequence count P2: Received sequence count;linux/payload/PlocMpsocHandler.h
+11605;0x2d55;MPSOC_HANDLER_SEQUENCE_COUNT_MISMATCH;LOW;Packet sequence count in received space packet does not match expected count P1: Expected sequence count P2: Received sequence count;linux/payload/plocMpsocHelpers.h
-11606;0x2d56;MPSOC_SHUTDOWN_FAILED;HIGH;Supervisor fails to shutdown MPSoC. Requires to power off the PLOC and thus also to shutdown the supervisor.;linux/payload/PlocMpsocHandler.h
+11606;0x2d56;MPSOC_SHUTDOWN_FAILED;HIGH;Supervisor fails to shutdown MPSoC. Requires to power off the PLOC and thus also to shutdown the supervisor.;linux/payload/plocMpsocHelpers.h
-11607;0x2d57;SUPV_NOT_ON;LOW;SUPV not on for boot or shutdown process. P1: 0 for OFF transition, 1 for ON transition.;linux/payload/PlocMpsocHandler.h
+11607;0x2d57;SUPV_NOT_ON;LOW;SUPV not on for boot or shutdown process. P1: 0 for OFF transition, 1 for ON transition.;linux/payload/plocMpsocHelpers.h
-11608;0x2d58;SUPV_REPLY_TIMEOUT;LOW;No description;linux/payload/PlocMpsocHandler.h
+11608;0x2d58;SUPV_REPLY_TIMEOUT;LOW;SUPV reply timeout.;linux/payload/plocMpsocHelpers.h
 11609;0x2d59;CAM_MUST_BE_ON_FOR_SNAPSHOT_MODE;LOW;Camera must be commanded on first.;linux/payload/plocMpsocHelpers.h
 11701;0x2db5;SELF_TEST_I2C_FAILURE;LOW;Get self test result returns I2C failure P1: Indicates on which axis the failure occurred. 0 -> INIT, 1 -> +X, 2 -> -X, 3 -> +Y, 4 -> -Y, 5 -> +Z, 6 -> -Z, 7 -> FINA;mission/acs/ImtqHandler.h
 11702;0x2db6;SELF_TEST_SPI_FAILURE;LOW;Get self test result returns SPI failure. This concerns the MTM connectivity. P1: Indicates on which axis the failure occurred. 0 -> INIT, 1 -> +X, 2 -> -X, 3 -> +Y, 4 -> -Y, 5 -> +Z, 6 -> -Z, 7 -> FINA;mission/acs/ImtqHandler.h
 11703;0x2db7;SELF_TEST_ADC_FAILURE;LOW;Get self test result returns failure in measurement of current and temperature. P1: Indicates on which axis the failure occurred. 0 -> INIT, 1 -> +X, 2 -> -X, 3 -> +Y, 4 -> -Y, 5 -> +Z, 6 -> -Z, 7 -> FINA;mission/acs/ImtqHandler.h
@ -143,14 +150,16 @@ Event ID (dec); Event ID (hex); Name; Severity; Description; File Path
 11901;0x2e7d;BOOTING_FIRMWARE_FAILED_EVENT;LOW;Failed to boot firmware;mission/acs/str/StarTrackerHandler.h
 11902;0x2e7e;BOOTING_BOOTLOADER_FAILED_EVENT;LOW;Failed to boot star tracker into bootloader mode;mission/acs/str/StarTrackerHandler.h
 11903;0x2e7f;COM_ERROR_REPLY_RECEIVED;LOW;Received COM error. P1:  Communication Error ID (datasheet p32);mission/acs/str/StarTrackerHandler.h
-12001;0x2ee1;SUPV_MEMORY_READ_RPT_CRC_FAILURE;LOW;PLOC supervisor crc failure in telemetry packet;linux/payload/PlocSupervisorHandler.h
+12001;0x2ee1;SUPV_MEMORY_READ_RPT_CRC_FAILURE;LOW;PLOC supervisor crc failure in telemetry packet;linux/payload/plocSupvDefs.h
-12002;0x2ee2;SUPV_UNKNOWN_TM;LOW;Unhandled event. P1: APID, P2: Service ID;linux/payload/PlocSupervisorHandler.h
+12002;0x2ee2;SUPV_UNKNOWN_TM;LOW;Unhandled event. P1: APID, P2: Service ID;linux/payload/plocSupvDefs.h
-12003;0x2ee3;SUPV_UNINIMPLEMENTED_TM;LOW;No description;linux/payload/PlocSupervisorHandler.h
+12003;0x2ee3;SUPV_UNINIMPLEMENTED_TM;LOW;No description;linux/payload/plocSupvDefs.h
-12004;0x2ee4;SUPV_ACK_FAILURE;LOW;PLOC supervisor received acknowledgment failure report;linux/payload/PlocSupervisorHandler.h
+12004;0x2ee4;SUPV_ACK_FAILURE;LOW;PLOC supervisor received acknowledgment failure report;linux/payload/plocSupvDefs.h
-12005;0x2ee5;SUPV_EXE_FAILURE;LOW;PLOC received execution failure report P1: ID of command for which the execution failed P2: Status code sent by the supervisor handler;linux/payload/PlocSupervisorHandler.h
+12005;0x2ee5;SUPV_EXE_FAILURE;LOW;PLOC received execution failure report P1: ID of command for which the execution failed P2: Status code sent by the supervisor handler;linux/payload/plocSupvDefs.h
-12006;0x2ee6;SUPV_CRC_FAILURE_EVENT;LOW;PLOC supervisor reply has invalid crc;linux/payload/PlocSupervisorHandler.h
+12006;0x2ee6;SUPV_CRC_FAILURE_EVENT;LOW;PLOC supervisor reply has invalid crc;linux/payload/plocSupvDefs.h
-12007;0x2ee7;SUPV_HELPER_EXECUTING;LOW;Supervisor helper currently executing a command;linux/payload/PlocSupervisorHandler.h
+12007;0x2ee7;SUPV_HELPER_EXECUTING;LOW;Supervisor helper currently executing a command;linux/payload/plocSupvDefs.h
-12008;0x2ee8;SUPV_MPSOC_SHUTDOWN_BUILD_FAILED;LOW;Failed to build the command to shutdown the MPSoC;linux/payload/PlocSupervisorHandler.h
+12008;0x2ee8;SUPV_MPSOC_SHUTDOWN_BUILD_FAILED;LOW;Failed to build the command to shutdown the MPSoC;linux/payload/plocSupvDefs.h
 12009;0x2ee9;SUPV_ACK_UNKNOWN_COMMAND;LOW;Received ACK, but no related command is unknown or has not been sent  by this software instance. P1: Module APID. P2: Service ID.;linux/payload/plocSupvDefs.h
 12010;0x2eea;SUPV_EXE_ACK_UNKNOWN_COMMAND;LOW;Received ACK EXE, but no related command is unknown or has not been sent  by this software instance. P1: Module APID. P2: Service ID.;linux/payload/plocSupvDefs.h
 12100;0x2f44;SANITIZATION_FAILED;LOW;No description;bsp_q7s/fs/SdCardManager.h
 12101;0x2f45;MOUNTED_SD_CARD;INFO;No description;bsp_q7s/fs/SdCardManager.h
 12300;0x300c;SEND_MRAM_DUMP_FAILED;LOW;Failed to send mram dump command to supervisor handler P1: Return value of commandAction function P2: Start address of MRAM to dump with this command;linux/payload/PlocMemoryDumper.h
@ -228,8 +237,9 @@ Event ID (dec); Event ID (hex); Name; Severity; Description; File Path
 12902;0x3266;POWER_STATE_MACHINE_TIMEOUT;MEDIUM;No description;mission/system/acs/SusAssembly.h
 12903;0x3267;SIDE_SWITCH_TRANSITION_NOT_ALLOWED;LOW;Not implemented, would increase already high complexity. Operator should instead command the assembly off first and then command the assembly on into the desired mode/submode combination;mission/system/acs/SusAssembly.h
 13000;0x32c8;CHILDREN_LOST_MODE;MEDIUM;No description;mission/system/tcs/TcsBoardAssembly.h
-13100;0x332c;GPS_FIX_CHANGE;INFO;Fix has changed. P1: Old fix. P2: New fix 0: Not seen, 1: No Fix, 2: 2D-Fix, 3: 3D-Fix;mission/acs/archive/GPSDefinitions.h
+13100;0x332c;GPS_FIX_CHANGE;INFO;Fix has changed. P1: New fix. P2: Missed fix changes 0: Not seen, 1: No Fix, 2: 2D-Fix, 3: 3D-Fix;linux/acs/GPSDefinitions.h
-13101;0x332d;CANT_GET_FIX;LOW;Could not get fix in maximum allowed time. P1: Maximum allowed time to get a fix after the GPS was switched on.;mission/acs/archive/GPSDefinitions.h
+13101;0x332d;CANT_GET_FIX;MEDIUM;Could not get fix in maximum allowed time. Trying to reset both GNSS devices. P1: Maximum allowed time to get a fix after the GPS was switched on.;linux/acs/GPSDefinitions.h
 13102;0x332e;RESET_FAIL;HIGH;Failed to reset an GNNS Device. P1: Board-Side.;linux/acs/GPSDefinitions.h
 13200;0x3390;P60_BOOT_COUNT;INFO;P60 boot count is broadcasted once at SW startup. P1: Boot count;mission/power/P60DockHandler.h
 13201;0x3391;BATT_MODE;INFO;Battery mode is broadcasted at startup. P1: Mode;mission/power/P60DockHandler.h
 13202;0x3392;BATT_MODE_CHANGED;MEDIUM;Battery mode has changed. P1: Old mode. P2: New mode;mission/power/P60DockHandler.h
--- a/generators/bsp_q7s_objects.csv
+++ b/generators/bsp_q7s_objects.csv
@ -56,6 +56,7 @@
 0x44330015;PLOC_MPSOC_HANDLER
 0x44330016;PLOC_SUPERVISOR_HANDLER
 0x44330017;PLOC_SUPERVISOR_HELPER
 0x44330018;PLOC_MPSOC_COMMUNICATION
 0x44330032;SCEX
 0x444100A2;SOLAR_ARRAY_DEPL_HANDLER
 0x444100A4;HEATER_HANDLER
--- a/generators/bsp_q7s_returnvalues.csv
+++ b/generators/bsp_q7s_returnvalues.csv
@ -387,6 +387,7 @@ Full ID (hex); Name; Description; Unique ID; Subsytem Name; File Path
 0x4304;PUS11_InvalidRelativeTime;No description;4;PUS_SERVICE_11;fsfw/src/fsfw/pus/Service11TelecommandScheduling.h
 0x4305;PUS11_ContainedTcTooSmall;No description;5;PUS_SERVICE_11;fsfw/src/fsfw/pus/Service11TelecommandScheduling.h
 0x4306;PUS11_ContainedTcCrcMissmatch;No description;6;PUS_SERVICE_11;fsfw/src/fsfw/pus/Service11TelecommandScheduling.h
 0x4307;PUS11_MapIsFull;No description;7;PUS_SERVICE_11;fsfw/src/fsfw/pus/Service11TelecommandScheduling.h
 0x4400;FILS_GenericFileError;No description;0;FILE_SYSTEM;fsfw/src/fsfw/filesystem/HasFileSystemIF.h
 0x4401;FILS_GenericDirError;No description;1;FILE_SYSTEM;fsfw/src/fsfw/filesystem/HasFileSystemIF.h
 0x4402;FILS_FilesystemInactive;No description;2;FILE_SYSTEM;fsfw/src/fsfw/filesystem/HasFileSystemIF.h
@ -453,6 +454,12 @@ Full ID (hex); Name; Description; Unique ID; Subsytem Name; File Path
 0x5208;IMTQ_CmdErrUnknown;No description;8;IMTQ_HANDLER;mission/acs/imtqHelpers.h
 0x5209;IMTQ_StartupCfgError;No description;9;IMTQ_HANDLER;mission/acs/imtqHelpers.h
 0x520a;IMTQ_UnexpectedSelfTestReply;The status reply to a self test command was received but no self test command has been sent. This should normally never happen.;10;IMTQ_HANDLER;mission/acs/imtqHelpers.h
 0x53a0;RWHA_InvalidSpeed;Action Message with invalid speed was received. Valid speeds must be in the range of [-65000, 1000] or [1000, 65000];160;RW_HANDLER;mission/acs/RwHandler.h
 0x53a1;RWHA_InvalidRampTime;Action Message with invalid ramp time was received.;161;RW_HANDLER;mission/acs/RwHandler.h
 0x53a2;RWHA_SetSpeedCommandInvalidLength;Received set speed command has invalid length. Should be 6.;162;RW_HANDLER;mission/acs/RwHandler.h
 0x53a3;RWHA_ExecutionFailed;Command execution failed;163;RW_HANDLER;mission/acs/RwHandler.h
 0x53a4;RWHA_CrcError;Reaction wheel reply has invalid crc;164;RW_HANDLER;mission/acs/RwHandler.h
 0x53a5;RWHA_ValueNotRead;No description;165;RW_HANDLER;mission/acs/RwHandler.h
 0x53b0;RWHA_SpiWriteFailure;No description;176;RW_HANDLER;mission/acs/rwHelpers.h
 0x53b1;RWHA_SpiReadFailure;Used by the spi send function to tell a failing read call;177;RW_HANDLER;mission/acs/rwHelpers.h
 0x53b2;RWHA_MissingStartSign;Can be used by the HDLC decoding mechanism to inform about a missing start sign 0x7E;178;RW_HANDLER;mission/acs/rwHelpers.h
@ -498,12 +505,8 @@ Full ID (hex); Name; Description; Unique ID; Subsytem Name; File Path
 0x58a1;PLSPVhLP_ProcessTerminated;Process has been terminated by command;161;PLOC_SUPV_HELPER;linux/payload/PlocSupvUartMan.h
 0x58a2;PLSPVhLP_PathNotExists;Received command with invalid pathname;162;PLOC_SUPV_HELPER;linux/payload/PlocSupvUartMan.h
 0x58a3;PLSPVhLP_EventBufferReplyInvalidApid;Expected event buffer TM but received space packet with other APID;163;PLOC_SUPV_HELPER;linux/payload/PlocSupvUartMan.h
-0x59a0;SUSS_InvalidSpeed;Action Message with invalid speed was received. Valid speeds must be in the range of [-65000, 1000] or [1000, 65000];160;SUS_HANDLER;mission/acs/RwHandler.h
+0x59a0;SUSS_ErrorUnlockMutex;No description;160;SUS_HANDLER;mission/acs/archive/LegacySusHandler.h
-0x59a1;SUSS_InvalidRampTime;Action Message with invalid ramp time was received.;161;SUS_HANDLER;mission/acs/RwHandler.h
+0x59a1;SUSS_ErrorLockMutex;No description;161;SUS_HANDLER;mission/acs/archive/LegacySusHandler.h
 0x59a2;SUSS_SetSpeedCommandInvalidLength;Received set speed command has invalid length. Should be 6.;162;SUS_HANDLER;mission/acs/RwHandler.h
 0x59a3;SUSS_ExecutionFailed;Command execution failed;163;SUS_HANDLER;mission/acs/RwHandler.h
 0x59a4;SUSS_CrcError;Reaction wheel reply has invalid crc;164;SUS_HANDLER;mission/acs/RwHandler.h
 0x59a5;SUSS_ValueNotRead;No description;165;SUS_HANDLER;mission/acs/RwHandler.h
 0x5aa0;IPCI_PapbBusy;No description;160;CCSDS_IP_CORE_BRIDGE;linux/ipcore/PapbVcInterface.h
 0x5ba0;PTME_UnknownVcId;No description;160;PTME;linux/ipcore/Ptme.h
 0x5d01;STRHLP_SdNotMounted;SD card specified in path string not mounted;1;STR_HELPER;linux/acs/StrComHandler.h
@ -558,16 +561,17 @@ Full ID (hex); Name; Description; Unique ID; Subsytem Name; File Path
 0x67a2;SADPL_MainSwitchTimeoutFailure;No description;162;SA_DEPL_HANDLER;mission/SolarArrayDeploymentHandler.h
 0x67a3;SADPL_SwitchingDeplSa1Failed;No description;163;SA_DEPL_HANDLER;mission/SolarArrayDeploymentHandler.h
 0x67a4;SADPL_SwitchingDeplSa2Failed;No description;164;SA_DEPL_HANDLER;mission/SolarArrayDeploymentHandler.h
-0x68a0;MPSOCRTVIF_CrcFailure;Space Packet received from PLOC has invalid CRC;160;MPSOC_RETURN_VALUES_IF;linux/payload/mpsocRetvals.h
+0x6810;MPSOCRTVIF_CommandTimeout;Command has timed out.;16;MPSOC_RETURN_VALUES_IF;linux/payload/plocMpsocHelpers.h
-0x68a1;MPSOCRTVIF_ReceivedAckFailure;Received ACK failure reply from PLOC;161;MPSOC_RETURN_VALUES_IF;linux/payload/mpsocRetvals.h
+0x68a0;MPSOCRTVIF_CrcFailure;Space Packet received from PLOC has invalid CRC;160;MPSOC_RETURN_VALUES_IF;linux/payload/plocMpsocHelpers.h
-0x68a2;MPSOCRTVIF_ReceivedExeFailure;Received execution failure reply from PLOC;162;MPSOC_RETURN_VALUES_IF;linux/payload/mpsocRetvals.h
+0x68a1;MPSOCRTVIF_ReceivedAckFailure;Received ACK failure reply from PLOC;161;MPSOC_RETURN_VALUES_IF;linux/payload/plocMpsocHelpers.h
-0x68a3;MPSOCRTVIF_InvalidApid;Received space packet with invalid APID from PLOC;163;MPSOC_RETURN_VALUES_IF;linux/payload/mpsocRetvals.h
+0x68a2;MPSOCRTVIF_ReceivedExeFailure;Received execution failure reply from PLOC;162;MPSOC_RETURN_VALUES_IF;linux/payload/plocMpsocHelpers.h
-0x68a4;MPSOCRTVIF_InvalidLength;Received command with invalid length;164;MPSOC_RETURN_VALUES_IF;linux/payload/mpsocRetvals.h
+0x68a3;MPSOCRTVIF_InvalidApid;Received space packet with invalid APID from PLOC;163;MPSOC_RETURN_VALUES_IF;linux/payload/plocMpsocHelpers.h
-0x68a5;MPSOCRTVIF_FilenameTooLong;Filename of file in OBC filesystem is too long;165;MPSOC_RETURN_VALUES_IF;linux/payload/mpsocRetvals.h
+0x68a4;MPSOCRTVIF_InvalidLength;Received command with invalid length;164;MPSOC_RETURN_VALUES_IF;linux/payload/plocMpsocHelpers.h
-0x68a6;MPSOCRTVIF_MpsocHelperExecuting;MPSoC helper is currently executing a command;166;MPSOC_RETURN_VALUES_IF;linux/payload/mpsocRetvals.h
+0x68a5;MPSOCRTVIF_FilenameTooLong;Filename of file in OBC filesystem is too long;165;MPSOC_RETURN_VALUES_IF;linux/payload/plocMpsocHelpers.h
-0x68a7;MPSOCRTVIF_MpsocFilenameTooLong;Filename of MPSoC file is to long (max. 256 bytes);167;MPSOC_RETURN_VALUES_IF;linux/payload/mpsocRetvals.h
+0x68a6;MPSOCRTVIF_MpsocHelperExecuting;MPSoC helper is currently executing a command;166;MPSOC_RETURN_VALUES_IF;linux/payload/plocMpsocHelpers.h
-0x68a8;MPSOCRTVIF_InvalidParameter;Command has invalid parameter;168;MPSOC_RETURN_VALUES_IF;linux/payload/mpsocRetvals.h
+0x68a7;MPSOCRTVIF_MpsocFilenameTooLong;Filename of MPSoC file is to long (max. 256 bytes);167;MPSOC_RETURN_VALUES_IF;linux/payload/plocMpsocHelpers.h
-0x68a9;MPSOCRTVIF_NameTooLong;Received command has file string with invalid length;169;MPSOC_RETURN_VALUES_IF;linux/payload/mpsocRetvals.h
+0x68a8;MPSOCRTVIF_InvalidParameter;Command has invalid parameter;168;MPSOC_RETURN_VALUES_IF;linux/payload/plocMpsocHelpers.h
 0x68a9;MPSOCRTVIF_NameTooLong;Received command has file string with invalid length;169;MPSOC_RETURN_VALUES_IF;linux/payload/plocMpsocHelpers.h
 0x69a0;SPVRTVIF_CrcFailure;Space Packet received from PLOC supervisor has invalid CRC;160;SUPV_RETURN_VALUES_IF;linux/payload/plocSupvDefs.h
 0x69a1;SPVRTVIF_InvalidServiceId;No description;161;SUPV_RETURN_VALUES_IF;linux/payload/plocSupvDefs.h
 0x69a2;SPVRTVIF_ReceivedAckFailure;Received ACK failure reply from PLOC supervisor;162;SUPV_RETURN_VALUES_IF;linux/payload/plocSupvDefs.h
@ -592,7 +596,11 @@ Full ID (hex); Name; Description; Unique ID; Subsytem Name; File Path
 0x69b5;SPVRTVIF_SupvHelperExecuting;Supervisor helper task ist currently executing a command (wait until helper tas has finished or interrupt by sending the terminate command);181;SUPV_RETURN_VALUES_IF;linux/payload/plocSupvDefs.h
 0x69c0;SPVRTVIF_BufTooSmall;No description;192;SUPV_RETURN_VALUES_IF;linux/payload/plocSupvDefs.h
 0x69c1;SPVRTVIF_NoReplyTimeout;No description;193;SUPV_RETURN_VALUES_IF;linux/payload/plocSupvDefs.h
-0x6a00;ACSCTRL_FileDeletionFailed;File deletion failed and at least one file is still existent.;0;ACS_CTRL;mission/controller/AcsController.h
+0x6aa0;ACSCTRL_FileDeletionFailed;File deletion failed and at least one file is still existent.;160;ACS_CTRL;mission/controller/controllerdefinitions/AcsCtrlDefinitions.h
 0x6aa1;ACSCTRL_WriteFileFailed;Writing the TLE to the file has failed.;161;ACS_CTRL;mission/controller/controllerdefinitions/AcsCtrlDefinitions.h
 0x6aa2;ACSCTRL_ReadFileFailed;Reading the TLE to the file has failed.;162;ACS_CTRL;mission/controller/controllerdefinitions/AcsCtrlDefinitions.h
 0x6aa3;ACSCTRL_SingleRwUnavailable;A single RW has failed.;163;ACS_CTRL;mission/controller/controllerdefinitions/AcsCtrlDefinitions.h
 0x6aa4;ACSCTRL_MultipleRwUnavailable;Multiple RWs have failed.;164;ACS_CTRL;mission/controller/controllerdefinitions/AcsCtrlDefinitions.h
 0x6b02;ACSMEKF_MekfUninitialized;No description;2;ACS_MEKF;mission/controller/acs/MultiplicativeKalmanFilter.h
 0x6b03;ACSMEKF_MekfNoGyrData;No description;3;ACS_MEKF;mission/controller/acs/MultiplicativeKalmanFilter.h
 0x6b04;ACSMEKF_MekfNoModelVectors;No description;4;ACS_MEKF;mission/controller/acs/MultiplicativeKalmanFilter.h
@ -617,5 +625,9 @@ Full ID (hex); Name; Description; Unique ID; Subsytem Name; File Path
 0x6f00;TMS_IsBusy;No description;0;TM_SINK;mission/tmtc/DirectTmSinkIF.h
 0x6f01;TMS_PartiallyWritten;No description;1;TM_SINK;mission/tmtc/DirectTmSinkIF.h
 0x6f02;TMS_NoWriteActive;No description;2;TM_SINK;mission/tmtc/DirectTmSinkIF.h
 0x6f03;TMS_Timeout;No description;3;TM_SINK;mission/tmtc/DirectTmSinkIF.h
 0x7000;VCS_ChannelDoesNotExist;No description;0;VIRTUAL_CHANNEL;mission/com/VirtualChannel.h
-0x7200;SCBU_KeyNotFound;No description;0;SCRATCH_BUFFER;bsp_q7s/memory/scratchApi.h
+0x7100;PLMPCOM_PacketReceived;No description;0;PLOC_MPSOC_COM;linux/payload/MpsocCommunication.h
 0x7101;PLMPCOM_FaultyPacketSize;No description;1;PLOC_MPSOC_COM;linux/payload/MpsocCommunication.h
 0x7102;PLMPCOM_CrcCheckFailed;No description;2;PLOC_MPSOC_COM;linux/payload/MpsocCommunication.h
 0x7300;SCBU_KeyNotFound;No description;0;SCRATCH_BUFFER;bsp_q7s/memory/scratchApi.h
--- a/generators/events/translateEvents.cpp
+++ b/generators/events/translateEvents.cpp
@ -1,7 +1,7 @@
 /**
- * @brief    Auto-generated event translation file. Contains 315 translations.
+ * @brief    Auto-generated event translation file. Contains 325 translations.
 * @details
- * Generated on: 2023-10-27 14:24:05
+ * Generated on: 2024-05-06 13:47:38
 */
 #include "translateEvents.h"
@ -82,8 +82,11 @@ const char *BIT_LOCK_STRING = "BIT_LOCK";
 const char *BIT_LOCK_LOST_STRING = "BIT_LOCK_LOST";
 const char *FRAME_PROCESSING_FAILED_STRING = "FRAME_PROCESSING_FAILED";
 const char *CLOCK_SET_STRING = "CLOCK_SET";
-const char *CLOCK_DUMP_STRING = "CLOCK_DUMP";
+const char *CLOCK_DUMP_LEGACY_STRING = "CLOCK_DUMP_LEGACY";
 const char *CLOCK_SET_FAILURE_STRING = "CLOCK_SET_FAILURE";
 const char *CLOCK_DUMP_STRING = "CLOCK_DUMP";
 const char *CLOCK_DUMP_BEFORE_SETTING_TIME_STRING = "CLOCK_DUMP_BEFORE_SETTING_TIME";
 const char *CLOCK_DUMP_AFTER_SETTING_TIME_STRING = "CLOCK_DUMP_AFTER_SETTING_TIME";
 const char *TC_DELETION_FAILED_STRING = "TC_DELETION_FAILED";
 const char *TEST_STRING = "TEST";
 const char *CHANGE_OF_SETUP_PARAMETER_STRING = "CHANGE_OF_SETUP_PARAMETER";
@ -94,14 +97,17 @@ const char *FILESTORE_ERROR_STRING = "FILESTORE_ERROR";
 const char *FILENAME_TOO_LARGE_ERROR_STRING = "FILENAME_TOO_LARGE_ERROR";
 const char *HANDLING_CFDP_REQUEST_FAILED_STRING = "HANDLING_CFDP_REQUEST_FAILED";
 const char *SAFE_RATE_VIOLATION_STRING = "SAFE_RATE_VIOLATION";
-const char *SAFE_RATE_RECOVERY_STRING = "SAFE_RATE_RECOVERY";
+const char *RATE_RECOVERY_STRING = "RATE_RECOVERY";
 const char *MULTIPLE_RW_INVALID_STRING = "MULTIPLE_RW_INVALID";
 const char *MEKF_INVALID_INFO_STRING = "MEKF_INVALID_INFO";
 const char *MEKF_RECOVERY_STRING = "MEKF_RECOVERY";
 const char *MEKF_AUTOMATIC_RESET_STRING = "MEKF_AUTOMATIC_RESET";
-const char *MEKF_INVALID_MODE_VIOLATION_STRING = "MEKF_INVALID_MODE_VIOLATION";
+const char *PTG_CTRL_NO_ATTITUDE_INFORMATION_STRING = "PTG_CTRL_NO_ATTITUDE_INFORMATION";
 const char *SAFE_MODE_CONTROLLER_FAILURE_STRING = "SAFE_MODE_CONTROLLER_FAILURE";
 const char *TLE_TOO_OLD_STRING = "TLE_TOO_OLD";
 const char *TLE_FILE_READ_FAILED_STRING = "TLE_FILE_READ_FAILED";
 const char *PTG_RATE_VIOLATION_STRING = "PTG_RATE_VIOLATION";
 const char *DETUMBLE_TRANSITION_FAILED_STRING = "DETUMBLE_TRANSITION_FAILED";
 const char *SWITCH_CMD_SENT_STRING = "SWITCH_CMD_SENT";
 const char *SWITCH_HAS_CHANGED_STRING = "SWITCH_HAS_CHANGED";
 const char *SWITCHING_Q7S_DENIED_STRING = "SWITCHING_Q7S_DENIED";
@ -136,6 +142,7 @@ const char *MPSOC_HANDLER_SEQUENCE_COUNT_MISMATCH_STRING = "MPSOC_HANDLER_SEQUEN
 const char *MPSOC_SHUTDOWN_FAILED_STRING = "MPSOC_SHUTDOWN_FAILED";
 const char *SUPV_NOT_ON_STRING = "SUPV_NOT_ON";
 const char *SUPV_REPLY_TIMEOUT_STRING = "SUPV_REPLY_TIMEOUT";
 const char *CAM_MUST_BE_ON_FOR_SNAPSHOT_MODE_STRING = "CAM_MUST_BE_ON_FOR_SNAPSHOT_MODE";
 const char *SELF_TEST_I2C_FAILURE_STRING = "SELF_TEST_I2C_FAILURE";
 const char *SELF_TEST_SPI_FAILURE_STRING = "SELF_TEST_SPI_FAILURE";
 const char *SELF_TEST_ADC_FAILURE_STRING = "SELF_TEST_ADC_FAILURE";
@ -157,6 +164,8 @@ const char *SUPV_EXE_FAILURE_STRING = "SUPV_EXE_FAILURE";
 const char *SUPV_CRC_FAILURE_EVENT_STRING = "SUPV_CRC_FAILURE_EVENT";
 const char *SUPV_HELPER_EXECUTING_STRING = "SUPV_HELPER_EXECUTING";
 const char *SUPV_MPSOC_SHUTDOWN_BUILD_FAILED_STRING = "SUPV_MPSOC_SHUTDOWN_BUILD_FAILED";
 const char *SUPV_ACK_UNKNOWN_COMMAND_STRING = "SUPV_ACK_UNKNOWN_COMMAND";
 const char *SUPV_EXE_ACK_UNKNOWN_COMMAND_STRING = "SUPV_EXE_ACK_UNKNOWN_COMMAND";
 const char *SANITIZATION_FAILED_STRING = "SANITIZATION_FAILED";
 const char *MOUNTED_SD_CARD_STRING = "MOUNTED_SD_CARD";
 const char *SEND_MRAM_DUMP_FAILED_STRING = "SEND_MRAM_DUMP_FAILED";
@ -236,6 +245,7 @@ const char *SIDE_SWITCH_TRANSITION_NOT_ALLOWED_12903_STRING = "SIDE_SWITCH_TRANS
 const char *CHILDREN_LOST_MODE_STRING = "CHILDREN_LOST_MODE";
 const char *GPS_FIX_CHANGE_STRING = "GPS_FIX_CHANGE";
 const char *CANT_GET_FIX_STRING = "CANT_GET_FIX";
 const char *RESET_FAIL_STRING = "RESET_FAIL";
 const char *P60_BOOT_COUNT_STRING = "P60_BOOT_COUNT";
 const char *BATT_MODE_STRING = "BATT_MODE";
 const char *BATT_MODE_CHANGED_STRING = "BATT_MODE_CHANGED";
@ -478,9 +488,15 @@ const char *translateEvents(Event event) {
    case (8900):
      return CLOCK_SET_STRING;
    case (8901):
-      return CLOCK_DUMP_STRING;
+      return CLOCK_DUMP_LEGACY_STRING;
    case (8902):
      return CLOCK_SET_FAILURE_STRING;
    case (8903):
      return CLOCK_DUMP_STRING;
    case (8904):
      return CLOCK_DUMP_BEFORE_SETTING_TIME_STRING;
    case (8905):
      return CLOCK_DUMP_AFTER_SETTING_TIME_STRING;
    case (9100):
      return TC_DELETION_FAILED_STRING;
    case (9700):
@ -502,7 +518,7 @@ const char *translateEvents(Event event) {
    case (11200):
      return SAFE_RATE_VIOLATION_STRING;
    case (11201):
-      return SAFE_RATE_RECOVERY_STRING;
+      return RATE_RECOVERY_STRING;
    case (11202):
      return MULTIPLE_RW_INVALID_STRING;
    case (11203):
@ -512,11 +528,17 @@ const char *translateEvents(Event event) {
    case (11205):
      return MEKF_AUTOMATIC_RESET_STRING;
    case (11206):
-      return MEKF_INVALID_MODE_VIOLATION_STRING;
+      return PTG_CTRL_NO_ATTITUDE_INFORMATION_STRING;
    case (11207):
      return SAFE_MODE_CONTROLLER_FAILURE_STRING;
    case (11208):
      return TLE_TOO_OLD_STRING;
    case (11209):
      return TLE_FILE_READ_FAILED_STRING;
    case (11210):
      return PTG_RATE_VIOLATION_STRING;
    case (11211):
      return DETUMBLE_TRANSITION_FAILED_STRING;
    case (11300):
      return SWITCH_CMD_SENT_STRING;
    case (11301):
@ -585,6 +607,8 @@ const char *translateEvents(Event event) {
      return SUPV_NOT_ON_STRING;
    case (11608):
      return SUPV_REPLY_TIMEOUT_STRING;
    case (11609):
      return CAM_MUST_BE_ON_FOR_SNAPSHOT_MODE_STRING;
    case (11701):
      return SELF_TEST_I2C_FAILURE_STRING;
    case (11702):
@ -627,6 +651,10 @@ const char *translateEvents(Event event) {
      return SUPV_HELPER_EXECUTING_STRING;
    case (12008):
      return SUPV_MPSOC_SHUTDOWN_BUILD_FAILED_STRING;
    case (12009):
      return SUPV_ACK_UNKNOWN_COMMAND_STRING;
    case (12010):
      return SUPV_EXE_ACK_UNKNOWN_COMMAND_STRING;
    case (12100):
      return SANITIZATION_FAILED_STRING;
    case (12101):
@ -785,6 +813,8 @@ const char *translateEvents(Event event) {
      return GPS_FIX_CHANGE_STRING;
    case (13101):
      return CANT_GET_FIX_STRING;
    case (13102):
      return RESET_FAIL_STRING;
    case (13200):
      return P60_BOOT_COUNT_STRING;
    case (13201):
--- a/generators/objects/translateObjects.cpp
+++ b/generators/objects/translateObjects.cpp
@ -1,8 +1,8 @@
 /**
 * @brief  Auto-generated object translation file.
 * @details
- * Contains 179 translations.
+ * Contains 180 translations.
- * Generated on: 2023-10-27 14:24:05
+ * Generated on: 2024-05-06 13:47:38
 */
 #include "translateObjects.h"
@ -64,6 +64,7 @@ const char *PTME_VC3_CFDP_TM_STRING = "PTME_VC3_CFDP_TM";
 const char *PLOC_MPSOC_HANDLER_STRING = "PLOC_MPSOC_HANDLER";
 const char *PLOC_SUPERVISOR_HANDLER_STRING = "PLOC_SUPERVISOR_HANDLER";
 const char *PLOC_SUPERVISOR_HELPER_STRING = "PLOC_SUPERVISOR_HELPER";
 const char *PLOC_MPSOC_COMMUNICATION_STRING = "PLOC_MPSOC_COMMUNICATION";
 const char *SCEX_STRING = "SCEX";
 const char *SOLAR_ARRAY_DEPL_HANDLER_STRING = "SOLAR_ARRAY_DEPL_HANDLER";
 const char *HEATER_HANDLER_STRING = "HEATER_HANDLER";
@ -304,6 +305,8 @@ const char *translateObject(object_id_t object) {
      return PLOC_SUPERVISOR_HANDLER_STRING;
    case 0x44330017:
      return PLOC_SUPERVISOR_HELPER_STRING;
    case 0x44330018:
      return PLOC_MPSOC_COMMUNICATION_STRING;
    case 0x44330032:
      return SCEX_STRING;
    case 0x444100A2:
--- a/linux/ObjectFactory.cpp
+++ b/linux/ObjectFactory.cpp
@ -24,14 +24,10 @@
 #include "OBSWConfig.h"
 #include "devConf.h"
 #include "devices/addresses.h"
 #include "devices/gpioIds.h"
 #include "eive/definitions.h"
 #include "mission/system/acs/acsModeTree.h"
 #include "mission/system/payload/payloadModeTree.h"
 #include "mission/system/power/epsModeTree.h"
 #include "mission/system/tcs/tcsModeTree.h"
 #include "mission/system/tree/payloadModeTree.h"
 #include "mission/tcs/defs.h"
 void ObjectFactory::createSunSensorComponents(GpioIF* gpioComIF, SpiComIF* spiComIF,
                                              PowerSwitchIF& pwrSwitcher, std::string spiDev,
@ -335,8 +331,9 @@ void ObjectFactory::createScexComponents(std::string uartDev, PowerSwitchIF* pwr
  scexHandler->connectModeTreeParent(satsystem::payload::SUBSYSTEM);
 }
-AcsController* ObjectFactory::createAcsController(bool connectSubsystem, bool enableHkSets) {
+AcsController* ObjectFactory::createAcsController(bool connectSubsystem, bool enableHkSets,
-  auto acsCtrl = new AcsController(objects::ACS_CONTROLLER, enableHkSets);
+                                                  SdCardMountedIF& mountedIF) {
  auto acsCtrl = new AcsController(objects::ACS_CONTROLLER, enableHkSets, mountedIF);
  if (connectSubsystem) {
    acsCtrl->connectModeTreeParent(satsystem::acs::ACS_SUBSYSTEM);
  }
--- a/linux/ObjectFactory.h
+++ b/linux/ObjectFactory.h
@ -31,7 +31,8 @@ void createScexComponents(std::string uartDev, PowerSwitchIF* pwrSwitcher,
 void gpioChecker(ReturnValue_t result, std::string output);
-AcsController* createAcsController(bool connectSubsystem, bool enableHkSets);
+AcsController* createAcsController(bool connectSubsystem, bool enableHkSets,
                                   SdCardMountedIF& mountedIF);
 PowerController* createPowerController(bool connectSubsystem, bool enableHkSets);
 }  // namespace ObjectFactory
--- a/mission/acs/archive/GPSDefinitions.h
+++ b/mission/acs/archive/GPSDefinitions.h
@ -7,15 +7,19 @@
 namespace GpsHyperion {
-enum class FixMode : uint8_t { NOT_SEEN = 0, NO_FIX = 1, FIX_2D = 2, FIX_3D = 3, UNKNOWN = 4 };
+enum FixMode : uint8_t { NOT_SEEN = 0, NO_FIX = 1, FIX_2D = 2, FIX_3D = 3 };
 enum GnssChip : uint8_t { A_SIDE = 0, B_SIDE = 1 };
 static constexpr uint8_t SUBSYSTEM_ID = SUBSYSTEM_ID::GPS_HANDLER;
-//! [EXPORT] : [COMMENT] Fix has changed. P1: Old fix. P2: New fix
+//! [EXPORT] : [COMMENT] Fix has changed. P1: New fix. P2: Missed fix changes
 //! 0: Not seen, 1: No Fix, 2: 2D-Fix, 3: 3D-Fix
 static constexpr Event GPS_FIX_CHANGE = event::makeEvent(SUBSYSTEM_ID, 0, severity::INFO);
-//! [EXPORT] : [COMMENT] Could not get fix in maximum allowed time. P1: Maximum allowed time
+//! [EXPORT] : [COMMENT] Could not get fix in maximum allowed time. Trying to reset both GNSS
-//! to get a fix after the GPS was switched on.
+//! devices. P1: Maximum allowed time to get a fix after the GPS was switched on.
-static constexpr Event CANT_GET_FIX = event::makeEvent(SUBSYSTEM_ID, 1, severity::LOW);
+static constexpr Event CANT_GET_FIX = event::makeEvent(SUBSYSTEM_ID, 1, severity::MEDIUM);
 //! [EXPORT] : [COMMENT] Failed to reset an GNNS Device. P1: Board-Side.
 static constexpr Event RESET_FAIL = event::makeEvent(SUBSYSTEM_ID, 2, severity::HIGH);
 static constexpr DeviceCommandId_t GPS_REPLY = 0;
 static constexpr DeviceCommandId_t TRIGGER_RESET_PIN_GNSS = 5;
@ -53,8 +57,6 @@ static constexpr uint8_t SKYVIEW_ENTRIES = 6;
 static constexpr uint8_t MAX_SATELLITES = 30;
 enum GpsFixModes : uint8_t { INVALID = 0, NO_FIX = 1, FIX_2D = 2, FIX_3D = 3 };
 }  // namespace GpsHyperion
 class GpsPrimaryDataset : public StaticLocalDataSet<GpsHyperion::CORE_DATASET_ENTRIES> {
--- a/linux/acs/GpsHyperionLinuxController.cpp
+++ b/linux/acs/GpsHyperionLinuxController.cpp
@ -44,24 +44,21 @@ LocalPoolDataSetBase *GpsHyperionLinuxController::getDataSetHandle(sid_t sid) {
 ReturnValue_t GpsHyperionLinuxController::checkModeCommand(Mode_t mode, Submode_t submode,
                                                           uint32_t *msToReachTheMode) {
-  if (not modeCommanded) {
+  if (mode == MODE_ON) {
    if (mode == MODE_ON or mode == MODE_OFF) {
      // 5h time to reach fix
      *msToReachTheMode = MAX_SECONDS_TO_REACH_FIX;
    maxTimeToReachFix.resetTimer();
-      modeCommanded = true;
+    gainedNewFix.timeOut();
  } else if (mode == MODE_NORMAL) {
    return HasModesIF::INVALID_MODE;
  }
  }
  if (mode == MODE_OFF) {
    maxTimeToReachFix.timeOut();
    gainedNewFix.timeOut();
    PoolReadGuard pg(&gpsSet);
    gpsSet.setValidity(false, true);
-    // There can't be a fix with a device that is off.
+    // The ctrl is off, so it cannot detect the data from the devices.
-    triggerEvent(GpsHyperion::GPS_FIX_CHANGE, gpsSet.fixMode.value, 0);
+    handleFixChangedEvent(GpsHyperion::FixMode::NOT_SEEN);
-    gpsSet.fixMode.value = 0;
+    gpsSet.fixMode.value = GpsHyperion::FixMode::NOT_SEEN;
    oneShotSwitches.reset();
    modeCommanded = false;
  }
  return returnvalue::OK;
 }
@ -75,13 +72,16 @@ ReturnValue_t GpsHyperionLinuxController::executeAction(ActionId_t actionId,
        PoolReadGuard pg(&gpsSet);
        // Set HK entries invalid
        gpsSet.setValidity(false, true);
-        resetCallback(data, size, resetCallbackArgs);
+        ReturnValue_t result = resetCallback(data, size, resetCallbackArgs);
        if (result != returnvalue::OK) {
          return result;
        }
        return HasActionsIF::EXECUTION_FINISHED;
      }
      return DeviceHandlerIF::COMMAND_NOT_IMPLEMENTED;
    }
  }
-  return returnvalue::OK;
+  return HasActionsIF::INVALID_ACTION_ID;
 }
 ReturnValue_t GpsHyperionLinuxController::initializeLocalDataPool(
@ -100,7 +100,7 @@ ReturnValue_t GpsHyperionLinuxController::initializeLocalDataPool(
  localDataPoolMap.emplace(GpsHyperion::SATS_IN_USE, new PoolEntry<uint8_t>());
  localDataPoolMap.emplace(GpsHyperion::SATS_IN_VIEW, new PoolEntry<uint8_t>());
  localDataPoolMap.emplace(GpsHyperion::FIX_MODE, new PoolEntry<uint8_t>());
-  poolManager.subscribeForRegularPeriodicPacket({gpsSet.getSid(), enableHkSets, 30.0});
+  poolManager.subscribeForRegularPeriodicPacket({gpsSet.getSid(), enableHkSets, 60.0});
  localDataPoolMap.emplace(GpsHyperion::SKYVIEW_UNIX_SECONDS, new PoolEntry<double>());
  localDataPoolMap.emplace(GpsHyperion::PRN_ID, new PoolEntry<int16_t>());
  localDataPoolMap.emplace(GpsHyperion::AZIMUTH, new PoolEntry<int16_t>());
@ -216,15 +216,9 @@ ReturnValue_t GpsHyperionLinuxController::handleGpsReadData() {
  bool modeIsSet = true;
  if (MODE_SET != (MODE_SET & gps.set)) {
    if (mode != MODE_OFF) {
      if (maxTimeToReachFix.hasTimedOut() and oneShotSwitches.cantGetFixSwitch) {
        sif::warning << "GpsHyperionLinuxController: No mode could be set in allowed "
                     << maxTimeToReachFix.getTimeoutMs() / 1000 << " seconds" << std::endl;
        triggerEvent(GpsHyperion::CANT_GET_FIX, maxTimeToReachFix.getTimeoutMs());
        oneShotSwitches.cantGetFixSwitch = false;
      }
      modeIsSet = false;
    } else {
-      // GPS device is off anyway, so do other handling
+      // GPS ctrl is off anyway, so do other handling
      return returnvalue::FAILED;
    }
  }
@ -249,27 +243,44 @@ ReturnValue_t GpsHyperionLinuxController::handleCoreTelemetry(bool modeIsSet) {
  uint8_t newFix = 0;
  if (modeIsSet) {
    // 0: Not seen, 1: No fix, 2: 2D-Fix, 3: 3D-Fix
-    if (gps.fix.mode == 2 or gps.fix.mode == 3) {
+    if (gps.fix.mode == GpsHyperion::FixMode::FIX_2D or
        gps.fix.mode == GpsHyperion::FixMode::FIX_3D) {
      validFix = true;
      maxTimeToReachFix.resetTimer();
    }
    newFix = gps.fix.mode;
    if (newFix == 0 or newFix == 1) {
      if (modeCommanded and maxTimeToReachFix.hasTimedOut()) {
        // We are supposed to be on and functioning, but no fix was found
        if (mode == MODE_ON or mode == MODE_NORMAL) {
          mode = MODE_OFF;
        }
        modeCommanded = false;
      }
    }
  }
  if (gpsSet.fixMode.value != newFix) {
-#if OBSW_Q7S_EM != 1
+    handleFixChangedEvent(newFix);
    triggerEvent(GpsHyperion::GPS_FIX_CHANGE, gpsSet.fixMode.value, newFix);
 #endif
  }
  gpsSet.fixMode = newFix;
  gpsSet.fixMode.setValid(modeIsSet);
  // We are supposed to be on and functioning, but no fix was found
  if (not validFix) {
    if (maxTimeToReachFix.hasTimedOut()) {
      // Set HK entries invalid
      gpsSet.setValidity(false, true);
      if (oneShotSwitches.cantGetFixSwitch) {
        sif::warning << "GpsHyperionLinuxController: No fix detected in allowed "
                     << maxTimeToReachFix.getTimeoutMs() / 1000 << " seconds" << std::endl;
        triggerEvent(GpsHyperion::CANT_GET_FIX, maxTimeToReachFix.getTimeoutMs());
        oneShotSwitches.cantGetFixSwitch = false;
        // Try resetting the devices
        if (resetCallback != nullptr) {
          uint8_t chip = GpsHyperion::GnssChip::A_SIDE;
          ReturnValue_t result = resetCallback(&chip, 1, resetCallbackArgs);
          if (result != returnvalue::OK) {
            triggerEvent(GpsHyperion::RESET_FAIL, chip);
          }
          chip = GpsHyperion::GnssChip::B_SIDE;
          result = resetCallback(&chip, 1, resetCallbackArgs);
          if (result != returnvalue::OK) {
            triggerEvent(GpsHyperion::RESET_FAIL, chip);
          }
        }
      }
    }
  }
  // Only set on specific messages, so only set a valid flag to invalid
  // if not set for more than a full message set (10 messages here)
@ -282,9 +293,12 @@ ReturnValue_t GpsHyperionLinuxController::handleCoreTelemetry(bool modeIsSet) {
    }
    satNotSetCounter = 0;
  } else {
    if (satNotSetCounter < 10) {
      satNotSetCounter++;
-    if (gpsSet.satInUse.isValid() and satNotSetCounter >= 10) {
+    } else {
      gpsSet.satInUse.value = 0;
      gpsSet.satInUse.setValid(false);
      gpsSet.satInView.value = 0;
      gpsSet.satInView.setValid(false);
    }
  }
@ -292,12 +306,13 @@ ReturnValue_t GpsHyperionLinuxController::handleCoreTelemetry(bool modeIsSet) {
  // LATLON is set for every message, no need for a counter
  bool latValid = false;
  bool longValid = false;
  if (modeIsSet) {
    if (LATLON_SET == (LATLON_SET & gps.set)) {
      if (std::isfinite(gps.fix.latitude)) {
        // Negative latitude -> South direction
        gpsSet.latitude.value = gps.fix.latitude;
        // As specified in gps.h: Only valid if mode >= 2
-      if (gps.fix.mode >= 2) {
+        if (gps.fix.mode >= GpsHyperion::FixMode::FIX_2D) {
          latValid = true;
        }
      }
@ -306,31 +321,36 @@ ReturnValue_t GpsHyperionLinuxController::handleCoreTelemetry(bool modeIsSet) {
        // Negative longitude -> West direction
        gpsSet.longitude.value = gps.fix.longitude;
        // As specified in gps.h: Only valid if mode >= 2
-      if (gps.fix.mode >= 2) {
+        if (gps.fix.mode >= GpsHyperion::FixMode::FIX_2D) {
          longValid = true;
        }
      }
    }
  }
  gpsSet.latitude.setValid(latValid);
  gpsSet.longitude.setValid(longValid);
  // ALTITUDE is set for every message, no need for a counter
  bool altitudeValid = false;
  if (modeIsSet) {
    if (ALTITUDE_SET == (ALTITUDE_SET & gps.set) && std::isfinite(gps.fix.altitude)) {
      gpsSet.altitude.value = gps.fix.altitude;
      // As specified in gps.h: Only valid if mode == 3
-    if (gps.fix.mode == 3) {
+      if (gps.fix.mode == GpsHyperion::FixMode::FIX_3D) {
        altitudeValid = true;
      }
    }
  }
  gpsSet.altitude.setValid(altitudeValid);
  // SPEED is set for every message, no need for a counter
  bool speedValid = false;
  if (modeIsSet) {
    if (SPEED_SET == (SPEED_SET & gps.set) && std::isfinite(gps.fix.speed)) {
      gpsSet.speed.value = gps.fix.speed;
      speedValid = true;
    }
  }
  gpsSet.speed.setValid(speedValid);
  // TIME is set for every message, no need for a counter
@ -430,3 +450,14 @@ void GpsHyperionLinuxController::overwriteTimeIfNotSane(timeval time, bool valid
    timeInit = true;
  }
 }
 void GpsHyperionLinuxController::handleFixChangedEvent(uint8_t newFix) {
  if (gainedNewFix.hasTimedOut()) {
    triggerEvent(GpsHyperion::GPS_FIX_CHANGE, newFix, fixChangeCounter);
    fixChangeCounter = 0;
    gainedNewFix.resetTimer();
    return;
  }
  fixChangeCounter++;
  gainedNewFix.resetTimer();
 }
--- a/linux/acs/GpsHyperionLinuxController.h
+++ b/linux/acs/GpsHyperionLinuxController.h
@ -1,14 +1,13 @@
 #ifndef MISSION_DEVICES_GPSHYPERIONHANDLER_H_
 #define MISSION_DEVICES_GPSHYPERIONHANDLER_H_
-#include <mission/acs/archive/GPSDefinitions.h>
+#include <common/config/eive/eventSubsystemIds.h>
 #include <fsfw/FSFW.h>
 #include <fsfw/controller/ExtendedControllerBase.h>
 #include <fsfw/devicehandlers/DeviceHandlerBase.h>
 #include <linux/acs/GPSDefinitions.h>
 #include <mission/utility/trace.h>
 #include "eive/eventSubsystemIds.h"
 #include "fsfw/FSFW.h"
 #include "fsfw/controller/ExtendedControllerBase.h"
 #include "fsfw/devicehandlers/DeviceHandlerBase.h"
 #ifdef FSFW_OSAL_LINUX
 #include <gps.h>
 #include <libgpsmm.h>
@ -24,8 +23,8 @@
 */
 class GpsHyperionLinuxController : public ExtendedControllerBase {
 public:
-  // 30 minutes
+  // 15 minutes
-  static constexpr uint32_t MAX_SECONDS_TO_REACH_FIX = 60 * 30;
+  static constexpr uint32_t MAX_SECONDS_TO_REACH_FIX = 60 * 15;
  enum ReadModes { SHM = 0, SOCKET = 1 };
@ -65,7 +64,8 @@ class GpsHyperionLinuxController : public ExtendedControllerBase {
  const char* currentClientBuf = nullptr;
  ReadModes readMode = ReadModes::SOCKET;
  Countdown maxTimeToReachFix = Countdown(MAX_SECONDS_TO_REACH_FIX * 1000);
-  bool modeCommanded = false;
+  Countdown gainedNewFix = Countdown(60 * 2 * 1000);
  uint32_t fixChangeCounter = 0;
  bool timeInit = false;
  uint8_t satNotSetCounter = 0;
@ -92,6 +92,8 @@ class GpsHyperionLinuxController : public ExtendedControllerBase {
  // we set it with the roughly valid time from the GPS. For some reason, NTP might only work
  // if the time difference between sys time and current time is not too large
  void overwriteTimeIfNotSane(timeval time, bool validFix);
  void handleFixChangedEvent(uint8_t newFix);
 };
 #endif /* MISSION_DEVICES_GPSHYPERIONHANDLER_H_ */
--- a/linux/acs/StrComHandler.cpp
+++ b/linux/acs/StrComHandler.cpp
@ -54,7 +54,7 @@ ReturnValue_t StrComHandler::performOperation(uint8_t operationCode) {
    switch (state) {
      case InternalState::POLL_ONE_REPLY: {
        // Stopwatch watch;
-        replyTimeout.setTimeout(200);
+        replyTimeout.setTimeout(400);
        readOneReply(static_cast<uint32_t>(state));
        {
          MutexGuard mg(lock);
@ -175,7 +175,8 @@ void StrComHandler::setDownloadImageName(std::string filename) {
 void StrComHandler::setFlashReadFilename(std::string filename) { flashRead.filename = filename; }
-ReturnValue_t StrComHandler::startFirmwareUpdate(std::string fullname) {
+ReturnValue_t StrComHandler::startFirmwareUpdate(std::string fullname,
                                                 startracker::FirmwareTarget target) {
  {
    MutexGuard mg(lock);
    if (state != InternalState::SLEEPING) {
@ -192,8 +193,13 @@ ReturnValue_t StrComHandler::startFirmwareUpdate(std::string fullname) {
  if (not std::filesystem::exists(flashWrite.fullname)) {
    return FILE_NOT_EXISTS;
  }
-  flashWrite.firstRegion = static_cast<uint8_t>(startracker::FirmwareRegions::FIRST);
+  if (target == startracker::FirmwareTarget::MAIN) {
-  flashWrite.lastRegion = static_cast<uint8_t>(startracker::FirmwareRegions::LAST);
+    flashWrite.firstRegion = static_cast<uint8_t>(startracker::FirmwareRegions::FIRST_MAIN);
    flashWrite.lastRegion = static_cast<uint8_t>(startracker::FirmwareRegions::LAST_MAIN);
  } else if (target == startracker::FirmwareTarget::BACKUP) {
    flashWrite.firstRegion = static_cast<uint8_t>(startracker::FirmwareRegions::FIRST_BACKUP);
    flashWrite.lastRegion = static_cast<uint8_t>(startracker::FirmwareRegions::LAST_BACKUP);
  }
  {
    MutexGuard mg(lock);
    replyWasReceived = false;
@ -264,7 +270,7 @@ ReturnValue_t StrComHandler::performImageDownload() {
      file.close();
      return returnvalue::OK;
    }
-    arc_pack_download_action_req(&downloadReq, cmdBuf.data(), &size);
+    prv_arc_pack_download_action_req(&downloadReq, cmdBuf.data(), &size);
    result = sendAndRead(size, downloadReq.position);
    if (result != returnvalue::OK) {
      if (retries < CONFIG_MAX_DOWNLOAD_RETRIES) {
@ -275,7 +281,7 @@ ReturnValue_t StrComHandler::performImageDownload() {
      file.close();
      return result;
    }
-    result = checkActionReply(replySize);
+    result = checkActionReply(replySize, "downloading image");
    if (result != returnvalue::OK) {
      if (retries < CONFIG_MAX_DOWNLOAD_RETRIES) {
        serial::flushRxBuf(serialPort);
@ -343,12 +349,12 @@ ReturnValue_t StrComHandler::performImageUpload() {
    }
    file.seekg(uploadReq.position * SIZE_IMAGE_PART, file.beg);
    file.read(reinterpret_cast<char*>(uploadReq.data), SIZE_IMAGE_PART);
-    arc_pack_upload_action_req(&uploadReq, cmdBuf.data(), &size);
+    prv_arc_pack_upload_action_req(&uploadReq, cmdBuf.data(), &size);
    result = sendAndRead(size, uploadReq.position);
    if (result != returnvalue::OK) {
      return returnvalue::FAILED;
    }
-    result = checkActionReply(replyLen);
+    result = checkActionReply(replyLen, "sky image upload");
    if (result != returnvalue::OK) {
      return result;
    }
@ -369,12 +375,12 @@ ReturnValue_t StrComHandler::performImageUpload() {
    file.seekg(fullChunks * SIZE_IMAGE_PART, file.beg);
    file.read(reinterpret_cast<char*>(uploadReq.data), remainder);
    file.close();
-    arc_pack_upload_action_req(&uploadReq, cmdBuf.data(), &size);
+    prv_arc_pack_upload_action_req(&uploadReq, cmdBuf.data(), &size);
    result = sendAndRead(size, uploadReq.position);
    if (result != returnvalue::OK) {
      return returnvalue::FAILED;
    }
-    result = checkActionReply(replyLen);
+    result = checkActionReply(replyLen, "sky image upload");
    if (result != returnvalue::OK) {
      return result;
    }
@ -388,8 +394,7 @@ ReturnValue_t StrComHandler::performImageUpload() {
 ReturnValue_t StrComHandler::performFirmwareUpdate() {
  using namespace startracker;
  ReturnValue_t result = returnvalue::OK;
-  result = unlockAndEraseRegions(static_cast<uint32_t>(startracker::FirmwareRegions::FIRST),
+  result = unlockAndEraseRegions(flashWrite.firstRegion, flashWrite.lastRegion);
                                 static_cast<uint32_t>(startracker::FirmwareRegions::LAST));
  if (result != returnvalue::OK) {
    return result;
  }
@ -440,12 +445,12 @@ ReturnValue_t StrComHandler::performFlashWrite() {
      bytesWrittenInRegion = 0;
    }
    req.address = bytesWrittenInRegion;
-    arc_pack_write_action_req(&req, cmdBuf.data(), &size);
+    prv_arc_pack_write_action_req(&req, cmdBuf.data(), &size);
    result = sendAndRead(size, req.address);
    if (result != returnvalue::OK) {
      return result;
    }
-    result = checkActionReply(replyLen);
+    result = checkActionReply(replyLen, "firmware image upload");
    if (result != returnvalue::OK) {
      return result;
    }
@ -483,12 +488,12 @@ ReturnValue_t StrComHandler::performFlashWrite() {
    req.length = remainingBytes;
    totalBytesWritten += CHUNK_SIZE;
    bytesWrittenInRegion += remainingBytes;
-    arc_pack_write_action_req(&req, cmdBuf.data(), &size);
+    prv_arc_pack_write_action_req(&req, cmdBuf.data(), &size);
    result = sendAndRead(size, req.address);
    if (result != returnvalue::OK) {
      return result;
    }
-    result = checkActionReply(replyLen);
+    result = checkActionReply(replyLen, "flash write");
    if (result != returnvalue::OK) {
      return result;
    }
@ -531,7 +536,7 @@ ReturnValue_t StrComHandler::performFlashRead() {
    } else {
      req.length = CHUNK_SIZE;
    }
-    arc_pack_read_action_req(&req, cmdBuf.data(), &size);
+    prv_arc_pack_read_action_req(&req, cmdBuf.data(), &size);
    result = sendAndRead(size, req.address);
    if (result != returnvalue::OK) {
      if (retries < CONFIG_MAX_DOWNLOAD_RETRIES) {
@ -542,7 +547,7 @@ ReturnValue_t StrComHandler::performFlashRead() {
      file.close();
      return result;
    }
-    result = checkActionReply(replyLen);
+    result = checkActionReply(replyLen, "flash read");
    if (result != returnvalue::OK) {
      if (retries < CONFIG_MAX_DOWNLOAD_RETRIES) {
        serial::flushRxBuf(serialPort);
@ -584,7 +589,7 @@ ReturnValue_t StrComHandler::sendAndRead(size_t size, uint32_t failParameter) {
  return readOneReply(failParameter);
 }
-ReturnValue_t StrComHandler::checkActionReply(size_t replySize) {
+ReturnValue_t StrComHandler::checkActionReply(size_t replySize, const char* context) {
  uint8_t type = startracker::getReplyFrameType(replyPtr);
  if (type != TMTC_ACTIONREPLY) {
    sif::warning << "StrHelper::checkActionReply: Received reply with invalid type ID" << std::endl;
@ -592,7 +597,7 @@ ReturnValue_t StrComHandler::checkActionReply(size_t replySize) {
  }
  uint8_t status = startracker::getStatusField(replyPtr);
  if (status != ArcsecDatalinkLayer::STATUS_OK) {
-    sif::warning << "StrHelper::checkActionReply: Status failure: "
+    sif::warning << "StrHelper::checkActionReply: Status failure for " << context << ": "
                 << static_cast<unsigned int>(status) << std::endl;
    return STATUS_ERROR;
  }
@ -720,7 +725,7 @@ ReturnValue_t StrComHandler::readReceivedMessage(CookieIF* cookie, uint8_t** buf
  {
    MutexGuard mg(lock);
    if (state != InternalState::SLEEPING) {
-      return returnvalue::OK;
+      return BUSY;
    }
    replyWasReceived = this->replyWasReceived;
  }
@ -733,7 +738,7 @@ ReturnValue_t StrComHandler::readReceivedMessage(CookieIF* cookie, uint8_t** buf
    *size = replyLen;
  }
  replyLen = 0;
-  return returnvalue::OK;
+  return replyResult;
 }
 ReturnValue_t StrComHandler::unlockAndEraseRegions(uint32_t from, uint32_t to) {
@ -744,23 +749,26 @@ ReturnValue_t StrComHandler::unlockAndEraseRegions(uint32_t from, uint32_t to) {
  struct UnlockActionRequest unlockReq;
  struct EraseActionRequest eraseReq;
  uint32_t size = 0;
-  for (uint32_t idx = from; idx <= to; idx++) {
+  for (uint32_t idx = from; idx < to; idx++) {
    unlockReq.region = idx;
-    unlockReq.code = startracker::region_secrets::secret[idx];
+    unlockReq.code = startracker::region_secrets::SECRETS[idx];
-    arc_pack_unlock_action_req(&unlockReq, cmdBuf.data(), &size);
+    prv_arc_pack_unlock_action_req(&unlockReq, cmdBuf.data(), &size);
    result = sendAndRead(size, unlockReq.region);
    if (result != returnvalue::OK) {
      return result;
    }
-    result = checkActionReply(replyLen);
+    result = checkActionReply(replyLen, "unlocking region");
    if (result != returnvalue::OK) {
      sif::warning << "StrHelper::unlockAndEraseRegions: Failed to unlock region with id "
                   << static_cast<unsigned int>(unlockReq.region) << std::endl;
      return result;
    }
    eraseReq.region = idx;
-    arc_pack_erase_action_req(&eraseReq, cmdBuf.data(), &size);
+    prv_arc_pack_erase_action_req(&eraseReq, cmdBuf.data(), &size);
    result = sendAndRead(size, eraseReq.region);
    if (result != returnvalue::OK) {
    }
    result = checkActionReply(replyLen, "erasing region");
    if (result != returnvalue::OK) {
      sif::warning << "StrHelper::unlockAndEraseRegions: Failed to erase region with id "
                   << static_cast<unsigned int>(eraseReq.region) << std::endl;
--- a/linux/acs/StrComHandler.h
+++ b/linux/acs/StrComHandler.h
@ -6,6 +6,7 @@
 #include <string>
 #include "OBSWConfig.h"
 #include "mission/acs/str/strHelpers.h"
 #ifdef XIPHOS_Q7S
 #include "bsp_q7s/fs/SdCardManager.h"
@ -127,7 +128,7 @@ class StrComHandler : public SystemObject, public DeviceCommunicationIF, public
   * @param fullname    Full name including absolute path of file containing firmware
   *                    update.
   */
-  ReturnValue_t startFirmwareUpdate(std::string fullname);
+  ReturnValue_t startFirmwareUpdate(std::string fullname, startracker::FirmwareTarget target);
  /**
   * @brief   Starts the flash read procedure
@ -334,7 +335,7 @@ class StrComHandler : public SystemObject, public DeviceCommunicationIF, public
   *
   * @return  returnvalue::OK if reply confirms success of packet transfer, otherwise REUTRN_FAILED
   */
-  ReturnValue_t checkActionReply(size_t replySize);
+  ReturnValue_t checkActionReply(size_t replySize, const char *context);
  /**
   * @brief   Checks the position field in a star tracker upload/download reply.
--- a/linux/fsfwconfig/events/translateEvents.cpp
+++ b/linux/fsfwconfig/events/translateEvents.cpp
@ -1,7 +1,7 @@
 /**
- * @brief    Auto-generated event translation file. Contains 315 translations.
+ * @brief    Auto-generated event translation file. Contains 325 translations.
 * @details
- * Generated on: 2023-10-27 14:24:05
+ * Generated on: 2024-05-06 13:47:38
 */
 #include "translateEvents.h"
@ -82,8 +82,11 @@ const char *BIT_LOCK_STRING = "BIT_LOCK";
 const char *BIT_LOCK_LOST_STRING = "BIT_LOCK_LOST";
 const char *FRAME_PROCESSING_FAILED_STRING = "FRAME_PROCESSING_FAILED";
 const char *CLOCK_SET_STRING = "CLOCK_SET";
-const char *CLOCK_DUMP_STRING = "CLOCK_DUMP";
+const char *CLOCK_DUMP_LEGACY_STRING = "CLOCK_DUMP_LEGACY";
 const char *CLOCK_SET_FAILURE_STRING = "CLOCK_SET_FAILURE";
 const char *CLOCK_DUMP_STRING = "CLOCK_DUMP";
 const char *CLOCK_DUMP_BEFORE_SETTING_TIME_STRING = "CLOCK_DUMP_BEFORE_SETTING_TIME";
 const char *CLOCK_DUMP_AFTER_SETTING_TIME_STRING = "CLOCK_DUMP_AFTER_SETTING_TIME";
 const char *TC_DELETION_FAILED_STRING = "TC_DELETION_FAILED";
 const char *TEST_STRING = "TEST";
 const char *CHANGE_OF_SETUP_PARAMETER_STRING = "CHANGE_OF_SETUP_PARAMETER";
@ -94,14 +97,17 @@ const char *FILESTORE_ERROR_STRING = "FILESTORE_ERROR";
 const char *FILENAME_TOO_LARGE_ERROR_STRING = "FILENAME_TOO_LARGE_ERROR";
 const char *HANDLING_CFDP_REQUEST_FAILED_STRING = "HANDLING_CFDP_REQUEST_FAILED";
 const char *SAFE_RATE_VIOLATION_STRING = "SAFE_RATE_VIOLATION";
-const char *SAFE_RATE_RECOVERY_STRING = "SAFE_RATE_RECOVERY";
+const char *RATE_RECOVERY_STRING = "RATE_RECOVERY";
 const char *MULTIPLE_RW_INVALID_STRING = "MULTIPLE_RW_INVALID";
 const char *MEKF_INVALID_INFO_STRING = "MEKF_INVALID_INFO";
 const char *MEKF_RECOVERY_STRING = "MEKF_RECOVERY";
 const char *MEKF_AUTOMATIC_RESET_STRING = "MEKF_AUTOMATIC_RESET";
-const char *MEKF_INVALID_MODE_VIOLATION_STRING = "MEKF_INVALID_MODE_VIOLATION";
+const char *PTG_CTRL_NO_ATTITUDE_INFORMATION_STRING = "PTG_CTRL_NO_ATTITUDE_INFORMATION";
 const char *SAFE_MODE_CONTROLLER_FAILURE_STRING = "SAFE_MODE_CONTROLLER_FAILURE";
 const char *TLE_TOO_OLD_STRING = "TLE_TOO_OLD";
 const char *TLE_FILE_READ_FAILED_STRING = "TLE_FILE_READ_FAILED";
 const char *PTG_RATE_VIOLATION_STRING = "PTG_RATE_VIOLATION";
 const char *DETUMBLE_TRANSITION_FAILED_STRING = "DETUMBLE_TRANSITION_FAILED";
 const char *SWITCH_CMD_SENT_STRING = "SWITCH_CMD_SENT";
 const char *SWITCH_HAS_CHANGED_STRING = "SWITCH_HAS_CHANGED";
 const char *SWITCHING_Q7S_DENIED_STRING = "SWITCHING_Q7S_DENIED";
@ -136,6 +142,7 @@ const char *MPSOC_HANDLER_SEQUENCE_COUNT_MISMATCH_STRING = "MPSOC_HANDLER_SEQUEN
 const char *MPSOC_SHUTDOWN_FAILED_STRING = "MPSOC_SHUTDOWN_FAILED";
 const char *SUPV_NOT_ON_STRING = "SUPV_NOT_ON";
 const char *SUPV_REPLY_TIMEOUT_STRING = "SUPV_REPLY_TIMEOUT";
 const char *CAM_MUST_BE_ON_FOR_SNAPSHOT_MODE_STRING = "CAM_MUST_BE_ON_FOR_SNAPSHOT_MODE";
 const char *SELF_TEST_I2C_FAILURE_STRING = "SELF_TEST_I2C_FAILURE";
 const char *SELF_TEST_SPI_FAILURE_STRING = "SELF_TEST_SPI_FAILURE";
 const char *SELF_TEST_ADC_FAILURE_STRING = "SELF_TEST_ADC_FAILURE";
@ -157,6 +164,8 @@ const char *SUPV_EXE_FAILURE_STRING = "SUPV_EXE_FAILURE";
 const char *SUPV_CRC_FAILURE_EVENT_STRING = "SUPV_CRC_FAILURE_EVENT";
 const char *SUPV_HELPER_EXECUTING_STRING = "SUPV_HELPER_EXECUTING";
 const char *SUPV_MPSOC_SHUTDOWN_BUILD_FAILED_STRING = "SUPV_MPSOC_SHUTDOWN_BUILD_FAILED";
 const char *SUPV_ACK_UNKNOWN_COMMAND_STRING = "SUPV_ACK_UNKNOWN_COMMAND";
 const char *SUPV_EXE_ACK_UNKNOWN_COMMAND_STRING = "SUPV_EXE_ACK_UNKNOWN_COMMAND";
 const char *SANITIZATION_FAILED_STRING = "SANITIZATION_FAILED";
 const char *MOUNTED_SD_CARD_STRING = "MOUNTED_SD_CARD";
 const char *SEND_MRAM_DUMP_FAILED_STRING = "SEND_MRAM_DUMP_FAILED";
@ -236,6 +245,7 @@ const char *SIDE_SWITCH_TRANSITION_NOT_ALLOWED_12903_STRING = "SIDE_SWITCH_TRANS
 const char *CHILDREN_LOST_MODE_STRING = "CHILDREN_LOST_MODE";
 const char *GPS_FIX_CHANGE_STRING = "GPS_FIX_CHANGE";
 const char *CANT_GET_FIX_STRING = "CANT_GET_FIX";
 const char *RESET_FAIL_STRING = "RESET_FAIL";
 const char *P60_BOOT_COUNT_STRING = "P60_BOOT_COUNT";
 const char *BATT_MODE_STRING = "BATT_MODE";
 const char *BATT_MODE_CHANGED_STRING = "BATT_MODE_CHANGED";
@ -478,9 +488,15 @@ const char *translateEvents(Event event) {
    case (8900):
      return CLOCK_SET_STRING;
    case (8901):
-      return CLOCK_DUMP_STRING;
+      return CLOCK_DUMP_LEGACY_STRING;
    case (8902):
      return CLOCK_SET_FAILURE_STRING;
    case (8903):
      return CLOCK_DUMP_STRING;
    case (8904):
      return CLOCK_DUMP_BEFORE_SETTING_TIME_STRING;
    case (8905):
      return CLOCK_DUMP_AFTER_SETTING_TIME_STRING;
    case (9100):
      return TC_DELETION_FAILED_STRING;
    case (9700):
@ -502,7 +518,7 @@ const char *translateEvents(Event event) {
    case (11200):
      return SAFE_RATE_VIOLATION_STRING;
    case (11201):
-      return SAFE_RATE_RECOVERY_STRING;
+      return RATE_RECOVERY_STRING;
    case (11202):
      return MULTIPLE_RW_INVALID_STRING;
    case (11203):
@ -512,11 +528,17 @@ const char *translateEvents(Event event) {
    case (11205):
      return MEKF_AUTOMATIC_RESET_STRING;
    case (11206):
-      return MEKF_INVALID_MODE_VIOLATION_STRING;
+      return PTG_CTRL_NO_ATTITUDE_INFORMATION_STRING;
    case (11207):
      return SAFE_MODE_CONTROLLER_FAILURE_STRING;
    case (11208):
      return TLE_TOO_OLD_STRING;
    case (11209):
      return TLE_FILE_READ_FAILED_STRING;
    case (11210):
      return PTG_RATE_VIOLATION_STRING;
    case (11211):
      return DETUMBLE_TRANSITION_FAILED_STRING;
    case (11300):
      return SWITCH_CMD_SENT_STRING;
    case (11301):
@ -585,6 +607,8 @@ const char *translateEvents(Event event) {
      return SUPV_NOT_ON_STRING;
    case (11608):
      return SUPV_REPLY_TIMEOUT_STRING;
    case (11609):
      return CAM_MUST_BE_ON_FOR_SNAPSHOT_MODE_STRING;
    case (11701):
      return SELF_TEST_I2C_FAILURE_STRING;
    case (11702):
@ -627,6 +651,10 @@ const char *translateEvents(Event event) {
      return SUPV_HELPER_EXECUTING_STRING;
    case (12008):
      return SUPV_MPSOC_SHUTDOWN_BUILD_FAILED_STRING;
    case (12009):
      return SUPV_ACK_UNKNOWN_COMMAND_STRING;
    case (12010):
      return SUPV_EXE_ACK_UNKNOWN_COMMAND_STRING;
    case (12100):
      return SANITIZATION_FAILED_STRING;
    case (12101):
@ -785,6 +813,8 @@ const char *translateEvents(Event event) {
      return GPS_FIX_CHANGE_STRING;
    case (13101):
      return CANT_GET_FIX_STRING;
    case (13102):
      return RESET_FAIL_STRING;
    case (13200):
      return P60_BOOT_COUNT_STRING;
    case (13201):
--- a/linux/fsfwconfig/objects/translateObjects.cpp
+++ b/linux/fsfwconfig/objects/translateObjects.cpp
@ -1,8 +1,8 @@
 /**
 * @brief  Auto-generated object translation file.
 * @details
- * Contains 179 translations.
+ * Contains 180 translations.
- * Generated on: 2023-10-27 14:24:05
+ * Generated on: 2024-05-06 13:47:38
 */
 #include "translateObjects.h"
@ -64,6 +64,7 @@ const char *PTME_VC3_CFDP_TM_STRING = "PTME_VC3_CFDP_TM";
 const char *PLOC_MPSOC_HANDLER_STRING = "PLOC_MPSOC_HANDLER";
 const char *PLOC_SUPERVISOR_HANDLER_STRING = "PLOC_SUPERVISOR_HANDLER";
 const char *PLOC_SUPERVISOR_HELPER_STRING = "PLOC_SUPERVISOR_HELPER";
 const char *PLOC_MPSOC_COMMUNICATION_STRING = "PLOC_MPSOC_COMMUNICATION";
 const char *SCEX_STRING = "SCEX";
 const char *SOLAR_ARRAY_DEPL_HANDLER_STRING = "SOLAR_ARRAY_DEPL_HANDLER";
 const char *HEATER_HANDLER_STRING = "HEATER_HANDLER";
@ -304,6 +305,8 @@ const char *translateObject(object_id_t object) {
      return PLOC_SUPERVISOR_HANDLER_STRING;
    case 0x44330017:
      return PLOC_SUPERVISOR_HELPER_STRING;
    case 0x44330018:
      return PLOC_MPSOC_COMMUNICATION_STRING;
    case 0x44330032:
      return SCEX_STRING;
    case 0x444100A2:
--- a/linux/ipcore/PapbVcInterface.cpp
+++ b/linux/ipcore/PapbVcInterface.cpp
@ -30,6 +30,7 @@ ReturnValue_t PapbVcInterface::initialize() {
 ReturnValue_t PapbVcInterface::write(const uint8_t* data, size_t size, size_t& writtenSize) {
  // There are no packets smaller than 4, this is considered a configuration error.
  if (size < 4) {
    sif::warning << "PapbVcInterface::write: Passed packet smaller than 4 bytes" << std::endl;
    return returnvalue::FAILED;
  }
  // The user must call advance until completion before starting a new packet transfer.
@ -83,6 +84,9 @@ ReturnValue_t PapbVcInterface::advanceWrite(size_t& writtenSize) {
    writtenSize++;
  }
  if (not pollReadyForOctet(MAX_BUSY_POLLS)) {
    if (not pollReadyForPacket()) {
      return PARTIALLY_WRITTEN;
    }
    abortPacketTransfer();
    return returnvalue::FAILED;
  }
--- a/linux/payload/CMakeLists.txt
+++ b/linux/payload/CMakeLists.txt
@ -1,10 +1,12 @@
 target_sources(
  ${OBSW_NAME}
  PUBLIC PlocMemoryDumper.cpp
-         PlocMpsocHandler.cpp
+         MpsocCommunication.cpp
         SerialCommunicationHelper.cpp
         FreshMpsocHandler.cpp
         FreshSupvHandler.cpp
         PlocMpsocSpecialComHelper.cpp
         plocMpsocHelpers.cpp
         PlocSupervisorHandler.cpp
         PlocSupvUartMan.cpp
         ScexDleParser.cpp
         ScexHelper.cpp
--- a/linux/payload/FreshMpsocHandler.cpp
+++ b/linux/payload/FreshMpsocHandler.cpp
--- a/linux/payload/FreshMpsocHandler.h
+++ b/linux/payload/FreshMpsocHandler.h
@ -0,0 +1,212 @@
 #include "fsfw/action/ActionMessage.h"
 #include "fsfw/action/CommandsActionsIF.h"
 #include "fsfw/devicehandlers/DeviceHandlerIF.h"
 #include "fsfw/devicehandlers/FreshDeviceHandlerBase.h"
 #include "fsfw/ipc/MessageQueueIF.h"
 #include "fsfw/ipc/messageQueueDefinitions.h"
 #include "fsfw/modes/ModeMessage.h"
 #include "fsfw/objectmanager/SystemObjectIF.h"
 #include "fsfw/power/PowerSwitchIF.h"
 #include "fsfw/power/definitions.h"
 #include "fsfw/returnvalues/returnvalue.h"
 #include "fsfw_hal/linux/gpio/Gpio.h"
 #include "linux/payload/MpsocCommunication.h"
 #include "linux/payload/PlocMpsocSpecialComHelper.h"
 #include "linux/payload/plocMpsocHelpers.h"
 class FreshMpsocHandler : public FreshDeviceHandlerBase, public CommandsActionsIF {
 public:
  enum OpCode { DEFAULT_OPERATION = 0, PARSE_TM = 1 };
  static constexpr uint32_t MPSOC_MODE_CMD_TIMEOUT_MS = 120000;
  FreshMpsocHandler(DhbConfig cfg, MpsocCommunication& comInterface,
                    PlocMpsocSpecialComHelper& specialComHelper, Gpio uartIsolatorSwitch,
                    object_id_t supervisorHandler, PowerSwitchIF& powerSwitcher,
                    power::Switch_t camSwitchId);
  /**
   * Periodic helper executed function, implemented by child class.
   */
  void performDeviceOperation(uint8_t opCode) override;
  void performDefaultDeviceOperation();
  /**
   * Implemented by child class. Handle all command messages which are
   * not health, mode, action or housekeeping messages.
   * @param message
   * @return
   */
  ReturnValue_t handleCommandMessage(CommandMessage* message) override;
  ReturnValue_t initialize() override;
 private:
  enum class StartupState { IDLE, HW_INIT, DONE } startupState = StartupState::IDLE;
  enum class PowerState { IDLE, PENDING_STARTUP, PENDING_SHUTDOWN, SUPV_FAILED, DONE };
  enum TransitionState { NONE, TO_ON, TO_OFF, SUBMODE } transitionState = TransitionState::NONE;
  MpsocCommunication& comInterface;
  PlocMpsocSpecialComHelper& specialComHelper;
  MessageQueueIF* eventQueue = nullptr;
  SourceSequenceCounter commandSequenceCount = SourceSequenceCounter(0);
  MessageQueueIF* commandActionHelperQueue = nullptr;
  CommandActionHelper commandActionHelper;
  Gpio uartIsolatorSwitch;
  mpsoc::HkReport hkReport;
  object_id_t supervisorHandler;
  Countdown mpsocBootTransitionCd = Countdown(6500);
  Countdown supvTransitionCd = Countdown(3000);
  PoolEntry<uint32_t> peStatus = PoolEntry<uint32_t>();
  PoolEntry<uint8_t> peMode = PoolEntry<uint8_t>();
  PoolEntry<uint8_t> peDownlinkPwrOn = PoolEntry<uint8_t>();
  PoolEntry<uint8_t> peDownlinkReplyActive = PoolEntry<uint8_t>();
  PoolEntry<uint8_t> peDownlinkJesdSyncStatus = PoolEntry<uint8_t>();
  PoolEntry<uint8_t> peDownlinkDacStatus = PoolEntry<uint8_t>();
  PoolEntry<uint8_t> peCameraStatus = PoolEntry<uint8_t>();
  PoolEntry<uint8_t> peCameraSdiStatus = PoolEntry<uint8_t>();
  PoolEntry<float> peCameraFpgaTemp = PoolEntry<float>();
  PoolEntry<float> peCameraSocTemp = PoolEntry<float>();
  PoolEntry<float> peSysmonTemp = PoolEntry<float>();
  PoolEntry<float> peSysmonVccInt = PoolEntry<float>();
  PoolEntry<float> peSysmonVccAux = PoolEntry<float>();
  PoolEntry<float> peSysmonVccBram = PoolEntry<float>();
  PoolEntry<float> peSysmonVccPaux = PoolEntry<float>();
  PoolEntry<float> peSysmonVccPint = PoolEntry<float>();
  PoolEntry<float> peSysmonVccPdro = PoolEntry<float>();
  PoolEntry<float> peSysmonMb12V = PoolEntry<float>();
  PoolEntry<float> peSysmonMb3V3 = PoolEntry<float>();
  PoolEntry<float> peSysmonMb1V8 = PoolEntry<float>();
  PoolEntry<float> peSysmonVcc12V = PoolEntry<float>();
  PoolEntry<float> peSysmonVcc5V = PoolEntry<float>();
  PoolEntry<float> peSysmonVcc3V3 = PoolEntry<float>();
  PoolEntry<float> peSysmonVcc3V3VA = PoolEntry<float>();
  PoolEntry<float> peSysmonVcc2V5DDR = PoolEntry<float>();
  PoolEntry<float> peSysmonVcc1V2DDR = PoolEntry<float>();
  PoolEntry<float> peSysmonVcc0V9 = PoolEntry<float>();
  PoolEntry<float> peSysmonVcc0V6VTT = PoolEntry<float>();
  PoolEntry<float> peSysmonSafeCotsCur = PoolEntry<float>();
  PoolEntry<float> peSysmonNvm4XoCur = PoolEntry<float>();
  PoolEntry<uint16_t> peSemUncorrectableErrs = PoolEntry<uint16_t>();
  PoolEntry<uint16_t> peSemCorrectableErrs = PoolEntry<uint16_t>();
  PoolEntry<uint8_t> peSemStatus = PoolEntry<uint8_t>();
  PoolEntry<uint8_t> peRebootMpsocRequired = PoolEntry<uint8_t>();
  PowerState powerState;
  bool specialComHelperExecuting = false;
  struct ActionCommandInfo {
    Countdown cmdCountdown = Countdown(mpsoc::DEFAULT_CMD_TIMEOUT_MS);
    bool pending = false;
    MessageQueueId_t commandedBy = MessageQueueIF::NO_QUEUE;
    DeviceCommandId_t pendingCmd = DeviceHandlerIF::NO_COMMAND_ID;
    uint16_t pendingCmdMpsocApid = 0;
    void reset() {
      pending = false;
      commandedBy = MessageQueueIF::NO_QUEUE;
      pendingCmd = DeviceHandlerIF::NO_COMMAND_ID;
    }
    void start(DeviceCommandId_t commandId, MessageQueueId_t commandedBy) {
      pending = true;
      cmdCountdown.resetTimer();
      pendingCmd = commandId;
      this->commandedBy = commandedBy;
    }
  } activeCmdInfo;
  uint8_t commandBuffer[mpsoc::MAX_COMMAND_SIZE];
  SpacePacketCreator creator;
  ploc::SpTcParams spParams = ploc::SpTcParams(creator);
  Mode_t targetMode = HasModesIF::MODE_UNDEFINED;
  Submode_t targetSubmode = 0;
  struct TmMemReadReport {
    static const uint8_t FIX_SIZE = 14;
    size_t rememberRequestedSize = 0;
  };
  TmMemReadReport tmMemReadReport;
  uint32_t lastReplySequenceCount = 0;
  uint8_t skipSupvCommandingToOn = false;
  PowerSwitchIF& powerSwitcher;
  power::Switch_t camSwitchId;
  // HK manager abstract functions.
  LocalPoolDataSetBase* getDataSetHandle(sid_t sid) override;
  ReturnValue_t initializeLocalDataPool(localpool::DataPool& localDataPoolMap,
                                        LocalDataPoolManager& poolManager) override;
  // Mode abstract functions
  ReturnValue_t checkModeCommand(Mode_t mode, Submode_t submode,
                                 uint32_t* msToReachTheMode) override;
  // Action override. Forward to user.
  ReturnValue_t executeAction(ActionId_t actionId, MessageQueueId_t commandedBy,
                              const uint8_t* data, size_t size) override;
  /**
   * @overload
   * @param submode
   */
  void startTransition(Mode_t newMode, Submode_t submode) override;
  ReturnValue_t performDeviceOperationPreQueueHandling(uint8_t opCode) override;
  // CommandsActionsIF overrides.
  MessageQueueIF* getCommandQueuePtr() override;
  void stepSuccessfulReceived(ActionId_t actionId, uint8_t step) override;
  void stepFailedReceived(ActionId_t actionId, uint8_t step, ReturnValue_t returnCode) override;
  void dataReceived(ActionId_t actionId, const uint8_t* data, uint32_t size) override;
  void completionSuccessfulReceived(ActionId_t actionId) override;
  void completionFailedReceived(ActionId_t actionId, ReturnValue_t returnCode) override;
  ReturnValue_t getParameter(uint8_t domainId, uint8_t uniqueId, ParameterWrapper* parameterWrapper,
                             const ParameterWrapper* newValues, uint16_t startAtIndex) override;
  void handleActionCommandFailure(ActionId_t actionId, ReturnValue_t returnCode);
  ReturnValue_t executeRegularCmd(ActionId_t actionId, MessageQueueId_t commandedBy,
                                  const uint8_t* data, size_t dataLen);
  void handleTransitionToOn();
  void handleTransitionToOff();
  ReturnValue_t commandTcModeReplay();
  ReturnValue_t commandTcMemWrite(const uint8_t* commandData, size_t commandDataLen);
  ReturnValue_t commandTcMemRead(const uint8_t* commandData, size_t commandDataLen);
  ReturnValue_t commandTcFlashDelete(const uint8_t* commandData, size_t commandDataLen);
  ReturnValue_t commandTcReplayStart(const uint8_t* commandData, size_t commandDataLen);
  ReturnValue_t commandTcReplayStop();
  ReturnValue_t commandTcDownlinkPwrOn(const uint8_t* commandData, size_t commandDataLen);
  ReturnValue_t commandTcDownlinkPwrOff();
  ReturnValue_t commandTcGetHkReport();
  ReturnValue_t commandTcGetDirContent(const uint8_t* commandData, size_t commandDataLen);
  ReturnValue_t commandTcReplayWriteSequence(const uint8_t* commandData, size_t commandDataLen);
  ReturnValue_t commandTcCamCmdSend(const uint8_t* commandData, size_t commandDataLen);
  ReturnValue_t commandTcModeIdle();
  ReturnValue_t commandTcCamTakePic(const uint8_t* commandData, size_t commandDataLen);
  ReturnValue_t commandTcSimplexStreamFile(const uint8_t* commandData, size_t commandDataLen);
  ReturnValue_t commandTcSplitFile(const uint8_t* commandData, size_t commandDataLen);
  ReturnValue_t commandTcDownlinkDataModulate(const uint8_t* commandData, size_t commandDataLen);
  ReturnValue_t commandTcModeSnapshot();
  ReturnValue_t finishAndSendTc(DeviceCommandId_t cmdId, mpsoc::TcBase& tcBase,
                                uint32_t cmdCountdown = mpsoc::DEFAULT_CMD_TIMEOUT_MS);
  void handleEvent(EventMessage* eventMessage);
  void cmdDoneHandler(bool success, ReturnValue_t result);
  ReturnValue_t handleDeviceReply();
  ReturnValue_t handleAckReport();
  ReturnValue_t handleExecutionReport();
  void sendFailureReport(DeviceCommandId_t replyId, ReturnValue_t status);
  ReturnValue_t reportReplyData(DeviceCommandId_t tmId);
  ReturnValue_t handleGetHkReport();
  bool handleHwStartup();
  bool handleHwShutdown();
  void stopSpecialComHelper();
  void commandSubmodeTransition();
  void commonSpecialComInit();
  void commonSpecialComStop();
  void commandInitHandling(ActionId_t actionId, MessageQueueId_t commandedBy);
 };
--- a/linux/payload/FreshSupvHandler.cpp
+++ b/linux/payload/FreshSupvHandler.cpp
--- a/linux/payload/FreshSupvHandler.h
+++ b/linux/payload/FreshSupvHandler.h
@ -0,0 +1,188 @@
 #ifndef LINUX_PAYLOAD_FRESHSUPVHANDLER_H_
 #define LINUX_PAYLOAD_FRESHSUPVHANDLER_H_
 #include <fsfw/power/PowerSwitchIF.h>
 #include <mission/controller/controllerdefinitions/PowerCtrlDefinitions.h>
 #include <map>
 #include "PlocSupvUartMan.h"
 #include "fsfw/devicehandlers/FreshDeviceHandlerBase.h"
 #include "fsfw/power/definitions.h"
 #include "fsfw_hal/linux/gpio/Gpio.h"
 #include "plocSupvDefs.h"
 using supv::TcBase;
 class FreshSupvHandler : public FreshDeviceHandlerBase {
 public:
  enum OpCode { DEFAULT_OPERATION = 0, PARSE_TM = 1 };
  FreshSupvHandler(DhbConfig cfg, CookieIF* comCookie, Gpio uartIsolatorSwitch,
                   PowerSwitchIF& switchIF, power::Switch_t powerSwitch);
  /**
   * Periodic helper executed function, implemented by child class.
   */
  void performDeviceOperation(uint8_t opCode) override;
  /**
   * Implemented by child class. Handle all command messages which are
   * not health, mode, action or housekeeping messages.
   * @param message
   * @return
   */
  ReturnValue_t handleCommandMessage(CommandMessage* message) override;
  ReturnValue_t initialize() override;
 private:
  // HK manager abstract functions.
  LocalPoolDataSetBase* getDataSetHandle(sid_t sid) override;
  ReturnValue_t initializeLocalDataPool(localpool::DataPool& localDataPoolMap,
                                        LocalDataPoolManager& poolManager) override;
  // Mode abstract functions
  ReturnValue_t checkModeCommand(Mode_t mode, Submode_t submode,
                                 uint32_t* msToReachTheMode) override;
  // Action override. Forward to user.
  ReturnValue_t executeAction(ActionId_t actionId, MessageQueueId_t commandedBy,
                              const uint8_t* data, size_t size) override;
  /**
   * @overload
   * @param submode
   */
  void startTransition(Mode_t newMode, Submode_t submode) override;
  ReturnValue_t performDeviceOperationPreQueueHandling(uint8_t opCode) override;
  void handleTransitionToOn();
  void handleTransitionToOff();
 private:
  static constexpr bool SET_TIME_DURING_BOOT = true;
  static const uint8_t SIZE_NULL_TERMINATOR = 1;
  enum class StartupState : uint8_t {
    IDLE,
    POWER_SWITCHING,
    BOOTING,
    SET_TIME,
    WAIT_FOR_TIME_REPLY,
    TIME_WAS_SET,
    ON
  };
  StartupState startupState = StartupState::IDLE;
  MessageQueueIF* eventQueue = nullptr;
  supv::TmBase tmReader;
  enum class ShutdownState : uint8_t { IDLE, POWER_SWITCHING };
  ShutdownState shutdownState = ShutdownState::IDLE;
  PlocSupvUartManager* uartManager;
  CookieIF* comCookie;
  PowerSwitchIF& switchIF;
  power::Switch_t switchId;
  Gpio uartIsolatorSwitch;
  supv::HkSet hkSet;
  supv::BootStatusReport bootStatusReport;
  supv::LatchupStatusReport latchupStatusReport;
  supv::CountersReport countersReport;
  supv::AdcReport adcReport;
  bool transitionActive = false;
  Mode_t targetMode = HasModesIF::MODE_INVALID;
  Submode_t targetSubmode = 0;
  Countdown switchTimeout = Countdown(2000);
  // Vorago nees some time to boot properly
  Countdown bootTimeout = Countdown(supv::BOOT_TIMEOUT_MS);
  // Countdown interCmdCd = Countdown(supv::INTER_COMMAND_DELAY);
  PoolEntry<uint16_t> adcRawEntry = PoolEntry<uint16_t>(16);
  PoolEntry<uint16_t> adcEngEntry = PoolEntry<uint16_t>(16);
  PoolEntry<uint32_t> latchupCounters = PoolEntry<uint32_t>(7);
  PoolEntry<uint8_t> fmcStateEntry = PoolEntry<uint8_t>(1);
  PoolEntry<uint8_t> bootStateEntry = PoolEntry<uint8_t>(1);
  PoolEntry<uint8_t> bootCyclesEntry = PoolEntry<uint8_t>(1);
  PoolEntry<uint32_t> tempSupEntry = PoolEntry<uint32_t>(1);
  pwrctrl::EnablePl enablePl = pwrctrl::EnablePl(objects::POWER_CONTROLLER);
  struct ActiveCmdInfo {
    ActiveCmdInfo(DeviceCommandId_t commandId, uint32_t cmdCountdownMs)
        : commandId(commandId), cmdCountdown(cmdCountdownMs) {}
    DeviceCommandId_t commandId = DeviceHandlerIF::NO_COMMAND_ID;
    bool isPending = false;
    bool ackRecv = false;
    bool ackExeRecv = false;
    bool replyPacketExpected = false;
    bool replyPacketReceived = false;
    MessageQueueId_t commandedBy = MessageQueueIF::NO_QUEUE;
    bool requiresActionReply = false;
    Countdown cmdCountdown;
  };
  uint32_t buildActiveCmdKey(uint16_t moduleApid, uint8_t serviceId);
  // Map for Action commands. For normal commands, a separate static structure will be used.
  std::map<uint32_t, ActiveCmdInfo> activeActionCmds;
  std::array<uint8_t, supv::MAX_COMMAND_SIZE> commandBuffer{};
  SpacePacketCreator creator;
  supv::TcParams spParams = supv::TcParams(creator);
  DeviceCommandId_t commandedByCached = MessageQueueIF::NO_QUEUE;
  ReturnValue_t parseTmPackets();
  ReturnValue_t sendCommand(DeviceCommandId_t commandId, TcBase& tc, bool replyPacketExpected,
                            uint32_t cmdCountdownMs = 1000);
  ReturnValue_t sendEmptyCmd(DeviceCommandId_t commandId, uint16_t apid, uint8_t serviceId,
                             bool replyPacketExpected);
  ReturnValue_t prepareSelBootImageCmd(const uint8_t* commandData);
  ReturnValue_t prepareSetTimeRefCmd();
  ReturnValue_t prepareSetBootTimeoutCmd(const uint8_t* commandData, size_t cmdDataLen);
  ReturnValue_t prepareRestartTriesCmd(const uint8_t* commandData, size_t cmdDataLen);
  ReturnValue_t prepareDisableHk();
  ReturnValue_t prepareLatchupConfigCmd(const uint8_t* commandData, DeviceCommandId_t deviceCommand,
                                        size_t cmdDataLen);
  ReturnValue_t prepareSetAlertLimitCmd(const uint8_t* commandData, size_t cmdDataLen);
  ReturnValue_t prepareFactoryResetCmd(const uint8_t* commandData, size_t len);
  ReturnValue_t prepareSetShutdownTimeoutCmd(const uint8_t* commandData, size_t cmdDataLen);
  ReturnValue_t prepareSetGpioCmd(const uint8_t* commandData, size_t commandDataLen);
  ReturnValue_t prepareReadGpioCmd(const uint8_t* commandData, size_t commandDataLen);
  ReturnValue_t prepareSetAdcEnabledChannelsCmd(const uint8_t* commandData);
  ReturnValue_t prepareSetAdcWindowAndStrideCmd(const uint8_t* commandData);
  ReturnValue_t prepareSetAdcThresholdCmd(const uint8_t* commandData);
  ReturnValue_t prepareWipeMramCmd(const uint8_t* commandData, size_t cmdDataLen);
  ReturnValue_t extractUpdateCommand(const uint8_t* commandData, size_t size,
                                     supv::UpdateParams& params);
  ReturnValue_t extractBaseParams(const uint8_t** commandData, size_t& remSize,
                                  supv::UpdateParams& params);
  void handleEvent(EventMessage* eventMessage);
  void handleBadApidServiceCombination(Event event, unsigned int apid, unsigned int serviceId);
  ReturnValue_t eventSubscription();
  void handlePacketPrint();
  bool isCommandAlreadyActive(ActionId_t actionId) const;
  ReturnValue_t handleAckReport(const uint8_t* data);
  void printAckFailureInfo(uint16_t statusCode, DeviceCommandId_t commandId);
  ReturnValue_t handleExecutionReport(const uint8_t* data);
  ReturnValue_t handleExecutionSuccessReport(ActiveCmdInfo& info, supv::ExecutionReport& report);
  void handleExecutionFailureReport(ActiveCmdInfo& info, supv::ExecutionReport& report);
  ReturnValue_t handleHkReport(const uint8_t* data);
  ReturnValue_t verifyPacket(const uint8_t* start, size_t foundLen);
  void confirmReplyPacketReceived(supv::Apid apid, uint8_t serviceId);
  void performCommandCompletionHandling(supv::Apid apid, uint8_t serviceId, ActiveCmdInfo& info);
  ReturnValue_t handleBootStatusReport(const uint8_t* data);
  ReturnValue_t genericHandleTm(const char* contextString, const uint8_t* data,
                                LocalPoolDataSetBase& set, supv::Apid apid, uint8_t serviceId);
  ReturnValue_t handleLatchupStatusReport(const uint8_t* data);
  bool isCommandPending() const;
 };
 #endif /* LINUX_PAYLOAD_FRESHSUPVHANDLER_H_ */
--- a/linux/payload/MpsocCommunication.cpp
+++ b/linux/payload/MpsocCommunication.cpp
@ -0,0 +1,75 @@
 #include "MpsocCommunication.h"
 #include "fsfw/globalfunctions/CRC.h"
 #include "fsfw/returnvalues/returnvalue.h"
 #include "fsfw/tmtcpacket/ccsds/SpacePacketReader.h"
 #include "fsfw/tmtcpacket/ccsds/header.h"
 #include "linux/payload/plocMpsocHelpers.h"
 #include "unistd.h"
 MpsocCommunication::MpsocCommunication(object_id_t objectId, SerialConfig cfg)
    : SystemObject(objectId), readRingBuf(4096, true), helper(cfg) {}
 ReturnValue_t MpsocCommunication::initialize() { return helper.initialize(); }
 ReturnValue_t MpsocCommunication::send(const uint8_t* data, size_t dataLen) {
  if (MPSOC_LOW_LEVEL_TX_WIRETAPPING) {
    sif::debug << "SEND MPSOC packet with size " << dataLen << std::endl;
  }
  return helper.send(data, dataLen);
 }
 ReturnValue_t MpsocCommunication::parseAndRetrieveNextPacket() {
  // We do not have a data link layer, so this whole thing is a mess in any case..
  // But basically, we try to parse space packets from the internal ring buffer and trasnfer
  // them to the higher level device handler. The CRC check is performed here as well, with
  // few other ways to detect if we even have a valid packet.
  size_t availableReadData = readRingBuf.getAvailableReadData();
  // Minimum valid size for a space packet header.
  if (availableReadData < ccsds::HEADER_LEN + 1) {
    return returnvalue::OK;
  }
  readRingBuf.readData(readBuf, availableReadData);
  spReader.setReadOnlyData(readBuf, sizeof(readBuf));
  auto res = spReader.checkSize();
  if (res != returnvalue::OK) {
    return res;
  }
  // The packet might be garbage, with no way to recover without a data link layer.
  if (spReader.getFullPacketLen() > 4096) {
    readRingBuf.clear();
    // TODO: Maybe we should also clear the serial input buffer in Linux?
    return FAULTY_PACKET_SIZE;
  }
  if (availableReadData < spReader.getFullPacketLen()) {
    // Might be split packet where the rest still has to be read.
    return returnvalue::OK;
  }
  if (CRC::crc16ccitt(readBuf, spReader.getFullPacketLen()) != 0) {
    // Possibly invalid packet. We can not even trust the detected packet length.
    // Just clear the whole read buffer as well.
    readRingBuf.clear();
    triggerEvent(mpsoc::CRC_FAILURE);
    return CRC_CHECK_FAILED;
  }
  readRingBuf.deleteData(spReader.getFullPacketLen());
  return PACKET_RECEIVED;
 }
 ReturnValue_t MpsocCommunication::readSerialInterface() {
  int bytesRead = read(helper.rawFd(), readBuf, sizeof(readBuf));
  if (bytesRead < 0) {
    return returnvalue::FAILED;
  }
  if (bytesRead > 0) {
    if (MPSOC_LOW_LEVEL_RX_WIRETAPPING) {
      sif::debug << "Read " << bytesRead << " bytes on the MPSoC interface" << std::endl;
    }
    return readRingBuf.writeData(readBuf, bytesRead);
  }
  return returnvalue::OK;
 }
 const SpacePacketReader& MpsocCommunication::getSpReader() const { return spReader; }
 SerialCommunicationHelper& MpsocCommunication::getComHelper() { return helper; }
--- a/linux/payload/MpsocCommunication.h
+++ b/linux/payload/MpsocCommunication.h
@ -0,0 +1,44 @@
 #pragma once
 #include <fsfw/objectmanager/SystemObject.h>
 #include "eive/resultClassIds.h"
 #include "fsfw/container/SimpleRingBuffer.h"
 #include "fsfw/returnvalues/returnvalue.h"
 #include "fsfw/tmtcpacket/ccsds/SpacePacketReader.h"
 #include "linux/payload/SerialCommunicationHelper.h"
 static constexpr bool MPSOC_LOW_LEVEL_TX_WIRETAPPING = false;
 static constexpr bool MPSOC_LOW_LEVEL_RX_WIRETAPPING = false;
 class MpsocCommunication : public SystemObject {
 public:
  static const uint8_t CLASS_ID = CLASS_ID::PLOC_MPSOC_COM;
  static constexpr ReturnValue_t PACKET_RECEIVED = returnvalue::makeCode(CLASS_ID, 0);
  static constexpr ReturnValue_t FAULTY_PACKET_SIZE = returnvalue::makeCode(CLASS_ID, 1);
  static constexpr ReturnValue_t CRC_CHECK_FAILED = returnvalue::makeCode(CLASS_ID, 2);
  MpsocCommunication(object_id_t objectId, SerialConfig cfg);
  ReturnValue_t initialize() override;
  ReturnValue_t send(const uint8_t* data, size_t dataLen);
  // Should be called periodically to transfer the received data from the MPSoC from the Linux
  // buffer to the internal ring buffer for further processing.
  ReturnValue_t readSerialInterface();
  // Parses the internal ring buffer for packets and checks whether a packet was received.
  ReturnValue_t parseAndRetrieveNextPacket();
  // Can be used to read the parse packet, if one was received.
  const SpacePacketReader& getSpReader() const;
  SerialCommunicationHelper& getComHelper();
 private:
  SpacePacketReader spReader;
  uint8_t readBuf[4096];
  SimpleRingBuffer readRingBuf;
  SerialCommunicationHelper helper;
 };
--- a/linux/payload/PlocMpsocSpecialComHelper.cpp
+++ b/linux/payload/PlocMpsocSpecialComHelper.cpp
@ -6,16 +6,21 @@
 #include <filesystem>
 #include <fstream>
 #include "fsfw/serviceinterface/ServiceInterfacePrinter.h"
 #include "fsfw/serviceinterface/ServiceInterfaceStream.h"
 #include "fsfw/tmtcpacket/ccsds/SpacePacketReader.h"
 #include "linux/payload/MpsocCommunication.h"
 #include "linux/payload/plocMpsocHelpers.h"
 #ifdef XIPHOS_Q7S
 #include "bsp_q7s/fs/FilesystemHelper.h"
 #endif
 #include "mission/utility/Timestamp.h"
 using namespace ploc;
-PlocMpsocSpecialComHelper::PlocMpsocSpecialComHelper(object_id_t objectId)
+PlocMpsocSpecialComHelper::PlocMpsocSpecialComHelper(object_id_t objectId,
-    : SystemObject(objectId) {
+                                                     MpsocCommunication& comInterface)
    : SystemObject(objectId), comInterface(comInterface) {
  spParams.buf = commandBuffer;
  spParams.maxSize = sizeof(commandBuffer);
 }
@ -48,9 +53,9 @@ ReturnValue_t PlocMpsocSpecialComHelper::performOperation(uint8_t operationCode)
      case InternalState::FLASH_WRITE: {
        result = performFlashWrite();
        if (result == returnvalue::OK) {
-          triggerEvent(MPSOC_FLASH_WRITE_SUCCESSFUL, sequenceCount->get());
+          triggerEvent(MPSOC_FLASH_WRITE_SUCCESSFUL, txSequenceCount.get());
        } else {
-          triggerEvent(MPSOC_FLASH_WRITE_FAILED, sequenceCount->get());
+          triggerEvent(MPSOC_FLASH_WRITE_FAILED, txSequenceCount.get());
        }
        internalState = InternalState::IDLE;
        break;
@ -58,9 +63,10 @@ ReturnValue_t PlocMpsocSpecialComHelper::performOperation(uint8_t operationCode)
      case InternalState::FLASH_READ: {
        result = performFlashRead();
        if (result == returnvalue::OK) {
-          triggerEvent(MPSOC_FLASH_READ_SUCCESSFUL, sequenceCount->get());
+          triggerEvent(MPSOC_FLASH_READ_SUCCESSFUL, txSequenceCount.get());
        } else {
-          triggerEvent(MPSOC_FLASH_READ_FAILED, sequenceCount->get());
+          sif::printWarning("PLOC MPSoC Helper: Flash read failed with code %04x\n", result);
          triggerEvent(MPSOC_FLASH_READ_FAILED, txSequenceCount.get(), result);
        }
        internalState = InternalState::IDLE;
        break;
@ -72,19 +78,12 @@ ReturnValue_t PlocMpsocSpecialComHelper::performOperation(uint8_t operationCode)
  }
 }
-ReturnValue_t PlocMpsocSpecialComHelper::setComIF(DeviceCommunicationIF* communicationInterface_) {
+void PlocMpsocSpecialComHelper::setCommandSequenceCount(uint16_t sequenceCount_) {
-  uartComIF = dynamic_cast<SerialComIF*>(communicationInterface_);
+  txSequenceCount.set(sequenceCount_);
  if (uartComIF == nullptr) {
    sif::warning << "PlocMPSoCHelper::initialize: Invalid uart com if" << std::endl;
    return returnvalue::FAILED;
  }
  return returnvalue::OK;
 }
-void PlocMpsocSpecialComHelper::setComCookie(CookieIF* comCookie_) { comCookie = comCookie_; }
+uint16_t PlocMpsocSpecialComHelper::getCommandSequenceCount() const {
-
+  return txSequenceCount.get();
 void PlocMpsocSpecialComHelper::setSequenceCount(SourceSequenceCounter* sequenceCount_) {
  sequenceCount = sequenceCount_;
 }
 ReturnValue_t PlocMpsocSpecialComHelper::startFlashWrite(std::string obcFile,
@ -117,7 +116,8 @@ ReturnValue_t PlocMpsocSpecialComHelper::startFlashRead(std::string obcFile, std
 void PlocMpsocSpecialComHelper::resetHelper() {
  spParams.buf = commandBuffer;
  terminate = false;
-  uartComIF->flushUartRxBuffer(comCookie);
+  auto& helper = comInterface.getComHelper();
  helper.flushUartRxBuffer();
 }
 void PlocMpsocSpecialComHelper::stopProcess() { terminate = true; }
@ -155,7 +155,7 @@ ReturnValue_t PlocMpsocSpecialComHelper::performFlashWrite() {
    file.read(reinterpret_cast<char*>(fileBuf.data()), dataLength);
    bytesRead += dataLength;
    remainingSize -= dataLength;
-    mpsoc::TcFlashWrite tc(spParams, *sequenceCount);
+    mpsoc::TcFlashWrite tc(spParams, txSequenceCount);
    result = tc.setPayload(fileBuf.data(), dataLength);
    if (result != returnvalue::OK) {
      return result;
@ -164,7 +164,7 @@ ReturnValue_t PlocMpsocSpecialComHelper::performFlashWrite() {
    if (result != returnvalue::OK) {
      return result;
    }
-    (*sequenceCount)++;
+    txSequenceCount.increment();
    result = handlePacketTransmissionNoReply(tc);
    if (result != returnvalue::OK) {
      return result;
@ -179,8 +179,12 @@ ReturnValue_t PlocMpsocSpecialComHelper::performFlashWrite() {
 ReturnValue_t PlocMpsocSpecialComHelper::performFlashRead() {
  std::error_code e;
-  std::ofstream ofile(flashReadAndWrite.obcFile, std::ios::trunc | std::ios::binary);
+  if (std::filesystem::exists(flashReadAndWrite.obcFile)) {
-  if (ofile.bad()) {
+    // Truncate the file first.
    std::ofstream ofile(flashReadAndWrite.obcFile, std::ios::binary | std::ios::trunc);
  }
  std::ofstream ofile(flashReadAndWrite.obcFile, std::ios::binary | std::ios::app);
  if (ofile.bad() or not ofile.is_open()) {
    return returnvalue::FAILED;
  }
  ReturnValue_t result = flashfopen(mpsoc::FileAccessModes::READ);
@ -203,7 +207,7 @@ ReturnValue_t PlocMpsocSpecialComHelper::performFlashRead() {
      std::filesystem::remove(flashReadAndWrite.obcFile, e);
      return FILE_READ_ERROR;
    }
-    mpsoc::TcFlashRead flashReadRequest(spParams, *sequenceCount);
+    mpsoc::TcFlashRead flashReadRequest(spParams, txSequenceCount);
    result = flashReadRequest.setPayload(nextReadSize);
    if (result != returnvalue::OK) {
      std::filesystem::remove(flashReadAndWrite.obcFile, e);
@ -214,7 +218,7 @@ ReturnValue_t PlocMpsocSpecialComHelper::performFlashRead() {
      std::filesystem::remove(flashReadAndWrite.obcFile, e);
      return result;
    }
-    (*sequenceCount)++;
+    txSequenceCount.increment();
    result = handlePacketTransmissionFlashRead(flashReadRequest, ofile, nextReadSize);
    if (result != returnvalue::OK) {
      std::filesystem::remove(flashReadAndWrite.obcFile, e);
@ -231,7 +235,7 @@ ReturnValue_t PlocMpsocSpecialComHelper::performFlashRead() {
 ReturnValue_t PlocMpsocSpecialComHelper::flashfopen(uint8_t mode) {
  spParams.buf = commandBuffer;
-  mpsoc::FlashFopen flashFopen(spParams, *sequenceCount);
+  mpsoc::TcFlashFopen flashFopen(spParams, txSequenceCount);
  ReturnValue_t result = flashFopen.setPayload(flashReadAndWrite.mpsocFile, mode);
  if (result != returnvalue::OK) {
    return result;
@ -240,7 +244,7 @@ ReturnValue_t PlocMpsocSpecialComHelper::flashfopen(uint8_t mode) {
  if (result != returnvalue::OK) {
    return result;
  }
-  (*sequenceCount)++;
+  txSequenceCount.increment();
  result = handlePacketTransmissionNoReply(flashFopen);
  if (result != returnvalue::OK) {
    return result;
@ -250,12 +254,12 @@ ReturnValue_t PlocMpsocSpecialComHelper::flashfopen(uint8_t mode) {
 ReturnValue_t PlocMpsocSpecialComHelper::flashfclose() {
  spParams.buf = commandBuffer;
-  mpsoc::FlashFclose flashFclose(spParams, *sequenceCount);
+  mpsoc::TcFlashFclose flashFclose(spParams, txSequenceCount);
  ReturnValue_t result = flashFclose.finishPacket();
  if (result != returnvalue::OK) {
    return result;
  }
-  (*sequenceCount)++;
+  txSequenceCount.increment();
  result = handlePacketTransmissionNoReply(flashFclose);
  if (result != returnvalue::OK) {
    return result;
@ -278,6 +282,7 @@ ReturnValue_t PlocMpsocSpecialComHelper::handlePacketTransmissionFlashRead(mpsoc
  if (result != returnvalue::OK) {
    return result;
  }
  auto& spReader = comInterface.getSpReader();
  // We have the nominal case where the flash read report appears first, or the case where we
  // get an EXE failure immediately.
@ -288,7 +293,7 @@ ReturnValue_t PlocMpsocSpecialComHelper::handlePacketTransmissionFlashRead(mpsoc
    }
    return handleExe();
  } else if (spReader.getApid() == mpsoc::apid::EXE_FAILURE) {
-    handleExeFailure();
+    handleExeFailure(spReader);
  } else {
    triggerEvent(MPSOC_EXE_INVALID_APID, spReader.getApid(), static_cast<uint32_t>(internalState));
    sif::warning << "PLOC MPSoC: Expected execution report "
@ -311,8 +316,8 @@ ReturnValue_t PlocMpsocSpecialComHelper::handlePacketTransmissionNoReply(ploc::S
 }
 ReturnValue_t PlocMpsocSpecialComHelper::sendCommand(ploc::SpTcBase& tc) {
-  ReturnValue_t result = returnvalue::OK;
+  ReturnValue_t result = comInterface.send(tc.getFullPacket(), tc.getFullPacketLen());
-  result = uartComIF->sendMessage(comCookie, tc.getFullPacket(), tc.getFullPacketLen());
+  mpsoc::printTxPacket(tc);
  if (result != returnvalue::OK) {
    sif::warning << "PlocMPSoCHelper::sendCommand: Failed to send command" << std::endl;
    triggerEvent(MPSOC_SENDING_COMMAND_FAILED, result, static_cast<uint32_t>(internalState));
@ -331,6 +336,8 @@ ReturnValue_t PlocMpsocSpecialComHelper::handleAck() {
  if (result != returnvalue::OK) {
    return result;
  }
  const auto& spReader = comInterface.getSpReader();
  uint16_t apid = spReader.getApid();
  if (apid != mpsoc::apid::ACK_SUCCESS) {
    handleAckApidFailure(spReader);
@ -339,7 +346,7 @@ ReturnValue_t PlocMpsocSpecialComHelper::handleAck() {
  return returnvalue::OK;
 }
-void PlocMpsocSpecialComHelper::handleAckApidFailure(const ploc::SpTmReader& reader) {
+void PlocMpsocSpecialComHelper::handleAckApidFailure(const SpacePacketReader& reader) {
  uint16_t apid = reader.getApid();
  if (apid == mpsoc::apid::ACK_FAILURE) {
    uint16_t status = mpsoc::getStatusFromRawData(reader.getFullData());
@ -363,9 +370,10 @@ ReturnValue_t PlocMpsocSpecialComHelper::handleExe() {
  if (result != returnvalue::OK) {
    return result;
  }
  const auto& spReader = comInterface.getSpReader();
  uint16_t apid = spReader.getApid();
  if (apid == mpsoc::apid::EXE_FAILURE) {
-    handleExeFailure();
+    handleExeFailure(spReader);
    return returnvalue::FAILED;
  } else if (apid != mpsoc::apid::EXE_SUCCESS) {
    triggerEvent(MPSOC_EXE_INVALID_APID, apid, static_cast<uint32_t>(internalState));
@ -375,7 +383,7 @@ ReturnValue_t PlocMpsocSpecialComHelper::handleExe() {
  return returnvalue::OK;
 }
-void PlocMpsocSpecialComHelper::handleExeFailure() {
+void PlocMpsocSpecialComHelper::handleExeFailure(const SpacePacketReader& spReader) {
  uint16_t status = mpsoc::getStatusFromRawData(spReader.getFullData());
  sif::warning << "PLOC MPSoC EXE Failure: " << mpsoc::getStatusString(status) << std::endl;
  triggerEvent(MPSOC_EXE_FAILURE_REPORT, static_cast<uint32_t>(internalState));
@ -384,46 +392,32 @@ void PlocMpsocSpecialComHelper::handleExeFailure() {
 ReturnValue_t PlocMpsocSpecialComHelper::handleTmReception() {
  ReturnValue_t result = returnvalue::OK;
  tmCountdown.resetTimer();
  size_t readBytes = 0;
  size_t currentBytes = 0;
  uint32_t usleepDelay = 5;
  size_t fullPacketLen = 0;
  while (true) {
    if (tmCountdown.hasTimedOut()) {
      triggerEvent(MPSOC_READ_TIMEOUT, tmCountdown.getTimeoutMs());
      return returnvalue::FAILED;
    }
-    result = receive(tmBuf.data() + readBytes, 6, &currentBytes);
+    result = tryReceiveNextReply();
    if (result == MpsocCommunication::PACKET_RECEIVED) {
      // Need to convert this, we are faking a synchronous API here.
      result = returnvalue::OK;
      break;
    }
    if (result != returnvalue::OK) {
      if (result == MpsocCommunication::FAULTY_PACKET_SIZE) {
        sif::printWarning("PLOC MPSoC Helper: retrieving next reply failed: faulty packet size\n");
      } else if (result == MpsocCommunication::CRC_CHECK_FAILED) {
        sif::printWarning("PLOC MPSoC Helper: retrieving next reply failed: CRC check failed\n");
      }
      sif::printWarning("PLOC MPSoC Helper: retrieving next reply failed with code %d\n", result);
      return result;
    }
    spReader.setReadOnlyData(tmBuf.data(), tmBuf.size());
    fullPacketLen = spReader.getFullPacketLen();
    readBytes += currentBytes;
    if (readBytes == 6) {
      break;
    }
    usleep(usleepDelay);
    if (usleepDelay < 200000) {
      usleepDelay *= 4;
    }
  }
  while (true) {
    if (tmCountdown.hasTimedOut()) {
      triggerEvent(MPSOC_READ_TIMEOUT, tmCountdown.getTimeoutMs());
      return returnvalue::FAILED;
    }
    result = receive(tmBuf.data() + readBytes, fullPacketLen - readBytes, &currentBytes);
    readBytes += currentBytes;
    if (fullPacketLen == readBytes) {
      break;
    }
    usleep(usleepDelay);
    if (usleepDelay < 200000) {
      usleepDelay *= 4;
    }
  }
  // arrayprinter::print(tmBuf.data(), readBytes);
  return result;
 }
@ -433,6 +427,7 @@ ReturnValue_t PlocMpsocSpecialComHelper::handleFlashReadReply(std::ofstream& ofi
  if (result != returnvalue::OK) {
    return result;
  }
  auto& spReader = comInterface.getSpReader();
  uint16_t apid = spReader.getApid();
  if (apid != mpsoc::apid::TM_FLASH_READ_REPORT) {
    triggerEvent(MPSOC_FLASH_READ_PACKET_ERROR, FlashReadErrorType::FLASH_READ_APID_ERROR);
@ -498,47 +493,25 @@ ReturnValue_t PlocMpsocSpecialComHelper::startFlashReadOrWriteBase(std::string o
 }
 ReturnValue_t PlocMpsocSpecialComHelper::checkReceivedTm() {
  const auto& spReader = comInterface.getSpReader();
  ReturnValue_t result = spReader.checkSize();
  if (result != returnvalue::OK) {
    sif::error << "PLOC MPSoC: Size check on received TM failed" << std::endl;
    triggerEvent(MPSOC_TM_SIZE_ERROR);
    return result;
  }
-  spReader.checkCrc();
+  rxSequenceCount = spReader.getSequenceCount();
-  if (result != returnvalue::OK) {
+  mpsoc::printRxPacket(spReader);
    sif::warning << "PLOC MPSoC: CRC check failed" << std::endl;
    triggerEvent(MPSOC_TM_CRC_MISSMATCH, *sequenceCount);
    return result;
  }
  uint16_t recvSeqCnt = spReader.getSequenceCount();
  if (recvSeqCnt != *sequenceCount) {
    triggerEvent(MPSOC_HELPER_SEQ_CNT_MISMATCH, *sequenceCount, recvSeqCnt);
    *sequenceCount = recvSeqCnt;
  }
  // This sequence count ping pong does not make any sense but it is how the MPSoC expects it.
  (*sequenceCount)++;
  return returnvalue::OK;
 }
-ReturnValue_t PlocMpsocSpecialComHelper::receive(uint8_t* data, size_t requestBytes,
+ReturnValue_t PlocMpsocSpecialComHelper::tryReceiveNextReply() {
                                                 size_t* readBytes) {
  ReturnValue_t result = returnvalue::OK;
-  uint8_t* buffer = nullptr;
+  result = comInterface.readSerialInterface();
  result = uartComIF->requestReceiveMessage(comCookie, requestBytes);
  if (result != returnvalue::OK) {
    sif::warning << "PlocMPSoCHelper::receive: Failed to request reply" << std::endl;
    triggerEvent(MPSOC_HELPER_REQUESTING_REPLY_FAILED, result,
                 static_cast<uint32_t>(static_cast<uint32_t>(internalState)));
    return returnvalue::FAILED;
  }
-  result = uartComIF->readReceivedMessage(comCookie, &buffer, readBytes);
+  return comInterface.parseAndRetrieveNextPacket();
  if (result != returnvalue::OK) {
    sif::warning << "PlocMPSoCHelper::receive: Failed to read received message" << std::endl;
    triggerEvent(MPSOC_HELPER_READING_REPLY_FAILED, result, static_cast<uint32_t>(internalState));
    return returnvalue::FAILED;
  }
  if (*readBytes > 0) {
    std::memcpy(data, buffer, *readBytes);
  }
  return result;
 }
--- a/linux/payload/PlocMpsocSpecialComHelper.h
+++ b/linux/payload/PlocMpsocSpecialComHelper.h
@ -6,14 +6,13 @@
 #include <string>
 #include "OBSWConfig.h"
 #include "fsfw/devicehandlers/CookieIF.h"
 #include "fsfw/objectmanager/SystemObject.h"
 #include "fsfw/osal/linux/BinarySemaphore.h"
 #include "fsfw/returnvalues/returnvalue.h"
 #include "fsfw/tasks/ExecutableObjectIF.h"
 #include "fsfw/tmtcpacket/ccsds/SpacePacketReader.h"
 #include "fsfw/tmtcservices/SourceSequenceCounter.h"
-#include "fsfw_hal/linux/serial/SerialComIF.h"
+#include "linux/payload/MpsocCommunication.h"
 #ifdef XIPHOS_Q7S
 #include "bsp_q7s/fs/SdCardManager.h"
 #endif
@ -83,15 +82,12 @@ class PlocMpsocSpecialComHelper : public SystemObject, public ExecutableObjectIF
    FLASH_READ_READLEN_ERROR = 2
  };
-  PlocMpsocSpecialComHelper(object_id_t objectId);
+  PlocMpsocSpecialComHelper(object_id_t objectId, MpsocCommunication& comInterface);
  virtual ~PlocMpsocSpecialComHelper();
  ReturnValue_t initialize() override;
  ReturnValue_t performOperation(uint8_t operationCode = 0) override;
  ReturnValue_t setComIF(DeviceCommunicationIF* communicationInterface_);
  void setComCookie(CookieIF* comCookie_);
  /**
   * @brief   Starts flash write sequence
   *
@ -118,7 +114,8 @@ class PlocMpsocSpecialComHelper : public SystemObject, public ExecutableObjectIF
  /**
   * @brief   Sets the sequence count object responsible for the sequence count handling
   */
-  void setSequenceCount(SourceSequenceCounter* sequenceCount_);
+  void setCommandSequenceCount(uint16_t sequenceCount_);
  uint16_t getCommandSequenceCount() const;
 private:
  static const uint8_t INTERFACE_ID = CLASS_ID::PLOC_MPSOC_HELPER;
@ -169,12 +166,14 @@ class PlocMpsocSpecialComHelper : public SystemObject, public ExecutableObjectIF
   * Communication interface of MPSoC responsible for low level access. Must be set by the
   * MPSoC Handler.
   */
-  SerialComIF* uartComIF = nullptr;
+  // SerialComIF* uartComIF = nullptr;
  // Communication cookie. Must be set by the MPSoC Handler
-  CookieIF* comCookie = nullptr;
+  // CookieIF* comCookie = nullptr;
  MpsocCommunication& comInterface;
  // Sequence count, must be set by Ploc MPSoC Handler
-  SourceSequenceCounter* sequenceCount = nullptr;
+  // ploc::SpTmReader spReader;
-  ploc::SpTmReader spReader;
+  uint16_t rxSequenceCount = 0;
  SourceSequenceCounter txSequenceCount = 0;
  void resetHelper();
  ReturnValue_t performFlashWrite();
@ -186,13 +185,13 @@ class PlocMpsocSpecialComHelper : public SystemObject, public ExecutableObjectIF
                                                  size_t expectedReadLen);
  ReturnValue_t handleFlashReadReply(std::ofstream& ofile, size_t expectedReadLen);
  ReturnValue_t sendCommand(ploc::SpTcBase& tc);
-  ReturnValue_t receive(uint8_t* data, size_t requestBytes, size_t* readBytes);
+  ReturnValue_t tryReceiveNextReply();
  ReturnValue_t handleAck();
  ReturnValue_t handleExe();
  ReturnValue_t startFlashReadOrWriteBase(std::string obcFile, std::string mpsocFile);
  ReturnValue_t fileCheck(std::string obcFile);
-  void handleAckApidFailure(const ploc::SpTmReader& reader);
+  void handleAckApidFailure(const SpacePacketReader& reader);
-  void handleExeFailure();
+  void handleExeFailure(const SpacePacketReader& reader);
  ReturnValue_t handleTmReception();
  ReturnValue_t checkReceivedTm();
 };
--- a/linux/payload/PlocSupvUartMan.cpp
+++ b/linux/payload/PlocSupvUartMan.cpp
@ -11,6 +11,8 @@
 #include <fstream>
 #include "OBSWConfig.h"
 #include "fsfw/returnvalues/returnvalue.h"
 #include "linux/payload/plocSupvDefs.h"
 #include "tas/hdlc.h"
 #ifdef XIPHOS_Q7S
 #include "bsp_q7s/fs/FilesystemHelper.h"
@ -21,9 +23,14 @@
 #include "fsfw/tasks/TaskFactory.h"
 #include "fsfw/timemanager/Countdown.h"
 #if OBSW_DEBUG_PLOC_SUPERVISOR == 1
 #include "mission/utility/Filenaming.h"
 #include "mission/utility/ProgressPrinter.h"
 #include "mission/utility/Timestamp.h"
 #endif
 #include "tas/crc.h"
 using namespace returnvalue;
 using namespace supv;
@ -96,9 +103,10 @@ ReturnValue_t PlocSupvUartManager::initialize() {
 ReturnValue_t PlocSupvUartManager::performOperation(uint8_t operationCode) {
  bool putTaskToSleep = false;
  while (true) {
-    lock->lockMutex();
+    {
      MutexGuard mg(lock);
      state = InternalState::SLEEPING;
-    lock->unlockMutex();
+    }
    semaphore->acquire();
    putTaskToSleep = false;
 #if OBSW_THREAD_TRACING == 1
@ -110,9 +118,11 @@ ReturnValue_t PlocSupvUartManager::performOperation(uint8_t operationCode) {
        break;
      }
      handleUartReception();
-      lock->lockMutex();
+      InternalState currentState;
-      InternalState currentState = state;
+      {
-      lock->unlockMutex();
+        MutexGuard mg(lock);
        currentState = state;
      }
      switch (currentState) {
        case InternalState::SLEEPING:
        case InternalState::GO_TO_SLEEP: {
@ -156,7 +166,7 @@ ReturnValue_t PlocSupvUartManager::handleUartReception() {
               << " bytes" << std::endl;
    return FAILED;
  } else if (bytesRead > 0) {
-    if (debugMode) {
+    if (DEBUG_MODE) {
      sif::info << "Received " << bytesRead << " bytes from the PLOC Supervisor:" << std::endl;
      arrayprinter::print(recBuf.data(), bytesRead);
    }
@ -273,23 +283,6 @@ ReturnValue_t PlocSupvUartManager::initiateUpdateContinuation() {
  return returnvalue::OK;
 }
 // ReturnValue_t PlocSupvHelper::startEventBufferRequest(std::string path) {
 // #ifdef XIPHOS_Q7S
 //   ReturnValue_t result = FilesystemHelper::checkPath(path);
 //   if (result != returnvalue::OK) {
 //     return result;
 //   }
 // #endif
 //   if (not std::filesystem::exists(path)) {
 //     return PATH_NOT_EXISTS;
 //   }
 //   eventBufferReq.path = path;
 //   request = Request::REQUEST_EVENT_BUFFER;
 //   //uartComIF->flushUartTxAndRxBuf(comCookie);
 //   semaphore->release();
 //   return returnvalue::OK;
 // }
 void PlocSupvUartManager::stop() {
  MutexGuard mg(lock);
  if (state == InternalState::SLEEPING or state == InternalState::GO_TO_SLEEP) {
@ -433,6 +426,8 @@ ReturnValue_t PlocSupvUartManager::writeUpdatePackets() {
        // Useful to allow restarting the update
        triggerEvent(SUPV_UPDATE_PROGRESS, buildProgParams1(progPercent, update.sequenceCount),
                     update.bytesWritten);
        sif::info << "PLOC SUPV update progress " << (int)progPercent << " % at "
                  << update.bytesWritten << " bytes" << std::endl;
      }
    }
    supv::WriteMemory packet(spParams);
@ -443,10 +438,8 @@ ReturnValue_t PlocSupvUartManager::writeUpdatePackets() {
                   update.bytesWritten);
      return result;
    }
-    result = handlePacketTransmissionNoReply(packet, 5000);
+    result = writeMemoryHandlingWithRetryLogic(packet, progPercent);
    if (result != returnvalue::OK) {
      triggerEvent(WRITE_MEMORY_FAILED, buildProgParams1(progPercent, update.sequenceCount),
                   update.bytesWritten);
      return result;
    }
@ -457,7 +450,25 @@ ReturnValue_t PlocSupvUartManager::writeUpdatePackets() {
 #if OBSW_DEBUG_PLOC_SUPERVISOR == 1
    progressPrinter.print(update.bytesWritten);
 #endif /* OBSW_DEBUG_PLOC_SUPERVISOR == 1 */
-    // TaskFactory::delayTask(1);
+  }
  return result;
 }
 ReturnValue_t PlocSupvUartManager::writeMemoryHandlingWithRetryLogic(supv::WriteMemory& packet,
                                                                     unsigned progPercent) {
  ReturnValue_t result = returnvalue::OK;
  // Simple re-try logic in place to deal with communication unreliability in orbit.
  for (uint8_t retryCount = 0; retryCount < MAX_RETRY_COUNT; retryCount++) {
    result = handlePacketTransmissionNoReply(packet, COM_TIMEOUT_MS);
    if (result == returnvalue::OK) {
      return result;
    }
    triggerEvent(WRITE_MEMORY_FAILED, buildProgParams1(progPercent, update.sequenceCount),
                 update.bytesWritten);
    // Clear data structures related to reply handling.
    serial::flushTxRxBuf(serialPort);
    recRingBuf.clear();
    decodedRingBuf.clear();
  }
  return result;
 }
@ -566,12 +577,21 @@ ReturnValue_t PlocSupvUartManager::handlePacketTransmissionNoReply(
  bool ackReceived = false;
  bool packetWasHandled = false;
  while (true) {
-    handleUartReception();
+    ReturnValue_t status = handleUartReception();
    if (status != returnvalue::OK) {
      result = status;
      if (result == HDLC_ERROR) {
        // We could bail here immediately.. but I prefer to wait for the timeout, because we should
        // ensure that all packets which might be related to the transfer are still received and
        // cleared from all data structures related to reply handling.
        // return result;
      }
    }
    if (not decodedQueue.empty()) {
      size_t packetLen = 0;
      decodedQueue.retrieve(&packetLen);
      decodedRingBuf.readData(decodedBuf.data(), packetLen, true);
-      tmReader.setData(decodedBuf.data(), packetLen);
+      tmReader.setReadOnlyData(decodedBuf.data(), packetLen);
      result = checkReceivedTm();
      if (result != returnvalue::OK) {
        continue;
@ -609,7 +629,7 @@ ReturnValue_t PlocSupvUartManager::handlePacketTransmissionNoReply(
      return result::NO_REPLY_TIMEOUT;
    }
  }
-  return returnvalue::OK;
+  return result;
 }
 int PlocSupvUartManager::handleAckReception(supv::TcBase& tc, size_t packetLen) {
@ -617,7 +637,7 @@ int PlocSupvUartManager::handleAckReception(supv::TcBase& tc, size_t packetLen)
  if (serviceId == static_cast<uint8_t>(supv::tm::TmtcId::ACK) or
      serviceId == static_cast<uint8_t>(supv::tm::TmtcId::NAK)) {
    AcknowledgmentReport ackReport(tmReader);
-    ReturnValue_t result = ackReport.parse();
+    ReturnValue_t result = ackReport.parse(false);
    if (result != returnvalue::OK) {
      triggerEvent(ACK_RECEPTION_FAILURE);
      return -1;
@ -627,7 +647,7 @@ int PlocSupvUartManager::handleAckReception(supv::TcBase& tc, size_t packetLen)
      if (serviceId == static_cast<uint8_t>(supv::tm::TmtcId::ACK)) {
        return 1;
      } else if (serviceId == static_cast<uint8_t>(supv::tm::TmtcId::NAK)) {
-        ackReport.printStatusInformation();
+        ackReport.printStatusInformationAck();
        triggerEvent(
            SUPV_ACK_FAILURE_REPORT,
            buildApidServiceParam1(ackReport.getRefModuleApid(), ackReport.getRefServiceId()),
@ -649,7 +669,7 @@ int PlocSupvUartManager::handleExeAckReception(supv::TcBase& tc, size_t packetLe
  if (serviceId == static_cast<uint8_t>(supv::tm::TmtcId::EXEC_ACK) or
      serviceId == static_cast<uint8_t>(supv::tm::TmtcId::EXEC_NAK)) {
    ExecutionReport exeReport(tmReader);
-    ReturnValue_t result = exeReport.parse();
+    ReturnValue_t result = exeReport.parse(false);
    if (result != returnvalue::OK) {
      triggerEvent(EXE_RECEPTION_FAILURE);
      return -1;
@ -659,7 +679,7 @@ int PlocSupvUartManager::handleExeAckReception(supv::TcBase& tc, size_t packetLe
      if (serviceId == static_cast<uint8_t>(supv::tm::TmtcId::EXEC_ACK)) {
        return 1;
      } else if (serviceId == static_cast<uint8_t>(supv::tm::TmtcId::EXEC_NAK)) {
-        exeReport.printStatusInformation();
+        exeReport.printStatusInformationExe();
        triggerEvent(
            SUPV_EXE_FAILURE_REPORT,
            buildApidServiceParam1(exeReport.getRefModuleApid(), exeReport.getRefServiceId()),
@ -682,7 +702,7 @@ ReturnValue_t PlocSupvUartManager::checkReceivedTm() {
    triggerEvent(SUPV_REPLY_SIZE_MISSMATCH, rememberApid);
    return result;
  }
-  if (not tmReader.verifyCrc()) {
+  if (tmReader.checkCrc() != returnvalue::OK) {
    triggerEvent(SUPV_REPLY_CRC_MISSMATCH, rememberApid);
    return result;
  }
@ -758,7 +778,7 @@ ReturnValue_t PlocSupvUartManager::handleCheckMemoryCommand(uint8_t failStep) {
      size_t packetLen = 0;
      decodedQueue.retrieve(&packetLen);
      decodedRingBuf.readData(decodedBuf.data(), packetLen, true);
-      tmReader.setData(decodedBuf.data(), packetLen);
+      tmReader.setReadOnlyData(decodedBuf.data(), packetLen);
      result = checkReceivedTm();
      if (result != returnvalue::OK) {
        continue;
@ -786,7 +806,7 @@ ReturnValue_t PlocSupvUartManager::handleCheckMemoryCommand(uint8_t failStep) {
      } else if (tmReader.getModuleApid() == Apid::MEM_MAN) {
        if (ackReceived) {
          supv::UpdateStatusReport report(tmReader);
-          result = report.parse();
+          result = report.parse(false);
          if (result != returnvalue::OK) {
            return result;
          }
@ -941,15 +961,7 @@ ReturnValue_t PlocSupvUartManager::handleRunningLongerRequest() {
      break;
    }
    case Request::REQUEST_EVENT_BUFFER: {
-      //      result = performEventBufferRequest();
+      sif::error << "Requesting event buffer is not implemented" << std::endl;
      //      if (result == returnvalue::OK) {
      //        triggerEvent(SUPV_EVENT_BUFFER_REQUEST_SUCCESSFUL, result);
      //      } else if (result == PROCESS_TERMINATED) {
      //        // Event already triggered
      //        break;
      //      } else {
      //        triggerEvent(SUPV_EVENT_BUFFER_REQUEST_FAILED, result);
      //      }
      break;
    }
    case Request::DEFAULT: {
@ -962,7 +974,7 @@ ReturnValue_t PlocSupvUartManager::handleRunningLongerRequest() {
 ReturnValue_t PlocSupvUartManager::encodeAndSendPacket(const uint8_t* sendData, size_t sendLen) {
  size_t encodedLen = 0;
  addHdlcFraming(sendData, sendLen, encodedSendBuf.data(), &encodedLen, encodedSendBuf.size());
-  if (printTc) {
+  if (PRINT_TC) {
    sif::debug << "Sending TC" << std::endl;
    arrayprinter::print(encodedSendBuf.data(), encodedLen);
  }
@ -984,6 +996,9 @@ ReturnValue_t PlocSupvUartManager::readReceivedMessage(CookieIF* cookie, uint8_t
    return OK;
  }
  ipcQueue.retrieve(size);
  if (*size > ipcBuffer.size()) {
    return FAILED;
  }
  *buffer = ipcBuffer.data();
  ReturnValue_t result = ipcRingBuf.readData(ipcBuffer.data(), *size, true);
  if (result != OK) {
@ -1054,6 +1069,7 @@ ReturnValue_t PlocSupvUartManager::parseRecRingBufForHdlc(size_t& readSize, size
          triggerEvent(HDLC_CRC_ERROR);
        }
        if (retval != 0) {
          readSize = ++idx;
          return HDLC_ERROR;
        }
        return returnvalue::OK;
@ -1084,11 +1100,14 @@ void PlocSupvUartManager::performUartShutdown() {
  while (not decodedQueue.empty()) {
    decodedQueue.pop();
  }
-  MutexGuard mg(ipcLock);
+  {
    MutexGuard mg0(ipcLock);
    ipcRingBuf.clear();
    while (not ipcQueue.empty()) {
      ipcQueue.pop();
    }
  }
  MutexGuard mg1(lock);
  state = InternalState::GO_TO_SLEEP;
 }
--- a/linux/payload/PlocSupvUartMan.h
+++ b/linux/payload/PlocSupvUartMan.h
@ -16,7 +16,6 @@
 #include "fsfw/returnvalues/returnvalue.h"
 #include "fsfw/tasks/ExecutableObjectIF.h"
 #include "fsfw_hal/linux/serial/SerialComIF.h"
 #include "tas/crc.h"
 #ifdef XIPHOS_Q7S
 #include "bsp_q7s/fs/SdCardManager.h"
@ -119,8 +118,35 @@ class PlocSupvUartManager : public DeviceCommunicationIF,
  static constexpr Event HDLC_FRAME_REMOVAL_ERROR = MAKE_EVENT(31, severity::INFO);
  static constexpr Event HDLC_CRC_ERROR = MAKE_EVENT(32, severity::INFO);
  static constexpr unsigned MAX_RETRY_COUNT = 3;
  PlocSupvUartManager(object_id_t objectId);
  virtual ~PlocSupvUartManager();
  /**
   * @brief Device specific initialization, using the cookie.
   * @details
   * The cookie is already prepared in the factory. If the communication
   * interface needs to be set up in some way and requires cookie information,
   * this can be performed in this function, which is called on device handler
   * initialization.
   * @param cookie
   * @return
   *  - @c returnvalue::OK if initialization was successfull
   *  - Everything else triggers failure event with returnvalue as parameter 1
   */
  ReturnValue_t initializeInterface(CookieIF* cookie) override;
  /**
   * Called by DHB in the SEND_WRITE doSendWrite().
   * This function is used to send data to the physical device
   * by implementing and calling related drivers or wrapper functions.
   * @param cookie
   * @param data
   * @param len If this is 0, nothing shall be sent.
   * @return
   *  - @c returnvalue::OK for successfull send
   *  - Everything else triggers failure event with returnvalue as parameter 1
   */
  ReturnValue_t sendMessage(CookieIF* cookie, const uint8_t* sendData, size_t sendLen) override;
  ReturnValue_t readReceivedMessage(CookieIF* cookie, uint8_t** buffer, size_t* size) override;
  ReturnValue_t initialize() override;
  ReturnValue_t performOperation(uint8_t operationCode = 0) override;
@ -174,6 +200,8 @@ class PlocSupvUartManager : public DeviceCommunicationIF,
  static constexpr ReturnValue_t POSSIBLE_PACKET_LOSS_CONSECUTIVE_END = returnvalue::makeCode(1, 4);
  static constexpr ReturnValue_t HDLC_ERROR = returnvalue::makeCode(1, 5);
  static constexpr uint32_t COM_TIMEOUT_MS = 3000;
  static const uint16_t CRC16_INIT = 0xFFFF;
  // Event buffer reply will carry 24 space packets with 1016 bytes and one space packet with
  // 192 bytes
@ -206,11 +234,11 @@ class PlocSupvUartManager : public DeviceCommunicationIF,
  struct Update update;
  int serialPort = 0;
  SemaphoreIF* semaphore;
  MutexIF* lock;
  MutexIF* ipcLock;
  supv::TmBase tmReader;
  int serialPort = 0;
  struct termios tty = {};
 #if OBSW_THREAD_TRACING == 1
  uint32_t opCounter = 0;
@ -257,8 +285,8 @@ class PlocSupvUartManager : public DeviceCommunicationIF,
  std::array<uint8_t, supv::MAX_COMMAND_SIZE> tmBuf{};
-  bool printTc = false;
+  static constexpr bool PRINT_TC = false;
-  bool debugMode = false;
+  static constexpr bool DEBUG_MODE = false;
  bool timestamping = true;
  // Remembers APID to know at which command a procedure failed
@ -319,32 +347,6 @@ class PlocSupvUartManager : public DeviceCommunicationIF,
  void resetSpParams();
  void pushIpcData(const uint8_t* data, size_t len);
  /**
   * @brief Device specific initialization, using the cookie.
   * @details
   * The cookie is already prepared in the factory. If the communication
   * interface needs to be set up in some way and requires cookie information,
   * this can be performed in this function, which is called on device handler
   * initialization.
   * @param cookie
   * @return
   *  - @c returnvalue::OK if initialization was successfull
   *  - Everything else triggers failure event with returnvalue as parameter 1
   */
  ReturnValue_t initializeInterface(CookieIF* cookie) override;
  /**
   * Called by DHB in the SEND_WRITE doSendWrite().
   * This function is used to send data to the physical device
   * by implementing and calling related drivers or wrapper functions.
   * @param cookie
   * @param data
   * @param len If this is 0, nothing shall be sent.
   * @return
   *  - @c returnvalue::OK for successfull send
   *  - Everything else triggers failure event with returnvalue as parameter 1
   */
  ReturnValue_t sendMessage(CookieIF* cookie, const uint8_t* sendData, size_t sendLen) override;
  /**
   * Called by DHB in the GET_WRITE doGetWrite().
   * Get send confirmation that the data in sendMessage() was sent successfully.
@ -369,7 +371,8 @@ class PlocSupvUartManager : public DeviceCommunicationIF,
   *           returnvalue as parameter 1
   */
  ReturnValue_t requestReceiveMessage(CookieIF* cookie, size_t requestLen) override;
-  ReturnValue_t readReceivedMessage(CookieIF* cookie, uint8_t** buffer, size_t* size) override;
+
  ReturnValue_t writeMemoryHandlingWithRetryLogic(supv::WriteMemory& packet, unsigned progPercent);
  void performUartShutdown();
  void updateVtime(uint8_t vtime);
--- a/linux/payload/SerialCommunicationHelper.cpp
+++ b/linux/payload/SerialCommunicationHelper.cpp
@ -0,0 +1,126 @@
 #include "SerialCommunicationHelper.h"
 #include <errno.h>
 #include <fcntl.h>
 #include <termios.h>
 #include <unistd.h>
 #include <cstring>
 #include "fsfw/returnvalues/returnvalue.h"
 #include "fsfw_hal/linux/serial/helper.h"
 SerialCommunicationHelper::SerialCommunicationHelper(SerialConfig cfg) : cfg(cfg) {}
 ReturnValue_t SerialCommunicationHelper::initialize() {
  fd = configureUartPort();
  if (fd < 0) {
    return returnvalue::FAILED;
  }
  return returnvalue::OK;
 }
 int SerialCommunicationHelper::rawFd() const { return fd; }
 ReturnValue_t SerialCommunicationHelper::send(const uint8_t* data, size_t dataLen) {
  if (write(fd, data, dataLen) != static_cast<int>(dataLen)) {
 #if FSFW_CPP_OSTREAM_ENABLED == 1
    sif::error << "UartComIF::sendMessage: Failed to send data with error code " << errno
               << ": Error description: " << strerror(errno) << std::endl;
 #endif
    return returnvalue::FAILED;
  }
  return returnvalue::OK;
 }
 int SerialCommunicationHelper::configureUartPort() {
  struct termios options = {};
  int flags = O_RDWR;
  if (cfg.getUartMode() == UartModes::CANONICAL) {
    // In non-canonical mode, don't specify O_NONBLOCK because these properties will be
    // controlled by the VTIME and VMIN parameters and O_NONBLOCK would override this
    flags |= O_NONBLOCK;
  }
  int fd = open(cfg.getDeviceFile().c_str(), flags);
  if (fd < 0) {
 #if FSFW_CPP_OSTREAM_ENABLED == 1
    sif::warning << "UartComIF::configureUartPort: Failed to open uart "
                 << cfg.getDeviceFile().c_str()
                 << "with error code " << errno << strerror(errno) << std::endl;
 #endif
    return fd;
  }
  /* Read in existing settings */
  if (tcgetattr(fd, &options) != 0) {
 #if FSFW_CPP_OSTREAM_ENABLED == 1
    sif::warning << "UartComIF::configureUartPort: Error " << errno
                 << "from tcgetattr: " << strerror(errno) << std::endl;
 #endif
    return fd;
  }
  serial::setParity(options, cfg.getParity());
  serial::setStopbits(options, cfg.getStopBits());
  serial::setBitsPerWord(options, cfg.getBitsPerWord());
  setFixedOptions(&options);
  serial::setMode(options, cfg.getUartMode());
  tcflush(fd, TCIFLUSH);
  /* Sets uart to non-blocking mode. Read returns immediately when there are no data available */
  options.c_cc[VTIME] = 0;
  options.c_cc[VMIN] = 0;
  serial::setBaudrate(options, cfg.getBaudrate());
  /* Save option settings */
  if (tcsetattr(fd, TCSANOW, &options) != 0) {
 #if FSFW_CPP_OSTREAM_ENABLED == 1
    sif::warning << "UartComIF::configureUartPort: Failed to set options with error " << errno
                 << ": " << strerror(errno);
 #endif
    return fd;
  }
  return fd;
 }
 void SerialCommunicationHelper::setFixedOptions(struct termios* options) {
  /* Disable RTS/CTS hardware flow control */
  options->c_cflag &= ~CRTSCTS;
  /* Turn on READ & ignore ctrl lines (CLOCAL = 1) */
  options->c_cflag |= CREAD | CLOCAL;
  /* Disable echo */
  options->c_lflag &= ~ECHO;
  /* Disable erasure */
  options->c_lflag &= ~ECHOE;
  /* Disable new-line echo */
  options->c_lflag &= ~ECHONL;
  /* Disable interpretation of INTR, QUIT and SUSP */
  options->c_lflag &= ~ISIG;
  /* Turn off s/w flow ctrl */
  options->c_iflag &= ~(IXON | IXOFF | IXANY);
  /* Disable any special handling of received bytes */
  options->c_iflag &= ~(IGNBRK | BRKINT | PARMRK | ISTRIP | INLCR | IGNCR | ICRNL);
  /* Prevent special interpretation of output bytes (e.g. newline chars) */
  options->c_oflag &= ~OPOST;
  /* Prevent conversion of newline to carriage return/line feed */
  options->c_oflag &= ~ONLCR;
 }
 ReturnValue_t SerialCommunicationHelper::flushUartRxBuffer() {
  serial::flushRxBuf(fd);
  return returnvalue::OK;
 }
 ReturnValue_t SerialCommunicationHelper::flushUartTxBuffer() {
  serial::flushTxBuf(fd);
  return returnvalue::OK;
 }
 ReturnValue_t SerialCommunicationHelper::flushUartTxAndRxBuf() {
  serial::flushTxRxBuf(fd);
  return returnvalue::OK;
 }
--- a/linux/payload/SerialCommunicationHelper.h
+++ b/linux/payload/SerialCommunicationHelper.h
@ -0,0 +1,69 @@
 #pragma once
 #include <fsfw/devicehandlers/DeviceCommunicationIF.h>
 #include <fsfw/objectmanager/SystemObject.h>
 #include <fsfw_hal/linux/serial/SerialCookie.h>
 #include <fsfw_hal/linux/serial/helper.h>
 #include "SerialConfig.h"
 #include "fsfw/returnvalues/returnvalue.h"
 /**
 * @brief 	This is the communication interface to access serial ports on linux based operating
 *          systems.
 *
 * @details The implementation follows the instructions from https://blog.mbedded.ninja/programming/
 *          operating-systems/linux/linux-serial-ports-using-c-cpp/#disabling-canonical-mode
 *
 * @author 	J. Meier
 */
 class SerialCommunicationHelper {
 public:
  SerialCommunicationHelper(SerialConfig serialCfg);
  ReturnValue_t send(const uint8_t* data, size_t dataLen);
  int rawFd() const;
  ReturnValue_t initialize();
  /**
   * @brief   This function discards all data received but not read in the UART buffer.
   */
  ReturnValue_t flushUartRxBuffer();
  /**
   * @brief   This function discards all data in the transmit buffer of the UART driver.
   */
  ReturnValue_t flushUartTxBuffer();
  /**
   * @brief   This function discards both data in the transmit and receive buffer of the UART.
   */
  ReturnValue_t flushUartTxAndRxBuf();
 private:
  SerialConfig cfg;
  int fd = 0;
  /**
   * @brief	This function opens and configures a uart device by using the information stored
   *          in the uart cookie.
   * @param uartCookie    Pointer to uart cookie with information about the uart. Contains the
   *                      uart device file, baudrate, parity, stopbits etc.
   * @return  The file descriptor of the configured uart.
   */
  int configureUartPort();
  void setStopBitOptions(struct termios* options);
  /**
   * @brief   This function sets options which are not configurable by the uartCookie.
   */
  void setFixedOptions(struct termios* options);
  /**
   * @brief   With this function the datasize settings are added to the termios options struct.
   */
  void setDatasizeOptions(struct termios* options);
 };
--- a/linux/payload/SerialConfig.h
+++ b/linux/payload/SerialConfig.h
@ -0,0 +1,70 @@
 #pragma once
 #include <fsfw/devicehandlers/CookieIF.h>
 #include <fsfw/objectmanager/SystemObjectIF.h>
 #include <fsfw_hal/linux/serial/helper.h>
 #include <string>
 /**
 * @brief   Cookie for the UartComIF. There are many options available to configure the UART driver.
 *          The constructor only requests for common options like the baudrate. Other options can
 *          be set by member functions.
 *
 * @author 	J. Meier
 */
 class SerialConfig : public CookieIF {
 public:
  /**
   * @brief	Constructor for the uart cookie.
   * @param deviceFile    The device file specifying the uart to use, e.g. "/dev/ttyPS1"
   * @param uartMode      Specify the UART mode. The canonical mode should be used if the
   *                      messages are separated by a delimited character like '\n'. See the
   *                      termios documentation for more information
   * @param baudrate      The baudrate to use for input and output.
   * @param maxReplyLen   The maximum size an object using this cookie expects
   * @details
   * Default configuration: No parity
   *                        8 databits (number of bits transfered with one uart frame)
   *                        One stop bit
   */
  SerialConfig(std::string deviceFile, UartBaudRate baudrate, size_t maxReplyLen,
               UartModes uartMode = UartModes::NON_CANONICAL)
      : deviceFile(deviceFile), baudrate(baudrate), maxReplyLen(maxReplyLen), uartMode(uartMode) {}
  virtual ~SerialConfig() = default;
  UartBaudRate getBaudrate() const { return baudrate; }
  size_t getMaxReplyLen() const { return maxReplyLen; }
  std::string getDeviceFile() const { return deviceFile; }
  Parity getParity() const { return parity; }
  BitsPerWord getBitsPerWord() const { return bitsPerWord; }
  StopBits getStopBits() const { return stopBits; }
  UartModes getUartMode() const { return uartMode; }
  /**
   * Functions two enable parity checking.
   */
  void setParityOdd() { parity = Parity::ODD; }
  void setParityEven() { parity = Parity::EVEN; }
  /**
   * Function two set number of bits per UART frame.
   */
  void setBitsPerWord(BitsPerWord bitsPerWord_) { bitsPerWord = bitsPerWord_; }
  /**
   * Function to specify the number of stopbits.
   */
  void setTwoStopBits() { stopBits = StopBits::TWO_STOP_BITS; }
  void setOneStopBit() { stopBits = StopBits::ONE_STOP_BIT; }
 private:
  std::string deviceFile;
  UartBaudRate baudrate;
  size_t maxReplyLen = 0;
  const UartModes uartMode;
  Parity parity = Parity::NONE;
  BitsPerWord bitsPerWord = BitsPerWord::BITS_8;
  StopBits stopBits = StopBits::ONE_STOP_BIT;
 };
--- a/linux/payload/mpsocRetvals.h
+++ b/linux/payload/mpsocRetvals.h
@ -1,33 +0,0 @@
 #ifndef MPSOC_RETURN_VALUES_IF_H_
 #define MPSOC_RETURN_VALUES_IF_H_
 #include "eive/resultClassIds.h"
 #include "fsfw/returnvalues/returnvalue.h"
 class MPSoCReturnValuesIF {
 public:
  static const uint8_t INTERFACE_ID = CLASS_ID::MPSOC_RETURN_VALUES_IF;
  //! [EXPORT] : [COMMENT] Space Packet received from PLOC has invalid CRC
  static const ReturnValue_t CRC_FAILURE = MAKE_RETURN_CODE(0xA0);
  //! [EXPORT] : [COMMENT] Received ACK failure reply from PLOC
  static const ReturnValue_t RECEIVED_ACK_FAILURE = MAKE_RETURN_CODE(0xA1);
  //! [EXPORT] : [COMMENT] Received execution failure reply from PLOC
  static const ReturnValue_t RECEIVED_EXE_FAILURE = MAKE_RETURN_CODE(0xA2);
  //! [EXPORT] : [COMMENT] Received space packet with invalid APID from PLOC
  static const ReturnValue_t INVALID_APID = MAKE_RETURN_CODE(0xA3);
  //! [EXPORT] : [COMMENT] Received command with invalid length
  static const ReturnValue_t INVALID_LENGTH = MAKE_RETURN_CODE(0xA4);
  //! [EXPORT] : [COMMENT] Filename of file in OBC filesystem is too long
  static const ReturnValue_t FILENAME_TOO_LONG = MAKE_RETURN_CODE(0xA5);
  //! [EXPORT] : [COMMENT] MPSoC helper is currently executing a command
  static const ReturnValue_t MPSOC_HELPER_EXECUTING = MAKE_RETURN_CODE(0xA6);
  //! [EXPORT] : [COMMENT] Filename of MPSoC file is to long (max. 256 bytes)
  static const ReturnValue_t MPSOC_FILENAME_TOO_LONG = MAKE_RETURN_CODE(0xA7);
  //! [EXPORT] : [COMMENT] Command has invalid parameter
  static const ReturnValue_t INVALID_PARAMETER = MAKE_RETURN_CODE(0xA8);
  //! [EXPORT] : [COMMENT] Received command has file string with invalid length
  static const ReturnValue_t NAME_TOO_LONG = MAKE_RETURN_CODE(0xA9);
 };
 #endif /* MPSOC_RETURN_VALUES_IF_H_ */
--- a/linux/payload/plocMpsocHelpers.cpp
+++ b/linux/payload/plocMpsocHelpers.cpp
@ -1,87 +1,94 @@
 #include "plocMpsocHelpers.h"
 #include "fsfw/tmtcpacket/ccsds/SpacePacketReader.h"
 #include "mission/payload/plocSpBase.h"
 uint16_t mpsoc::getStatusFromRawData(const uint8_t* data) {
  return (*(data + STATUS_OFFSET) << 8) | *(data + STATUS_OFFSET + 1);
 }
 std::string mpsoc::getStatusString(uint16_t status) {
  switch (status) {
-    case (mpsoc::status_code::UNKNOWN_APID): {
+    case (mpsoc::statusCode::UNKNOWN_APID): {
      return "Unknown APID";
      break;
    }
-    case (mpsoc::status_code::INCORRECT_LENGTH): {
+    case (mpsoc::statusCode::INCORRECT_LENGTH): {
      return "Incorrect length";
      break;
    }
-    case (mpsoc::status_code::INCORRECT_CRC): {
+    case (mpsoc::statusCode::FLASH_DRIVE_ERROR): {
      return "flash drive error";
      break;
    }
    case (mpsoc::statusCode::INCORRECT_CRC): {
      return "Incorrect crc";
      break;
    }
-    case (mpsoc::status_code::INCORRECT_PKT_SEQ_CNT): {
+    case (mpsoc::statusCode::INCORRECT_PKT_SEQ_CNT): {
      return "Incorrect packet sequence count";
      break;
    }
-    case (mpsoc::status_code::TC_NOT_ALLOWED_IN_MODE): {
+    case (mpsoc::statusCode::TC_NOT_ALLOWED_IN_MODE): {
      return "TC not allowed in this mode";
      break;
    }
-    case (mpsoc::status_code::TC_EXEUTION_DISABLED): {
+    case (mpsoc::statusCode::TC_EXEUTION_DISABLED): {
      return "TC execution disabled";
      break;
    }
-    case (mpsoc::status_code::FLASH_MOUNT_FAILED): {
+    case (mpsoc::statusCode::FLASH_MOUNT_FAILED): {
      return "Flash mount failed";
      break;
    }
-    case (mpsoc::status_code::FLASH_FILE_ALREADY_OPEN): {
+    case (mpsoc::statusCode::FLASH_FILE_ALREADY_OPEN): {
      return "Flash file already open";
      break;
    }
-    case (mpsoc::status_code::FLASH_FILE_ALREADY_CLOSED): {
+    case (mpsoc::statusCode::FLASH_FILE_ALREADY_CLOSED): {
      return "Flash file already closed";
      break;
    }
-    case (mpsoc::status_code::FLASH_FILE_OPEN_FAILED): {
+    case (mpsoc::statusCode::FLASH_FILE_OPEN_FAILED): {
      return "Flash file open failed";
      break;
    }
-    case (mpsoc::status_code::FLASH_FILE_NOT_OPEN): {
+    case (mpsoc::statusCode::FLASH_FILE_NOT_OPEN): {
      return "Flash file not open";
      break;
    }
-    case (mpsoc::status_code::FLASH_UNMOUNT_FAILED): {
+    case (mpsoc::statusCode::FLASH_UNMOUNT_FAILED): {
      return "Flash unmount failed";
      break;
    }
-    case (mpsoc::status_code::HEAP_ALLOCATION_FAILED): {
+    case (mpsoc::statusCode::HEAP_ALLOCATION_FAILED): {
      return "Heap allocation failed";
      break;
    }
-    case (mpsoc::status_code::INVALID_PARAMETER): {
+    case (mpsoc::statusCode::INVALID_PARAMETER): {
      return "Invalid parameter";
      break;
    }
-    case (mpsoc::status_code::NOT_INITIALIZED): {
+    case (mpsoc::statusCode::NOT_INITIALIZED): {
      return "Not initialized";
      break;
    }
-    case (mpsoc::status_code::REBOOT_IMMINENT): {
+    case (mpsoc::statusCode::REBOOT_IMMINENT): {
      return "Reboot imminent";
      break;
    }
-    case (mpsoc::status_code::CORRUPT_DATA): {
+    case (mpsoc::statusCode::CORRUPT_DATA): {
      return "Corrupt data";
      break;
    }
-    case (mpsoc::status_code::FLASH_CORRECTABLE_MISMATCH): {
+    case (mpsoc::statusCode::FLASH_CORRECTABLE_MISMATCH): {
      return "Flash correctable mismatch";
      break;
    }
-    case (mpsoc::status_code::FLASH_UNCORRECTABLE_MISMATCH): {
+    case (mpsoc::statusCode::FLASH_UNCORRECTABLE_MISMATCH): {
      return "Flash uncorrectable mismatch";
      break;
    }
-    case (mpsoc::status_code::DEFAULT_ERROR_CODE): {
+    case (mpsoc::statusCode::DEFAULT_ERROR_CODE): {
      return "Default error code";
      break;
    }
@ -93,3 +100,19 @@ std::string mpsoc::getStatusString(uint16_t status) {
  }
  return "";
 }
 void mpsoc::printRxPacket(const SpacePacketReader& spReader) {
  if (mpsoc::MPSOC_RX_WIRETAPPING) {
    sif::debug << "RECV MPSOC packet. APID 0x" << std::hex << std::setw(3) << spReader.getApid()
               << std::dec << " Size " << spReader.getFullPacketLen() << " SSC "
               << spReader.getSequenceCount() << std::endl;
  }
 }
 void mpsoc::printTxPacket(const ploc::SpTcBase& tcBase) {
  if (mpsoc::MPSOC_TX_WIRETAPPING) {
    sif::debug << "SEND MPSOC packet. APID 0x" << std::hex << std::setw(3) << tcBase.getApid()
               << " Size " << std::dec << tcBase.getFullPacketLen() << " SSC "
               << tcBase.getSeqCount() << std::endl;
  }
 }
--- a/linux/payload/plocMpsocHelpers.h
+++ b/linux/payload/plocMpsocHelpers.h
@ -3,16 +3,124 @@
 #include <fsfw/datapoollocal/StaticLocalDataSet.h>
 #include <fsfw/devicehandlers/DeviceHandlerIF.h>
 #include <linux/payload/mpsocRetvals.h>
 #include <mission/payload/plocSpBase.h>
-#include "OBSWConfig.h"
+#include "eive/eventSubsystemIds.h"
-#include "eive/definitions.h"
+#include "eive/resultClassIds.h"
-#include "fsfw/globalfunctions/CRC.h"
+#include "fsfw/action/HasActionsIF.h"
 #include "fsfw/events/Event.h"
 #include "fsfw/returnvalues/returnvalue.h"
 #include "fsfw/serialize/SerializeAdapter.h"
 #include "fsfw/serialize/SerializeIF.h"
 namespace mpsoc {
 static constexpr bool MPSOC_TX_WIRETAPPING = false;
 static constexpr bool MPSOC_RX_WIRETAPPING = false;
 static constexpr size_t CRC_SIZE = 2;
 /**
 * @brief   Abstract base class for TC space packet of MPSoC.
 */
 class TcBase : public ploc::SpTcBase {
 public:
  virtual ~TcBase() = default;
  // Initial length field of space packet. Will always be updated when packet is created.
  static const uint16_t INIT_LENGTH = CRC_SIZE;
  /**
   * @brief    Constructor
   *
   * @param sequenceCount Sequence count of space packet which will be incremented with each
   *        sent and received packets.
   */
  TcBase(ploc::SpTcParams params, uint16_t apid, uint16_t sequenceCount)
      : ploc::SpTcBase(params, apid, 0, sequenceCount) {
    payloadStart = spParams.buf + ccsds::HEADER_LEN;
    spParams.setFullPayloadLen(INIT_LENGTH);
  }
  /**
   * @brief   Function to finsh and write the space packet. It is expected that the user has
   * set the payload fields in the child class*
   * @return  returnvalue::OK if packet creation was successful, otherwise error return value
   */
  ReturnValue_t finishPacket() {
    updateSpFields();
    ReturnValue_t res = checkSizeAndSerializeHeader();
    if (res != returnvalue::OK) {
      return res;
    }
    return calcAndSetCrc();
  }
 };
 void printRxPacket(const SpacePacketReader& spReader);
 void printTxPacket(const ploc::SpTcBase& tcBase);
 static constexpr uint32_t DEFAULT_CMD_TIMEOUT_MS = 5000;
 static constexpr uint32_t CMD_TIMEOUT_MKFS = 15000;
 enum FlashId : uint8_t { FLASH_0 = 0, FLASH_1 = 1 };
 static const uint8_t INTERFACE_ID = CLASS_ID::MPSOC_RETURN_VALUES_IF;
 //! [EXPORT] : [COMMENT] Space Packet received from PLOC has invalid CRC
 static const ReturnValue_t CRC_FAILURE = MAKE_RETURN_CODE(0xA0);
 //! [EXPORT] : [COMMENT] Received ACK failure reply from PLOC
 static const ReturnValue_t RECEIVED_ACK_FAILURE = MAKE_RETURN_CODE(0xA1);
 //! [EXPORT] : [COMMENT] Received execution failure reply from PLOC
 static const ReturnValue_t RECEIVED_EXE_FAILURE = MAKE_RETURN_CODE(0xA2);
 //! [EXPORT] : [COMMENT] Received space packet with invalid APID from PLOC
 static const ReturnValue_t INVALID_APID = MAKE_RETURN_CODE(0xA3);
 //! [EXPORT] : [COMMENT] Received command with invalid length
 static const ReturnValue_t INVALID_LENGTH = MAKE_RETURN_CODE(0xA4);
 //! [EXPORT] : [COMMENT] Filename of file in OBC filesystem is too long
 static const ReturnValue_t FILENAME_TOO_LONG = MAKE_RETURN_CODE(0xA5);
 //! [EXPORT] : [COMMENT] MPSoC helper is currently executing a command
 static const ReturnValue_t MPSOC_HELPER_EXECUTING = MAKE_RETURN_CODE(0xA6);
 //! [EXPORT] : [COMMENT] Filename of MPSoC file is to long (max. 256 bytes)
 static const ReturnValue_t MPSOC_FILENAME_TOO_LONG = MAKE_RETURN_CODE(0xA7);
 //! [EXPORT] : [COMMENT] Command has invalid parameter
 static const ReturnValue_t INVALID_PARAMETER = MAKE_RETURN_CODE(0xA8);
 //! [EXPORT] : [COMMENT] Received command has file string with invalid length
 static const ReturnValue_t NAME_TOO_LONG = MAKE_RETURN_CODE(0xA9);
 //! [EXPORT] : [COMMENT] Command has timed out.
 static const ReturnValue_t COMMAND_TIMEOUT = MAKE_RETURN_CODE(0x10);
 static const uint8_t SUBSYSTEM_ID = SUBSYSTEM_ID::PLOC_MPSOC_HANDLER;
 //! [EXPORT] : [COMMENT] PLOC crc failure in telemetry packet
 static const Event MEMORY_READ_RPT_CRC_FAILURE = MAKE_EVENT(1, severity::LOW);
 //! [EXPORT] : [COMMENT] PLOC receive acknowledgment failure report
 //! P1: Command Id which leads the acknowledgment failure report
 //! P2: The status field inserted by the MPSoC into the data field
 static const Event ACK_FAILURE = MAKE_EVENT(2, severity::LOW);
 //! [EXPORT] : [COMMENT] PLOC receive execution failure report
 //! P1: Command Id which leads the execution failure report
 //! P2: The status field inserted by the MPSoC into the data field
 static const Event EXE_FAILURE = MAKE_EVENT(3, severity::LOW);
 //! [EXPORT] : [COMMENT] PLOC reply has invalid crc
 static const Event MPSOC_HANDLER_CRC_FAILURE = MAKE_EVENT(4, severity::LOW);
 //! [EXPORT] : [COMMENT] Packet sequence count in received space packet does not match expected
 //! count P1: Expected sequence count P2: Received sequence count
 static const Event MPSOC_HANDLER_SEQUENCE_COUNT_MISMATCH = MAKE_EVENT(5, severity::LOW);
 //! [EXPORT] : [COMMENT] Supervisor fails to shutdown MPSoC. Requires to power off the PLOC and
 //! thus also to shutdown the supervisor.
 static const Event MPSOC_SHUTDOWN_FAILED = MAKE_EVENT(6, severity::HIGH);
 //! [EXPORT] : [COMMENT] SUPV not on for boot or shutdown process. P1: 0 for OFF transition, 1 for
 //! ON transition.
 static constexpr Event SUPV_NOT_ON = event::makeEvent(SUBSYSTEM_ID, 7, severity::LOW);
 //! [EXPORT] : [COMMENT] SUPV reply timeout.
 static constexpr Event SUPV_REPLY_TIMEOUT = event::makeEvent(SUBSYSTEM_ID, 8, severity::LOW);
 //! [EXPORT] : [COMMENT] Camera must be commanded on first.
 static constexpr Event CAM_MUST_BE_ON_FOR_SNAPSHOT_MODE =
    event::makeEvent(SUBSYSTEM_ID, 9, severity::LOW);
 enum ParamId : uint8_t { SKIP_SUPV_ON_COMMANDING = 0x01 };
 enum FileAccessModes : uint8_t {
  // Opens a file, fails if the file does not exist.
  OPEN_EXISTING = 0x00,
@ -28,6 +136,8 @@ enum FileAccessModes : uint8_t {
 };
 static constexpr uint32_t HK_SET_ID = 0;
 static constexpr uint32_t DEADBEEF_ADDR = 0x40000004;
 static constexpr uint32_t DEADBEEF_VALUE = 0xdeadbeef;
 namespace poolid {
 enum {
@ -90,7 +200,8 @@ static const DeviceCommandId_t TM_CAM_CMD_RPT = 19;
 static const DeviceCommandId_t SET_UART_TX_TRISTATE = 20;
 static const DeviceCommandId_t RELEASE_UART_TX = 21;
 static const DeviceCommandId_t TC_CAM_TAKE_PIC = 22;
-static const DeviceCommandId_t TC_SIMPLEX_SEND_FILE = 23;
+// Stream file down using E-Band component directly.
 static const DeviceCommandId_t TC_SIMPLEX_STREAM_FILE = 23;
 static const DeviceCommandId_t TC_DOWNLINK_DATA_MODULATE = 24;
 static const DeviceCommandId_t TC_MODE_SNAPSHOT = 25;
 static const DeviceCommandId_t TC_GET_HK_REPORT = 26;
@ -98,16 +209,31 @@ static const DeviceCommandId_t TM_GET_HK_REPORT = 27;
 static const DeviceCommandId_t TC_FLASH_GET_DIRECTORY_CONTENT = 28;
 static const DeviceCommandId_t TM_FLASH_DIRECTORY_CONTENT = 29;
 static constexpr DeviceCommandId_t TC_FLASH_READ_FULL_FILE = 30;
 // Store file on MPSoC.
 static const DeviceCommandId_t TC_SPLIT_FILE = 31;
 static const DeviceCommandId_t TC_VERIFY_BOOT = 32;
 static const DeviceCommandId_t TC_ENABLE_TC_EXECTION = 33;
 static const DeviceCommandId_t TC_FLASH_MKFS = 34;
-// Will reset the sequence count of the OBSW
+// Will reset the sequence count of the OBSW. Not required anymore after MPSoC update.
-static const DeviceCommandId_t OBSW_RESET_SEQ_COUNT = 50;
+static const DeviceCommandId_t OBSW_RESET_SEQ_COUNT_LEGACY = 50;
 static const uint16_t SIZE_ACK_REPORT = 14;
 static const uint16_t SIZE_EXE_REPORT = 14;
 static const uint16_t SIZE_TM_MEM_READ_REPORT = 18;
 static const uint16_t SIZE_TM_CAM_CMD_RPT = 18;
 static constexpr size_t SIZE_TM_HK_REPORT = 369;
 enum Submode : uint8_t { IDLE_OR_NONE = 0, REPLAY = 1, SNAPSHOT = 2 };
 // Setting the internal mode value to the actual telecommand ID
 /*
 enum InternalMode {
  OFF = HasModesIF::MODE_OFF,
  IDLE = ,
  REPLAY = TC_MODE_REPLAY,
  SNAPSHOT = TC_MODE_SNAPSHOT
 };
 */
 /**
 * SpacePacket apids of PLOC telecommands and telemetry.
 */
@ -132,6 +258,8 @@ static const uint16_t TC_MODE_SNAPSHOT = 0x120;
 static const uint16_t TC_DOWNLINK_DATA_MODULATE = 0x121;
 static constexpr uint16_t TC_HK_GET_REPORT = 0x123;
 static const uint16_t TC_DOWNLINK_PWR_OFF = 0x124;
 static constexpr uint16_t TC_ENABLE_TC_EXECUTION = 0x129;
 static constexpr uint16_t TC_FLASH_MKFS = 0x12A;
 static const uint16_t TC_CAM_CMD_SEND = 0x12C;
 static constexpr uint16_t TC_FLASH_COPY_FILE = 0x12E;
 static const uint16_t TC_SIMPLEX_SEND_FILE = 0x130;
@ -156,15 +284,15 @@ static const uint8_t SPACE_PACKET_HEADER_SIZE = 6;
 static const uint8_t STATUS_OFFSET = 10;
 static constexpr size_t CRC_SIZE = 2;
 /**
 * The size of payload data which will be forwarded to the requesting object. e.g. PUS Service
 * 8.
 */
 static const uint8_t SIZE_MEM_READ_RPT_FIX = 6;
-static const size_t MAX_FILENAME_SIZE = 256;
+static const size_t FILENAME_FIELD_SIZE = 256;
 // Subtract size of NULL terminator.
 static const size_t MAX_FILENAME_SIZE = FILENAME_FIELD_SIZE - 1;
 /**
 * PLOC space packet length for fixed size packets. This is the size of the whole packet data
@ -199,8 +327,9 @@ static const uint16_t TC_DOWNLINK_PWR_ON_EXECUTION_DELAY = 8;
 static const uint16_t TC_CAM_TAKE_PIC_EXECUTION_DELAY = 20;
 static const uint16_t TC_SIMPLEX_SEND_FILE_DELAY = 80;
-namespace status_code {
+namespace statusCode {
 static const uint16_t DEFAULT_ERROR_CODE = 0x1;
 static constexpr uint16_t FLASH_DRIVE_ERROR = 0xb;
 static const uint16_t UNKNOWN_APID = 0x5DD;
 static const uint16_t INCORRECT_LENGTH = 0x5DE;
 static const uint16_t INCORRECT_CRC = 0x5DF;
@ -225,49 +354,12 @@ static const uint16_t RESERVED_1 = 0x5F1;
 static const uint16_t RESERVED_2 = 0x5F2;
 static const uint16_t RESERVED_3 = 0x5F3;
 static const uint16_t RESERVED_4 = 0x5F4;
-}  // namespace status_code
+}  // namespace statusCode
 /**
 * @brief   Abstract base class for TC space packet of MPSoC.
 */
 class TcBase : public ploc::SpTcBase, public MPSoCReturnValuesIF {
 public:
  virtual ~TcBase() = default;
  // Initial length field of space packet. Will always be updated when packet is created.
  static const uint16_t INIT_LENGTH = CRC_SIZE;
  /**
   * @brief    Constructor
   *
   * @param sequenceCount Sequence count of space packet which will be incremented with each
   *        sent and received packets.
   */
  TcBase(ploc::SpTcParams params, uint16_t apid, uint16_t sequenceCount)
      : ploc::SpTcBase(params, apid, 0, sequenceCount) {
    payloadStart = spParams.buf + ccsds::HEADER_LEN;
    spParams.setFullPayloadLen(INIT_LENGTH);
  }
  /**
   * @brief   Function to finsh and write the space packet. It is expected that the user has
   * set the payload fields in the child class*
   * @return  returnvalue::OK if packet creation was successful, otherwise error return value
   */
  ReturnValue_t finishPacket() {
    updateSpFields();
    ReturnValue_t res = checkSizeAndSerializeHeader();
    if (res != returnvalue::OK) {
      return res;
    }
    return calcAndSetCrc();
  }
 };
 /**
 * @brief   This class helps to build the memory read command for the PLOC.
 */
-class TcMemRead : public TcBase {
+class TcMemRead : public mpsoc::TcBase {
 public:
  /**
   * @brief   Constructor
@ -317,7 +409,7 @@ class TcMemRead : public TcBase {
 * @brief   This class helps to generate the space packet to write data to a memory address within
 *          the PLOC.
 */
-class TcMemWrite : public TcBase {
+class TcMemWrite : public mpsoc::TcBase {
 public:
  /**
   * @brief   Constructor
@ -367,24 +459,21 @@ class TcMemWrite : public TcBase {
 /**
 * @brief   Class to help creation of flash fopen command.
 */
-class FlashFopen : public TcBase {
+class TcFlashFopen : public mpsoc::TcBase {
 public:
-  FlashFopen(ploc::SpTcParams params, uint16_t sequenceCount)
+  TcFlashFopen(ploc::SpTcParams params, uint16_t sequenceCount)
      : TcBase(params, apid::TC_FLASHFOPEN, sequenceCount) {}
  ReturnValue_t setPayload(std::string filename, uint8_t mode) {
    accessMode = mode;
    size_t nameSize = filename.size();
    spParams.setFullPayloadLen(256 + sizeof(uint8_t) + CRC_SIZE);
    ReturnValue_t result = checkPayloadLen();
    if (result != returnvalue::OK) {
      return result;
    }
-    std::memcpy(payloadStart, filename.c_str(), nameSize);
+    std::memset(payloadStart, 0, FILENAME_FIELD_SIZE);
-    // payloadStart[nameSize] = NULL_TERMINATOR;
+    std::memcpy(payloadStart, filename.c_str(), filename.size());
-    std::memset(payloadStart + nameSize, 0, 256 - nameSize);
+    payloadStart[FILENAME_FIELD_SIZE] = accessMode;
-    // payloadStart[255] = NULL_TERMINATOR;
+    spParams.setFullPayloadLen(FILENAME_FIELD_SIZE + 1 + CRC_SIZE);
    payloadStart[256] = accessMode;
    return returnvalue::OK;
  }
@ -395,14 +484,46 @@ class FlashFopen : public TcBase {
 /**
 * @brief   Class to help creation of flash fclose command.
 */
-class FlashFclose : public TcBase {
+class TcFlashFclose : public TcBase {
 public:
-  FlashFclose(ploc::SpTcParams params, uint16_t sequenceCount)
+  TcFlashFclose(ploc::SpTcParams params, uint16_t sequenceCount)
      : TcBase(params, apid::TC_FLASHFCLOSE, sequenceCount) {
    spParams.setFullPayloadLen(CRC_SIZE);
  }
 };
 class TcEnableTcExec : public TcBase {
 public:
  TcEnableTcExec(ploc::SpTcParams params, uint16_t sequenceCount)
      : TcBase(params, apid::TC_ENABLE_TC_EXECUTION, sequenceCount) {
    spParams.setFullPayloadLen(CRC_SIZE);
  }
  ReturnValue_t setPayload(const uint8_t* cmdData, size_t cmdDataLen) {
    if (cmdDataLen != 2) {
      return HasActionsIF::INVALID_PARAMETERS;
    }
    std::memcpy(payloadStart, cmdData, 2);
    spParams.setFullPayloadLen(2 + CRC_SIZE);
    return returnvalue::OK;
  }
 };
 class TcFlashMkfs : public TcBase {
 public:
  TcFlashMkfs(ploc::SpTcParams params, uint16_t sequenceCount, FlashId flashId)
      : TcBase(params, apid::TC_FLASH_MKFS, sequenceCount) {
    const char* flashIdStr = "0:\\";
    if (flashId == FlashId::FLASH_1) {
      flashIdStr = "1:\\";
    }
    std::memcpy(payloadStart, flashIdStr, 3);
    // Null terminator
    payloadStart[3] = 0;
    spParams.setFullPayloadLen(4 + CRC_SIZE);
  }
 };
 /**
 * @brief   Class to build flash write space packet.
 */
@ -462,15 +583,6 @@ class TcFlashRead : public TcBase {
    if (result != returnvalue::OK) {
      return result;
    }
    updateSpFields();
    result = checkSizeAndSerializeHeader();
    if (result != returnvalue::OK) {
      return result;
    }
    result = calcAndSetCrc();
    if (result != returnvalue::OK) {
      return result;
    }
    readSize = readLen;
    return result;
  }
@ -488,20 +600,14 @@ class TcFlashDelete : public TcBase {
  ReturnValue_t setPayload(std::string filename) {
    size_t nameSize = filename.size();
-    spParams.setFullPayloadLen(nameSize + sizeof(NULL_TERMINATOR) + CRC_SIZE);
+    spParams.setFullPayloadLen(FILENAME_FIELD_SIZE + CRC_SIZE);
    auto res = checkPayloadLen();
    if (res != returnvalue::OK) {
      return res;
    }
    std::memcpy(payloadStart, filename.c_str(), nameSize);
    *(payloadStart + nameSize) = NULL_TERMINATOR;
-
+    return returnvalue::OK;
    updateSpFields();
    res = checkSizeAndSerializeHeader();
    if (res != returnvalue::OK) {
      return res;
    }
    return calcAndSetCrc();
  }
 };
@ -653,8 +759,9 @@ class TcGetDirContent : public TcBase {
    if (result != returnvalue::OK) {
      return result;
    }
    std::memset(payloadStart, 0, 256);
    std::memcpy(payloadStart, commandData, commandDataLen);
-    payloadStart[255] = '\0';
+    payloadStart[255] = 0;
    return result;
  }
 };
@ -695,7 +802,7 @@ class TcReplayWriteSeq : public TcBase {
  static const size_t USE_DECODING_LENGTH = 1;
  ReturnValue_t lengthCheck(size_t commandDataLen) {
-    if (commandDataLen > USE_DECODING_LENGTH + MAX_FILENAME_SIZE or
+    if (commandDataLen > USE_DECODING_LENGTH + FILENAME_FIELD_SIZE or
        checkPayloadLen() != returnvalue::OK) {
      sif::warning << "TcReplayWriteSeq: Command has invalid length " << commandDataLen
                   << std::endl;
@ -708,24 +815,24 @@ class TcReplayWriteSeq : public TcBase {
 /**
 * @brief   Helps to extract the fields of the flash write command from the PUS packet.
 */
-class FlashBasePusCmd : public MPSoCReturnValuesIF {
+class FlashBasePusCmd {
 public:
  FlashBasePusCmd() = default;
  virtual ~FlashBasePusCmd() = default;
  virtual ReturnValue_t extractFields(const uint8_t* commandData, size_t commandDataLen) {
-    if (commandDataLen > (config::MAX_PATH_SIZE + config::MAX_FILENAME_SIZE + MAX_FILENAME_SIZE)) {
+    if (commandDataLen > FILENAME_FIELD_SIZE) {
      return INVALID_LENGTH;
    }
    size_t fileLen = strnlen(reinterpret_cast<const char*>(commandData), commandDataLen);
-    if (fileLen > (config::MAX_PATH_SIZE + config::MAX_FILENAME_SIZE)) {
+    if (fileLen > MAX_FILENAME_SIZE) {
      return FILENAME_TOO_LONG;
    }
    obcFile = std::string(reinterpret_cast<const char*>(commandData), fileLen);
    fileLen =
        strnlen(reinterpret_cast<const char*>(commandData + obcFile.size() + SIZE_NULL_TERMINATOR),
                commandDataLen - obcFile.size() - 1);
-    if (fileLen > MAX_FILENAME_SIZE) {
+    if (fileLen > FILENAME_FIELD_SIZE) {
      return MPSOC_FILENAME_TOO_LONG;
    }
    mpsocFile = std::string(
@ -736,11 +843,11 @@ class FlashBasePusCmd : public MPSoCReturnValuesIF {
  const std::string& getObcFile() const { return obcFile; }
-  const std::string& getMPSoCFile() const { return mpsocFile; }
+  const std::string& getMpsocFile() const { return mpsocFile; }
 protected:
  size_t getParsedSize() const {
-    return getObcFile().size() + getMPSoCFile().size() + 2 * SIZE_NULL_TERMINATOR;
+    return getObcFile().size() + getMpsocFile().size() + 2 * SIZE_NULL_TERMINATOR;
  }
  static const size_t SIZE_NULL_TERMINATOR = 1;
@ -807,49 +914,191 @@ class TcCamTakePic : public TcBase {
      : TcBase(params, apid::TC_CAM_TAKE_PIC, sequenceCount) {}
  ReturnValue_t setPayload(const uint8_t* commandData, size_t commandDataLen) {
-    if (commandDataLen > MAX_DATA_LENGTH) {
+    const uint8_t** dataPtr = &commandData;
    if (commandDataLen > FULL_PAYLOAD_SIZE) {
      return INVALID_LENGTH;
    }
-    std::string fileName(reinterpret_cast<const char*>(commandData));
+    size_t deserLen = commandDataLen;
-    if (fileName.size() + sizeof(NULL_TERMINATOR) > MAX_FILENAME_SIZE) {
+    size_t serLen = 0;
    fileName = std::string(reinterpret_cast<const char*>(commandData));
    if (fileName.size() > MAX_FILENAME_SIZE) {
      return FILENAME_TOO_LONG;
    }
-    if (commandDataLen - (fileName.size() + sizeof(NULL_TERMINATOR)) != PARAMETER_SIZE) {
+    deserLen -= fileName.length() + 1;
-      return INVALID_LENGTH;
+    *dataPtr += fileName.length() + 1;
    uint8_t** payloadPtr = &payloadStart;
    memset(payloadStart, 0, FILENAME_FIELD_SIZE);
    memcpy(payloadStart, fileName.data(), fileName.size());
    *payloadPtr += FILENAME_FIELD_SIZE;
    serLen += FILENAME_FIELD_SIZE;
    ReturnValue_t result = SerializeAdapter::deSerialize(&encoderSettingY, dataPtr, &deserLen,
                                                         SerializeIF::Endianness::NETWORK);
    if (result != returnvalue::OK) {
      return result;
    }
-    spParams.setFullPayloadLen(commandDataLen + CRC_SIZE);
+    result = SerializeAdapter::serialize(&encoderSettingY, payloadPtr, &serLen, FULL_PAYLOAD_SIZE,
-    std::memcpy(payloadStart, commandData, commandDataLen);
+                                         SerializeIF::Endianness::NETWORK);
    if (result != returnvalue::OK) {
      return result;
    }
    result = SerializeAdapter::deSerialize(&quantizationY, dataPtr, &deserLen,
                                           SerializeIF::Endianness::NETWORK);
    if (result != returnvalue::OK) {
      return result;
    }
    result = SerializeAdapter::serialize(&quantizationY, payloadPtr, &serLen, FULL_PAYLOAD_SIZE,
                                         SerializeIF::Endianness::NETWORK);
    if (result != returnvalue::OK) {
      return result;
    }
    result = SerializeAdapter::deSerialize(&encoderSettingsCb, dataPtr, &deserLen,
                                           SerializeIF::Endianness::NETWORK);
    if (result != returnvalue::OK) {
      return result;
    }
    result = SerializeAdapter::serialize(&encoderSettingsCb, payloadPtr, &serLen, FULL_PAYLOAD_SIZE,
                                         SerializeIF::Endianness::NETWORK);
    if (result != returnvalue::OK) {
      return result;
    }
    result = SerializeAdapter::deSerialize(&quantizationCb, dataPtr, &deserLen,
                                           SerializeIF::Endianness::NETWORK);
    if (result != returnvalue::OK) {
      return result;
    }
    result = SerializeAdapter::serialize(&quantizationCb, payloadPtr, &serLen, FULL_PAYLOAD_SIZE,
                                         SerializeIF::Endianness::NETWORK);
    if (result != returnvalue::OK) {
      return result;
    }
    result = SerializeAdapter::deSerialize(&encoderSettingsCr, dataPtr, &deserLen,
                                           SerializeIF::Endianness::NETWORK);
    if (result != returnvalue::OK) {
      return result;
    }
    result = SerializeAdapter::serialize(&encoderSettingsCr, payloadPtr, &serLen, FULL_PAYLOAD_SIZE,
                                         SerializeIF::Endianness::NETWORK);
    if (result != returnvalue::OK) {
      return result;
    }
    result = SerializeAdapter::deSerialize(&quantizationCr, dataPtr, &deserLen,
                                           SerializeIF::Endianness::NETWORK);
    if (result != returnvalue::OK) {
      return result;
    }
    result = SerializeAdapter::serialize(&quantizationCr, payloadPtr, &serLen, FULL_PAYLOAD_SIZE,
                                         SerializeIF::Endianness::NETWORK);
    if (result != returnvalue::OK) {
      return result;
    }
    result = SerializeAdapter::deSerialize(&bypassCompressor, dataPtr, &deserLen,
                                           SerializeIF::Endianness::NETWORK);
    if (result != returnvalue::OK) {
      return result;
    }
    result = SerializeAdapter::serialize(&bypassCompressor, payloadPtr, &serLen, FULL_PAYLOAD_SIZE,
                                         SerializeIF::Endianness::NETWORK);
    if (result != returnvalue::OK) {
      return result;
    }
    spParams.setFullPayloadLen(FULL_PAYLOAD_SIZE + CRC_SIZE);
    return returnvalue::OK;
  }
  std::string fileName;
  uint8_t encoderSettingY = 7;
  uint64_t quantizationY = 0;
  uint8_t encoderSettingsCb = 7;
  uint64_t quantizationCb = 0;
  uint8_t encoderSettingsCr = 7;
  uint64_t quantizationCr = 0;
  uint8_t bypassCompressor = 0;
 private:
  static const size_t MAX_DATA_LENGTH = 286;
  static const size_t PARAMETER_SIZE = 28;
  static constexpr size_t FULL_PAYLOAD_SIZE = FILENAME_FIELD_SIZE + PARAMETER_SIZE;
 };
 /**
 * @brief   Class to build simplex send file command
 */
-class TcSimplexSendFile : public TcBase {
+class TcSimplexStreamFile : public TcBase {
 public:
-  TcSimplexSendFile(ploc::SpTcParams params, uint16_t sequenceCount)
+  TcSimplexStreamFile(ploc::SpTcParams params, uint16_t sequenceCount)
      : TcBase(params, apid::TC_SIMPLEX_SEND_FILE, sequenceCount) {}
  ReturnValue_t setPayload(const uint8_t* commandData, size_t commandDataLen) {
-    if (commandDataLen > MAX_DATA_LENGTH) {
+    if (commandDataLen > MAX_FILENAME_SIZE) {
      return INVALID_LENGTH;
    }
    std::string fileName(reinterpret_cast<const char*>(commandData));
-    if (fileName.size() + sizeof(NULL_TERMINATOR) > MAX_FILENAME_SIZE) {
+    if (fileName.size() > MAX_FILENAME_SIZE) {
      return FILENAME_TOO_LONG;
    }
-    spParams.setFullPayloadLen(commandDataLen + CRC_SIZE);
+
-    std::memcpy(payloadStart, commandData, commandDataLen);
+    std::memset(payloadStart, 0, FILENAME_FIELD_SIZE);
    std::memcpy(payloadStart, fileName.data(), fileName.length());
    payloadStart[fileName.length()] = 0;
    spParams.setFullPayloadLen(FILENAME_FIELD_SIZE + CRC_SIZE);
    ;
    return returnvalue::OK;
  }
 private:
-  static const size_t MAX_DATA_LENGTH = 256;
+};
 /**
 * @brief   Class to build simplex send file command
 */
 class TcSplitFile : public TcBase {
 public:
  TcSplitFile(ploc::SpTcParams params, uint16_t sequenceCount)
      : TcBase(params, apid::TC_SIMPLEX_SEND_FILE, sequenceCount) {}
  ReturnValue_t setPayload(const uint8_t* commandData, size_t commandDataLen) {
    if (commandDataLen < MIN_DATA_LENGTH) {
      return INVALID_LENGTH;
    }
    if (commandDataLen > MAX_DATA_LENGTH) {
      return INVALID_LENGTH;
    }
    const uint8_t** dataPtr = &commandData;
    ReturnValue_t result = SerializeAdapter::deSerialize(&chunkParameter, dataPtr, &commandDataLen,
                                                         SerializeIF::Endianness::NETWORK);
    if (result != returnvalue::OK) {
      return result;
    }
    /// No chunks makes no sense, and DIV str can not be longer than whats representable with 3
    /// decimal digits.
    if (chunkParameter == 0 or chunkParameter > 999) {
      return INVALID_PARAMETER;
    }
    std::string fileName(reinterpret_cast<const char*>(*dataPtr));
    if (fileName.size() > MAX_FILENAME_SIZE) {
      return FILENAME_TOO_LONG;
    }
    char divStr[16]{};
    sprintf(divStr, "DIV%03u", chunkParameter);
    std::memcpy(payloadStart, divStr, DIV_STR_LEN);
    payloadStart[DIV_STR_LEN] = 0;
    std::memset(payloadStart + DIV_STR_LEN + 1, 0, FILENAME_FIELD_SIZE - DIV_STR_LEN - 1);
    std::memcpy(payloadStart + DIV_STR_LEN + 1, fileName.data(), fileName.length());
    spParams.setFullPayloadLen(FILENAME_FIELD_SIZE + CRC_SIZE);
    return returnvalue::OK;
  }
 private:
  uint32_t chunkParameter = 0;
  static constexpr size_t MIN_DATA_LENGTH = 4;
  static constexpr size_t DIV_STR_LEN = 6;
  static constexpr size_t MAX_DATA_LENGTH = 4 + MAX_FILENAME_SIZE;
 };
 /**
--- a/linux/payload/plocSupvDefs.h
+++ b/linux/payload/plocSupvDefs.h
@ -11,13 +11,46 @@
 #include <mission/payload/plocSpBase.h>
 #include <atomic>
 #include <optional>
 #include "eive/eventSubsystemIds.h"
 #include "eive/resultClassIds.h"
 namespace supv {
 static constexpr bool DEBUG_PLOC_SUPV = false;
 static constexpr bool REDUCE_NORMAL_MODE_PRINTOUT = true;
 static const uint8_t SUBSYSTEM_ID = SUBSYSTEM_ID::PLOC_SUPERVISOR_HANDLER;
 //! [EXPORT] : [COMMENT] PLOC supervisor crc failure in telemetry packet
 static const Event SUPV_MEMORY_READ_RPT_CRC_FAILURE = MAKE_EVENT(1, severity::LOW);
 //! [EXPORT] : [COMMENT] Unhandled event. P1: APID, P2: Service ID
 static constexpr Event SUPV_UNKNOWN_TM = MAKE_EVENT(2, severity::LOW);
 static constexpr Event SUPV_UNINIMPLEMENTED_TM = MAKE_EVENT(3, severity::LOW);
 //! [EXPORT] : [COMMENT] PLOC supervisor received acknowledgment failure report
 static const Event SUPV_ACK_FAILURE = MAKE_EVENT(4, severity::LOW);
 //! [EXPORT] : [COMMENT] PLOC received execution failure report
 //! P1: ID of command for which the execution failed
 //! P2: Status code sent by the supervisor handler
 static const Event SUPV_EXE_FAILURE = MAKE_EVENT(5, severity::LOW);
 //! [EXPORT] : [COMMENT] PLOC supervisor reply has invalid crc
 static const Event SUPV_CRC_FAILURE_EVENT = MAKE_EVENT(6, severity::LOW);
 //! [EXPORT] : [COMMENT] Supervisor helper currently executing a command
 static const Event SUPV_HELPER_EXECUTING = MAKE_EVENT(7, severity::LOW);
 //! [EXPORT] : [COMMENT] Failed to build the command to shutdown the MPSoC
 static const Event SUPV_MPSOC_SHUTDOWN_BUILD_FAILED = MAKE_EVENT(8, severity::LOW);
 //! [EXPORT] : [COMMENT] Received ACK, but no related command is unknown or has not been sent
 //  by this software instance. P1: Module APID. P2: Service ID.
 static const Event SUPV_ACK_UNKNOWN_COMMAND = MAKE_EVENT(9, severity::LOW);
 //! [EXPORT] : [COMMENT] Received ACK EXE, but no related command is unknown or has not been sent
 //  by this software instance. P1: Module APID. P2: Service ID.
 static const Event SUPV_EXE_ACK_UNKNOWN_COMMAND = MAKE_EVENT(10, severity::LOW);
 extern std::atomic_bool SUPV_ON;
 static constexpr uint32_t INTER_COMMAND_DELAY = 20;
 static constexpr uint32_t BOOT_TIMEOUT_MS = 4000;
 static constexpr uint32_t MAX_TRANSITION_TIME_TO_ON_MS = BOOT_TIMEOUT_MS + 3000;
 static constexpr uint32_t MAX_TRANSITION_TIME_TO_OFF_MS = 1000;
 namespace result {
 static const uint8_t INTERFACE_ID = CLASS_ID::SUPV_RETURN_VALUES_IF;
@ -107,7 +140,7 @@ static const DeviceCommandId_t FIRST_MRAM_DUMP = 30;
 static const DeviceCommandId_t SET_GPIO = 34;
 static const DeviceCommandId_t READ_GPIO = 35;
 static const DeviceCommandId_t RESTART_SUPERVISOR = 36;
-static const DeviceCommandId_t LOGGING_REQUEST_COUNTERS = 38;
+static const DeviceCommandId_t REQUEST_LOGGING_COUNTERS = 38;
 static constexpr DeviceCommandId_t FACTORY_RESET = 39;
 static const DeviceCommandId_t CONSECUTIVE_MRAM_DUMP = 43;
 static const DeviceCommandId_t START_MPSOC_QUIET = 45;
@ -120,12 +153,13 @@ static const DeviceCommandId_t DISABLE_AUTO_TM = 51;
 static const DeviceCommandId_t LOGGING_REQUEST_EVENT_BUFFERS = 54;
 static const DeviceCommandId_t LOGGING_CLEAR_COUNTERS = 55;
 static const DeviceCommandId_t LOGGING_SET_TOPIC = 56;
-static const DeviceCommandId_t REQUEST_ADC_REPORT = 57;
+static constexpr DeviceCommandId_t REQUEST_ADC_REPORT = 57;
 static const DeviceCommandId_t RESET_PL = 58;
 static const DeviceCommandId_t ENABLE_NVMS = 59;
 static const DeviceCommandId_t CONTINUE_UPDATE = 60;
 static const DeviceCommandId_t MEMORY_CHECK_WITH_FILE = 61;
 static constexpr DeviceCommandId_t MEMORY_CHECK = 62;
 static constexpr DeviceCommandId_t ABORT_LONGER_REQUEST = 63;
 /** Reply IDs */
 enum ReplyId : DeviceCommandId_t {
@ -134,7 +168,7 @@ enum ReplyId : DeviceCommandId_t {
  HK_REPORT = 102,
  BOOT_STATUS_REPORT = 103,
  LATCHUP_REPORT = 104,
-  LOGGING_REPORT = 105,
+  COUNTERS_REPORT = 105,
  ADC_REPORT = 106,
  UPDATE_STATUS_REPORT = 107,
 };
@ -144,7 +178,7 @@ static const uint16_t SIZE_ACK_REPORT = 14;
 static const uint16_t SIZE_EXE_REPORT = 14;
 static const uint16_t SIZE_BOOT_STATUS_REPORT = 24;
 static const uint16_t SIZE_LATCHUP_STATUS_REPORT = 31;
-static const uint16_t SIZE_LOGGING_REPORT = 73;
+static const uint16_t SIZE_COUNTERS_REPORT = 120;
 static const uint16_t SIZE_ADC_REPORT = 72;
 // 2 bits APID SRC, 00 for OBC, 2 bits APID DEST, 01 for SUPV, 7 bits CMD ID -> Mask 0x080
@ -207,12 +241,18 @@ enum class AdcMonId : uint8_t {
  SET_ENABLED_CHANNELS = 0x02,
  SET_WINDOW_STRIDE = 0x03,
  SET_ADC_THRESHOLD = 0x04,
-  COPY_ADC_DATA_TO_MRAM = 0x05
+  COPY_ADC_DATA_TO_MRAM = 0x05,
  REQUEST_ADC_SAMPLE = 0x06
 };
 enum class MemManId : uint8_t { ERASE = 0x01, WRITE = 0x02, CHECK = 0x03 };
 enum class DataLoggerServiceId : uint8_t {
  // Not implemented.
  READ_MRAM_CFG_DATA_LOGGER = 0x00,
  REQUEST_COUNTERS = 0x01,
  // Not implemented.
  EVENT_BUFFER_DOWNLOAD = 0x02,
  WIPE_MRAM = 0x05,
  DUMP_MRAM = 0x06,
  FACTORY_RESET = 0x07
@ -231,10 +271,12 @@ enum class TmtcId : uint8_t { ACK = 0x01, NAK = 0x02, EXEC_ACK = 0x03, EXEC_NAK
 enum class HkId : uint8_t { REPORT = 0x01, HARDFAULTS = 0x02 };
 enum class BootManId : uint8_t { BOOT_STATUS_REPORT = 0x01 };
 enum class AdcMonId : uint8_t { ADC_REPORT = 0x01 };
 enum class MemManId : uint8_t { UPDATE_STATUS_REPORT = 0x01 };
 enum class LatchupMonId : uint8_t { LATCHUP_STATUS_REPORT = 0x01 };
 enum class DataLoggerId : uint8_t { COUNTERS_REPORT = 0x01 };
 }  // namespace tm
@ -321,13 +363,13 @@ static const uint16_t SEQUENCE_COUNT_MASK = 0xFFF;
 static const uint8_t HK_SET_ENTRIES = 13;
 static const uint8_t BOOT_REPORT_SET_ENTRIES = 10;
 static const uint8_t LATCHUP_RPT_SET_ENTRIES = 16;
-static const uint8_t LOGGING_RPT_SET_ENTRIES = 16;
+static const uint8_t LOGGING_RPT_SET_ENTRIES = 30;
 static const uint8_t ADC_RPT_SET_ENTRIES = 32;
 static const uint32_t HK_SET_ID = HK_REPORT;
 static const uint32_t BOOT_REPORT_SET_ID = BOOT_STATUS_REPORT;
 static const uint32_t LATCHUP_RPT_ID = LATCHUP_REPORT;
-static const uint32_t LOGGING_RPT_ID = LOGGING_REPORT;
+static const uint32_t LOGGING_RPT_ID = COUNTERS_REPORT;
 static const uint32_t ADC_REPORT_SET_ID = ADC_REPORT;
 namespace timeout {
@ -392,7 +434,7 @@ enum PoolIds : lp_id_t {
  BR_SOC_STATE,
  POWER_CYCLES,
  BOOT_AFTER_MS,
-  BOOT_TIMEOUT_MS,
+  BOOT_TIMEOUT_POOL_VAR_MS,
  ACTIVE_NVM,
  BP0_STATE,
  BP1_STATE,
@ -417,13 +459,8 @@ enum PoolIds : lp_id_t {
  LATCHUP_RPT_TIME_MSEC,
  LATCHUP_RPT_IS_SET,
-  LATCHUP_HAPPENED_CNT_0,
+  SIGNATURE,
-  LATCHUP_HAPPENED_CNT_1,
+  LATCHUP_HAPPENED_CNTS,
  LATCHUP_HAPPENED_CNT_2,
  LATCHUP_HAPPENED_CNT_3,
  LATCHUP_HAPPENED_CNT_4,
  LATCHUP_HAPPENED_CNT_5,
  LATCHUP_HAPPENED_CNT_6,
  ADC_DEVIATION_TRIGGERS_CNT,
  TC_RECEIVED_CNT,
  TM_AVAILABLE_CNT,
@ -432,40 +469,22 @@ enum PoolIds : lp_id_t {
  MPSOC_BOOT_FAILED_ATTEMPTS,
  MPSOC_POWER_UP,
  MPSOC_UPDATES,
-  LAST_RECVD_TC,
+  MPSOC_HEARTBEAT_RESETS,
  CPU_WDT_RESETS,
  PS_HEARTBEATS_LOST,
  PL_HEARTBEATS_LOST,
  EB_TASK_LOST,
  BM_TASK_LOST,
  LM_TASK_LOST,
  AM_TASK_LOST,
  TCTMM_TASK_LOST,
  MM_TASK_LOST,
  HK_TASK_LOST,
  DL_TASK_LOST,
  RWS_TASKS_LOST,
-  ADC_RAW_0,
+  ADC_RAW,
-  ADC_RAW_1,
+  ADC_ENG,
  ADC_RAW_2,
  ADC_RAW_3,
  ADC_RAW_4,
  ADC_RAW_5,
  ADC_RAW_6,
  ADC_RAW_7,
  ADC_RAW_8,
  ADC_RAW_9,
  ADC_RAW_10,
  ADC_RAW_11,
  ADC_RAW_12,
  ADC_RAW_13,
  ADC_RAW_14,
  ADC_RAW_15,
  ADC_ENG_0,
  ADC_ENG_1,
  ADC_ENG_2,
  ADC_ENG_3,
  ADC_ENG_4,
  ADC_ENG_5,
  ADC_ENG_6,
  ADC_ENG_7,
  ADC_ENG_8,
  ADC_ENG_9,
  ADC_ENG_10,
  ADC_ENG_11,
  ADC_ENG_12,
  ADC_ENG_13,
  ADC_ENG_14,
  ADC_ENG_15
 };
 struct TcParams : public ploc::SpTcParams {
@ -539,15 +558,6 @@ class TmBase : public ploc::SpTmReader {
    }
  }
  bool verifyCrc() {
    if (checkCrc() == returnvalue::OK) {
      crcOk = true;
    }
    return crcOk;
  }
  bool crcIsOk() const { return crcOk; }
  uint8_t getServiceId() const { return getPacketData()[TIMESTAMP_LEN]; }
  uint16_t getModuleApid() const { return getApid() & APID_MODULE_MASK; }
@ -559,9 +569,6 @@ class TmBase : public ploc::SpTmReader {
    }
    return 0;
  }
 private:
  bool crcOk = false;
 };
 class NoPayloadPacket : public TcBase {
@ -769,8 +776,6 @@ class SetRestartTries : public TcBase {
  }
 private:
  uint8_t restartTries = 0;
  void initPacket(uint8_t restartTries) { payloadStart[0] = restartTries; }
 };
@ -831,8 +836,6 @@ class LatchupAlert : public TcBase {
  }
 private:
  uint8_t latchupId = 0;
  void initPacket(uint8_t latchupId) { payloadStart[0] = latchupId; }
 };
@ -862,9 +865,6 @@ class SetAlertlimit : public TcBase {
  }
 private:
  uint8_t latchupId = 0;
  uint32_t dutycycle = 0;
  ReturnValue_t initPacket(uint8_t latchupId, uint32_t dutycycle) {
    payloadStart[0] = latchupId;
    size_t serLen = 0;
@ -1146,14 +1146,14 @@ class WriteMemory : public TcBase {
      : TcBase(params, Apid::MEM_MAN, static_cast<uint8_t>(tc::MemManId::WRITE), 1) {}
  ReturnValue_t buildPacket(ccsds::SequenceFlags seqFlags, uint16_t sequenceCount, uint8_t memoryId,
-                            uint32_t startAddress, uint16_t length, uint8_t* updateData) {
+                            uint32_t currentAddr, uint16_t length, uint8_t* updateData) {
    if (length > CHUNK_MAX) {
      sif::error << "WriteMemory::WriteMemory: Invalid length" << std::endl;
      return SerializeIF::BUFFER_TOO_SHORT;
    }
    spParams.creator.setSeqFlags(seqFlags);
    spParams.creator.setSeqCount(sequenceCount);
-    auto res = initPacket(memoryId, startAddress, length, updateData);
+    auto res = initPacket(memoryId, currentAddr, length, updateData);
    if (res != returnvalue::OK) {
      return res;
    }
@ -1171,7 +1171,7 @@ class WriteMemory : public TcBase {
  static const uint16_t META_DATA_LENGTH = 8;
  uint8_t n = 1;
-  ReturnValue_t initPacket(uint8_t memoryId, uint32_t startAddr, uint16_t updateDataLen,
+  ReturnValue_t initPacket(uint8_t memoryId, uint32_t currentAddr, uint16_t updateDataLen,
                           uint8_t* updateData) {
    uint8_t* data = payloadStart;
    if (updateDataLen % 2 != 0) {
@ -1189,7 +1189,7 @@ class WriteMemory : public TcBase {
                                SerializeIF::Endianness::BIG);
    SerializeAdapter::serialize(&n, &data, &serializedSize, spParams.maxSize,
                                SerializeIF::Endianness::BIG);
-    SerializeAdapter::serialize(&startAddr, &data, &serializedSize, spParams.maxSize,
+    SerializeAdapter::serialize(&currentAddr, &data, &serializedSize, spParams.maxSize,
                                SerializeIF::Endianness::BIG);
    SerializeAdapter::serialize(&updateDataLen, &data, &serializedSize, spParams.maxSize,
                                SerializeIF::Endianness::BIG);
@ -1295,8 +1295,8 @@ class VerificationReport {
  virtual ~VerificationReport() = default;
-  virtual ReturnValue_t parse() {
+  virtual ReturnValue_t parse(bool checkCrc) {
-    if (not readerBase.crcIsOk()) {
+    if (checkCrc and readerBase.checkCrc() != returnvalue::OK) {
      return result::CRC_FAILURE;
    }
    if (readerBase.getModuleApid() != Apid::TMTC_MAN) {
@ -1313,27 +1313,27 @@ class VerificationReport {
    ReturnValue_t result = SerializeAdapter::deSerialize(&refApid, &payloadStart, &remLen,
                                                         SerializeIF::Endianness::BIG);
    if (result != returnvalue::OK) {
-      sif::debug << "VerificationReport: Failed to deserialize reference APID field" << std::endl;
+      sif::warning << "VerificationReport: Failed to deserialize reference APID field" << std::endl;
      return result;
    }
    result = SerializeAdapter::deSerialize(&refServiceId, &payloadStart, &remLen,
                                           SerializeIF::Endianness::BIG);
    if (result != returnvalue::OK) {
-      sif::debug << "VerificationReport: Failed to deserialize reference Service ID field"
+      sif::warning << "VerificationReport: Failed to deserialize reference Service ID field"
                   << std::endl;
      return result;
    }
    result = SerializeAdapter::deSerialize(&refSeqCount, &payloadStart, &remLen,
                                           SerializeIF::Endianness::BIG);
    if (result != returnvalue::OK) {
-      sif::debug << "VerificationReport: Failed to deserialize reference sequence count field"
+      sif::warning << "VerificationReport: Failed to deserialize reference sequence count field"
                   << std::endl;
      return result;
    }
    result = SerializeAdapter::deSerialize(&statusCode, &payloadStart, &remLen,
                                           SerializeIF::Endianness::BIG);
    if (result != returnvalue::OK) {
-      sif::debug << "VerificationReport: Failed to deserialize status code field" << std::endl;
+      sif::warning << "VerificationReport: Failed to deserialize status code field" << std::endl;
      return result;
    }
    return returnvalue::OK;
@ -1350,7 +1350,7 @@ class VerificationReport {
  uint32_t getStatusCode() const { return statusCode; }
-  virtual void printStatusInformation(const char* prefix) {
+  virtual void printStatusInformation(const char* prefix) const {
    bool codeHandled = true;
    if (statusCode < 0x100) {
      GeneralStatusCode code = static_cast<GeneralStatusCode>(getStatusCode());
@ -1637,15 +1637,15 @@ class AcknowledgmentReport : public VerificationReport {
 public:
  AcknowledgmentReport(TmBase& readerBase) : VerificationReport(readerBase) {}
-  virtual ReturnValue_t parse() override {
+  ReturnValue_t parse(bool checkCrc) override {
    if (readerBase.getServiceId() != static_cast<uint8_t>(tm::TmtcId::ACK) and
        readerBase.getServiceId() != static_cast<uint8_t>(tm::TmtcId::NAK)) {
      return result::INVALID_SERVICE_ID;
    }
-    return VerificationReport::parse();
+    return VerificationReport::parse(checkCrc);
  }
-  void printStatusInformation() {
+  void printStatusInformationAck() {
    VerificationReport::printStatusInformation(STATUS_PRINTOUT_PREFIX);
  }
@ -1659,15 +1659,15 @@ class ExecutionReport : public VerificationReport {
  TmBase& getReader() { return readerBase; }
-  ReturnValue_t parse() override {
+  ReturnValue_t parse(bool checkCrc) override {
    if (readerBase.getServiceId() != static_cast<uint8_t>(tm::TmtcId::EXEC_ACK) and
        readerBase.getServiceId() != static_cast<uint8_t>(tm::TmtcId::EXEC_NAK)) {
      return returnvalue::FAILED;
    }
-    return VerificationReport::parse();
+    return VerificationReport::parse(checkCrc);
  }
-  void printStatusInformation() {
+  void printStatusInformationExe() {
    VerificationReport::printStatusInformation(STATUS_PRINTOUT_PREFIX);
  }
@ -1679,8 +1679,8 @@ class UpdateStatusReport {
 public:
  UpdateStatusReport(TmBase& tmReader) : tmReader(tmReader) {}
-  ReturnValue_t parse() {
+  ReturnValue_t parse(bool checkCrc) {
-    if (not tmReader.crcIsOk()) {
+    if (checkCrc and tmReader.checkCrc() != returnvalue::OK) {
      return result::CRC_FAILURE;
    }
    if (tmReader.getModuleApid() != Apid::MEM_MAN) {
@ -1742,7 +1742,7 @@ class BootStatusReport : public StaticLocalDataSet<BOOT_REPORT_SET_ENTRIES> {
  lp_var_t<uint32_t> bootAfterMs = lp_var_t<uint32_t>(sid.objectId, PoolIds::BOOT_AFTER_MS, this);
  /** The currently set boot timeout */
  lp_var_t<uint32_t> bootTimeoutMs =
-      lp_var_t<uint32_t>(sid.objectId, PoolIds::BOOT_TIMEOUT_MS, this);
+      lp_var_t<uint32_t>(sid.objectId, PoolIds::BOOT_TIMEOUT_POOL_VAR_MS, this);
  lp_var_t<uint8_t> activeNvm = lp_var_t<uint8_t>(sid.objectId, PoolIds::ACTIVE_NVM, this);
  /** States of the boot partition pins */
  lp_var_t<uint8_t> bp0State = lp_var_t<uint8_t>(sid.objectId, PoolIds::BP0_STATE, this);
@ -1806,7 +1806,7 @@ class LatchupStatusReport : public StaticLocalDataSet<LATCHUP_RPT_SET_ENTRIES> {
  lp_var_t<uint8_t> timeMon = lp_var_t<uint8_t>(sid.objectId, PoolIds::LATCHUP_RPT_TIME_MON, this);
  lp_var_t<uint8_t> timeYear =
      lp_var_t<uint8_t>(sid.objectId, PoolIds::LATCHUP_RPT_TIME_YEAR, this);
-  lp_var_t<uint8_t> isSet = lp_var_t<uint8_t>(sid.objectId, PoolIds::LATCHUP_RPT_IS_SET, this);
+  lp_var_t<uint8_t> isSynced = lp_var_t<uint8_t>(sid.objectId, PoolIds::LATCHUP_RPT_IS_SET, this);
  static const uint8_t IS_SET_BIT_POS = 15;
 };
@ -1814,26 +1814,16 @@ class LatchupStatusReport : public StaticLocalDataSet<LATCHUP_RPT_SET_ENTRIES> {
 /**
 * @brief   This dataset stores the logging report.
 */
-class LoggingReport : public StaticLocalDataSet<LOGGING_RPT_SET_ENTRIES> {
+class CountersReport : public StaticLocalDataSet<LOGGING_RPT_SET_ENTRIES> {
 public:
-  LoggingReport(HasLocalDataPoolIF* owner) : StaticLocalDataSet(owner, LOGGING_RPT_ID) {}
+  CountersReport(HasLocalDataPoolIF* owner) : StaticLocalDataSet(owner, LOGGING_RPT_ID) {}
-  LoggingReport(object_id_t objectId) : StaticLocalDataSet(sid_t(objectId, LOGGING_RPT_ID)) {}
+  CountersReport(object_id_t objectId) : StaticLocalDataSet(sid_t(objectId, LOGGING_RPT_ID)) {}
-  lp_var_t<uint32_t> latchupHappenCnt0 =
+  lp_var_t<uint32_t> signature =
-      lp_var_t<uint32_t>(sid.objectId, PoolIds::LATCHUP_HAPPENED_CNT_0, this);
+      lp_var_t<uint32_t>(sid.objectId, PoolIds::LATCHUP_HAPPENED_CNTS, this);
-  lp_var_t<uint32_t> latchupHappenCnt1 =
+  lp_vec_t<uint32_t, 7> latchupHappenCnts =
-      lp_var_t<uint32_t>(sid.objectId, PoolIds::LATCHUP_HAPPENED_CNT_1, this);
+      lp_vec_t<uint32_t, 7>(sid.objectId, PoolIds::LATCHUP_HAPPENED_CNTS, this);
  lp_var_t<uint32_t> latchupHappenCnt2 =
      lp_var_t<uint32_t>(sid.objectId, PoolIds::LATCHUP_HAPPENED_CNT_2, this);
  lp_var_t<uint32_t> latchupHappenCnt3 =
      lp_var_t<uint32_t>(sid.objectId, PoolIds::LATCHUP_HAPPENED_CNT_3, this);
  lp_var_t<uint32_t> latchupHappenCnt4 =
      lp_var_t<uint32_t>(sid.objectId, PoolIds::LATCHUP_HAPPENED_CNT_4, this);
  lp_var_t<uint32_t> latchupHappenCnt5 =
      lp_var_t<uint32_t>(sid.objectId, PoolIds::LATCHUP_HAPPENED_CNT_5, this);
  lp_var_t<uint32_t> latchupHappenCnt6 =
      lp_var_t<uint32_t>(sid.objectId, PoolIds::LATCHUP_HAPPENED_CNT_6, this);
  lp_var_t<uint32_t> adcDeviationTriggersCnt =
      lp_var_t<uint32_t>(sid.objectId, PoolIds::ADC_DEVIATION_TRIGGERS_CNT, this);
  lp_var_t<uint32_t> tcReceivedCnt =
@ -1847,23 +1837,31 @@ class LoggingReport : public StaticLocalDataSet<LOGGING_RPT_SET_ENTRIES> {
      lp_var_t<uint32_t>(sid.objectId, PoolIds::MPSOC_BOOT_FAILED_ATTEMPTS, this);
  lp_var_t<uint32_t> mpsocPowerup = lp_var_t<uint32_t>(sid.objectId, PoolIds::MPSOC_POWER_UP, this);
  lp_var_t<uint32_t> mpsocUpdates = lp_var_t<uint32_t>(sid.objectId, PoolIds::MPSOC_UPDATES, this);
-  lp_var_t<uint32_t> lastRecvdTc = lp_var_t<uint32_t>(sid.objectId, PoolIds::LAST_RECVD_TC, this);
+  lp_var_t<uint32_t> mpsocHeartbeatResets =
      lp_var_t<uint32_t>(sid.objectId, PoolIds::MPSOC_HEARTBEAT_RESETS, this);
  lp_var_t<uint32_t> cpuWdtResets =
      lp_var_t<uint32_t>(sid.objectId, PoolIds::MPSOC_HEARTBEAT_RESETS, this);
  lp_var_t<uint32_t> psHeartbeatsLost =
      lp_var_t<uint32_t>(sid.objectId, PoolIds::PS_HEARTBEATS_LOST, this);
  lp_var_t<uint32_t> plHeartbeatsLost =
      lp_var_t<uint32_t>(sid.objectId, PoolIds::PL_HEARTBEATS_LOST, this);
  lp_var_t<uint32_t> ebTaskLost = lp_var_t<uint32_t>(sid.objectId, PoolIds::EB_TASK_LOST, this);
  lp_var_t<uint32_t> bmTaskLost = lp_var_t<uint32_t>(sid.objectId, PoolIds::BM_TASK_LOST, this);
  lp_var_t<uint32_t> lmTaskLost = lp_var_t<uint32_t>(sid.objectId, PoolIds::LM_TASK_LOST, this);
  lp_var_t<uint32_t> amTaskLost = lp_var_t<uint32_t>(sid.objectId, PoolIds::AM_TASK_LOST, this);
  lp_var_t<uint32_t> tctmmTaskLost =
      lp_var_t<uint32_t>(sid.objectId, PoolIds::TCTMM_TASK_LOST, this);
  lp_var_t<uint32_t> mmTaskLost = lp_var_t<uint32_t>(sid.objectId, PoolIds::MM_TASK_LOST, this);
  lp_var_t<uint32_t> hkTaskLost = lp_var_t<uint32_t>(sid.objectId, PoolIds::HK_TASK_LOST, this);
  lp_var_t<uint32_t> dlTaskLost = lp_var_t<uint32_t>(sid.objectId, PoolIds::DL_TASK_LOST, this);
  lp_vec_t<uint32_t, 3> rwsTasksLost =
      lp_vec_t<uint32_t, 3>(sid.objectId, PoolIds::RWS_TASKS_LOST, this);
  void printSet() {
-    sif::info << "LoggingReport: Latchup happened count 0: " << this->latchupHappenCnt0
+    for (unsigned i = 0; i < 7; i++) {
-              << std::endl;
+      sif::info << "LoggingReport: Latchup happened count " << i << ": "
-    sif::info << "LoggingReport: Latchup happened count 1: " << this->latchupHappenCnt1
+                << this->latchupHappenCnts[i] << std::endl;
-              << std::endl;
+    }
    sif::info << "LoggingReport: Latchup happened count 2: " << this->latchupHappenCnt2
              << std::endl;
    sif::info << "LoggingReport: Latchup happened count 3: " << this->latchupHappenCnt3
              << std::endl;
    sif::info << "LoggingReport: Latchup happened count 4: " << this->latchupHappenCnt4
              << std::endl;
    sif::info << "LoggingReport: Latchup happened count 5: " << this->latchupHappenCnt5
              << std::endl;
    sif::info << "LoggingReport: Latchup happened count 6: " << this->latchupHappenCnt6
              << std::endl;
    sif::info << "LoggingReport: ADC deviation triggers count: " << this->adcDeviationTriggersCnt
              << std::endl;
    sif::info << "LoggingReport: TC received count: " << this->tcReceivedCnt << std::endl;
@ -1874,88 +1872,29 @@ class LoggingReport : public StaticLocalDataSet<LOGGING_RPT_SET_ENTRIES> {
              << std::endl;
    sif::info << "LoggingReport: MPSoC power up: " << this->mpsocPowerup << std::endl;
    sif::info << "LoggingReport: MPSoC updates: " << this->mpsocUpdates << std::endl;
    sif::info << "LoggingReport: APID of last received TC: 0x" << std::hex << this->lastRecvdTc
              << std::endl;
  }
 };
 /**
 * @brief   This dataset stores the ADC report.
 */
-class AdcReport : public StaticLocalDataSet<ADC_RPT_SET_ENTRIES> {
+class AdcReport : public StaticLocalDataSet<3> {
 public:
  AdcReport(HasLocalDataPoolIF* owner) : StaticLocalDataSet(owner, ADC_REPORT_SET_ID) {}
  AdcReport(object_id_t objectId) : StaticLocalDataSet(sid_t(objectId, ADC_REPORT_SET_ID)) {}
-  lp_var_t<uint16_t> adcRaw0 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_RAW_0, this);
+  lp_vec_t<uint16_t, 16> adcRaw = lp_vec_t<uint16_t, 16>(sid.objectId, PoolIds::ADC_RAW, this);
-  lp_var_t<uint16_t> adcRaw1 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_RAW_1, this);
+  lp_vec_t<uint16_t, 16> adcEng = lp_vec_t<uint16_t, 16>(sid.objectId, PoolIds::ADC_ENG, this);
  lp_var_t<uint16_t> adcRaw2 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_RAW_2, this);
  lp_var_t<uint16_t> adcRaw3 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_RAW_3, this);
  lp_var_t<uint16_t> adcRaw4 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_RAW_4, this);
  lp_var_t<uint16_t> adcRaw5 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_RAW_5, this);
  lp_var_t<uint16_t> adcRaw6 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_RAW_6, this);
  lp_var_t<uint16_t> adcRaw7 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_RAW_7, this);
  lp_var_t<uint16_t> adcRaw8 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_RAW_8, this);
  lp_var_t<uint16_t> adcRaw9 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_RAW_9, this);
  lp_var_t<uint16_t> adcRaw10 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_RAW_10, this);
  lp_var_t<uint16_t> adcRaw11 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_RAW_11, this);
  lp_var_t<uint16_t> adcRaw12 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_RAW_12, this);
  lp_var_t<uint16_t> adcRaw13 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_RAW_13, this);
  lp_var_t<uint16_t> adcRaw14 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_RAW_14, this);
  lp_var_t<uint16_t> adcRaw15 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_RAW_15, this);
  lp_var_t<uint16_t> adcEng0 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_ENG_0, this);
  lp_var_t<uint16_t> adcEng1 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_ENG_1, this);
  lp_var_t<uint16_t> adcEng2 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_ENG_2, this);
  lp_var_t<uint16_t> adcEng3 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_ENG_3, this);
  lp_var_t<uint16_t> adcEng4 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_ENG_4, this);
  lp_var_t<uint16_t> adcEng5 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_ENG_5, this);
  lp_var_t<uint16_t> adcEng6 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_ENG_6, this);
  lp_var_t<uint16_t> adcEng7 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_ENG_7, this);
  lp_var_t<uint16_t> adcEng8 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_ENG_8, this);
  lp_var_t<uint16_t> adcEng9 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_ENG_9, this);
  lp_var_t<uint16_t> adcEng10 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_ENG_10, this);
  lp_var_t<uint16_t> adcEng11 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_ENG_11, this);
  lp_var_t<uint16_t> adcEng12 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_ENG_12, this);
  lp_var_t<uint16_t> adcEng13 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_ENG_13, this);
  lp_var_t<uint16_t> adcEng14 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_ENG_14, this);
  lp_var_t<uint16_t> adcEng15 = lp_var_t<uint16_t>(sid.objectId, PoolIds::ADC_ENG_15, this);
  void printSet() {
    sif::info << "---- Adc Report: Raw values ----" << std::endl;
-    sif::info << "AdcReport: ADC raw 0: " << std::dec << this->adcRaw0 << std::endl;
+    for (unsigned i = 0; i < 16; i++) {
-    sif::info << "AdcReport: ADC raw 1: " << this->adcRaw1 << std::endl;
+      sif::info << "AdcReport: ADC raw " << i << ": " << std::dec << this->adcRaw[i] << std::endl;
-    sif::info << "AdcReport: ADC raw 2: " << this->adcRaw2 << std::endl;
+    }
-    sif::info << "AdcReport: ADC raw 3: " << this->adcRaw3 << std::endl;
+    for (unsigned i = 0; i < 16; i++) {
-    sif::info << "AdcReport: ADC raw 4: " << this->adcRaw4 << std::endl;
+      sif::info << "AdcReport: ADC eng " << i << ": " << std::dec << this->adcEng[i] << std::endl;
-    sif::info << "AdcReport: ADC raw 5: " << this->adcRaw5 << std::endl;
+    }
    sif::info << "AdcReport: ADC raw 6: " << this->adcRaw6 << std::endl;
    sif::info << "AdcReport: ADC raw 7: " << this->adcRaw7 << std::endl;
    sif::info << "AdcReport: ADC raw 8: " << this->adcRaw8 << std::endl;
    sif::info << "AdcReport: ADC raw 9: " << this->adcRaw9 << std::endl;
    sif::info << "AdcReport: ADC raw 10: " << this->adcRaw10 << std::endl;
    sif::info << "AdcReport: ADC raw 11: " << this->adcRaw11 << std::endl;
    sif::info << "AdcReport: ADC raw 12: " << this->adcRaw12 << std::endl;
    sif::info << "AdcReport: ADC raw 13: " << this->adcRaw13 << std::endl;
    sif::info << "AdcReport: ADC raw 14: " << this->adcRaw14 << std::endl;
    sif::info << "AdcReport: ADC raw 15: " << this->adcRaw15 << std::endl;
    sif::info << "---- Adc Report: Engineering values ----" << std::endl;
    sif::info << "AdcReport: ADC eng 0: " << this->adcEng0 << std::endl;
    sif::info << "AdcReport: ADC eng 1: " << this->adcEng1 << std::endl;
    sif::info << "AdcReport: ADC eng 2: " << this->adcEng2 << std::endl;
    sif::info << "AdcReport: ADC eng 3: " << this->adcEng3 << std::endl;
    sif::info << "AdcReport: ADC eng 4: " << this->adcEng4 << std::endl;
    sif::info << "AdcReport: ADC eng 5: " << this->adcEng5 << std::endl;
    sif::info << "AdcReport: ADC eng 6: " << this->adcEng6 << std::endl;
    sif::info << "AdcReport: ADC eng 7: " << this->adcEng7 << std::endl;
    sif::info << "AdcReport: ADC eng 8: " << this->adcEng8 << std::endl;
    sif::info << "AdcReport: ADC eng 9: " << this->adcEng9 << std::endl;
    sif::info << "AdcReport: ADC eng 10: " << this->adcEng10 << std::endl;
    sif::info << "AdcReport: ADC eng 11: " << this->adcEng11 << std::endl;
    sif::info << "AdcReport: ADC eng 12: " << this->adcEng12 << std::endl;
    sif::info << "AdcReport: ADC eng 13: " << this->adcEng13 << std::endl;
    sif::info << "AdcReport: ADC eng 14: " << this->adcEng14 << std::endl;
    sif::info << "AdcReport: ADC eng 15: " << this->adcEng15 << std::endl;
  }
 };
@ -2045,11 +1984,7 @@ class EnableNvms : public TcBase {
 */
 class EnableAutoTm : public TcBase {
 public:
-  EnableAutoTm(TcParams params) : TcBase(params) {
+  EnableAutoTm(TcParams params) : TcBase(params) { spParams.setFullPayloadLen(PAYLOAD_LENGTH + 2); }
    spParams.setFullPayloadLen(PAYLOAD_LENGTH + 2);
    // spParams.creator.setApid(APID_AUTO_TM);
    // spParams.creator.setSeqCount(DEFAULT_SEQUENCE_COUNT);
  }
  ReturnValue_t buildPacket() {
    auto res = checkSizeAndSerializeHeader();
--- a/linux/scheduling.cpp
+++ b/linux/scheduling.cpp
@ -47,35 +47,3 @@ void scheduling::addMpsocSupvHandlers(PeriodicTaskIF* plTask) {
  plTask->addComponent(objects::PLOC_MPSOC_HANDLER, DeviceHandlerIF::SEND_READ);
  plTask->addComponent(objects::PLOC_MPSOC_HANDLER, DeviceHandlerIF::GET_READ);
 }
 void scheduling::scheduleScexDev(PeriodicTaskIF*& scexDevHandler) {
  ReturnValue_t result =
      scexDevHandler->addComponent(objects::SCEX, DeviceHandlerIF::PERFORM_OPERATION);
  if (result != returnvalue::OK) {
    printAddObjectError("SCEX_DEV", objects::SCEX);
  }
  result = scexDevHandler->addComponent(objects::SCEX, DeviceHandlerIF::SEND_WRITE);
  if (result != returnvalue::OK) {
    printAddObjectError("SCEX_DEV", objects::SCEX);
  }
  result = scexDevHandler->addComponent(objects::SCEX, DeviceHandlerIF::GET_WRITE);
  if (result != returnvalue::OK) {
    printAddObjectError("SCEX_DEV", objects::SCEX);
  }
  result = scexDevHandler->addComponent(objects::SCEX, DeviceHandlerIF::SEND_READ);
  if (result != returnvalue::OK) {
    printAddObjectError("SCEX_DEV", objects::SCEX);
  }
  result = scexDevHandler->addComponent(objects::SCEX, DeviceHandlerIF::GET_READ);
  if (result != returnvalue::OK) {
    printAddObjectError("SCEX_DEV", objects::SCEX);
  }
  result = scexDevHandler->addComponent(objects::SCEX, DeviceHandlerIF::SEND_READ);
  if (result != returnvalue::OK) {
    printAddObjectError("SCEX_DEV", objects::SCEX);
  }
  result = scexDevHandler->addComponent(objects::SCEX, DeviceHandlerIF::GET_READ);
  if (result != returnvalue::OK) {
    printAddObjectError("SCEX_DEV", objects::SCEX);
  }
 }
--- a/linux/scheduling.h
+++ b/linux/scheduling.h
@ -8,7 +8,6 @@ namespace scheduling {
 extern PosixThreadArgs RR_SCHEDULING;
 extern PosixThreadArgs NORMAL_SCHEDULING;
 void scheduleScexDev(PeriodicTaskIF*& scexDevHandler);
 void scheduleScexReader(TaskFactory& factory, PeriodicTaskIF*& scexReaderTask);
 void addMpsocSupvHandlers(PeriodicTaskIF* task);
 }  // namespace scheduling
--- a/mission/acs/ImtqHandler.cpp
+++ b/mission/acs/ImtqHandler.cpp
@ -795,9 +795,9 @@ ReturnValue_t ImtqHandler::initializeLocalDataPool(localpool::DataPool& localDat
  localDataPoolMap.emplace(imtq::FINA_NEG_Z_COIL_Z_TEMPERATURE, new PoolEntry<int16_t>({0}));
  poolManager.subscribeForDiagPeriodicPacket(
-      subdp::DiagnosticsHkPeriodicParams(hkDatasetNoTorque.getSid(), enableHkSets, 30.0));
+      subdp::DiagnosticsHkPeriodicParams(hkDatasetNoTorque.getSid(), enableHkSets, 60.0));
  poolManager.subscribeForDiagPeriodicPacket(
-      subdp::DiagnosticsHkPeriodicParams(hkDatasetWithTorque.getSid(), enableHkSets, 30.0));
+      subdp::DiagnosticsHkPeriodicParams(hkDatasetWithTorque.getSid(), enableHkSets, 60.0));
  poolManager.subscribeForDiagPeriodicPacket(
      subdp::DiagnosticsHkPeriodicParams(rawMtmNoTorque.getSid(), false, 10.0));
  poolManager.subscribeForDiagPeriodicPacket(
--- a/mission/acs/RwHandler.cpp
+++ b/mission/acs/RwHandler.cpp
@ -340,7 +340,7 @@ ReturnValue_t RwHandler::initializeLocalDataPool(localpool::DataPool& localDataP
  localDataPoolMap.emplace(rws::SPI_REG_OVERRUN_ERRORS, new PoolEntry<uint32_t>({0}));
  localDataPoolMap.emplace(rws::SPI_TOTAL_ERRORS, new PoolEntry<uint32_t>({0}));
  poolManager.subscribeForDiagPeriodicPacket(
-      subdp::DiagnosticsHkPeriodicParams(statusSet.getSid(), false, 12.0));
+      subdp::DiagnosticsHkPeriodicParams(statusSet.getSid(), false, 30.0));
  poolManager.subscribeForRegularPeriodicPacket(
      subdp::RegularHkPeriodicParams(tmDataset.getSid(), false, 30.0));
  poolManager.subscribeForRegularPeriodicPacket(
--- a/mission/acs/RwHandler.h
+++ b/mission/acs/RwHandler.h
@ -59,6 +59,7 @@ class RwHandler : public DeviceHandlerBase {
  LocalPoolDataSetBase* getDataSetHandle(sid_t sid) override;
 private:
  static const uint8_t INTERFACE_ID = CLASS_ID::RW_HANDLER;
  //! [EXPORT] : [COMMENT] Action Message with invalid speed was received. Valid speeds must be in
  //! the range of [-65000; 1000] or [1000; 65000]
  static const ReturnValue_t INVALID_SPEED = MAKE_RETURN_CODE(0xA0);
--- a/mission/acs/defs.h
+++ b/mission/acs/defs.h
@ -22,10 +22,10 @@ enum AcsMode : Mode_t {
 enum SafeSubmode : Submode_t { DEFAULT = 0, DETUMBLE = 1 };
-enum SafeModeStrategy : uint8_t {
+enum ControlModeStrategy : uint8_t {
-  SAFECTRL_OFF = 0,
+  CTRL_OFF = 0,
-  SAFECTRL_NO_MAG_FIELD_FOR_CONTROL = 1,
+  CTRL_NO_MAG_FIELD_FOR_CONTROL = 1,
-  SAFECTRL_NO_SENSORS_FOR_CONTROL = 2,
+  CTRL_NO_SENSORS_FOR_CONTROL = 2,
  // OBSW version <= v6.1.0
  LEGACY_SAFECTRL_ACTIVE_MEKF = 10,
  LEGACY_SAFECTRL_WITHOUT_MEKF = 11,
@ -40,20 +40,39 @@ enum SafeModeStrategy : uint8_t {
  SAFECTRL_ECLIPSE_IDELING = 19,
  SAFECTRL_DETUMBLE_FULL = 20,
  SAFECTRL_DETUMBLE_DETERIORATED = 21,
  // Added in vNext
  PTGCTRL_MEKF = 100,
  PTGCTRL_STR = 101,
  PTGCTRL_QUEST = 102,
 };
-
+namespace gps {
-enum GpsSource : uint8_t {
+enum Source : uint8_t {
  NONE,
  GPS,
  GPS_EXTRAPOLATED,
  SPG4,
 };
 }
 namespace rotrate {
 enum Source : uint8_t {
  NONE,
  SUSMGM,
  QUEST,
  STR,
 };
 }
 static const uint8_t SUBSYSTEM_ID = SUBSYSTEM_ID::ACS_SUBSYSTEM;
 //! [EXPORT] : [COMMENT] The limits for the rotation in safe mode were violated.
 static constexpr Event SAFE_RATE_VIOLATION = MAKE_EVENT(0, severity::MEDIUM);
-//! [EXPORT] : [COMMENT] The system has recovered from a safe rate rotation violation.
+//! [EXPORT] : [COMMENT] The limits for the rotation in pointing mode were violated.
-static constexpr Event SAFE_RATE_RECOVERY = MAKE_EVENT(1, severity::MEDIUM);
+static constexpr Event PTG_RATE_VIOLATION = MAKE_EVENT(10, severity::MEDIUM);
 //! [EXPORT] : [COMMENT] The system has recovered from a rate rotation violation.
 static constexpr Event RATE_RECOVERY = MAKE_EVENT(1, severity::MEDIUM);
 //! [EXPORT] : [COMMENT] The detumble transition has failed.
 //! //! P1: Last detumble state before failure.
 static constexpr Event DETUMBLE_TRANSITION_FAILED = MAKE_EVENT(11, severity::HIGH);
 //! [EXPORT] : [COMMENT] Multiple RWs are invalid, uncommandable and therefore higher ACS modes
 //! cannot be maintained.
 static constexpr Event MULTIPLE_RW_INVALID = MAKE_EVENT(2, severity::HIGH);
@ -64,15 +83,17 @@ static constexpr Event MEKF_INVALID_INFO = MAKE_EVENT(3, severity::INFO);
 static constexpr Event MEKF_RECOVERY = MAKE_EVENT(4, severity::INFO);
 //! [EXPORT] : [COMMENT] MEKF performed an automatic reset after detection of nonfinite values.
 static constexpr Event MEKF_AUTOMATIC_RESET = MAKE_EVENT(5, severity::INFO);
-//! [EXPORT] : [COMMENT] MEKF was not able to compute a solution during any pointing ACS mode for a
+//! [EXPORT] : [COMMENT] For a prolonged time, no attitude information was available for the
-//! prolonged time.
+//! Pointing Controller. Falling back to Safe Mode.
-static constexpr Event MEKF_INVALID_MODE_VIOLATION = MAKE_EVENT(6, severity::HIGH);
+static constexpr Event PTG_CTRL_NO_ATTITUDE_INFORMATION = MAKE_EVENT(6, severity::HIGH);
 //! [EXPORT] : [COMMENT] The ACS safe mode controller was not able to compute a solution and has
 //! failed.
 //! P1: Missing information about magnetic field, P2: Missing information about rotational rate
 static constexpr Event SAFE_MODE_CONTROLLER_FAILURE = MAKE_EVENT(7, severity::HIGH);
 //! [EXPORT] : [COMMENT] The TLE for the SGP4 Propagator has become too old.
 static constexpr Event TLE_TOO_OLD = MAKE_EVENT(8, severity::INFO);
 //! [EXPORT] : [COMMENT] The TLE could not be read from the filesystem.
 static constexpr Event TLE_FILE_READ_FAILED = MAKE_EVENT(9, severity::LOW);
 extern const char* getModeStr(AcsMode mode);
--- a/mission/acs/str/ArcsecDatalinkLayer.cpp
+++ b/mission/acs/str/ArcsecDatalinkLayer.cpp
@ -32,7 +32,7 @@ ReturnValue_t ArcsecDatalinkLayer::checkRingBufForFrame(const uint8_t** decodedF
    size_t encodedDataSize = 0;
    slip_error_t slipError =
        slip_decode_frame(decodedRxFrame, &rxFrameSize, rxAnalysisBuffer + startIdx,
-                          idx - startIdx + 1, &encodedDataSize, ARC_DEF_SAGITTA_SLIP_ID);
+                          idx - startIdx + 1, &encodedDataSize, ARC_DEF_SAGITTA_SLIP_ID, 0);
    decodeRingBuf.deleteData(idx + 1);
    switch (slipError) {
      case (SLIP_OK): {
@ -76,7 +76,7 @@ void ArcsecDatalinkLayer::reset() { decodeRingBuf.clear(); }
 void ArcsecDatalinkLayer::encodeFrame(const uint8_t* data, size_t length, const uint8_t** txFrame,
                                      size_t& size) {
-  slip_encode_frame(data, length, txEncoded, &size, ARC_DEF_SAGITTA_SLIP_ID);
+  slip_encode_frame(data, length, txEncoded, sizeof(txEncoded), &size, ARC_DEF_SAGITTA_SLIP_ID);
  if (txFrame != nullptr) {
    *txFrame = txEncoded;
  }
--- a/mission/acs/str/ArcsecJsonParamBase.cpp
+++ b/mission/acs/str/ArcsecJsonParamBase.cpp
@ -65,7 +65,7 @@ void ArcsecJsonParamBase::addSetParamHeader(uint8_t* buffer, uint8_t setId) {
  *(buffer + 1) = setId;
 }
-ReturnValue_t ArcsecJsonParamBase::init(const std::string filename) {
+ReturnValue_t ArcsecJsonParamBase::init(const std::string& filename) {
  ReturnValue_t result = returnvalue::OK;
  if (not std::filesystem::exists(filename)) {
    sif::warning << "ArcsecJsonParamBase::init: JSON file " << filename << " does not exist"
--- a/mission/acs/str/ArcsecJsonParamBase.h
+++ b/mission/acs/str/ArcsecJsonParamBase.h
@ -46,7 +46,7 @@ class ArcsecJsonParamBase {
   * @param return    JSON_FILE_NOT_EXISTS if specified file does not exist, otherwise
   *                  returnvalue::OK
   */
-  ReturnValue_t init(const std::string filename);
+  ReturnValue_t init(const std::string& filename);
  /**
   * @brief   Fills a buffer with a parameter set
--- a/mission/acs/str/StarTrackerHandler.cpp
+++ b/mission/acs/str/StarTrackerHandler.cpp
@ -5,6 +5,13 @@
 #include <mission/acs/str/strHelpers.h>
 #include <mission/acs/str/strJsonCommands.h>
 #include <string>
 #include "fsfw/filesystem/HasFileSystemIF.h"
 #include "fsfw/ipc/MessageQueueIF.h"
 #include "fsfw/returnvalues/returnvalue.h"
 #include "mission/memory/SdCardMountedIF.h"
 extern "C" {
 #include <sagitta/client/actionreq.h>
 #include <sagitta/client/client_tm_structs.h>
@ -14,7 +21,6 @@ extern "C" {
 }
 #include <atomic>
 #include <fstream>
 #include <thread>
 #include "OBSWConfig.h"
@ -24,8 +30,9 @@ extern "C" {
 std::atomic_bool JCFG_DONE(false);
 StarTrackerHandler::StarTrackerHandler(object_id_t objectId, object_id_t comIF, CookieIF* comCookie,
-                                       const char* jsonFileStr, StrComHandler* strHelper,
+                                       StrComHandler* strHelper, power::Switch_t powerSwitch,
-                                       power::Switch_t powerSwitch)
+                                       startracker::SdCardConfigPathGetter& cfgPathGetter,
                                       SdCardMountedIF& sdCardIF)
    : DeviceHandlerBase(objectId, comIF, comCookie),
      temperatureSet(this),
      versionSet(this),
@ -56,9 +63,11 @@ StarTrackerHandler::StarTrackerHandler(object_id_t objectId, object_id_t comIF,
      centroidSet(this),
      centroidsSet(this),
      contrastSet(this),
      blobStatsSet(this),
      strHelper(strHelper),
-      paramJsonFile(jsonFileStr),
+      powerSwitch(powerSwitch),
-      powerSwitch(powerSwitch) {
+      sdCardIF(sdCardIF),
      cfgPathGetter(cfgPathGetter) {
  if (comCookie == nullptr) {
    sif::error << "StarTrackerHandler: Invalid com cookie" << std::endl;
  }
@ -82,17 +91,12 @@ void StarTrackerHandler::doStartUp() {
      // the device handler's submode to the star tracker's mode
      return;
    case StartupState::DONE:
-      if (jcfgCountdown.isBusy()) {
+      if (!JCFG_DONE) {
        startupState = StartupState::WAIT_JCFG;
        return;
      }
      startupState = StartupState::IDLE;
      break;
    case StartupState::WAIT_JCFG: {
      if (jcfgCountdown.hasTimedOut()) {
        startupState = StartupState::IDLE;
        break;
      }
      return;
    }
    default:
@ -139,8 +143,10 @@ ReturnValue_t StarTrackerHandler::initialize() {
  // Spin up a thread to do the JSON initialization, takes 200-250 ms which would
  // delay whole satellite boot process.
-  jcfgCountdown.resetTimer();
+  reloadJsonCfgFile();
-  jsonCfgTask = std::thread{setUpJsonCfgs, std::ref(jcfgs), paramJsonFile.c_str()};
+
  // Default firmware target is always initialized from persistent file.
  loadTargetFirmwareFromPersistentCfg();
  EventManagerIF* manager = ObjectManager::instance()->get<EventManagerIF>(objects::EVENT_MANAGER);
  if (manager == nullptr) {
@ -169,6 +175,33 @@ ReturnValue_t StarTrackerHandler::initialize() {
  return returnvalue::OK;
 }
 void StarTrackerHandler::loadTargetFirmwareFromPersistentCfg() {
  const char* prefix = sdCardIF.getCurrentMountPrefix();
  std::filesystem::path path = std::filesystem::path(prefix) / startracker::FW_TARGET_CFG_PATH;
  std::ifstream ifile(path);
  if (ifile.is_open() and !ifile.bad()) {
    std::string targetStr;
    std::getline(ifile, targetStr);
    if (targetStr == "backup") {
      firmwareTargetRaw = static_cast<uint8_t>(startracker::FirmwareTarget::BACKUP);
    }
  }
 }
 bool StarTrackerHandler::reloadJsonCfgFile() {
  jcfgCountdown.resetTimer();
  auto strCfgPath = cfgPathGetter.getCfgPath();
  if (strCfgPath.has_value()) {
    jcfgPending = true;
    JCFG_DONE = false;
    jsonCfgTask = std::thread{setUpJsonCfgs, std::ref(jcfgs), strCfgPath.value()};
    return true;
  }
  // Simplified FDIR: Just continue as usual..
  JCFG_DONE = true;
  return false;
 }
 ReturnValue_t StarTrackerHandler::executeAction(ActionId_t actionId, MessageQueueId_t commandedBy,
                                                const uint8_t* data, size_t size) {
  ReturnValue_t result = returnvalue::OK;
@ -297,21 +330,11 @@ ReturnValue_t StarTrackerHandler::executeAction(ActionId_t actionId, MessageQueu
      strHelper->setFlashReadFilename(std::string(reinterpret_cast<const char*>(data), size));
      return EXECUTION_FINISHED;
    }
-    case (startracker::FIRMWARE_UPDATE): {
+    case (startracker::FIRMWARE_UPDATE_MAIN): {
-      result = DeviceHandlerBase::acceptExternalDeviceCommands();
+      return handleFirmwareUpdateCommand(data, size, startracker::FirmwareTarget::MAIN);
      if (result != returnvalue::OK) {
        return result;
    }
-      if (size > config::MAX_PATH_SIZE + config::MAX_FILENAME_SIZE) {
+    case (startracker::FIRMWARE_UPDATE_BACKUP): {
-        return FILE_PATH_TOO_LONG;
+      return handleFirmwareUpdateCommand(data, size, startracker::FirmwareTarget::BACKUP);
      }
      result =
          strHelper->startFirmwareUpdate(std::string(reinterpret_cast<const char*>(data), size));
      if (result != returnvalue::OK) {
        return result;
      }
      strHelperHandlingSpecialRequest = true;
      return EXECUTION_FINISHED;
    }
    default:
      break;
@ -320,6 +343,23 @@ ReturnValue_t StarTrackerHandler::executeAction(ActionId_t actionId, MessageQueu
  reinitNextSetParam = true;
  return DeviceHandlerBase::executeAction(actionId, commandedBy, data, size);
 }
 ReturnValue_t StarTrackerHandler::handleFirmwareUpdateCommand(const uint8_t* data, size_t size,
                                                              startracker::FirmwareTarget target) {
  ReturnValue_t result = DeviceHandlerBase::acceptExternalDeviceCommands();
  if (result != returnvalue::OK) {
    return result;
  }
  if (size > config::MAX_PATH_SIZE + config::MAX_FILENAME_SIZE) {
    return FILE_PATH_TOO_LONG;
  }
  result = strHelper->startFirmwareUpdate(std::string(reinterpret_cast<const char*>(data), size),
                                          target);
  if (result != returnvalue::OK) {
    return result;
  }
  strHelperHandlingSpecialRequest = true;
  return EXECUTION_FINISHED;
 }
 void StarTrackerHandler::performOperationHook() {
  EventMessage event;
@ -335,6 +375,24 @@ void StarTrackerHandler::performOperationHook() {
        break;
    }
  }
  if (jcfgPending) {
    if (JCFG_DONE) {
      if (startupState == StartupState::WAIT_JCFG) {
        startupState = StartupState::DONE;
      }
      jsonCfgTask.join();
      jcfgPending = false;
      auto iter = deviceCommandMap.find(startracker::RELOAD_JSON_CFG_FILE);
      if (iter != deviceCommandMap.end() and iter->second.sendReplyTo != MessageQueueIF::NO_QUEUE) {
        actionHelper.finish(true, iter->second.sendReplyTo, startracker::RELOAD_JSON_CFG_FILE);
      }
    } else if (jcfgCountdown.hasTimedOut()) {
      auto iter = deviceCommandMap.find(startracker::RELOAD_JSON_CFG_FILE);
      if (iter != deviceCommandMap.end() and iter->second.sendReplyTo != MessageQueueIF::NO_QUEUE) {
        actionHelper.finish(false, iter->second.sendReplyTo, startracker::RELOAD_JSON_CFG_FILE);
      }
    }
  }
 }
 Submode_t StarTrackerHandler::getInitialSubmode() { return startracker::SUBMODE_BOOTLOADER; }
@ -499,13 +557,23 @@ ReturnValue_t StarTrackerHandler::buildCommandFromCommand(DeviceCommandId_t devi
      preparePingRequest();
      return returnvalue::OK;
    }
    case (startracker::RELOAD_JSON_CFG_FILE): {
      if (jcfgPending) {
        return HasActionsIF::IS_BUSY;
      }
      // It should be noted that this just reloads the JSON config structure in memory from the
      // JSON file. The configuration still needs to be sent to the STR. The easiest way to achieve
      // this is to simply reboot the device after a reload.
      reloadJsonCfgFile();
      return returnvalue::OK;
    }
    case (startracker::SET_TIME_FROM_SYS_TIME): {
      SetTimeActionRequest setTimeRequest{};
      timeval tv;
      Clock::getClock(&tv);
      setTimeRequest.unixTime =
          (static_cast<uint64_t>(tv.tv_sec) * 1000 * 1000) + (static_cast<uint64_t>(tv.tv_usec));
-      arc_pack_settime_action_req(&setTimeRequest, commandBuffer, &rawPacketLen);
+      prv_arc_pack_settime_action_req(&setTimeRequest, commandBuffer, &rawPacketLen);
      size_t serLen = 0;
      // Time in milliseconds. Manual serialization because arcsec API ignores endianness.
      SerializeAdapter::serialize(&setTimeRequest.unixTime, commandBuffer + 2, &serLen,
@ -513,6 +581,7 @@ ReturnValue_t StarTrackerHandler::buildCommandFromCommand(DeviceCommandId_t devi
      rawPacket = commandBuffer;
      return returnvalue::OK;
    }
    case (startracker::REQ_TIME): {
      prepareTimeRequest();
      return returnvalue::OK;
@ -529,8 +598,12 @@ ReturnValue_t StarTrackerHandler::buildCommandFromCommand(DeviceCommandId_t devi
      prepareRequestContrastTm();
      return returnvalue::OK;
    }
    case (startracker::REQ_BLOB_STATS): {
      prepareRequestBlobStatsTm();
      return returnvalue::OK;
    }
    case (startracker::BOOT): {
-      prepareBootCommand();
+      prepareBootCommand(static_cast<startracker::FirmwareTarget>(firmwareTargetRaw));
      return returnvalue::OK;
    }
    case (startracker::REQ_VERSION): {
@ -726,6 +799,7 @@ void StarTrackerHandler::fillCommandAndReplyMap() {
                                   startracker::MAX_FRAME_SIZE * 2 + 2);
  this->insertInCommandMap(startracker::UPLOAD_IMAGE);
  this->insertInCommandMap(startracker::DOWNLOAD_IMAGE);
  this->insertInCommandMap(startracker::RELOAD_JSON_CFG_FILE);
  this->insertInCommandAndReplyMap(startracker::REQ_POWER, 3, &powerSet,
                                   startracker::MAX_FRAME_SIZE * 2 + 2);
  this->insertInCommandAndReplyMap(startracker::REQ_INTERFACE, 3, &interfaceSet,
@ -816,6 +890,8 @@ void StarTrackerHandler::fillCommandAndReplyMap() {
                                   startracker::MAX_FRAME_SIZE * 2 + 2);
  this->insertInCommandAndReplyMap(startracker::REQ_CONTRAST, 3, &contrastSet,
                                   startracker::MAX_FRAME_SIZE * 2 + 2);
  this->insertInCommandAndReplyMap(startracker::REQ_BLOB_STATS, 3, &blobStatsSet,
                                   startracker::MAX_FRAME_SIZE * 2 + 2);
 }
 ReturnValue_t StarTrackerHandler::isModeCombinationValid(Mode_t mode, Submode_t submode) {
@ -928,7 +1004,7 @@ void StarTrackerHandler::bootFirmware(Mode_t toMode) {
  }
 }
-void StarTrackerHandler::setUpJsonCfgs(JsonConfigs& cfgs, const char* paramJsonFile) {
+void StarTrackerHandler::setUpJsonCfgs(JsonConfigs& cfgs, std::string paramJsonFile) {
  cfgs.tracking.init(paramJsonFile);
  cfgs.logLevel.init(paramJsonFile);
  cfgs.logSubscription.init(paramJsonFile);
@ -1013,6 +1089,12 @@ void StarTrackerHandler::resetSecondaryTmSet() {
      histogramSet.setValidity(false, true);
    }
  }
  {
    PoolReadGuard pg(&blobStatsSet);
    if (pg.getReadResult() == returnvalue::OK) {
      histogramSet.setValidity(false, true);
    }
  }
 }
 void StarTrackerHandler::bootBootloader() {
@ -1122,7 +1204,7 @@ ReturnValue_t StarTrackerHandler::interpretDeviceReply(DeviceCommandId_t id,
      break;
    }
    case (startracker::REQ_SOLUTION): {
-      result = handleTm(packet, solutionSet, "REQ_SOLUTION");
+      result = handleSolution(packet);
      break;
    }
    case (startracker::REQ_CONTRAST): {
@ -1161,6 +1243,10 @@ ReturnValue_t StarTrackerHandler::interpretDeviceReply(DeviceCommandId_t id,
      result = handleTm(packet, histogramSet, "REQ_HISTO");
      break;
    }
    case (startracker::REQ_BLOB_STATS): {
      result = handleTm(packet, blobStatsSet, "REQ_BLOB_STATS");
      break;
    }
    case (startracker::SUBSCRIPTION):
    case (startracker::LOGLEVEL):
    case (startracker::LOGSUBSCRIPTION):
@ -1562,6 +1648,13 @@ ReturnValue_t StarTrackerHandler::initializeLocalDataPool(localpool::DataPool& l
  localDataPoolMap.emplace(startracker::PoolIds::CONTRAST_C, new PoolEntry<uint32_t>(9));
  localDataPoolMap.emplace(startracker::PoolIds::CONTRAST_D, new PoolEntry<uint32_t>(9));
  localDataPoolMap.emplace(startracker::TICKS_BLOB_STATS, new PoolEntry<uint32_t>());
  localDataPoolMap.emplace(startracker::TIME_BLOB_STATS, new PoolEntry<uint64_t>());
  localDataPoolMap.emplace(startracker::PoolIds::BLOB_STATS_NOISE, new PoolEntry<uint8_t>(16));
  localDataPoolMap.emplace(startracker::PoolIds::BLOB_STATS_THOLD, new PoolEntry<uint8_t>(16));
  localDataPoolMap.emplace(startracker::PoolIds::BLOB_STATS_LVALID, new PoolEntry<uint8_t>(16));
  localDataPoolMap.emplace(startracker::PoolIds::BLOB_STATS_OFLOW, new PoolEntry<uint8_t>(16));
  poolManager.subscribeForDiagPeriodicPacket(
      subdp::DiagnosticsHkPeriodicParams(temperatureSet.getSid(), false, 10.0));
  poolManager.subscribeForRegularPeriodicPacket(
@ -1569,7 +1662,7 @@ ReturnValue_t StarTrackerHandler::initializeLocalDataPool(localpool::DataPool& l
  poolManager.subscribeForRegularPeriodicPacket(
      subdp::RegularHkPeriodicParams(interfaceSet.getSid(), false, 10.0));
  poolManager.subscribeForDiagPeriodicPacket(
-      subdp::DiagnosticsHkPeriodicParams(solutionSet.getSid(), false, 12.0));
+      subdp::DiagnosticsHkPeriodicParams(solutionSet.getSid(), false, 30.0));
  poolManager.subscribeForRegularPeriodicPacket(
      subdp::RegularHkPeriodicParams(cameraSet.getSid(), false, 10.0));
  poolManager.subscribeForRegularPeriodicPacket(
@ -1590,6 +1683,8 @@ ReturnValue_t StarTrackerHandler::initializeLocalDataPool(localpool::DataPool& l
      subdp::RegularHkPeriodicParams(centroidsSet.getSid(), false, 10.0));
  poolManager.subscribeForRegularPeriodicPacket(
      subdp::RegularHkPeriodicParams(contrastSet.getSid(), false, 10.0));
  poolManager.subscribeForRegularPeriodicPacket(
      subdp::RegularHkPeriodicParams(blobStatsSet.getSid(), false, 10.0));
  return returnvalue::OK;
 }
@ -1619,7 +1714,8 @@ ReturnValue_t StarTrackerHandler::checkMode(ActionId_t actionId) {
    case startracker::UPLOAD_IMAGE:
    case startracker::DOWNLOAD_IMAGE:
    case startracker::FLASH_READ:
-    case startracker::FIRMWARE_UPDATE: {
+    case startracker::FIRMWARE_UPDATE_BACKUP:
    case startracker::FIRMWARE_UPDATE_MAIN: {
      return DeviceHandlerBase::acceptExternalDeviceCommands();
      default:
        break;
@ -1835,6 +1931,10 @@ ReturnValue_t StarTrackerHandler::scanForTmReply(uint8_t replyId, DeviceCommandI
      *foundId = startracker::REQ_BLOB;
      break;
    }
    case (startracker::ID::BLOB_STATS): {
      *foundId = startracker::REQ_BLOB_STATS;
      break;
    }
    case (startracker::ID::BLOBS): {
      *foundId = startracker::REQ_BLOBS;
      break;
@ -1916,10 +2016,10 @@ ReturnValue_t StarTrackerHandler::executeFlashReadCommand(const uint8_t* command
  return result;
 }
-void StarTrackerHandler::prepareBootCommand() {
+void StarTrackerHandler::prepareBootCommand(startracker::FirmwareTarget target) {
  uint32_t length = 0;
-  struct BootActionRequest bootRequest = {BOOT_REGION_ID};
+  struct BootActionRequest bootRequest = {static_cast<uint8_t>(target)};
-  arc_pack_boot_action_req(&bootRequest, commandBuffer, &length);
+  prv_arc_pack_boot_action_req(&bootRequest, commandBuffer, &length);
  rawPacket = commandBuffer;
  rawPacketLen = length;
 }
@ -1952,7 +2052,7 @@ ReturnValue_t StarTrackerHandler::prepareChecksumCommand(const uint8_t* commandD
    return result;
  }
  uint32_t rawCmdLength = 0;
-  arc_pack_checksum_action_req(&req, commandBuffer, &rawCmdLength);
+  prv_arc_pack_checksum_action_req(&req, commandBuffer, &rawCmdLength);
  rawPacket = commandBuffer;
  rawPacketLen = rawCmdLength;
  checksumCmd.rememberRegion = req.region;
@ -1971,7 +2071,7 @@ void StarTrackerHandler::prepareTimeRequest() {
 void StarTrackerHandler::preparePingRequest() {
  uint32_t length = 0;
  struct PingActionRequest pingRequest = {PING_ID};
-  arc_pack_ping_action_req(&pingRequest, commandBuffer, &length);
+  prv_arc_pack_ping_action_req(&pingRequest, commandBuffer, &length);
  rawPacket = commandBuffer;
  rawPacketLen = length;
 }
@ -2000,7 +2100,7 @@ void StarTrackerHandler::preparePowerRequest() {
 void StarTrackerHandler::prepareSwitchToBootloaderCmd() {
  uint32_t length = 0;
  struct RebootActionRequest rebootReq {};
-  arc_pack_reboot_action_req(&rebootReq, commandBuffer, &length);
+  prv_arc_pack_reboot_action_req(&rebootReq, commandBuffer, &length);
  rawPacket = commandBuffer;
  rawPacketLen = length;
 }
@ -2009,7 +2109,7 @@ void StarTrackerHandler::prepareTakeImageCommand(const uint8_t* commandData) {
  uint32_t length = 0;
  struct CameraActionRequest camReq;
  camReq.actionid = *commandData;
-  arc_pack_camera_action_req(&camReq, commandBuffer, &length);
+  prv_arc_pack_camera_action_req(&camReq, commandBuffer, &length);
  rawPacket = commandBuffer;
  rawPacketLen = length;
 }
@ -2075,6 +2175,14 @@ ReturnValue_t StarTrackerHandler::prepareRequestCentroidTm() {
  return returnvalue::OK;
 }
 ReturnValue_t StarTrackerHandler::prepareRequestBlobStatsTm() {
  uint32_t length = 0;
  arc_tm_pack_blobstats_req(commandBuffer, &length);
  rawPacket = commandBuffer;
  rawPacketLen = length;
  return returnvalue::OK;
 }
 ReturnValue_t StarTrackerHandler::prepareRequestCentroidsTm() {
  uint32_t length = 0;
  arc_tm_pack_centroids_req(commandBuffer, &length);
@ -2349,7 +2457,8 @@ ReturnValue_t StarTrackerHandler::checkProgram() {
        internalState = InternalState::DONE;
      }
      break;
-    case startracker::Program::FIRMWARE:
+    case startracker::Program::FIRMWARE_BACKUP:
    case startracker::Program::FIRMWARE_MAIN: {
      if (startupState == StartupState::WAIT_CHECK_PROGRAM) {
        startupState = StartupState::BOOT_BOOTLOADER;
      }
@ -2360,9 +2469,10 @@ ReturnValue_t StarTrackerHandler::checkProgram() {
        internalState = InternalState::FAILED_BOOTLOADER_BOOT;
      }
      break;
    }
    default:
      sif::warning << "StarTrackerHandler::checkProgram: Version set has invalid program ID "
-                   << std::endl;
+                   << static_cast<int>(versionSet.program.value) << std::endl;
      return INVALID_PROGRAM;
  }
  return returnvalue::OK;
@ -2398,6 +2508,36 @@ ReturnValue_t StarTrackerHandler::handleTm(const uint8_t* rawFrame, LocalPoolDat
  return result;
 }
 ReturnValue_t StarTrackerHandler::handleSolution(const uint8_t* rawFrame) {
  ReturnValue_t result = statusFieldCheck(rawFrame);
  if (result != returnvalue::OK) {
    return result;
  }
  PoolReadGuard pg(&solutionSet);
  if (pg.getReadResult() != returnvalue::OK) {
    return result;
  }
  const uint8_t* reply = rawFrame + TICKS_OFFSET;
  solutionSet.setValidityBufferGeneration(false);
  size_t sizeLeft = fullPacketLen;
  result = solutionSet.deSerialize(&reply, &sizeLeft, SerializeIF::Endianness::LITTLE);
  if (result != returnvalue::OK) {
    sif::warning << "StarTrackerHandler::handleTm: Deserialization failed for solution set: 0x"
                 << std::hex << std::setw(4) << result << std::dec << std::endl;
  }
  solutionSet.setValidityBufferGeneration(true);
  solutionSet.setValidity(true, true);
  solutionSet.caliQw.setValid(solutionSet.isTrustWorthy.value);
  solutionSet.caliQx.setValid(solutionSet.isTrustWorthy.value);
  solutionSet.caliQy.setValid(solutionSet.isTrustWorthy.value);
  solutionSet.caliQz.setValid(solutionSet.isTrustWorthy.value);
  solutionSet.trackQw.setValid(solutionSet.isTrustWorthy.value);
  solutionSet.trackQx.setValid(solutionSet.isTrustWorthy.value);
  solutionSet.trackQy.setValid(solutionSet.isTrustWorthy.value);
  solutionSet.trackQz.setValid(solutionSet.isTrustWorthy.value);
  return result;
 }
 ReturnValue_t StarTrackerHandler::handleAutoBlobTm(const uint8_t* rawFrame) {
  ReturnValue_t result = statusFieldCheck(rawFrame);
  if (result != returnvalue::OK) {
@ -2792,17 +2932,19 @@ ReturnValue_t StarTrackerHandler::checkCommand(ActionId_t actionId) {
    case startracker::REQ_MATCHED_CENTROIDS:
    case startracker::REQ_BLOB:
    case startracker::REQ_BLOBS:
    case startracker::REQ_BLOB_STATS:
    case startracker::REQ_CENTROID:
    case startracker::REQ_CENTROIDS:
    case startracker::REQ_CONTRAST: {
-      if (getMode() == MODE_ON and getSubmode() != startracker::Program::FIRMWARE) {
+      if (getMode() == MODE_ON and getSubmode() != startracker::SUBMODE_FIRMWARE) {
        return STARTRACKER_NOT_RUNNING_FIRMWARE;
      }
      break;
    }
-    case startracker::FIRMWARE_UPDATE:
+    case startracker::FIRMWARE_UPDATE_MAIN:
    case startracker::FIRMWARE_UPDATE_BACKUP:
    case startracker::FLASH_READ:
-      if (getMode() != MODE_ON or getSubmode() != startracker::Program::BOOTLOADER) {
+      if (getMode() != MODE_ON or getSubmode() != startracker::SUBMODE_BOOTLOADER) {
        return STARTRACKER_NOT_RUNNING_BOOTLOADER;
      }
      break;
@ -2811,3 +2953,44 @@ ReturnValue_t StarTrackerHandler::checkCommand(ActionId_t actionId) {
  }
  return returnvalue::OK;
 }
 ReturnValue_t StarTrackerHandler::acceptExternalDeviceCommands() { return returnvalue::OK; }
 ReturnValue_t StarTrackerHandler::getParameter(uint8_t domainId, uint8_t uniqueId,
                                               ParameterWrapper* parameterWrapper,
                                               const ParameterWrapper* newValues,
                                               uint16_t startAtIndex) {
  auto firmwareTargetUpdate = [&](bool persistent) {
    uint8_t value = 0;
    newValues->getElement(&value);
    if (value != static_cast<uint8_t>(startracker::FirmwareTarget::MAIN) &&
        value != static_cast<uint8_t>(startracker::FirmwareTarget::BACKUP)) {
      return HasParametersIF::INVALID_VALUE;
    }
    parameterWrapper->set(firmwareTargetRaw);
    if (persistent) {
      if (sdCardIF.isSdCardUsable(std::nullopt)) {
        const char* prefix = sdCardIF.getCurrentMountPrefix();
        std::filesystem::path path =
            std::filesystem::path(prefix) / startracker::FW_TARGET_CFG_PATH;
        std::ofstream of(path, std::ofstream::out | std::ofstream::trunc);
        if (value == static_cast<uint8_t>(startracker::FirmwareTarget::MAIN)) {
          of << "main\n";
        } else {
          of << "backup\n";
        }
      } else {
        return HasFileSystemIF::FILESYSTEM_INACTIVE;
      }
    };
    return returnvalue::OK;
  };
  if (uniqueId == startracker::ParamId::FIRMWARE_TARGET) {
    return firmwareTargetUpdate(false);
  }
  if (uniqueId == startracker::ParamId::FIRMWARE_TARGET_PERSISTENT) {
    return firmwareTargetUpdate(true);
  }
  return DeviceHandlerBase::getParameter(domainId, uniqueId, parameterWrapper, newValues,
                                         startAtIndex);
 }
--- a/mission/acs/str/StarTrackerHandler.h
+++ b/mission/acs/str/StarTrackerHandler.h
@ -11,10 +11,7 @@
 #include <set>
 #include <thread>
 #include "OBSWConfig.h"
 #include "devices/powerSwitcherList.h"
 #include "fsfw/devicehandlers/DeviceHandlerBase.h"
 #include "fsfw/src/fsfw/serialize/SerializeAdapter.h"
 #include "fsfw/timemanager/Countdown.h"
 extern "C" {
@ -27,7 +24,9 @@ extern "C" {
 * @details Datasheet: https://eive-cloud.irs.uni-stuttgart.de/index.php/apps/files/?dir=/EIVE_IRS/
 *                     Arbeitsdaten/08_Used%20Components/ArcSec_KULeuven_Startracker/
 *                     Sagitta%201.0%20Datapack&fileid=659181
- * @author	J. Meier
+ * @note The STR code is a chaotic inconsistent mess and should be re-written with a simpler base
 *       class. DO NOT USE THIS AS REFERENCE. Stay away from it.
 * @author	J. Meier, R. Mueller
 */
 class StarTrackerHandler : public DeviceHandlerBase {
 public:
@ -42,8 +41,8 @@ class StarTrackerHandler : public DeviceHandlerBase {
   * 						to high to enable the device.
   */
  StarTrackerHandler(object_id_t objectId, object_id_t comIF, CookieIF* comCookie,
-                     const char* jsonFileStr, StrComHandler* strHelper,
+                     StrComHandler* strHelper, power::Switch_t powerSwitch,
-                     power::Switch_t powerSwitch);
+                     startracker::SdCardConfigPathGetter& cfgPathGetter, SdCardMountedIF& sdCardIF);
  virtual ~StarTrackerHandler();
  ReturnValue_t initialize() override;
@ -59,6 +58,9 @@ class StarTrackerHandler : public DeviceHandlerBase {
  Submode_t getInitialSubmode() override;
  ReturnValue_t getParameter(uint8_t domainId, uint8_t uniqueId, ParameterWrapper* parameterWrapper,
                             const ParameterWrapper* newValues, uint16_t startAtIndex) override;
 protected:
  void doStartUp() override;
  void doShutDown() override;
@ -159,7 +161,8 @@ class StarTrackerHandler : public DeviceHandlerBase {
  // Ping request will reply ping with this ID (data field)
  static const uint32_t PING_ID = 0x55;
-  static const uint32_t BOOT_REGION_ID = 1;
+  uint8_t firmwareTargetRaw = static_cast<uint8_t>(startracker::FirmwareTarget::MAIN);
  static const MutexIF::TimeoutType TIMEOUT_TYPE = MutexIF::TimeoutType::WAITING;
  static const uint32_t MUTEX_TIMEOUT = 20;
  static const uint32_t BOOT_TIMEOUT = 1000;
@ -213,6 +216,7 @@ class StarTrackerHandler : public DeviceHandlerBase {
  startracker::CentroidSet centroidSet;
  startracker::CentroidsSet centroidsSet;
  startracker::ContrastSet contrastSet;
  startracker::BlobStatsSet blobStatsSet;
  // Pointer to object responsible for uploading and downloading images to/from the star tracker
  StrComHandler* strHelper = nullptr;
@ -240,11 +244,12 @@ class StarTrackerHandler : public DeviceHandlerBase {
    Subscription subscription;
    AutoThreshold autoThreshold;
  };
  bool jcfgPending = false;
  JsonConfigs jcfgs;
-  Countdown jcfgCountdown = Countdown(250);
+  Countdown jcfgCountdown = Countdown(1000);
  bool commandExecuted = false;
  std::thread jsonCfgTask;
-  static void setUpJsonCfgs(JsonConfigs& cfgs, const char* paramJsonFile);
+  static void setUpJsonCfgs(JsonConfigs& cfgs, std::string paramJsonFile);
  std::string paramJsonFile;
@ -311,10 +316,14 @@ class StarTrackerHandler : public DeviceHandlerBase {
  std::set<DeviceCommandId_t> additionalRequestedTm{};
  std::set<DeviceCommandId_t>::iterator currentSecondaryTmIter;
  SdCardMountedIF& sdCardIF;
  startracker::SdCardConfigPathGetter& cfgPathGetter;
  /**
   * @brief   Handles internal state
   */
  void handleInternalState();
  void loadTargetFirmwareFromPersistentCfg();
  /**
   * @brief   Checks mode for commands requiring MODE_ON of MODE_NORMAL for execution.
@ -375,7 +384,7 @@ class StarTrackerHandler : public DeviceHandlerBase {
   * @brief   Fills command buffer with data to boot image (works only when star tracker is
   *          in bootloader mode).
   */
-  void prepareBootCommand();
+  void prepareBootCommand(startracker::FirmwareTarget target);
  /**
   * @brief   Fills command buffer with command to get the checksum of a flash part
@ -462,6 +471,7 @@ class StarTrackerHandler : public DeviceHandlerBase {
  ReturnValue_t prepareRequestCentroidTm();
  ReturnValue_t prepareRequestCentroidsTm();
  ReturnValue_t prepareRequestContrastTm();
  ReturnValue_t prepareRequestBlobStatsTm();
  ReturnValue_t prepareRequestTrackingParams();
  ReturnValue_t prepareRequestValidationParams();
  ReturnValue_t prepareRequestAlgoParams();
@ -522,6 +532,7 @@ class StarTrackerHandler : public DeviceHandlerBase {
  ReturnValue_t handleTm(const uint8_t* rawFrame, LocalPoolDataSetBase& dataset,
                         const char* context);
  ReturnValue_t handleSolution(const uint8_t* rawFrame);
  ReturnValue_t handleAutoBlobTm(const uint8_t* rawFrame);
  ReturnValue_t handleMatchedCentroidTm(const uint8_t* rawFrame);
  ReturnValue_t handleBlobTm(const uint8_t* rawFrame);
@ -542,6 +553,11 @@ class StarTrackerHandler : public DeviceHandlerBase {
  void doNormalTransition(Mode_t modeFrom, Submode_t subModeFrom);
  void bootFirmware(Mode_t toMode);
  void bootBootloader();
  bool reloadJsonCfgFile();
  ReturnValue_t acceptExternalDeviceCommands() override;
  ReturnValue_t handleFirmwareUpdateCommand(const uint8_t* data, size_t size,
                                            startracker::FirmwareTarget target);
 };
 #endif /* MISSION_DEVICES_STARTRACKERHANDLER_H_ */
--- a/mission/acs/str/strHelpers.h
+++ b/mission/acs/str/strHelpers.h
@ -7,13 +7,25 @@
 #include <fsfw/devicehandlers/DeviceHandlerIF.h>
 #include <fsfw/serviceinterface/ServiceInterfaceStream.h>
-#include "objects/systemObjectList.h"
+#include <optional>
 namespace startracker {
 static const Submode_t SUBMODE_BOOTLOADER = 1;
 static const Submode_t SUBMODE_FIRMWARE = 2;
 enum class FirmwareTarget : uint8_t { MAIN = 1, BACKUP = 10 };
 static constexpr char FW_TARGET_CFG_PATH[] = "startracker/fw-target.txt";
 enum ParamId : uint32_t { FIRMWARE_TARGET = 1, FIRMWARE_TARGET_PERSISTENT = 2 };
 class SdCardConfigPathGetter {
 public:
  virtual ~SdCardConfigPathGetter() = default;
  virtual std::optional<std::string> getCfgPath() = 0;
 };
 /**
 * @brief    Returns the frame type field of a decoded frame.
 */
@ -316,6 +328,13 @@ enum PoolIds : lp_id_t {
  CONTRAST_B,
  CONTRAST_C,
  CONTRAST_D,
  TICKS_BLOB_STATS,
  TIME_BLOB_STATS,
  BLOB_STATS_NOISE,
  BLOB_STATS_THOLD,
  BLOB_STATS_LVALID,
  BLOB_STATS_OFLOW,
 };
 static const DeviceCommandId_t PING_REQUEST = 0;
@ -367,7 +386,7 @@ static const DeviceCommandId_t REQ_DEBUG_CAMERA = 80;
 static const DeviceCommandId_t LOGLEVEL = 81;
 static const DeviceCommandId_t LOGSUBSCRIPTION = 82;
 static const DeviceCommandId_t DEBUG_CAMERA = 83;
-static const DeviceCommandId_t FIRMWARE_UPDATE = 84;
+static const DeviceCommandId_t FIRMWARE_UPDATE_MAIN = 84;
 static const DeviceCommandId_t DISABLE_TIMESTAMP_GENERATION = 85;
 static const DeviceCommandId_t ENABLE_TIMESTAMP_GENERATION = 86;
 static constexpr DeviceCommandId_t SET_TIME_FROM_SYS_TIME = 87;
@ -381,6 +400,10 @@ static constexpr DeviceCommandId_t REQ_CENTROIDS = 94;
 static constexpr DeviceCommandId_t ADD_SECONDARY_TM_TO_NORMAL_MODE = 95;
 static constexpr DeviceCommandId_t RESET_SECONDARY_TM_SET = 96;
 static constexpr DeviceCommandId_t READ_SECONDARY_TM_SET = 97;
 static constexpr DeviceCommandId_t RELOAD_JSON_CFG_FILE = 100;
 static constexpr DeviceCommandId_t FIRMWARE_UPDATE_BACKUP = 101;
 static constexpr DeviceCommandId_t REQ_BLOB_STATS = 102;
 static const DeviceCommandId_t NONE = 0xFFFFFFFF;
 static const uint32_t VERSION_SET_ID = REQ_VERSION;
@ -412,6 +435,7 @@ static const uint32_t BLOBS_SET_ID = REQ_BLOBS;
 static const uint32_t CENTROID_SET_ID = REQ_CENTROID;
 static const uint32_t CENTROIDS_SET_ID = REQ_CENTROIDS;
 static const uint32_t CONTRAST_SET_ID = REQ_CONTRAST;
 static const uint32_t BLOB_STATS_SET_ID = REQ_BLOB_STATS;
 /** Max size of unencoded frame */
 static const size_t MAX_FRAME_SIZE = 1200;
@ -478,11 +502,13 @@ static constexpr uint8_t CENTROID = 26;
 static constexpr uint8_t CENTROIDS = 37;
 static constexpr uint8_t AUTO_BLOB = 39;
 static constexpr uint8_t MATCHED_CENTROIDS = 40;
 static constexpr uint8_t BLOB_STATS = 49;
 }  // namespace ID
 namespace Program {
 static const uint8_t BOOTLOADER = 1;
-static const uint8_t FIRMWARE = 2;
+static const uint8_t FIRMWARE_MAIN = 2;
 static const uint8_t FIRMWARE_BACKUP = 3;
 }  // namespace Program
 namespace region_secrets {
@ -502,7 +528,7 @@ static const uint32_t REGION_12_SECRET = 0x42fedef6;
 static const uint32_t REGION_13_SECRET = 0xe53cf10d;
 static const uint32_t REGION_14_SECRET = 0xe862b70b;
 static const uint32_t REGION_15_SECRET = 0x79b537ca;
-static const uint32_t secret[16]{
+static const uint32_t SECRETS[16]{
    REGION_0_SECRET,  REGION_1_SECRET,  REGION_2_SECRET,  REGION_3_SECRET,
    REGION_4_SECRET,  REGION_5_SECRET,  REGION_6_SECRET,  REGION_7_SECRET,
    REGION_8_SECRET,  REGION_9_SECRET,  REGION_10_SECRET, REGION_11_SECRET,
@ -531,7 +557,12 @@ enum class FlashSections : uint8_t {
 };
 // Flash region IDs of firmware partition
-enum class FirmwareRegions : uint32_t { FIRST = 1, LAST = 8 };
+enum class FirmwareRegions : uint32_t {
  FIRST_MAIN = 1,
  LAST_MAIN = 8,
  FIRST_BACKUP = 10,
  LAST_BACKUP = 16
 };
 static const uint32_t FLASH_REGION_SIZE = 0x20000;
@ -1538,6 +1569,23 @@ class CentroidsSet : public StaticLocalDataSet<10> {
      lp_vec_t<uint8_t, 16>(sid.objectId, PoolIds::CENTROIDS_MAGNITUDES, this);
 };
 class BlobStatsSet : public StaticLocalDataSet<6> {
 public:
  BlobStatsSet(HasLocalDataPoolIF* owner) : StaticLocalDataSet(owner, BLOB_STATS_SET_ID) {}
  // Data received from the Centroids Telemetry Set (ID 49)
  lp_var_t<uint32_t> ticks = lp_var_t<uint32_t>(sid.objectId, PoolIds::TICKS_BLOB_STATS, this);
  lp_var_t<uint64_t> time = lp_var_t<uint64_t>(sid.objectId, PoolIds::TIME_BLOB_STATS, this);
  lp_vec_t<uint8_t, 16> noise =
      lp_vec_t<uint8_t, 16>(sid.objectId, PoolIds::BLOB_STATS_NOISE, this);
  lp_vec_t<uint8_t, 16> thold =
      lp_vec_t<uint8_t, 16>(sid.objectId, PoolIds::BLOB_STATS_THOLD, this);
  lp_vec_t<uint8_t, 16> lvalid =
      lp_vec_t<uint8_t, 16>(sid.objectId, PoolIds::BLOB_STATS_LVALID, this);
  lp_vec_t<uint8_t, 16> oflow =
      lp_vec_t<uint8_t, 16>(sid.objectId, PoolIds::BLOB_STATS_OFLOW, this);
 };
 class ContrastSet : public StaticLocalDataSet<8> {
 public:
  ContrastSet(HasLocalDataPoolIF* owner) : StaticLocalDataSet(owner, CONTRAST_SET_ID) {}
--- a/mission/com/LiveTmTask.cpp
+++ b/mission/com/LiveTmTask.cpp
@ -54,8 +54,13 @@ ReturnValue_t LiveTmTask::performOperation(uint8_t opCode) {
          }
        }
      } else if (result != MessageQueueIF::EMPTY) {
-        sif::warning << "LiveTmTask: TM queue failure, returncode 0x" << std::hex << std::setw(4)
+        const char* contextStr = "Regular TM queue";
-                     << result << std::dec << std::endl;
+        if (isCfdp) {
          contextStr = "CFDP TM queue";
        }
        sif::warning << "LiveTmTask: " << contextStr << " handling failure, returncode 0x"
                     << std::setfill('0') << std::hex << std::setw(4) << result << std::dec
                     << std::endl;
      }
    }
@ -173,15 +178,16 @@ ReturnValue_t LiveTmTask::handleGenericTmQueue(MessageQueueIF& queue, bool isCfd
    size_t writtenSize = 0;
    result = channel.write(data, size, writtenSize);
    if (result == DirectTmSinkIF::PARTIALLY_WRITTEN) {
-      result = channel.handleWriteCompletionSynchronously(writtenSize, 200);
+      result = channel.handleWriteCompletionSynchronously(writtenSize, 400);
      if (result != returnvalue::OK) {
        // TODO: Event? Might lead to dangerous spam though..
        sif::warning << "LiveTmTask: Synchronous write of last segment failed with code 0x"
-                     << std::setw(4) << std::hex << result << std::dec << std::endl;
+                     << std::setfill('0') << std::setw(4) << std::hex << result << std::dec
                     << std::endl;
      }
    } else if (result != returnvalue::OK) {
-      sif::error << "LiveTmTask: Channel write failed with code 0x" << std::hex << std::setw(4)
+      sif::error << "LiveTmTask: Channel write failed with code 0x" << std::setfill('0') << std::hex
-                 << result << std::dec << std::endl;
+                 << std::setw(4) << result << std::dec << std::endl;
    }
  }
  // Try delete in any case, ignore failures (which should not happen), it is more important to
--- a/mission/com/TmStoreTaskBase.cpp
+++ b/mission/com/TmStoreTaskBase.cpp
@ -141,11 +141,12 @@ ReturnValue_t TmStoreTaskBase::performDump(PersistentTmStoreWithTmQueue& store,
  size_t writtenSize = 0;
  result = channel.write(tmReader.getFullData(), dumpedLen, writtenSize);
  if (result == VirtualChannelIF::PARTIALLY_WRITTEN) {
-    result = channel.handleWriteCompletionSynchronously(writtenSize, 200);
+    result = channel.handleWriteCompletionSynchronously(writtenSize, 400);
    if (result != returnvalue::OK) {
      // TODO: Event? Might lead to dangerous spam though..
-      sif::warning << "PersistentTmStore: Synchronous write of last segment failed with code 0x"
+      sif::warning << "LiveTmTask: Synchronous write of last segment failed with code 0x"
-                   << std::setw(4) << std::hex << result << std::dec << std::endl;
+                   << std::setfill('0') << std::setw(4) << std::hex << result << std::dec
                   << std::endl;
    }
  } else if (result == DirectTmSinkIF::IS_BUSY) {
    sif::warning << "PersistentTmStore: Unexpected VC channel busy" << std::endl;
--- a/mission/com/VirtualChannel.cpp
+++ b/mission/com/VirtualChannel.cpp
@ -74,5 +74,7 @@ ReturnValue_t VirtualChannel::handleWriteCompletionSynchronously(size_t& written
      return result;
    }
  }
-  return returnvalue::FAILED;
+  // Timeout. Cancel the transfer
  cancelTransfer();
  return TIMEOUT;
 }
--- a/mission/com/VirtualChannelWithQueue.cpp
+++ b/mission/com/VirtualChannelWithQueue.cpp
@ -41,7 +41,7 @@ ReturnValue_t VirtualChannelWithQueue::handleNextTm(bool performWriteOp) {
  if (performWriteOp) {
    result = write(data, size, writtenSize);
    if (result == PARTIALLY_WRITTEN) {
-      result = handleWriteCompletionSynchronously(writtenSize, 200);
+      result = handleWriteCompletionSynchronously(writtenSize, 400);
      if (result != returnvalue::OK) {
        // TODO: Event? Might lead to dangerous spam though..
        sif::warning
--- a/mission/controller/AcsController.cpp
+++ b/mission/controller/AcsController.cpp
--- a/mission/controller/AcsController.h
+++ b/mission/controller/AcsController.h
@ -4,16 +4,20 @@
 #include <eive/objects.h>
 #include <fsfw/controller/ExtendedControllerBase.h>
 #include <fsfw/coordinates/Sgp4Propagator.h>
 #include <fsfw/datapool/PoolReadGuard.h>
 #include <fsfw/globalfunctions/math/VectorOperations.h>
 #include <fsfw/health/HealthTable.h>
 #include <fsfw/parameters/ParameterHelper.h>
 #include <fsfw/parameters/ReceivesParameterMessagesIF.h>
 #include <fsfw_hal/devicehandlers/MgmLIS3MDLHandler.h>
 #include <fsfw_hal/devicehandlers/MgmRM3100Handler.h>
 #include <mission/acs/defs.h>
 #include <mission/acs/imtqHelpers.h>
 #include <mission/acs/rwHelpers.h>
 #include <mission/acs/susMax1227Helpers.h>
 #include <mission/config/torquer.h>
 #include <mission/controller/acs/ActuatorCmd.h>
 #include <mission/controller/acs/AttitudeEstimation.h>
 #include <mission/controller/acs/FusedRotationEstimation.h>
 #include <mission/controller/acs/Guidance.h>
 #include <mission/controller/acs/MultiplicativeKalmanFilter.h>
@ -23,13 +27,18 @@
 #include <mission/controller/acs/control/PtgCtrl.h>
 #include <mission/controller/acs/control/SafeCtrl.h>
 #include <mission/controller/controllerdefinitions/AcsCtrlDefinitions.h>
 #include <mission/memory/SdCardMountedIF.h>
 #include <mission/utility/trace.h>
 #include <filesystem>
 #include <fstream>
 #include <optional>
 class AcsController : public ExtendedControllerBase, public ReceivesParameterMessagesIF {
 public:
  static constexpr dur_millis_t INIT_DELAY = 500;
-  AcsController(object_id_t objectId, bool enableHkSets);
+  AcsController(object_id_t objectId, bool enableHkSets, SdCardMountedIF& sdcMan);
  MessageQueueId_t getCommandQueue() const;
  ReturnValue_t getParameter(uint8_t domainId, uint8_t parameterId,
@ -37,11 +46,8 @@ class AcsController : public ExtendedControllerBase, public ReceivesParameterMes
                             uint16_t startAtIndex) override;
 protected:
  void performSafe();
  void performDetumble();
  void performPointingCtrl();
 private:
  static constexpr int16_t ZERO_VEC3_INT16[3] = {0, 0, 0};
  static constexpr double ZERO_VEC3[3] = {0, 0, 0};
  static constexpr double ZERO_VEC4[4] = {0, 0, 0, 0};
  static constexpr double RW_OFF_TORQUE[4] = {0, 0, 0, 0};
@ -49,8 +55,16 @@ class AcsController : public ExtendedControllerBase, public ReceivesParameterMes
  bool enableHkSets = false;
  SdCardMountedIF& sdcMan;
  timeval timeAbsolute;
  timeval timeRelative;
  double timeDelta = 0.0;
  timeval oldTimeRelative;
  AcsParameters acsParameters;
  SensorProcessing sensorProcessing;
  AttitudeEstimation attitudeEstimation;
  FusedRotationEstimation fusedRotationEstimation;
  Navigation navigation;
  ActuatorCmd actuatorCmd;
@ -66,7 +80,7 @@ class AcsController : public ExtendedControllerBase, public ReceivesParameterMes
  uint8_t detumbleCounter = 0;
  uint8_t multipleRwUnavailableCounter = 0;
  bool mekfInvalidFlag = false;
-  uint16_t mekfInvalidCounter = 0;
+  uint16_t ptgCtrlLostCounter = 0;
  bool safeCtrlFailureFlag = false;
  uint8_t safeCtrlFailureCounter = 0;
  uint8_t resetMekfCount = 0;
@ -75,6 +89,8 @@ class AcsController : public ExtendedControllerBase, public ReceivesParameterMes
  int32_t cmdSpeedRws[4] = {0, 0, 0, 0};
  int16_t cmdDipoleMtqs[3] = {0, 0, 0};
  acsctrl::RwAvail rwAvail;
 #if OBSW_THREAD_TRACING == 1
  uint32_t opCounter = 0;
 #endif
@ -82,15 +98,22 @@ class AcsController : public ExtendedControllerBase, public ReceivesParameterMes
  enum class InternalState { STARTUP, INITIAL_DELAY, READY };
  InternalState internalState = InternalState::STARTUP;
  enum class DetumbleState {
    NO_DETUMBLE,
    DETUMBLE_FROM_PTG,
    PTG_TO_SAFE_TRANSITION,
    DETUMBLE_FROM_SAFE,
    IN_DETUMBLE
  };
  DetumbleState detumbleState = DetumbleState::NO_DETUMBLE;
  /** Device command IDs */
  static const DeviceCommandId_t SOLAR_ARRAY_DEPLOYMENT_SUCCESSFUL = 0x0;
  static const DeviceCommandId_t RESET_MEKF = 0x1;
  static const DeviceCommandId_t RESTORE_MEKF_NONFINITE_RECOVERY = 0x2;
  static const DeviceCommandId_t UPDATE_TLE = 0x3;
-
+  static const DeviceCommandId_t READ_TLE = 0x4;
-  static const uint8_t INTERFACE_ID = CLASS_ID::ACS_CTRL;
+  static const DeviceCommandId_t UPDATE_MEKF_STANDARD_DEVIATIONS = 0x5;
  //! [EXPORT] : [COMMENT] File deletion failed and at least one file is still existent.
  static constexpr ReturnValue_t FILE_DELETION_FAILED = MAKE_RETURN_CODE(0);
  ReturnValue_t initialize() override;
  ReturnValue_t handleCommandMessage(CommandMessage* message) override;
@ -110,6 +133,13 @@ class AcsController : public ExtendedControllerBase, public ReceivesParameterMes
  void modeChanged(Mode_t mode, Submode_t submode);
  void announceMode(bool recursive);
  void performAttitudeControl();
  void performSafe();
  void performDetumble();
  void performPointingCtrl();
  void handleDetumbling();
  void safeCtrlFailure(uint8_t mgmFailure, uint8_t sensorFailure);
  ReturnValue_t commandActuators(int16_t xDipole, int16_t yDipole, int16_t zDipole,
@ -120,10 +150,16 @@ class AcsController : public ExtendedControllerBase, public ReceivesParameterMes
  void updateActuatorCmdData(const int16_t* mtqTargetDipole);
  void updateActuatorCmdData(const double* rwTargetTorque, const int32_t* rwTargetSpeed,
                             const int16_t* mtqTargetDipole);
-  void updateCtrlValData(uint8_t safeModeStrat);
+  void updateCtrlValData(acs::ControlModeStrategy ctrlStrat);
-  void updateCtrlValData(double errAng, uint8_t safeModeStrat);
+  void updateCtrlValData(double errAng, acs::ControlModeStrategy ctrlStrat);
  void updateCtrlValData(const double* tgtQuat, const double* errQuat, double errAng,
-                         const double* tgtRotRate);
+                         const double* tgtRotRate, acs::ControlModeStrategy cStrat);
  ReturnValue_t updateTle(const uint8_t* line1, const uint8_t* line2, bool fromFile);
  ReturnValue_t writeTleToFs(const uint8_t* tle);
  ReturnValue_t readTleFromFs(uint8_t* line1, uint8_t* line2);
  const std::string TLE_FILE = "/conf/tle.txt";
  /* ACS Sensor Values */
  ACS::SensorValues sensorValues;
@ -212,11 +248,12 @@ class AcsController : public ExtendedControllerBase, public ReceivesParameterMes
  PoolEntry<double> gpsVelocity = PoolEntry<double>(3);
  PoolEntry<uint8_t> gpsSource = PoolEntry<uint8_t>();
-  // MEKF
+  // Attitude Estimation
-  acsctrl::MekfData mekfData;
+  acsctrl::AttitudeEstimationData attitudeEstimationData;
  PoolEntry<double> quatMekf = PoolEntry<double>(4);
  PoolEntry<double> satRotRateMekf = PoolEntry<double>(3);
  PoolEntry<uint8_t> mekfStatus = PoolEntry<uint8_t>();
  PoolEntry<double> quatQuest = PoolEntry<double>(4);
  // Ctrl Values
  acsctrl::CtrlValData ctrlValData;
@ -234,17 +271,24 @@ class AcsController : public ExtendedControllerBase, public ReceivesParameterMes
  // Fused Rot Rate
  acsctrl::FusedRotRateData fusedRotRateData;
-  PoolEntry<double> rotRateOrthogonal = PoolEntry<double>(3);
+  PoolEntry<double> rotRateTotSusMgm = PoolEntry<double>(3);
-  PoolEntry<double> rotRateParallel = PoolEntry<double>(3);
+  PoolEntry<double> rotRateTotSource = PoolEntry<double>(3);
-  PoolEntry<double> rotRateTotal = PoolEntry<double>(3);
+  PoolEntry<uint8_t> rotRateSource = PoolEntry<uint8_t>();
-  // TLE Dataset
+  // Fused Rot Rate Sources
-  acsctrl::TleData tleData;
+  acsctrl::FusedRotRateSourcesData fusedRotRateSourcesData;
-  PoolEntry<uint8_t> line1 = PoolEntry<uint8_t>(69);
+  PoolEntry<double> rotRateOrthogonalSusMgm = PoolEntry<double>(3);
-  PoolEntry<uint8_t> line2 = PoolEntry<uint8_t>(69);
+  PoolEntry<double> rotRateParallelSusMgm = PoolEntry<double>(3);
  PoolEntry<double> rotRateTotalSusMgm = PoolEntry<double>(3);
  PoolEntry<double> rotRateTotalQuest = PoolEntry<double>(3);
  PoolEntry<double> rotRateTotalStr = PoolEntry<double>(3);
  // Initial delay to make sure all pool variables have been initialized their owners
  Countdown initialCountdown = Countdown(INIT_DELAY);
  // Countdown after which the detumbling mode change should have been finished
  static constexpr dur_millis_t MAX_DURATION = 60 * 1e3;
  Countdown detumbleTransitionCountdow = Countdown(MAX_DURATION);
 };
 #endif /* MISSION_CONTROLLER_ACSCONTROLLER_H_ */
--- a/mission/controller/PowerController.cpp
+++ b/mission/controller/PowerController.cpp
@ -157,7 +157,12 @@ ReturnValue_t PowerController::checkModeCommand(Mode_t mode, Submode_t submode,
 void PowerController::calculateStateOfCharge() {
  // get time
-  Clock::getClock_timeval(&now);
+  Clock::getClockMonotonic(&now);
  double timeDelta = 0.0;
  if (now.tv_sec != 0 and oldTime.tv_sec != 0) {
    timeDelta = timevalOperations::toDouble(now - oldTime);
  }
  oldTime = now;
  // update EPS HK values
  ReturnValue_t result = updateEpsData();
@ -173,13 +178,11 @@ void PowerController::calculateStateOfCharge() {
        pwrCtrlCoreHk.setValidity(false, true);
      }
    }
    // store time for next run
    oldTime = now;
    return;
  }
  // calculate total battery current
-  iBat = p60CoreHk.batteryCurrent.value + bpxBatteryHk.dischargeCurrent.value;
+  iBat = p60CoreHk.batteryCurrent.value - bpxBatteryHk.dischargeCurrent.value;
  result = calculateOpenCircuitVoltageCharge();
  if (result != returnvalue::OK) {
@ -195,12 +198,10 @@ void PowerController::calculateStateOfCharge() {
        pwrCtrlCoreHk.coulombCounterCharge.setValid(false);
      }
    }
    // store time for next run
    oldTime = now;
    return;
  }
-  result = calculateCoulombCounterCharge();
+  result = calculateCoulombCounterCharge(timeDelta);
  if (result != returnvalue::OK) {
    // notifying events have already been triggered
    {
@ -215,8 +216,6 @@ void PowerController::calculateStateOfCharge() {
        pwrCtrlCoreHk.coulombCounterCharge.setValid(false);
      }
    }
    // store time for next run
    oldTime = now;
    return;
  }
@ -231,8 +230,6 @@ void PowerController::calculateStateOfCharge() {
      pwrCtrlCoreHk.setValidity(true, true);
    }
  }
  // store time for next run
  oldTime = now;
 }
 void PowerController::watchStateOfCharge() {
@ -285,12 +282,14 @@ ReturnValue_t PowerController::calculateOpenCircuitVoltageCharge() {
  return returnvalue::OK;
 }
-ReturnValue_t PowerController::calculateCoulombCounterCharge() {
+ReturnValue_t PowerController::calculateCoulombCounterCharge(double timeDelta) {
-  double timeDiff = timevalOperations::toDouble(now - oldTime);
+  if (timeDelta == 0.0) {
-  if (timeDiff > maxAllowedTimeDiff) {
+    return returnvalue::FAILED;
  }
  if (timeDelta > maxAllowedTimeDiff) {
    // should not be a permanent state so no spam protection required
-    triggerEvent(power::TIMEDELTA_OUT_OF_BOUNDS, static_cast<uint32_t>(timeDiff * 10));
+    triggerEvent(power::TIMEDELTA_OUT_OF_BOUNDS, static_cast<uint32_t>(timeDelta * 10));
-    sif::error << "Power Controller::Time delta too large for Coulomb Counter: " << timeDiff
+    sif::error << "Power Controller::Time delta too large for Coulomb Counter: " << timeDelta
               << std::endl;
    return returnvalue::FAILED;
  }
@ -298,7 +297,7 @@ ReturnValue_t PowerController::calculateCoulombCounterCharge() {
    coulombCounterCharge = openCircuitVoltageCharge;
  } else {
    coulombCounterCharge =
-        coulombCounterCharge + iBat * CONVERT_FROM_MILLI * timeDiff * SECONDS_TO_HOURS;
+        coulombCounterCharge + iBat * CONVERT_FROM_MILLI * timeDelta * SECONDS_TO_HOURS;
    if (coulombCounterCharge >= coulombCounterChargeUpperThreshold) {
      coulombCounterCharge = coulombCounterChargeUpperThreshold;
    }
--- a/mission/controller/PowerController.h
+++ b/mission/controller/PowerController.h
@ -45,7 +45,7 @@ class PowerController : public ExtendedControllerBase, public ReceivesParameterM
  void calculateStateOfCharge();
  void watchStateOfCharge();
  ReturnValue_t calculateOpenCircuitVoltageCharge();
-  ReturnValue_t calculateCoulombCounterCharge();
+  ReturnValue_t calculateCoulombCounterCharge(double timeDelta);
  ReturnValue_t updateEpsData();
  float charge2stateOfCharge(float capacity, bool coulombCounter);
  ReturnValue_t lookUpTableOcvIdxFinder(float voltage, uint8_t& idx, bool paramCmd);
@ -57,9 +57,9 @@ class PowerController : public ExtendedControllerBase, public ReceivesParameterM
  float batteryMaximumCapacity = 2.6 * 2;            // [Ah]
  float coulombCounterVoltageUpperThreshold = 16.2;  // [V]
  double maxAllowedTimeDiff = 1.5;                   // [s]
-  float payloadOpLimitOn = 0.90;                     // [%]
+  float payloadOpLimitOn = 0.80;                     // [%]
-  float payloadOpLimitLow = 0.75;                    // [%]
+  float payloadOpLimitLow = 0.65;                    // [%]
-  float higherModesLimit = 0.6;                      // [%]
+  float higherModesLimit = 0.60;                     // [%]
  // OCV Look-up-Table {[Ah],[V]}
  static constexpr uint8_t LOOK_UP_TABLE_MAX_IDX = 99;
--- a/mission/controller/ThermalController.cpp
+++ b/mission/controller/ThermalController.cpp
@ -1641,7 +1641,11 @@ bool ThermalController::chooseHeater(heater::Switch& switchNr, heater::Switch re
  bool heaterAvailable = true;
  HasHealthIF::HealthState mainHealth = heaterHandler.getHealth(switchNr);
  heater::SwitchState mainState = heaterHandler.getSwitchState(switchNr);
  HasHealthIF::HealthState redHealth = heaterHandler.getHealth(redSwitchNr);
  if (mainHealth == HasHealthIF::EXTERNAL_CONTROL and mainState == heater::SwitchState::ON) {
    return false;
  }
  if (mainHealth != HasHealthIF::HEALTHY) {
    if (redHealth == HasHealthIF::HEALTHY) {
      switchNr = redSwitchNr;
@ -1656,6 +1660,7 @@ bool ThermalController::chooseHeater(heater::Switch& switchNr, heater::Switch re
  } else {
    ctrlCtx.redSwitchNrInUse = false;
  }
  return heaterAvailable;
 }
@ -1792,7 +1797,8 @@ void ThermalController::heaterMaxDurationControl(
  for (unsigned i = 0; i < heater::Switch::NUMBER_OF_SWITCHES; i++) {
    // Right now, we only track the maximum duration for heater which were commanded by the TCS
    // controller.
-    if (currentHeaterStates[i] == heater::SwitchState::ON and
+    if (heaterHandler.getHealth(static_cast<heater::Switch>(i)) != HasHealthIF::EXTERNAL_CONTROL and
        currentHeaterStates[i] == heater::SwitchState::ON and
        heaterStates[i].trackHeaterMaxBurnTime and
        heaterStates[i].heaterOnMaxBurnTime.hasTimedOut()) {
      heaterStates[i].switchTransition = false;
--- a/mission/controller/acs/AcsParameters.cpp
+++ b/mission/controller/acs/AcsParameters.cpp
@ -24,11 +24,23 @@ ReturnValue_t AcsParameters::getParameter(uint8_t domainId, uint8_t parameterId,
          parameterWrapper->set(onBoardParams.sampleTime);
          break;
        case 0x1:
-          parameterWrapper->set(onBoardParams.mekfViolationTimer);
+          parameterWrapper->set(onBoardParams.ptgCtrlLostTimer);
          break;
        case 0x2:
          parameterWrapper->set(onBoardParams.fusedRateSafeDuringEclipse);
          break;
        case 0x3:
          parameterWrapper->set(onBoardParams.fusedRateFromStr);
          break;
        case 0x4:
          parameterWrapper->set(onBoardParams.fusedRateFromQuest);
          break;
        case 0x5:
          parameterWrapper->set(onBoardParams.questFilterWeight);
          break;
        case 0x6:
          parameterWrapper->set(onBoardParams.questAngleLimit);
          break;
        default:
          return INVALID_IDENTIFIER_ID;
      }
@ -324,16 +336,16 @@ ReturnValue_t AcsParameters::getParameter(uint8_t domainId, uint8_t parameterId,
          parameterWrapper->setMatrix(rwMatrices.pseudoInverse);
          break;
        case 0x2:
-          parameterWrapper->setMatrix(rwMatrices.without1);
+          parameterWrapper->setMatrix(rwMatrices.pseudoInverseWithoutRW1);
          break;
        case 0x3:
-          parameterWrapper->setMatrix(rwMatrices.without2);
+          parameterWrapper->setMatrix(rwMatrices.pseudoInverseWithoutRW2);
          break;
        case 0x4:
-          parameterWrapper->setMatrix(rwMatrices.without3);
+          parameterWrapper->setMatrix(rwMatrices.pseudoInverseWithoutRW3);
          break;
        case 0x5:
-          parameterWrapper->setMatrix(rwMatrices.without4);
+          parameterWrapper->setMatrix(rwMatrices.pseudoInverseWithoutRW4);
          break;
        case 0x6:
          parameterWrapper->setVector(rwMatrices.nullspaceVector);
@ -423,7 +435,7 @@ ReturnValue_t AcsParameters::getParameter(uint8_t domainId, uint8_t parameterId,
          parameterWrapper->set(idleModeControllerParameters.desatOn);
          break;
        case 0x9:
-          parameterWrapper->set(idleModeControllerParameters.enableAntiStiction);
+          parameterWrapper->set(idleModeControllerParameters.useMekf);
          break;
        default:
          return INVALID_IDENTIFIER_ID;
@ -459,7 +471,7 @@ ReturnValue_t AcsParameters::getParameter(uint8_t domainId, uint8_t parameterId,
          parameterWrapper->set(targetModeControllerParameters.desatOn);
          break;
        case 0x9:
-          parameterWrapper->set(targetModeControllerParameters.enableAntiStiction);
+          parameterWrapper->set(targetModeControllerParameters.useMekf);
          break;
        case 0xA:
          parameterWrapper->setVector(targetModeControllerParameters.refDirection);
@ -528,7 +540,7 @@ ReturnValue_t AcsParameters::getParameter(uint8_t domainId, uint8_t parameterId,
          parameterWrapper->set(gsTargetModeControllerParameters.desatOn);
          break;
        case 0x9:
-          parameterWrapper->set(gsTargetModeControllerParameters.enableAntiStiction);
+          parameterWrapper->set(gsTargetModeControllerParameters.useMekf);
          break;
        case 0xA:
          parameterWrapper->setVector(gsTargetModeControllerParameters.refDirection);
@ -545,6 +557,9 @@ ReturnValue_t AcsParameters::getParameter(uint8_t domainId, uint8_t parameterId,
        case 0xE:
          parameterWrapper->set(gsTargetModeControllerParameters.altitudeTgt);
          break;
        case 0xF:
          parameterWrapper->set(gsTargetModeControllerParameters.rotRateLimit);
          break;
        default:
          return INVALID_IDENTIFIER_ID;
      }
@ -579,7 +594,7 @@ ReturnValue_t AcsParameters::getParameter(uint8_t domainId, uint8_t parameterId,
          parameterWrapper->set(nadirModeControllerParameters.desatOn);
          break;
        case 0x9:
-          parameterWrapper->set(nadirModeControllerParameters.enableAntiStiction);
+          parameterWrapper->set(nadirModeControllerParameters.useMekf);
          break;
        case 0xA:
          parameterWrapper->setVector(nadirModeControllerParameters.refDirection);
@ -627,7 +642,7 @@ ReturnValue_t AcsParameters::getParameter(uint8_t domainId, uint8_t parameterId,
          parameterWrapper->set(inertialModeControllerParameters.desatOn);
          break;
        case 0x9:
-          parameterWrapper->set(inertialModeControllerParameters.enableAntiStiction);
+          parameterWrapper->set(inertialModeControllerParameters.useMekf);
          break;
        case 0xA:
          parameterWrapper->setVector(inertialModeControllerParameters.tgtQuat);
@ -708,22 +723,25 @@ ReturnValue_t AcsParameters::getParameter(uint8_t domainId, uint8_t parameterId,
    case (0x11):  // KalmanFilterParameters
      switch (parameterId) {
        case 0x0:
-          parameterWrapper->set(kalmanFilterParameters.sensorNoiseSTR);
+          parameterWrapper->set(kalmanFilterParameters.sensorNoiseStr);
          break;
        case 0x1:
-          parameterWrapper->set(kalmanFilterParameters.sensorNoiseSS);
+          parameterWrapper->set(kalmanFilterParameters.sensorNoiseSus);
          break;
        case 0x2:
-          parameterWrapper->set(kalmanFilterParameters.sensorNoiseMAG);
+          parameterWrapper->set(kalmanFilterParameters.sensorNoiseMgm);
          break;
        case 0x3:
-          parameterWrapper->set(kalmanFilterParameters.sensorNoiseGYR);
+          parameterWrapper->set(kalmanFilterParameters.sensorNoiseGyr);
          break;
        case 0x4:
-          parameterWrapper->set(kalmanFilterParameters.sensorNoiseArwGYR);
+          parameterWrapper->set(kalmanFilterParameters.sensorNoiseGyrArw);
          break;
        case 0x5:
-          parameterWrapper->set(kalmanFilterParameters.sensorNoiseBsGYR);
+          parameterWrapper->set(kalmanFilterParameters.sensorNoiseGyrBs);
          break;
        case 0x6:
          parameterWrapper->set(kalmanFilterParameters.allowStr);
          break;
        default:
          return INVALID_IDENTIFIER_ID;
--- a/mission/controller/acs/AcsParameters.h
+++ b/mission/controller/acs/AcsParameters.h
@ -8,6 +8,9 @@
 typedef unsigned char uint8_t;
 class AcsParameters : public HasParametersIF {
 private:
  static constexpr double DEG2RAD = M_PI / 180.;
 public:
  AcsParameters();
  virtual ~AcsParameters();
@ -18,8 +21,12 @@ class AcsParameters : public HasParametersIF {
  struct OnBoardParams {
    double sampleTime = 0.4;  // [s]
-    uint16_t mekfViolationTimer = 750;
+    uint16_t ptgCtrlLostTimer = 750;
    uint8_t fusedRateSafeDuringEclipse = true;
    uint8_t fusedRateFromStr = true;
    uint8_t fusedRateFromQuest = true;
    double questFilterWeight = 0.9;
    double questAngleLimit = 5 * DEG2RAD;
  } onBoardParams;
  struct InertiaEIVE {
@ -75,9 +82,9 @@ class AcsParameters : public HasParametersIF {
                                       {-0.007534, 1.253879, 0.006812},
                                       {-0.037072, 0.006812, 1.313158}};
-    float mgm02variance[3] = {pow(3.2e-7, 2), pow(3.2e-7, 2), pow(4.1e-7, 2)};
+    double mgm02variance[3] = {pow(3.2e-7, 2), pow(3.2e-7, 2), pow(4.1e-7, 2)};
-    float mgm13variance[3] = {pow(1.5e-8, 2), pow(1.5e-8, 2), pow(1.5e-8, 2)};
+    double mgm13variance[3] = {pow(1.5e-8, 2), pow(1.5e-8, 2), pow(1.5e-8, 2)};
-    float mgm4variance[3] = {pow(1.7e-6, 2), pow(1.7e-6, 2), pow(1.7e-6, 2)};
+    double mgm4variance[3] = {pow(1.7e-6, 2), pow(1.7e-6, 2), pow(1.7e-6, 2)};
    float mgmVectorFilterWeight = 0.85;
    float mgmDerivativeFilterWeight = 0.99;
    uint8_t useMgm4 = false;
@ -770,7 +777,7 @@ class AcsParameters : public HasParametersIF {
         0.167666815691513, 0.163137400730063, -0.000609874123906977, -0.00205336098697513,
         -0.000889232196185857, -0.00168429567131815}};
    float susBrightnessThreshold = 0.7;
-    float susVectorFilterWeight = .85;
+    float susVectorFilterWeight = .95;
    float susRateFilterWeight = .99;
  } susHandlingParameters;
@ -787,10 +794,10 @@ class AcsParameters : public HasParametersIF {
    /* var = sigma^2, sigma = RND*sqrt(freq), following values are RND^2 and not var as freq is
     * assumed to be equal for the same class of sensors */
-    float gyr02variance[3] = {pow(4.6e-3, 2),   // RND_x = 3.0e-3 deg/s/sqrt(Hz) rms
+    double gyr02variance[3] = {pow(4.6e-3, 2),   // RND_x = 3.0e-3 deg/s/sqrt(Hz) rms
                               pow(4.6e-3, 2),   // RND_y = 3.0e-3 deg/s/sqrt(Hz) rms
                               pow(6.1e-3, 2)};  // RND_z = 4.3e-3 deg/s/sqrt(Hz) rms
-    float gyr13variance[3] = {pow(11e-3, 2), pow(11e-3, 2), pow(11e-3, 2)};
+    double gyr13variance[3] = {pow(11e-3, 2), pow(11e-3, 2), pow(11e-3, 2)};
    uint8_t preferAdis = false;
    float gyrFilterWeight = 0.6;
  } gyrHandlingParameters;
@ -809,19 +816,19 @@ class AcsParameters : public HasParametersIF {
  } rwHandlingParameters;
  struct RwMatrices {
-    double alignmentMatrix[3][4] = {{0.9205, 0.0000, -0.9205, 0.0000},
+    double alignmentMatrix[3][4] = {{-0.9205, 0.0000, 0.9205, 0.0000},
-                                    {0.0000, -0.9205, 0.0000, 0.9205},
+                                    {0.0000, 0.9205, 0.0000, -0.9205},
-                                    {0.3907, 0.3907, 0.3907, 0.3907}};
+                                    {-0.3907, -0.3907, -0.3907, -0.3907}};
    double pseudoInverse[4][3] = {
-        {0.5432, 0, 0.6398}, {0, -0.5432, 0.6398}, {-0.5432, 0, 0.6398}, {0, 0.5432, 0.6398}};
+        {-0.5432, 0, -0.6399}, {0, 0.5432, -0.6399}, {0.5432, 0, -0.6399}, {0, -0.5432, -0.6399}};
-    double without1[4][3] = {
+    double pseudoInverseWithoutRW1[4][3] = {
-        {0, 0, 0}, {0.5432, -0.5432, 1.2797}, {-1.0864, 0, 0}, {0.5432, 0.5432, 1.2797}};
+        {0, 0, 0}, {-0.5432, 0.5432, -1.2798}, {1.0864, 0, 0}, {-0.5432, -0.5432, -1.2798}};
-    double without2[4][3] = {
+    double pseudoInverseWithoutRW2[4][3] = {
-        {0.5432, -0.5432, 1.2797}, {0, 0, 0}, {-0.5432, -0.5432, 1.2797}, {0, 1.0864, 0}};
+        {-0.5432, 0.5432, -1.2798}, {0, 0, 0}, {0.5432, 0.5432, -1.2798}, {0, -1.0864, 0}};
-    double without3[4][3] = {
+    double pseudoInverseWithoutRW3[4][3] = {
-        {1.0864, 0, 0}, {-0.5432, -0.5432, 1.2797}, {0, 0, 0}, {-0.5432, 0.5432, 1.2797}};
+        {-1.0864, 0, 0}, {0.5432, 0.5432, -1.2798}, {0, 0, 0}, {0.5432, -0.5432, -1.2798}};
-    double without4[4][3] = {
+    double pseudoInverseWithoutRW4[4][3] = {
-        {0.5432, 0.5432, 1.2797}, {0, -1.0864, 0}, {-0.5432, 0.5432, 1.2797}, {0, 0, 0}};
+        {-0.5432, -0.5432, -1.2798}, {0, 1.0864, 0}, {0.5432, -0.5432, -1.2798}, {0, 0, 0}};
    double nullspaceVector[4] = {-1, 1, -1, 1};
  } rwMatrices;
@ -851,7 +858,7 @@ class AcsParameters : public HasParametersIF {
  struct PointingLawParameters {
    double zeta = 0.3;
    double om = 0.3;
-    double omMax = 1 * M_PI / 180;
+    double omMax = 1 * DEG2RAD;
    double qiMin = 0.1;
    double gainNullspace = 0.01;
@ -860,7 +867,7 @@ class AcsParameters : public HasParametersIF {
    double desatMomentumRef[3] = {0, 0, 0};
    double deSatGainFactor = 1000;
    uint8_t desatOn = true;
-    uint8_t enableAntiStiction = true;
+    uint8_t useMekf = true;
  } pointingLawParameters;
  struct IdleModeControllerParameters : PointingLawParameters {
@ -873,15 +880,15 @@ class AcsParameters : public HasParametersIF {
    uint8_t timeElapsedMax = 10;  // rot rate calculations
    // Default is Stuttgart GS
-    double latitudeTgt = 48.7495 * M_PI / 180.;   // [rad] Latitude
+    double latitudeTgt = 48.7495 * DEG2RAD;   // [rad] Latitude
-    double longitudeTgt = 9.10384 * M_PI / 180.;  // [rad] Longitude
+    double longitudeTgt = 9.10384 * DEG2RAD;  // [rad] Longitude
    double altitudeTgt = 500;                 // [m]
    // For one-axis control:
    uint8_t avoidBlindStr = true;
    double blindAvoidStart = 1.5;
    double blindAvoidStop = 2.5;
-    double blindRotRate = 1 * M_PI / 180;
+    double blindRotRate = 1. * DEG2RAD;
  } targetModeControllerParameters;
  struct GsTargetModeControllerParameters : PointingLawParameters {
@ -889,9 +896,10 @@ class AcsParameters : public HasParametersIF {
    uint8_t timeElapsedMax = 10;          // rot rate calculations
    // Default is Stuttgart GS
-    double latitudeTgt = 48.7495 * M_PI / 180.;   // [rad] Latitude
+    double latitudeTgt = 48.7495 * DEG2RAD;   // [rad] Latitude
-    double longitudeTgt = 9.10384 * M_PI / 180.;  // [rad] Longitude
+    double longitudeTgt = 9.10384 * DEG2RAD;  // [rad] Longitude
    double altitudeTgt = 500;                 // [m]
    double rotRateLimit = .75 * DEG2RAD;
  } gsTargetModeControllerParameters;
  struct NadirModeControllerParameters : PointingLawParameters {
@ -908,8 +916,8 @@ class AcsParameters : public HasParametersIF {
  } inertialModeControllerParameters;
  struct StrParameters {
-    double exclusionAngle = 20 * M_PI / 180;
+    double exclusionAngle = 20. * DEG2RAD;
-    double boresightAxis[3] = {0.7593, 0.0000, -0.6508};  // geometry frame
+    double boresightAxis[3] = {0.7593, 0.0000, -0.6508};  // body rf
  } strParameters;
  struct GpsParameters {
@ -922,25 +930,27 @@ class AcsParameters : public HasParametersIF {
  struct SunModelParameters {
    float domega = 36000.771;
-    float omega_0 = 280.46 * M_PI / 180.;  // RAAN plus argument of
+    float omega_0 = 280.46 * DEG2RAD;  // RAAN plus argument of
                                       // perigee
    float m_0 = 357.5277;              // coefficients for mean anomaly
    float dm = 35999.049;              // coefficients for mean anomaly
-    float e = 23.4392911 * M_PI / 180.;    // angle of earth's rotation axis
+    float e = 23.4392911 * DEG2RAD;    // angle of earth's rotation axis
-    float e1 = 0.74508 * M_PI / 180.;
+    float e1 = 0.74508 * DEG2RAD;
-    float p1 = 6892. / 3600. * M_PI / 180.;  // some parameter
+    float p1 = 6892. / 3600. * DEG2RAD;  // some parameter
-    float p2 = 72. / 3600. * M_PI / 180.;    // some parameter
+    float p2 = 72. / 3600. * DEG2RAD;    // some parameter
  } sunModelParameters;
  struct KalmanFilterParameters {
-    double sensorNoiseSTR = 0.1 * M_PI / 180;
+    double sensorNoiseStr = 0.0028 * DEG2RAD;
-    double sensorNoiseSS = 8 * M_PI / 180;
+    double sensorNoiseSus = 8. * DEG2RAD;
-    double sensorNoiseMAG = 4 * M_PI / 180;
+    double sensorNoiseMgm = 4. * DEG2RAD;
-    double sensorNoiseGYR = 0.1 * M_PI / 180;
+    double sensorNoiseGyr = 0.1 * DEG2RAD;
-    double sensorNoiseArwGYR = 3 * 0.0043 * M_PI / sqrt(10) / 180;  // Angular Random Walk
+    double sensorNoiseGyrArw = 3. * 0.0043 / sqrt(10) * DEG2RAD;  // Angular Random Walk
-    double sensorNoiseBsGYR = 3 * M_PI / 180 / 3600;                // Bias Stability
+    double sensorNoiseGyrBs = 3. / 3600. * DEG2RAD;               // Bias Stability
    uint8_t allowStr = true;
  } kalmanFilterParameters;
  struct MagnetorquerParameter {
@ -956,8 +966,8 @@ class AcsParameters : public HasParametersIF {
  struct DetumbleParameter {
    uint8_t detumblecounter = 75;  // 30 s
-    double omegaDetumbleStart = 2 * M_PI / 180;
+    double omegaDetumbleStart = 2 * DEG2RAD;
-    double omegaDetumbleEnd = 1 * M_PI / 180;
+    double omegaDetumbleEnd = 1 * DEG2RAD;
    double gainBdot = pow(10.0, -3.3);
    double gainFull = pow(10.0, -2.3);
    uint8_t useFullDetumbleLaw = false;
--- a/mission/controller/acs/AttitudeEstimation.cpp
+++ b/mission/controller/acs/AttitudeEstimation.cpp
@ -0,0 +1,123 @@
 #include "AttitudeEstimation.h"
 AttitudeEstimation::AttitudeEstimation(AcsParameters *acsParameters_) {
  acsParameters = acsParameters_;
 }
 AttitudeEstimation::~AttitudeEstimation() {}
 void AttitudeEstimation::quest(acsctrl::SusDataProcessed *susData,
                               acsctrl::MgmDataProcessed *mgmData,
                               acsctrl::AttitudeEstimationData *attitudeEstimationData) {
  if (not(susData->susVecTot.isValid() and susData->sunIjkModel.isValid() and
          mgmData->mgmVecTot.isValid() and mgmData->magIgrfModel.isValid())) {
    {
      PoolReadGuard pg{attitudeEstimationData};
      if (pg.getReadResult() == returnvalue::OK) {
        std::memcpy(attitudeEstimationData->quatQuest.value, ZERO_VEC4, 4 * sizeof(double));
        attitudeEstimationData->quatQuest.setValid(false);
      }
    }
    return;
  }
  // Normalize Data
  double normMgmB[3] = {0, 0, 0}, normMgmI[3] = {0, 0, 0}, normSusB[3] = {0, 0, 0},
         normSusI[3] = {0, 0, 0};
  VectorOperations<double>::normalize(susData->susVecTot.value, normSusB, 3);
  VectorOperations<double>::normalize(susData->sunIjkModel.value, normSusI, 3);
  VectorOperations<double>::normalize(mgmData->mgmVecTot.value, normMgmB, 3);
  VectorOperations<double>::normalize(mgmData->magIgrfModel.value, normMgmI, 3);
  if ((std::acos(VectorOperations<double>::dot(normSusB, normMgmB)) <
       acsParameters->onBoardParams.questAngleLimit) or
      (std::acos(VectorOperations<double>::dot(normSusI, normMgmI)) <
       acsParameters->onBoardParams.questAngleLimit)) {
    {
      PoolReadGuard pg{attitudeEstimationData};
      if (pg.getReadResult() == returnvalue::OK) {
        std::memcpy(attitudeEstimationData->quatQuest.value, ZERO_VEC4, 4 * sizeof(double));
        attitudeEstimationData->quatQuest.setValid(false);
      }
    }
    return;
  }
  // Create Helper Vectors
  double normHelperB[3] = {0, 0, 0}, normHelperI[3] = {0, 0, 0}, helperCross[3] = {0, 0, 0},
         helperSum[3] = {0, 0, 0};
  VectorOperations<double>::cross(normSusB, normMgmB, normHelperB);
  VectorOperations<double>::cross(normSusI, normMgmI, normHelperI);
  VectorOperations<double>::normalize(normHelperB, normHelperB, 3);
  VectorOperations<double>::normalize(normHelperI, normHelperI, 3);
  VectorOperations<double>::cross(normHelperB, normHelperI, helperCross);
  VectorOperations<double>::add(normHelperB, normHelperI, helperSum, 3);
  // Sensor Weights
  double kSus = 0, kMgm = 0;
  kSus = std::pow(acsParameters->kalmanFilterParameters.sensorNoiseSus, -2);
  kMgm = std::pow(acsParameters->kalmanFilterParameters.sensorNoiseMgm, -2);
  // Weighted Vectors
  double weightedSusB[3] = {0, 0, 0}, weightedMgmB[3] = {0, 0, 0}, kSusVec[3] = {0, 0, 0},
         kMgmVec[3] = {0, 0, 0}, kSumVec[3] = {0, 0, 0};
  VectorOperations<double>::mulScalar(normSusB, kSus, weightedSusB, 3);
  VectorOperations<double>::mulScalar(normMgmB, kMgm, weightedMgmB, 3);
  VectorOperations<double>::cross(weightedSusB, normSusI, kSusVec);
  VectorOperations<double>::cross(weightedMgmB, normMgmI, kMgmVec);
  VectorOperations<double>::add(kSusVec, kMgmVec, kSumVec, 3);
  // Some weird Angles
  double alpha = (1 + VectorOperations<double>::dot(normHelperB, normHelperI)) *
                     (VectorOperations<double>::dot(weightedSusB, normSusI) +
                      VectorOperations<double>::dot(weightedMgmB, normMgmI)) +
                 VectorOperations<double>::dot(helperCross, kSumVec);
  double beta = VectorOperations<double>::dot(helperSum, kSumVec);
  double gamma = std::sqrt(std::pow(alpha, 2) + std::pow(beta, 2));
  // I don't even know what this is supposed to be
  double constPlus =
      1. / (2 * std::sqrt(gamma * (gamma + alpha) *
                          (1 + VectorOperations<double>::dot(normHelperB, normHelperI))));
  double constMinus =
      1. / (2 * std::sqrt(gamma * (gamma - alpha) *
                          (1 + VectorOperations<double>::dot(normHelperB, normHelperI))));
  // Calculate Quaternion
  double qBI[4] = {0, 0, 0, 0}, qRotVecTot[3] = {0, 0, 0}, qRotVecPt0[3] = {0, 0, 0},
         qRotVecPt1[3] = {0, 0, 0};
  if (alpha >= 0) {
    // Scalar Part
    qBI[3] = (gamma + alpha) * (1 + VectorOperations<double>::dot(normHelperB, normHelperI));
    // Rotational Vector Part
    VectorOperations<double>::mulScalar(helperCross, gamma + alpha, qRotVecPt0, 3);
    VectorOperations<double>::mulScalar(helperSum, beta, qRotVecPt1, 3);
    VectorOperations<double>::add(qRotVecPt0, qRotVecPt1, qRotVecTot, 3);
    std::memcpy(qBI, qRotVecTot, sizeof(qRotVecTot));
    VectorOperations<double>::mulScalar(qBI, constPlus, qBI, 4);
    QuaternionOperations::normalize(qBI, qBI);
  } else {
    // Scalar Part
    qBI[3] = (beta) * (1 + VectorOperations<double>::dot(normHelperB, normHelperI));
    // Rotational Vector Part
    VectorOperations<double>::mulScalar(helperCross, beta, qRotVecPt0, 3);
    VectorOperations<double>::mulScalar(helperSum, gamma - alpha, qRotVecPt1, 3);
    VectorOperations<double>::add(qRotVecPt0, qRotVecPt1, qRotVecTot, 3);
    std::memcpy(qBI, qRotVecTot, sizeof(qRotVecTot));
    VectorOperations<double>::mulScalar(qBI, constMinus, qBI, 4);
    QuaternionOperations::normalize(qBI, qBI);
  }
  // Low Pass
  if (VectorOperations<double>::norm(qOld, 4) != 0.0) {
    QuaternionOperations::slerp(qBI, qOld, acsParameters->onBoardParams.questFilterWeight, qBI);
  }
  {
    PoolReadGuard pg{attitudeEstimationData};
    if (pg.getReadResult() == returnvalue::OK) {
      std::memcpy(attitudeEstimationData->quatQuest.value, qBI, 4 * sizeof(double));
      attitudeEstimationData->quatQuest.setValid(true);
    }
  }
 }
--- a/mission/controller/acs/AttitudeEstimation.h
+++ b/mission/controller/acs/AttitudeEstimation.h
@ -0,0 +1,31 @@
 #ifndef MISSION_CONTROLLER_ACS_ATTITUDEESTIMATION_H_
 #define MISSION_CONTROLLER_ACS_ATTITUDEESTIMATION_H_
 #include <fsfw/datapool/PoolReadGuard.h>
 #include <fsfw/globalfunctions/math/QuaternionOperations.h>
 #include <fsfw/globalfunctions/math/VectorOperations.h>
 #include <mission/controller/acs/AcsParameters.h>
 #include <mission/controller/controllerdefinitions/AcsCtrlDefinitions.h>
 #include <cmath>
 #include <iostream>
 class AttitudeEstimation {
 public:
  AttitudeEstimation(AcsParameters *acsParameters_);
  virtual ~AttitudeEstimation();
  ;
  void quest(acsctrl::SusDataProcessed *susData, acsctrl::MgmDataProcessed *mgmData,
             acsctrl::AttitudeEstimationData *attitudeEstimation);
 protected:
 private:
  AcsParameters *acsParameters;
  double qOld[4] = {0, 0, 0, 0};
  static constexpr double ZERO_VEC4[4] = {0, 0, 0, 0};
 };
 #endif /* MISSION_CONTROLLER_ACS_ATTITUDEESTIMATION_H_ */
--- a/mission/controller/acs/CMakeLists.txt
+++ b/mission/controller/acs/CMakeLists.txt
@ -2,6 +2,7 @@ target_sources(
  ${LIB_EIVE_MISSION}
  PRIVATE AcsParameters.cpp
          ActuatorCmd.cpp
          AttitudeEstimation.cpp
          FusedRotationEstimation.cpp
          Guidance.cpp
          Igrf13Model.cpp
--- a/mission/controller/acs/FusedRotationEstimation.cpp
+++ b/mission/controller/acs/FusedRotationEstimation.cpp
@ -4,19 +4,214 @@ FusedRotationEstimation::FusedRotationEstimation(AcsParameters *acsParameters_)
  acsParameters = acsParameters_;
 }
-void FusedRotationEstimation::estimateFusedRotationRateSafe(
+void FusedRotationEstimation::estimateFusedRotationRate(
    const Mode_t mode, acsctrl::SusDataProcessed *susDataProcessed,
    acsctrl::MgmDataProcessed *mgmDataProcessed, acsctrl::GyrDataProcessed *gyrDataProcessed,
    ACS::SensorValues *sensorValues, acsctrl::AttitudeEstimationData *attitudeEstimationData,
    const double timeDelta, acsctrl::FusedRotRateSourcesData *fusedRotRateSourcesData,
    acsctrl::FusedRotRateData *fusedRotRateData) {
  estimateFusedRotationRateStr(sensorValues, timeDelta, fusedRotRateSourcesData);
  estimateFusedRotationRateQuest(attitudeEstimationData, timeDelta, fusedRotRateSourcesData);
  estimateFusedRotationRateSusMgm(susDataProcessed, mgmDataProcessed, gyrDataProcessed,
                                  fusedRotRateSourcesData);
  if (not(mode == acs::AcsMode::SAFE) and (fusedRotRateSourcesData->rotRateTotalStr.isValid() and
                                           acsParameters->onBoardParams.fusedRateFromStr)) {
    PoolReadGuard pg(fusedRotRateData);
    if (pg.getReadResult() == returnvalue::OK) {
      std::memcpy(fusedRotRateData->rotRateTotalSource.value,
                  fusedRotRateSourcesData->rotRateTotalStr.value, 3 * sizeof(double));
      fusedRotRateData->rotRateTotalSource.setValid(true);
      fusedRotRateData->rotRateSource.value = acs::rotrate::Source::STR;
      fusedRotRateData->rotRateSource.setValid(true);
    }
  } else if (not(mode == acs::AcsMode::SAFE) and
             (fusedRotRateSourcesData->rotRateTotalQuest.isValid() and
              acsParameters->onBoardParams.fusedRateFromQuest)) {
    PoolReadGuard pg(fusedRotRateData);
    if (pg.getReadResult() == returnvalue::OK) {
      std::memcpy(fusedRotRateData->rotRateTotalSource.value,
                  fusedRotRateSourcesData->rotRateTotalQuest.value, 3 * sizeof(double));
      fusedRotRateData->rotRateTotalSource.setValid(true);
      fusedRotRateData->rotRateSource.value = acs::rotrate::Source::QUEST;
      fusedRotRateData->rotRateSource.setValid(true);
    }
  } else if (fusedRotRateSourcesData->rotRateTotalSusMgm.isValid()) {
    std::memcpy(fusedRotRateData->rotRateTotalSource.value,
                fusedRotRateSourcesData->rotRateTotalSusMgm.value, 3 * sizeof(double));
    fusedRotRateData->rotRateTotalSource.setValid(true);
    fusedRotRateData->rotRateSource.value = acs::rotrate::Source::SUSMGM;
    fusedRotRateData->rotRateSource.setValid(true);
  } else {
    PoolReadGuard pg(fusedRotRateData);
    if (pg.getReadResult() == returnvalue::OK) {
      std::memcpy(fusedRotRateData->rotRateTotalSource.value, ZERO_VEC3, 3 * sizeof(double));
      fusedRotRateData->rotRateTotalSource.setValid(false);
      fusedRotRateData->rotRateSource.value = acs::rotrate::Source::NONE;
      fusedRotRateData->rotRateSource.setValid(true);
    }
  }
  if (fusedRotRateSourcesData->rotRateTotalSusMgm.isValid()) {
    std::memcpy(fusedRotRateData->rotRateTotalSusMgm.value,
                fusedRotRateSourcesData->rotRateTotalSusMgm.value, 3 * sizeof(double));
    fusedRotRateData->rotRateTotalSusMgm.setValid(true);
  } else {
    PoolReadGuard pg(fusedRotRateData);
    if (pg.getReadResult() == returnvalue::OK) {
      std::memcpy(fusedRotRateData->rotRateTotalSusMgm.value, ZERO_VEC3, 3 * sizeof(double));
      fusedRotRateData->rotRateTotalSusMgm.setValid(false);
    }
  }
 }
 void FusedRotationEstimation::estimateFusedRotationRateStr(
    ACS::SensorValues *sensorValues, const double timeDelta,
    acsctrl::FusedRotRateSourcesData *fusedRotRateSourcesData) {
  if (not(sensorValues->strSet.caliQw.isValid() and sensorValues->strSet.caliQx.isValid() and
          sensorValues->strSet.caliQy.isValid() and sensorValues->strSet.caliQz.isValid())) {
    {
      PoolReadGuard pg(fusedRotRateSourcesData);
      if (pg.getReadResult() == returnvalue::OK) {
        std::memcpy(fusedRotRateSourcesData->rotRateTotalStr.value, ZERO_VEC3, 3 * sizeof(double));
        fusedRotRateSourcesData->rotRateTotalStr.setValid(false);
      }
    }
    std::memcpy(quatOldStr, ZERO_VEC4, sizeof(quatOldStr));
    return;
  }
  double quatNew[4] = {sensorValues->strSet.caliQx.value, sensorValues->strSet.caliQy.value,
                       sensorValues->strSet.caliQz.value, sensorValues->strSet.caliQw.value};
  if (VectorOperations<double>::norm(quatOldStr, 4) != 0 and timeDelta != 0) {
    double quatOldInv[4] = {0, 0, 0, 0};
    double quatDelta[4] = {0, 0, 0, 0};
    QuaternionOperations::inverse(quatOldStr, quatOldInv);
    QuaternionOperations::multiply(quatNew, quatOldInv, quatDelta);
    if (VectorOperations<double>::norm(quatDelta, 4) != 0.0) {
      QuaternionOperations::normalize(quatDelta);
    }
    double rotVec[3] = {0, 0, 0};
    double angle = QuaternionOperations::getAngle(quatDelta);
    if (VectorOperations<double>::norm(quatDelta, 3) == 0.0) {
      {
        PoolReadGuard pg(fusedRotRateSourcesData);
        if (pg.getReadResult() == returnvalue::OK) {
          std::memcpy(fusedRotRateSourcesData->rotRateTotalStr.value, ZERO_VEC3,
                      3 * sizeof(double));
          fusedRotRateSourcesData->rotRateTotalStr.setValid(true);
        }
      }
      std::memcpy(quatOldStr, quatNew, sizeof(quatOldStr));
      return;
    }
    VectorOperations<double>::normalize(quatDelta, rotVec, 3);
    VectorOperations<double>::mulScalar(rotVec, angle / timeDelta, rotVec, 3);
    {
      PoolReadGuard pg(fusedRotRateSourcesData);
      if (pg.getReadResult() == returnvalue::OK) {
        std::memcpy(fusedRotRateSourcesData->rotRateTotalStr.value, rotVec, 3 * sizeof(double));
        fusedRotRateSourcesData->rotRateTotalStr.setValid(true);
      }
    }
    std::memcpy(quatOldStr, quatNew, sizeof(quatOldStr));
    return;
  }
  {
    PoolReadGuard pg(fusedRotRateSourcesData);
    if (pg.getReadResult() == returnvalue::OK) {
      std::memcpy(fusedRotRateSourcesData->rotRateTotalStr.value, ZERO_VEC3, 3 * sizeof(double));
      fusedRotRateSourcesData->rotRateTotalStr.setValid(false);
    }
  }
  std::memcpy(quatOldStr, quatNew, sizeof(quatOldStr));
  return;
 }
 void FusedRotationEstimation::estimateFusedRotationRateQuest(
    acsctrl::AttitudeEstimationData *attitudeEstimationData, const double timeDelta,
    acsctrl::FusedRotRateSourcesData *fusedRotRateSourcesData) {
  if (not attitudeEstimationData->quatQuest.isValid()) {
    {
      PoolReadGuard pg(fusedRotRateSourcesData);
      if (pg.getReadResult() == returnvalue::OK) {
        std::memcpy(fusedRotRateSourcesData->rotRateTotalQuest.value, ZERO_VEC3,
                    3 * sizeof(double));
        fusedRotRateSourcesData->rotRateTotalQuest.setValid(false);
      }
    }
    std::memcpy(quatOldQuest, ZERO_VEC4, sizeof(quatOldQuest));
  }
  if (VectorOperations<double>::norm(quatOldQuest, 4) != 0 and timeDelta != 0) {
    double quatOldInv[4] = {0, 0, 0, 0};
    double quatDelta[4] = {0, 0, 0, 0};
    QuaternionOperations::inverse(quatOldQuest, quatOldInv);
    QuaternionOperations::multiply(attitudeEstimationData->quatQuest.value, quatOldInv, quatDelta);
    if (VectorOperations<double>::norm(quatDelta, 4) != 0.0) {
      QuaternionOperations::normalize(quatDelta);
    }
    double rotVec[3] = {0, 0, 0};
    double angle = QuaternionOperations::getAngle(quatDelta);
    if (VectorOperations<double>::norm(quatDelta, 3) == 0.0) {
      {
        PoolReadGuard pg(fusedRotRateSourcesData);
        if (pg.getReadResult() == returnvalue::OK) {
          std::memcpy(fusedRotRateSourcesData->rotRateTotalQuest.value, ZERO_VEC3,
                      3 * sizeof(double));
          fusedRotRateSourcesData->rotRateTotalQuest.setValid(true);
        }
      }
      std::memcpy(quatOldQuest, attitudeEstimationData->quatQuest.value, sizeof(quatOldQuest));
      return;
    }
    VectorOperations<double>::normalize(quatDelta, rotVec, 3);
    VectorOperations<double>::mulScalar(rotVec, angle / timeDelta, rotVec, 3);
    {
      PoolReadGuard pg(fusedRotRateSourcesData);
      if (pg.getReadResult() == returnvalue::OK) {
        std::memcpy(fusedRotRateSourcesData->rotRateTotalQuest.value, rotVec, 3 * sizeof(double));
        fusedRotRateSourcesData->rotRateTotalQuest.setValid(true);
      }
    }
    std::memcpy(quatOldQuest, attitudeEstimationData->quatQuest.value, sizeof(quatOldQuest));
    return;
  }
  {
    PoolReadGuard pg(fusedRotRateSourcesData);
    if (pg.getReadResult() == returnvalue::OK) {
      std::memcpy(fusedRotRateSourcesData->rotRateTotalQuest.value, ZERO_VEC3, 3 * sizeof(double));
      fusedRotRateSourcesData->rotRateTotalQuest.setValid(false);
    }
  }
  std::memcpy(quatOldQuest, attitudeEstimationData->quatQuest.value, sizeof(quatOldQuest));
  return;
 }
 void FusedRotationEstimation::estimateFusedRotationRateSusMgm(
    acsctrl::SusDataProcessed *susDataProcessed, acsctrl::MgmDataProcessed *mgmDataProcessed,
-    acsctrl::GyrDataProcessed *gyrDataProcessed, acsctrl::FusedRotRateData *fusedRotRateData) {
+    acsctrl::GyrDataProcessed *gyrDataProcessed,
    acsctrl::FusedRotRateSourcesData *fusedRotRateSourcesData) {
  if ((not mgmDataProcessed->mgmVecTot.isValid() and not susDataProcessed->susVecTot.isValid() and
-       not fusedRotRateData->rotRateTotal.isValid()) or
+       not fusedRotRateSourcesData->rotRateTotalSusMgm.isValid()) or
      (not susDataProcessed->susVecTotDerivative.isValid() and
       not mgmDataProcessed->mgmVecTotDerivative.isValid())) {
    {
-      PoolReadGuard pg(fusedRotRateData);
+      PoolReadGuard pg(fusedRotRateSourcesData);
-      std::memcpy(fusedRotRateData->rotRateOrthogonal.value, ZERO_VEC, 3 * sizeof(double));
+      if (pg.getReadResult() == returnvalue::OK) {
-      std::memcpy(fusedRotRateData->rotRateParallel.value, ZERO_VEC, 3 * sizeof(double));
+        std::memcpy(fusedRotRateSourcesData->rotRateOrthogonalSusMgm.value, ZERO_VEC3,
-      std::memcpy(fusedRotRateData->rotRateTotal.value, ZERO_VEC, 3 * sizeof(double));
+                    3 * sizeof(double));
-      fusedRotRateData->setValidity(false, true);
+        fusedRotRateSourcesData->rotRateOrthogonalSusMgm.setValid(false);
        std::memcpy(fusedRotRateSourcesData->rotRateParallelSusMgm.value, ZERO_VEC3,
                    3 * sizeof(double));
        fusedRotRateSourcesData->rotRateParallelSusMgm.setValid(false);
        std::memcpy(fusedRotRateSourcesData->rotRateTotalSusMgm.value, ZERO_VEC3,
                    3 * sizeof(double));
        fusedRotRateSourcesData->rotRateTotalSusMgm.setValid(false);
      }
    }
    // store for calculation of angular acceleration
    if (gyrDataProcessed->gyrVecTot.isValid()) {
@ -25,7 +220,7 @@ void FusedRotationEstimation::estimateFusedRotationRateSafe(
    return;
  }
  if (not susDataProcessed->susVecTot.isValid()) {
-    estimateFusedRotationRateEclipse(gyrDataProcessed, fusedRotRateData);
+    estimateFusedRotationRateEclipse(gyrDataProcessed, fusedRotRateSourcesData);
    // store for calculation of angular acceleration
    if (gyrDataProcessed->gyrVecTot.isValid()) {
      std::memcpy(rotRateOldB, gyrDataProcessed->gyrVecTot.value, 3 * sizeof(double));
@ -49,7 +244,7 @@ void FusedRotationEstimation::estimateFusedRotationRateSafe(
    VectorOperations<double>::mulScalar(susDataProcessed->susVecTot.value, omegaParallel,
                                        fusedRotRateParallel, 3);
  } else {
-    estimateFusedRotationRateEclipse(gyrDataProcessed, fusedRotRateData);
+    estimateFusedRotationRateEclipse(gyrDataProcessed, fusedRotRateSourcesData);
    // store for calculation of angular acceleration
    if (gyrDataProcessed->gyrVecTot.isValid()) {
      std::memcpy(rotRateOldB, gyrDataProcessed->gyrVecTot.value, 3 * sizeof(double));
@ -71,12 +266,18 @@ void FusedRotationEstimation::estimateFusedRotationRateSafe(
  VectorOperations<double>::add(fusedRotRateParallel, fusedRotRateOrthogonal, fusedRotRateTotal);
  {
-    PoolReadGuard pg(fusedRotRateData);
+    PoolReadGuard pg(fusedRotRateSourcesData);
-    std::memcpy(fusedRotRateData->rotRateOrthogonal.value, fusedRotRateOrthogonal,
+    if (pg.getReadResult() == returnvalue::OK) {
      std::memcpy(fusedRotRateSourcesData->rotRateOrthogonalSusMgm.value, fusedRotRateOrthogonal,
                  3 * sizeof(double));
-    std::memcpy(fusedRotRateData->rotRateParallel.value, fusedRotRateParallel, 3 * sizeof(double));
+      fusedRotRateSourcesData->rotRateOrthogonalSusMgm.setValid(true);
-    std::memcpy(fusedRotRateData->rotRateTotal.value, fusedRotRateTotal, 3 * sizeof(double));
+      std::memcpy(fusedRotRateSourcesData->rotRateParallelSusMgm.value, fusedRotRateParallel,
-    fusedRotRateData->setValidity(true, true);
+                  3 * sizeof(double));
      fusedRotRateSourcesData->rotRateParallelSusMgm.setValid(true);
      std::memcpy(fusedRotRateSourcesData->rotRateTotalSusMgm.value, fusedRotRateTotal,
                  3 * sizeof(double));
      fusedRotRateSourcesData->rotRateTotalSusMgm.setValid(true);
    }
  }
  // store for calculation of angular acceleration
@ -86,31 +287,44 @@ void FusedRotationEstimation::estimateFusedRotationRateSafe(
 }
 void FusedRotationEstimation::estimateFusedRotationRateEclipse(
-    acsctrl::GyrDataProcessed *gyrDataProcessed, acsctrl::FusedRotRateData *fusedRotRateData) {
+    acsctrl::GyrDataProcessed *gyrDataProcessed,
    acsctrl::FusedRotRateSourcesData *fusedRotRateSourcesData) {
  if (not acsParameters->onBoardParams.fusedRateSafeDuringEclipse or
      not gyrDataProcessed->gyrVecTot.isValid() or
-      VectorOperations<double>::norm(fusedRotRateData->rotRateTotal.value, 3) == 0) {
+      VectorOperations<double>::norm(fusedRotRateSourcesData->rotRateTotalSusMgm.value, 3) == 0) {
    {
-      PoolReadGuard pg(fusedRotRateData);
+      PoolReadGuard pg(fusedRotRateSourcesData);
-      std::memcpy(fusedRotRateData->rotRateOrthogonal.value, ZERO_VEC, 3 * sizeof(double));
+      if (pg.getReadResult() == returnvalue::OK) {
-      std::memcpy(fusedRotRateData->rotRateParallel.value, ZERO_VEC, 3 * sizeof(double));
+        std::memcpy(fusedRotRateSourcesData->rotRateOrthogonalSusMgm.value, ZERO_VEC3,
-      std::memcpy(fusedRotRateData->rotRateTotal.value, ZERO_VEC, 3 * sizeof(double));
+                    3 * sizeof(double));
-      fusedRotRateData->setValidity(false, true);
+        fusedRotRateSourcesData->rotRateOrthogonalSusMgm.setValid(false);
        std::memcpy(fusedRotRateSourcesData->rotRateParallelSusMgm.value, ZERO_VEC3,
                    3 * sizeof(double));
        fusedRotRateSourcesData->rotRateParallelSusMgm.setValid(false);
        std::memcpy(fusedRotRateSourcesData->rotRateTotalSusMgm.value, ZERO_VEC3,
                    3 * sizeof(double));
        fusedRotRateSourcesData->rotRateTotalSusMgm.setValid(false);
      }
    }
    return;
  }
  double angAccelB[3] = {0, 0, 0};
  VectorOperations<double>::subtract(gyrDataProcessed->gyrVecTot.value, rotRateOldB, angAccelB, 3);
  double fusedRotRateTotal[3] = {0, 0, 0};
-  VectorOperations<double>::add(fusedRotRateData->rotRateTotal.value, angAccelB, fusedRotRateTotal,
+  VectorOperations<double>::add(fusedRotRateSourcesData->rotRateTotalSusMgm.value, angAccelB,
-                                3);
+                                fusedRotRateTotal, 3);
  {
-    PoolReadGuard pg(fusedRotRateData);
+    PoolReadGuard pg(fusedRotRateSourcesData);
-    std::memcpy(fusedRotRateData->rotRateOrthogonal.value, ZERO_VEC, 3 * sizeof(double));
+    if (pg.getReadResult() == returnvalue::OK) {
-    fusedRotRateData->rotRateOrthogonal.setValid(false);
+      std::memcpy(fusedRotRateSourcesData->rotRateOrthogonalSusMgm.value, ZERO_VEC3,
-    std::memcpy(fusedRotRateData->rotRateParallel.value, ZERO_VEC, 3 * sizeof(double));
+                  3 * sizeof(double));
-    fusedRotRateData->rotRateParallel.setValid(false);
+      fusedRotRateSourcesData->rotRateOrthogonalSusMgm.setValid(false);
-    std::memcpy(fusedRotRateData->rotRateTotal.value, fusedRotRateTotal, 3 * sizeof(double));
+      std::memcpy(fusedRotRateSourcesData->rotRateParallelSusMgm.value, ZERO_VEC3,
-    fusedRotRateData->rotRateTotal.setValid(true);
+                  3 * sizeof(double));
      fusedRotRateSourcesData->rotRateParallelSusMgm.setValid(false);
      std::memcpy(fusedRotRateSourcesData->rotRateTotalSusMgm.value, fusedRotRateTotal,
                  3 * sizeof(double));
      fusedRotRateSourcesData->rotRateTotalSusMgm.setValid(true);
    }
  }
 }
--- a/mission/controller/acs/FusedRotationEstimation.h
+++ b/mission/controller/acs/FusedRotationEstimation.h
@ -2,28 +2,46 @@
 #define MISSION_CONTROLLER_ACS_FUSEDROTATIONESTIMATION_H_
 #include <fsfw/datapool/PoolReadGuard.h>
 #include <fsfw/globalfunctions/math/QuaternionOperations.h>
 #include <fsfw/globalfunctions/math/VectorOperations.h>
 #include <mission/controller/acs/AcsParameters.h>
 #include <mission/controller/acs/SensorValues.h>
 #include <mission/controller/controllerdefinitions/AcsCtrlDefinitions.h>
 class FusedRotationEstimation {
 public:
  FusedRotationEstimation(AcsParameters *acsParameters_);
-  void estimateFusedRotationRateSafe(acsctrl::SusDataProcessed *susDataProcessed,
+  void estimateFusedRotationRate(const Mode_t mode, acsctrl::SusDataProcessed *susDataProcessed,
                                 acsctrl::MgmDataProcessed *mgmDataProcessed,
                                 acsctrl::GyrDataProcessed *gyrDataProcessed,
                                 ACS::SensorValues *sensorValues,
                                 acsctrl::AttitudeEstimationData *attitudeEstimationData,
                                 const double timeDelta,
                                 acsctrl::FusedRotRateSourcesData *fusedRotRateSourcesData,
                                 acsctrl::FusedRotRateData *fusedRotRateData);
 protected:
 private:
-  static constexpr double ZERO_VEC[3] = {0, 0, 0};
+  static constexpr double ZERO_VEC3[3] = {0, 0, 0};
  static constexpr double ZERO_VEC4[4] = {0, 0, 0, 0};
  AcsParameters *acsParameters;
  double quatOldQuest[4] = {0, 0, 0, 0};
  double quatOldStr[4] = {0, 0, 0, 0};
  double rotRateOldB[3] = {0, 0, 0};
  void estimateFusedRotationRateSusMgm(acsctrl::SusDataProcessed *susDataProcessed,
                                       acsctrl::MgmDataProcessed *mgmDataProcessed,
                                       acsctrl::GyrDataProcessed *gyrDataProcessed,
                                       acsctrl::FusedRotRateSourcesData *fusedRotRateSourcesData);
  void estimateFusedRotationRateEclipse(acsctrl::GyrDataProcessed *gyrDataProcessed,
-                                        acsctrl::FusedRotRateData *fusedRotRateData);
+                                        acsctrl::FusedRotRateSourcesData *fusedRotRateSourcesData);
  void estimateFusedRotationRateQuest(acsctrl::AttitudeEstimationData *attitudeEstimationData,
                                      const double timeDelta,
                                      acsctrl::FusedRotRateSourcesData *fusedRotRateSourcesData);
  void estimateFusedRotationRateStr(ACS::SensorValues *sensorValues, const double timeDelta,
                                    acsctrl::FusedRotRateSourcesData *fusedRotRateSourcesData);
 };
 #endif /* MISSION_CONTROLLER_ACS_FUSEDROTATIONESTIMATION_H_ */
--- a/mission/controller/acs/Guidance.cpp
+++ b/mission/controller/acs/Guidance.cpp
@ -1,422 +1,312 @@
 #include "Guidance.h"
 #include <fsfw/datapool/PoolReadGuard.h>
 #include <fsfw/globalfunctions/math/MatrixOperations.h>
 #include <fsfw/globalfunctions/math/QuaternionOperations.h>
 #include <fsfw/globalfunctions/math/VectorOperations.h>
 #include <math.h>
 #include <filesystem>
 #include "string.h"
 #include "util/CholeskyDecomposition.h"
 #include "util/MathOperations.h"
 Guidance::Guidance(AcsParameters *acsParameters_) { acsParameters = acsParameters_; }
 Guidance::~Guidance() {}
-void Guidance::targetQuatPtgSingleAxis(timeval now, double posSatE[3], double velSatE[3],
+void Guidance::targetQuatPtgIdle(timeval timeAbsolute, const double timeDelta,
-                                       double sunDirI[3], double refDirB[3], double quatBI[4],
+                                 const double sunDirI[3], const double posSatF[4],
                                 double targetQuat[4], double targetSatRotRate[3]) {
-  //-------------------------------------------------------------------------------------
+  // positive z-Axis of EIVE in direction of sun
-  //	Calculation of target quaternion to groundstation or given latitude, longitude and altitude
+  double zAxisIX[3] = {0, 0, 0};
-  //-------------------------------------------------------------------------------------
+  VectorOperations<double>::normalize(sunDirI, zAxisIX, 3);
  // transform longitude, latitude and altitude to ECEF
  double targetE[3] = {0, 0, 0};
-  MathOperations<double>::cartesianFromLatLongAlt(
+  // determine helper vector to point x-Axis and therefore the STR away from Earth
-      acsParameters->targetModeControllerParameters.latitudeTgt,
+  double helperXI[3] = {0, 0, 0}, posSatI[3] = {0, 0, 0};
-      acsParameters->targetModeControllerParameters.longitudeTgt,
+  CoordinateTransformations::positionEcfToEci(posSatF, posSatI, &timeAbsolute);
-      acsParameters->targetModeControllerParameters.altitudeTgt, targetE);
+  VectorOperations<double>::normalize(posSatI, helperXI, 3);
-  // target direction in the ECEF frame
+  // construct y-axis from helper vector and z-axis
-  double targetDirE[3] = {0, 0, 0};
+  double yAxisIX[3] = {0, 0, 0};
-  VectorOperations<double>::subtract(targetE, posSatE, targetDirE, 3);
+  VectorOperations<double>::cross(zAxisIX, helperXI, yAxisIX);
  VectorOperations<double>::normalize(yAxisIX, yAxisIX, 3);
-  // transformation between ECEF and ECI frame
+  // x-axis completes RHS
-  double dcmEI[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
+  double xAxisIX[3] = {0, 0, 0};
-  double dcmIE[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
+  VectorOperations<double>::cross(yAxisIX, zAxisIX, xAxisIX);
-  double dcmEIDot[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
+  VectorOperations<double>::normalize(xAxisIX, xAxisIX, 3);
  MathOperations<double>::ecfToEciWithNutPre(now, *dcmEI, *dcmEIDot);
  MathOperations<double>::inverseMatrixDimThree(*dcmEI, *dcmIE);
-  double dcmIEDot[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
+  // join transformation matrix
-  MathOperations<double>::inverseMatrixDimThree(*dcmEIDot, *dcmIEDot);
+  double dcmIX[3][3] = {{xAxisIX[0], yAxisIX[0], zAxisIX[0]},
                        {xAxisIX[1], yAxisIX[1], zAxisIX[1]},
                        {xAxisIX[2], yAxisIX[2], zAxisIX[2]}};
  QuaternionOperations::fromDcm(dcmIX, targetQuat);
-  // transformation between ECEF and Body frame
+  // calculate of reference rotation rate
-  double dcmBI[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
+  targetRotationRate(timeDelta, targetQuat, targetSatRotRate);
  double dcmBE[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
  QuaternionOperations::toDcm(quatBI, dcmBI);
  MatrixOperations<double>::multiply(*dcmBI, *dcmIE, *dcmBE, 3, 3, 3);
  // target Direction in the body frame
  double targetDirB[3] = {0, 0, 0};
  MatrixOperations<double>::multiply(*dcmBE, targetDirE, targetDirB, 3, 3, 1);
  // rotation quaternion from two vectors
  double refDir[3] = {0, 0, 0};
  refDir[0] = acsParameters->targetModeControllerParameters.refDirection[0];
  refDir[1] = acsParameters->targetModeControllerParameters.refDirection[1];
  refDir[2] = acsParameters->targetModeControllerParameters.refDirection[2];
  double noramlizedTargetDirB[3] = {0, 0, 0};
  VectorOperations<double>::normalize(targetDirB, noramlizedTargetDirB, 3);
  VectorOperations<double>::normalize(refDir, refDir, 3);
  double normTargetDirB = VectorOperations<double>::norm(noramlizedTargetDirB, 3);
  double normRefDir = VectorOperations<double>::norm(refDir, 3);
  double crossDir[3] = {0, 0, 0};
  double dotDirections = VectorOperations<double>::dot(noramlizedTargetDirB, refDir);
  VectorOperations<double>::cross(noramlizedTargetDirB, refDir, crossDir);
  targetQuat[0] = crossDir[0];
  targetQuat[1] = crossDir[1];
  targetQuat[2] = crossDir[2];
  targetQuat[3] = sqrt(pow(normTargetDirB, 2) * pow(normRefDir, 2) + dotDirections);
  VectorOperations<double>::normalize(targetQuat, targetQuat, 4);
  //-------------------------------------------------------------------------------------
  // calculation of reference rotation rate
  //-------------------------------------------------------------------------------------
  double velSatB[3] = {0, 0, 0}, velSatBPart1[3] = {0, 0, 0}, velSatBPart2[3] = {0, 0, 0};
  // velocity: v_B = dcm_BI * dcmIE * v_E + dcm_BI * DotDcm_IE * v_E
  MatrixOperations<double>::multiply(*dcmBE, velSatE, velSatBPart1, 3, 3, 1);
  double dcmBEDot[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
  MatrixOperations<double>::multiply(*dcmBI, *dcmIEDot, *dcmBEDot, 3, 3, 3);
  MatrixOperations<double>::multiply(*dcmBEDot, posSatE, velSatBPart2, 3, 3, 1);
  VectorOperations<double>::add(velSatBPart1, velSatBPart2, velSatB, 3);
  double normVelSatB = VectorOperations<double>::norm(velSatB, 3);
  double normRefSatRate = normVelSatB / normTargetDirB;
  double satRateDir[3] = {0, 0, 0};
  VectorOperations<double>::cross(velSatB, targetDirB, satRateDir);
  VectorOperations<double>::normalize(satRateDir, satRateDir, 3);
  VectorOperations<double>::mulScalar(satRateDir, normRefSatRate, targetSatRotRate, 3);
  //-------------------------------------------------------------------------------------
  //	Calculation of reference rotation rate in case of star tracker blinding
  //-------------------------------------------------------------------------------------
  if (acsParameters->targetModeControllerParameters.avoidBlindStr) {
    double sunDirB[3] = {0, 0, 0};
    MatrixOperations<double>::multiply(*dcmBI, sunDirI, sunDirB, 3, 3, 1);
    double exclAngle = acsParameters->strParameters.exclusionAngle,
           blindStart = acsParameters->targetModeControllerParameters.blindAvoidStart,
           blindEnd = acsParameters->targetModeControllerParameters.blindAvoidStop;
    double sightAngleSun =
        VectorOperations<double>::dot(acsParameters->strParameters.boresightAxis, sunDirB);
    if (!(strBlindAvoidFlag)) {
      double critSightAngle = blindStart * exclAngle;
      if (sightAngleSun < critSightAngle) {
        strBlindAvoidFlag = true;
      }
    } else {
      if (sightAngleSun < blindEnd * exclAngle) {
        double normBlindRefRate = acsParameters->targetModeControllerParameters.blindRotRate;
        double blindRefRate[3] = {0, 0, 0};
        if (sunDirB[1] < 0) {
          blindRefRate[0] = normBlindRefRate;
          blindRefRate[1] = 0;
          blindRefRate[2] = 0;
        } else {
          blindRefRate[0] = -normBlindRefRate;
          blindRefRate[1] = 0;
          blindRefRate[2] = 0;
        }
        VectorOperations<double>::add(blindRefRate, targetSatRotRate, targetSatRotRate, 3);
      } else {
        strBlindAvoidFlag = false;
      }
    }
  }
  // revert calculated quaternion from qBX to qIX
  double quatIB[4] = {0, 0, 0, 1};
  QuaternionOperations::inverse(quatBI, quatIB);
  QuaternionOperations::multiply(quatIB, targetQuat, targetQuat);
 }
-void Guidance::targetQuatPtgThreeAxes(timeval now, double posSatE[3], double velSatE[3],
+void Guidance::targetQuatPtgTarget(timeval timeAbsolute, const double timeDelta,
                                   const double posSatF[3], const double velSatF[3],
                                   double targetQuat[4], double targetSatRotRate[3]) {
  //-------------------------------------------------------------------------------------
  //	Calculation of target quaternion for target pointing
  //-------------------------------------------------------------------------------------
  // transform longitude, latitude and altitude to cartesian coordiantes (ECEF)
-  double targetE[3] = {0, 0, 0};
+  double targetF[3] = {0, 0, 0};
-  MathOperations<double>::cartesianFromLatLongAlt(
+  CoordinateTransformations::cartesianFromLatLongAlt(
      acsParameters->targetModeControllerParameters.latitudeTgt,
      acsParameters->targetModeControllerParameters.longitudeTgt,
-      acsParameters->targetModeControllerParameters.altitudeTgt, targetE);
+      acsParameters->targetModeControllerParameters.altitudeTgt, targetF);
  double targetDirE[3] = {0, 0, 0};
  VectorOperations<double>::subtract(targetE, posSatE, targetDirE, 3);
  // transformation between ECEF and ECI frame
  double dcmEI[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
  double dcmIE[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
  double dcmEIDot[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
  MathOperations<double>::ecfToEciWithNutPre(now, *dcmEI, *dcmEIDot);
  MathOperations<double>::inverseMatrixDimThree(*dcmEI, *dcmIE);
  double dcmIEDot[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
  MathOperations<double>::inverseMatrixDimThree(*dcmEIDot, *dcmIEDot);
  // target direction in the ECI frame
  double posSatI[3] = {0, 0, 0}, targetI[3] = {0, 0, 0}, targetDirI[3] = {0, 0, 0};
-  MatrixOperations<double>::multiply(*dcmIE, posSatE, posSatI, 3, 3, 1);
+  CoordinateTransformations::positionEcfToEci(posSatF, posSatI, &timeAbsolute);
-  MatrixOperations<double>::multiply(*dcmIE, targetE, targetI, 3, 3, 1);
+  CoordinateTransformations::positionEcfToEci(targetF, targetI, &timeAbsolute);
  VectorOperations<double>::subtract(targetI, posSatI, targetDirI, 3);
  // x-axis aligned with target direction
  // this aligns with the camera, E- and S-band antennas
-  double xAxis[3] = {0, 0, 0};
+  double xAxisIX[3] = {0, 0, 0};
-  VectorOperations<double>::normalize(targetDirI, xAxis, 3);
+  VectorOperations<double>::normalize(targetDirI, xAxisIX, 3);
  VectorOperations<double>::mulScalar(xAxisIX, -1, xAxisIX, 3);
  // transform velocity into inertial frame
-  double velocityI[3] = {0, 0, 0}, velPart1[3] = {0, 0, 0}, velPart2[3] = {0, 0, 0};
+  double velSatI[3] = {0, 0, 0};
-  MatrixOperations<double>::multiply(*dcmIE, velSatE, velPart1, 3, 3, 1);
+  CoordinateTransformations::velocityEcfToEci(velSatF, posSatF, velSatI, &timeAbsolute);
  MatrixOperations<double>::multiply(*dcmIEDot, posSatE, velPart2, 3, 3, 1);
  VectorOperations<double>::add(velPart1, velPart2, velocityI, 3);
  // orbital normal vector of target and velocity vector
  double orbitalNormalI[3] = {0, 0, 0};
-  VectorOperations<double>::cross(posSatI, velocityI, orbitalNormalI);
+  VectorOperations<double>::cross(posSatI, velSatI, orbitalNormalI);
  VectorOperations<double>::normalize(orbitalNormalI, orbitalNormalI, 3);
  // y-axis of satellite in orbit plane so that z-axis is parallel to long side of picture
  // resolution
-  double yAxis[3] = {0, 0, 0};
+  double yAxisIX[3] = {0, 0, 0};
-  VectorOperations<double>::cross(orbitalNormalI, xAxis, yAxis);
+  VectorOperations<double>::cross(orbitalNormalI, xAxisIX, yAxisIX);
-  VectorOperations<double>::normalize(yAxis, yAxis, 3);
+  VectorOperations<double>::normalize(yAxisIX, yAxisIX, 3);
  // z-axis completes RHS
-  double zAxis[3] = {0, 0, 0};
+  double zAxisIX[3] = {0, 0, 0};
-  VectorOperations<double>::cross(xAxis, yAxis, zAxis);
+  VectorOperations<double>::cross(xAxisIX, yAxisIX, zAxisIX);
  // join transformation matrix
-  double dcmIX[3][3] = {{xAxis[0], yAxis[0], zAxis[0]},
+  double dcmIX[3][3] = {{xAxisIX[0], yAxisIX[0], zAxisIX[0]},
-                        {xAxis[1], yAxis[1], zAxis[1]},
+                        {xAxisIX[1], yAxisIX[1], zAxisIX[1]},
-                        {xAxis[2], yAxis[2], zAxis[2]}};
+                        {xAxisIX[2], yAxisIX[2], zAxisIX[2]}};
  QuaternionOperations::fromDcm(dcmIX, targetQuat);
-  int8_t timeElapsedMax = acsParameters->targetModeControllerParameters.timeElapsedMax;
+  targetRotationRate(timeDelta, targetQuat, targetSatRotRate);
  targetRotationRate(timeElapsedMax, now, targetQuat, targetSatRotRate);
 }
-void Guidance::targetQuatPtgGs(timeval now, double posSatE[3], double sunDirI[3],
+void Guidance::targetQuatPtgGs(timeval timeAbsolute, const double timeDelta,
                               const double posSatF[3], const double sunDirI[3],
                               double targetQuat[4], double targetSatRotRate[3]) {
  //-------------------------------------------------------------------------------------
  //	Calculation of target quaternion for ground station pointing
  //-------------------------------------------------------------------------------------
  // transform longitude, latitude and altitude to cartesian coordiantes (ECEF)
-  double groundStationE[3] = {0, 0, 0};
+  double posGroundStationF[3] = {0, 0, 0};
-
+  CoordinateTransformations::cartesianFromLatLongAlt(
  MathOperations<double>::cartesianFromLatLongAlt(
      acsParameters->gsTargetModeControllerParameters.latitudeTgt,
      acsParameters->gsTargetModeControllerParameters.longitudeTgt,
-      acsParameters->gsTargetModeControllerParameters.altitudeTgt, groundStationE);
+      acsParameters->gsTargetModeControllerParameters.altitudeTgt, posGroundStationF);
  double targetDirE[3] = {0, 0, 0};
  VectorOperations<double>::subtract(groundStationE, posSatE, targetDirE, 3);
  // transformation between ECEF and ECI frame
  double dcmEI[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
  double dcmIE[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
  double dcmEIDot[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
  MathOperations<double>::ecfToEciWithNutPre(now, *dcmEI, *dcmEIDot);
  MathOperations<double>::inverseMatrixDimThree(*dcmEI, *dcmIE);
  double dcmIEDot[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
  MathOperations<double>::inverseMatrixDimThree(*dcmEIDot, *dcmIEDot);
  // target direction in the ECI frame
-  double posSatI[3] = {0, 0, 0}, groundStationI[3] = {0, 0, 0}, groundStationDirI[3] = {0, 0, 0};
+  double posSatI[3] = {0, 0, 0}, posGroundStationI[3] = {0, 0, 0}, groundStationDirI[3] = {0, 0, 0};
-  MatrixOperations<double>::multiply(*dcmIE, posSatE, posSatI, 3, 3, 1);
+  CoordinateTransformations::positionEcfToEci(posSatF, posSatI, &timeAbsolute);
-  MatrixOperations<double>::multiply(*dcmIE, groundStationE, groundStationI, 3, 3, 1);
+  CoordinateTransformations::positionEcfToEci(posGroundStationF, posGroundStationI, &timeAbsolute);
-  VectorOperations<double>::subtract(groundStationI, posSatI, groundStationDirI, 3);
+  VectorOperations<double>::subtract(posGroundStationI, posSatI, groundStationDirI, 3);
  // negative x-axis aligned with target direction
  // this aligns with the camera, E- and S-band antennas
-  double xAxis[3] = {0, 0, 0};
+  double xAxisIX[3] = {0, 0, 0};
-  VectorOperations<double>::normalize(groundStationDirI, xAxis, 3);
+  VectorOperations<double>::normalize(groundStationDirI, xAxisIX, 3);
-  VectorOperations<double>::mulScalar(xAxis, -1, xAxis, 3);
+  VectorOperations<double>::mulScalar(xAxisIX, -1, xAxisIX, 3);
-  // get sun vector model in ECI
+  // get earth vector in ECI
-  VectorOperations<double>::normalize(sunDirI, sunDirI, 3);
+  double earthDirI[3] = {0, 0, 0};
  VectorOperations<double>::normalize(posSatI, earthDirI, 3);
  VectorOperations<double>::mulScalar(earthDirI, -1, earthDirI, 3);
-  // calculate z-axis as projection of sun vector into plane defined by x-axis as normal vector
+  // sun avoidance calculations
-  // z = sPerpenticular =  s - sParallel = s - (x*s)/norm(x)^2 * x
+  double sunPerpendicularX[3] = {0, 0, 0}, sunFloorYZ[3] = {0, 0, 0}, zAxisSun[3] = {0, 0, 0};
-  double xDotS = VectorOperations<double>::dot(xAxis, sunDirI);
+  VectorOperations<double>::mulScalar(xAxisIX, VectorOperations<double>::dot(xAxisIX, sunDirI),
-  xDotS /= pow(VectorOperations<double>::norm(xAxis, 3), 2);
+                                      sunPerpendicularX, 3);
-  double sunParallel[3], zAxis[3];
+  VectorOperations<double>::subtract(sunDirI, sunPerpendicularX, sunFloorYZ, 3);
-  VectorOperations<double>::mulScalar(xAxis, xDotS, sunParallel, 3);
+  VectorOperations<double>::normalize(sunFloorYZ, sunFloorYZ, 3);
-  VectorOperations<double>::subtract(sunDirI, sunParallel, zAxis, 3);
+  VectorOperations<double>::mulScalar(sunFloorYZ, -1, zAxisSun, 3);
-  VectorOperations<double>::normalize(zAxis, zAxis, 3);
+  double sunWeight = 0, strVecSun[3] = {0, 0, 0}, strVecSunX[3] = {0, 0, 0},
         strVecSunZ[3] = {0, 0, 0};
  VectorOperations<double>::mulScalar(xAxisIX, acsParameters->strParameters.boresightAxis[0],
                                      strVecSunX, 3);
  VectorOperations<double>::mulScalar(zAxisSun, acsParameters->strParameters.boresightAxis[2],
                                      strVecSunZ, 3);
  VectorOperations<double>::add(strVecSunX, strVecSunZ, strVecSun, 3);
  VectorOperations<double>::normalize(strVecSun, strVecSun, 3);
  sunWeight = VectorOperations<double>::dot(strVecSun, sunDirI);
-  // y-axis completes RHS
+  // earth avoidance calculations
-  double yAxis[3];
+  double earthPerpendicularX[3] = {0, 0, 0}, earthFloorYZ[3] = {0, 0, 0}, zAxisEarth[3] = {0, 0, 0};
-  VectorOperations<double>::cross(zAxis, xAxis, yAxis);
+  VectorOperations<double>::mulScalar(xAxisIX, VectorOperations<double>::dot(xAxisIX, earthDirI),
-  VectorOperations<double>::normalize(yAxis, yAxis, 3);
+                                      earthPerpendicularX, 3);
  VectorOperations<double>::subtract(earthDirI, earthPerpendicularX, earthFloorYZ, 3);
  VectorOperations<double>::normalize(earthFloorYZ, earthFloorYZ, 3);
  VectorOperations<double>::mulScalar(earthFloorYZ, -1, zAxisEarth, 3);
  double earthWeight = 0, strVecEarth[3] = {0, 0, 0}, strVecEarthX[3] = {0, 0, 0},
         strVecEarthZ[3] = {0, 0, 0};
  VectorOperations<double>::mulScalar(xAxisIX, acsParameters->strParameters.boresightAxis[0],
                                      strVecEarthX, 3);
  VectorOperations<double>::mulScalar(zAxisEarth, acsParameters->strParameters.boresightAxis[2],
                                      strVecEarthZ, 3);
  VectorOperations<double>::add(strVecEarthX, strVecEarthZ, strVecEarth, 3);
  VectorOperations<double>::normalize(strVecEarth, strVecEarth, 3);
  earthWeight = VectorOperations<double>::dot(strVecEarth, earthDirI);
  if ((sunWeight == 0.0) and (earthWeight == 0.0)) {
    // if this actually ever happens i will eat a broom
    sunWeight = 0.5;
    earthWeight = 0.5;
  }
  // normalize weights for convenience
  double normFactor = 1. / (std::abs(sunWeight) + std::abs(earthWeight));
  sunWeight *= normFactor;
  earthWeight *= normFactor;
  // calculate z-axis for str blinding avoidance
  double zAxisIX[3] = {0, 0, 0};
  VectorOperations<double>::mulScalar(zAxisSun, sunWeight, zAxisSun, 3);
  VectorOperations<double>::mulScalar(zAxisEarth, earthWeight, zAxisEarth, 3);
  VectorOperations<double>::add(zAxisSun, zAxisEarth, zAxisIX, 3);
  VectorOperations<double>::mulScalar(zAxisIX, -1, zAxisIX, 3);
  VectorOperations<double>::normalize(zAxisIX, zAxisIX, 3);
  // calculate y-axis
  double yAxisIX[3] = {0, 0, 0};
  VectorOperations<double>::cross(zAxisIX, xAxisIX, yAxisIX);
  VectorOperations<double>::normalize(yAxisIX, yAxisIX, 3);
  // join transformation matrix
-  double dcmTgt[3][3] = {{xAxis[0], yAxis[0], zAxis[0]},
+  double dcmIX[3][3] = {{xAxisIX[0], yAxisIX[0], zAxisIX[0]},
-                         {xAxis[1], yAxis[1], zAxis[1]},
+                        {xAxisIX[1], yAxisIX[1], zAxisIX[1]},
-                         {xAxis[2], yAxis[2], zAxis[2]}};
+                        {xAxisIX[2], yAxisIX[2], zAxisIX[2]}};
-  QuaternionOperations::fromDcm(dcmTgt, targetQuat);
+  QuaternionOperations::fromDcm(dcmIX, targetQuat);
-  int8_t timeElapsedMax = acsParameters->gsTargetModeControllerParameters.timeElapsedMax;
+  limitReferenceRotation(xAxisIX, targetQuat);
-  targetRotationRate(timeElapsedMax, now, targetQuat, targetSatRotRate);
+  targetRotationRate(timeDelta, targetQuat, targetSatRotRate);
  std::memcpy(xAxisIXprev, xAxisIX, sizeof(xAxisIXprev));
 }
-void Guidance::targetQuatPtgSun(timeval now, double sunDirI[3], double targetQuat[4],
+void Guidance::targetQuatPtgNadir(timeval timeAbsolute, const double timeDelta,
-                                double targetSatRotRate[3]) {
+                                  const double posSatE[3], const double velSatE[3],
  //-------------------------------------------------------------------------------------
  //	Calculation of target quaternion to sun
  //-------------------------------------------------------------------------------------
  //  positive z-Axis of EIVE in direction of sun
  double zAxis[3] = {0, 0, 0};
  VectorOperations<double>::normalize(sunDirI, zAxis, 3);
  //  assign helper vector (north pole inertial)
  double helperVec[3] = {0, 0, 1};
  //  construct y-axis from helper vector and z-axis
  double yAxis[3] = {0, 0, 0};
  VectorOperations<double>::cross(zAxis, helperVec, yAxis);
  VectorOperations<double>::normalize(yAxis, yAxis, 3);
  //  x-axis completes RHS
  double xAxis[3] = {0, 0, 0};
  VectorOperations<double>::cross(yAxis, zAxis, xAxis);
  VectorOperations<double>::normalize(xAxis, xAxis, 3);
  // join transformation matrix
  double dcmTgt[3][3] = {{xAxis[0], yAxis[0], zAxis[0]},
                         {xAxis[1], yAxis[1], zAxis[1]},
                         {xAxis[2], yAxis[2], zAxis[2]}};
  QuaternionOperations::fromDcm(dcmTgt, targetQuat);
  //----------------------------------------------------------------------------
  //	Calculation of reference rotation rate
  //----------------------------------------------------------------------------
  int8_t timeElapsedMax = acsParameters->gsTargetModeControllerParameters.timeElapsedMax;
  targetRotationRate(timeElapsedMax, now, targetQuat, targetSatRotRate);
 }
 void Guidance::targetQuatPtgNadirSingleAxis(timeval now, double posSatE[3], double quatBI[4],
                                            double targetQuat[4], double refDirB[3],
                                            double refSatRate[3]) {
  //-------------------------------------------------------------------------------------
  //	Calculation of target quaternion for Nadir pointing
  //-------------------------------------------------------------------------------------
  double targetDirE[3] = {0, 0, 0};
  VectorOperations<double>::mulScalar(posSatE, -1, targetDirE, 3);
  // transformation between ECEF and ECI frame
  double dcmEI[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
  double dcmIE[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
  double dcmEIDot[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
  MathOperations<double>::ecfToEciWithNutPre(now, *dcmEI, *dcmEIDot);
  MathOperations<double>::inverseMatrixDimThree(*dcmEI, *dcmIE);
  double dcmIEDot[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
  MathOperations<double>::inverseMatrixDimThree(*dcmEIDot, *dcmIEDot);
  // transformation between ECEF and Body frame
  double dcmBI[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
  double dcmBE[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
  QuaternionOperations::toDcm(quatBI, dcmBI);
  MatrixOperations<double>::multiply(*dcmBI, *dcmIE, *dcmBE, 3, 3, 3);
  // target Direction in the body frame
  double targetDirB[3] = {0, 0, 0};
  MatrixOperations<double>::multiply(*dcmBE, targetDirE, targetDirB, 3, 3, 1);
  // rotation quaternion from two vectors
  double refDir[3] = {0, 0, 0};
  refDir[0] = acsParameters->nadirModeControllerParameters.refDirection[0];
  refDir[1] = acsParameters->nadirModeControllerParameters.refDirection[1];
  refDir[2] = acsParameters->nadirModeControllerParameters.refDirection[2];
  double noramlizedTargetDirB[3] = {0, 0, 0};
  VectorOperations<double>::normalize(targetDirB, noramlizedTargetDirB, 3);
  VectorOperations<double>::normalize(refDir, refDir, 3);
  double normTargetDirB = VectorOperations<double>::norm(noramlizedTargetDirB, 3);
  double normRefDir = VectorOperations<double>::norm(refDir, 3);
  double crossDir[3] = {0, 0, 0};
  double dotDirections = VectorOperations<double>::dot(noramlizedTargetDirB, refDir);
  VectorOperations<double>::cross(noramlizedTargetDirB, refDir, crossDir);
  targetQuat[0] = crossDir[0];
  targetQuat[1] = crossDir[1];
  targetQuat[2] = crossDir[2];
  targetQuat[3] = sqrt(pow(normTargetDirB, 2) * pow(normRefDir, 2) + dotDirections);
  VectorOperations<double>::normalize(targetQuat, targetQuat, 4);
  //-------------------------------------------------------------------------------------
  //	Calculation of reference rotation rate
  //-------------------------------------------------------------------------------------
  refSatRate[0] = 0;
  refSatRate[1] = 0;
  refSatRate[2] = 0;
  // revert calculated quaternion from qBX to qIX
  double quatIB[4] = {0, 0, 0, 1};
  QuaternionOperations::inverse(quatBI, quatIB);
  QuaternionOperations::multiply(quatIB, targetQuat, targetQuat);
 }
 void Guidance::targetQuatPtgNadirThreeAxes(timeval now, double posSatE[3], double velSatE[3],
                                  double targetQuat[4], double refSatRate[3]) {
  //-------------------------------------------------------------------------------------
  //	Calculation of target quaternion for Nadir pointing
  //-------------------------------------------------------------------------------------
  // transformation between ECEF and ECI frame
  double dcmEI[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
  double dcmIE[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
  double dcmEIDot[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
  MathOperations<double>::ecfToEciWithNutPre(now, *dcmEI, *dcmEIDot);
  MathOperations<double>::inverseMatrixDimThree(*dcmEI, *dcmIE);
  double dcmIEDot[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
  MathOperations<double>::inverseMatrixDimThree(*dcmEIDot, *dcmIEDot);
  // satellite position in inertial reference frame
  double posSatI[3] = {0, 0, 0};
-  MatrixOperations<double>::multiply(*dcmIE, posSatE, posSatI, 3, 3, 1);
+  CoordinateTransformations::positionEcfToEci(posSatE, posSatI, &timeAbsolute);
  // negative x-axis aligned with position vector
  // this aligns with the camera, E- and S-band antennas
-  double xAxis[3] = {0, 0, 0};
+  double xAxisIX[3] = {0, 0, 0};
-  VectorOperations<double>::normalize(posSatI, xAxis, 3);
+  VectorOperations<double>::normalize(posSatI, xAxisIX, 3);
-  VectorOperations<double>::mulScalar(xAxis, -1, xAxis, 3);
+  VectorOperations<double>::mulScalar(xAxisIX, -1, xAxisIX, 3);
  // make z-Axis parallel to major part of camera resolution
-  double zAxis[3] = {0, 0, 0};
+  double zAxisIX[3] = {0, 0, 0};
-  double velocityI[3] = {0, 0, 0}, velPart1[3] = {0, 0, 0}, velPart2[3] = {0, 0, 0};
+  double velSatI[3] = {0, 0, 0};
-  MatrixOperations<double>::multiply(*dcmIE, velSatE, velPart1, 3, 3, 1);
+  CoordinateTransformations::velocityEcfToEci(velSatE, posSatE, velSatI, &timeAbsolute);
-  MatrixOperations<double>::multiply(*dcmIEDot, posSatE, velPart2, 3, 3, 1);
+  VectorOperations<double>::cross(xAxisIX, velSatI, zAxisIX);
-  VectorOperations<double>::add(velPart1, velPart2, velocityI, 3);
+  VectorOperations<double>::normalize(zAxisIX, zAxisIX, 3);
  VectorOperations<double>::cross(xAxis, velocityI, zAxis);
  VectorOperations<double>::normalize(zAxis, zAxis, 3);
  // y-Axis completes RHS
-  double yAxis[3] = {0, 0, 0};
+  double yAxisIX[3] = {0, 0, 0};
-  VectorOperations<double>::cross(zAxis, xAxis, yAxis);
+  VectorOperations<double>::cross(zAxisIX, xAxisIX, yAxisIX);
  // join transformation matrix
-  double dcmTgt[3][3] = {{xAxis[0], yAxis[0], zAxis[0]},
+  double dcmIX[3][3] = {{xAxisIX[0], yAxisIX[0], zAxisIX[0]},
-                         {xAxis[1], yAxis[1], zAxis[1]},
+                        {xAxisIX[1], yAxisIX[1], zAxisIX[1]},
-                         {xAxis[2], yAxis[2], zAxis[2]}};
+                        {xAxisIX[2], yAxisIX[2], zAxisIX[2]}};
-  QuaternionOperations::fromDcm(dcmTgt, targetQuat);
+  QuaternionOperations::fromDcm(dcmIX, targetQuat);
-  int8_t timeElapsedMax = acsParameters->nadirModeControllerParameters.timeElapsedMax;
+  targetRotationRate(timeDelta, targetQuat, refSatRate);
-  targetRotationRate(timeElapsedMax, now, targetQuat, refSatRate);
+}
 void Guidance::targetRotationRate(const double timeDelta, double quatIX[4], double *refSatRate) {
  if (VectorOperations<double>::norm(quatIXprev, 4) == 0) {
    std::memcpy(quatIXprev, quatIX, sizeof(quatIXprev));
  }
  if (timeDelta != 0.0) {
    QuaternionOperations::rotationFromQuaternions(quatIX, quatIXprev, timeDelta, refSatRate);
    VectorOperations<double>::mulScalar(refSatRate, -1, refSatRate, 3);
  } else {
    std::memcpy(refSatRate, ZERO_VEC3, 3 * sizeof(double));
  }
  std::memcpy(quatIXprev, quatIX, sizeof(quatIXprev));
 }
 void Guidance::limitReferenceRotation(const double xAxisIX[3], double quatIX[4]) {
  if ((VectorOperations<double>::norm(quatIXprev, 4) == 0) or
      (VectorOperations<double>::norm(xAxisIXprev, 3) == 0)) {
    return;
  }
  QuaternionOperations::preventSignJump(quatIX, quatIXprev);
  // check required rotation and return if below limit
  double quatXprevX[4] = {0, 0, 0, 0}, quatXprevI[4] = {0, 0, 0, 0};
  QuaternionOperations::inverse(quatIXprev, quatXprevI);
  QuaternionOperations::multiply(quatIX, quatXprevI, quatXprevX);
  QuaternionOperations::normalize(quatXprevX);
  double phiMax = acsParameters->gsTargetModeControllerParameters.rotRateLimit *
                  acsParameters->onBoardParams.sampleTime;
  if (2 * std::acos(quatXprevX[3]) < phiMax) {
    return;
  }
  // x-axis always needs full rotation
  double phiX = 0, phiXvec[3] = {0, 0, 0};
  phiX = std::acos(VectorOperations<double>::dot(xAxisIXprev, xAxisIX));
  VectorOperations<double>::cross(xAxisIXprev, xAxisIX, phiXvec);
  VectorOperations<double>::normalize(phiXvec, phiXvec, 3);
  double quatXprevXtilde[4] = {0, 0, 0, 0}, quatIXtilde[4] = {0, 0, 0, 0};
  VectorOperations<double>::mulScalar(phiXvec, -std::sin(phiX / 2.), phiXvec, 3);
  std::memcpy(quatXprevXtilde, phiXvec, sizeof(phiXvec));
  quatXprevXtilde[3] = cos(phiX / 2.);
  QuaternionOperations::normalize(quatXprevXtilde);
  QuaternionOperations::multiply(quatXprevXtilde, quatIXprev, quatIXtilde);
  // use the residual rotation up to the maximum
  double quatXXtilde[4] = {0, 0, 0, 0}, quatXI[4] = {0, 0, 0, 0};
  QuaternionOperations::inverse(quatIX, quatXI);
  QuaternionOperations::multiply(quatIXtilde, quatXI, quatXXtilde);
  double phiResidual = 0, phiResidualVec[3] = {0, 0, 0};
  if ((phiX * phiX) > (phiMax * phiMax)) {
    phiResidual = 0;
  } else {
    phiResidual = std::sqrt((phiMax * phiMax) - (phiX * phiX));
  }
  std::memcpy(phiResidualVec, quatXXtilde, sizeof(phiResidualVec));
  VectorOperations<double>::normalize(phiResidualVec, phiResidualVec, 3);
  double quatXhatXTilde[4] = {0, 0, 0, 0}, quatXTildeXhat[4] = {0, 0, 0, 0};
  VectorOperations<double>::mulScalar(phiResidualVec, std::sin(phiResidual / 2.), phiResidualVec,
                                      3);
  std::memcpy(quatXhatXTilde, phiResidualVec, sizeof(phiResidualVec));
  quatXhatXTilde[3] = std::cos(phiResidual / 2.);
  QuaternionOperations::normalize(quatXhatXTilde);
  // calculate final quaternion
  QuaternionOperations::inverse(quatXhatXTilde, quatXTildeXhat);
  QuaternionOperations::multiply(quatXTildeXhat, quatIXtilde, quatIX);
  QuaternionOperations::normalize(quatIX);
 }
 void Guidance::comparePtg(double currentQuat[4], double currentSatRotRate[3], double targetQuat[4],
                          double targetSatRotRate[3], double refQuat[4], double refSatRotRate[3],
                          double errorQuat[4], double errorSatRotRate[3], double &errorAngle) {
-  // First calculate error quaternion between current and target orientation
+  // First calculate error quaternion between current and target orientation without reference
-  QuaternionOperations::multiply(currentQuat, targetQuat, errorQuat);
+  // quaternion
-  // Last calculate add rotation from reference quaternion
+  double errorQuatWoRef[4] = {0, 0, 0, 0};
-  QuaternionOperations::multiply(refQuat, errorQuat, errorQuat);
+  QuaternionOperations::multiply(currentQuat, targetQuat, errorQuatWoRef);
  // Then add rotation from reference quaternion
  QuaternionOperations::multiply(refQuat, errorQuatWoRef, errorQuat);
  // Keep scalar part of quaternion positive
  if (errorQuat[3] < 0) {
    VectorOperations<double>::mulScalar(errorQuat, -1, errorQuat, 4);
@ -425,7 +315,11 @@ void Guidance::comparePtg(double currentQuat[4], double currentSatRotRate[3], do
  errorAngle = QuaternionOperations::getAngle(errorQuat, true);
  // Calculate error satellite rotational rate
-  // First combine the target and reference satellite rotational rates
+  // Convert target rotational rate into body RF
  double targetSatRotRateB[3] = {0, 0, 0};
  QuaternionOperations::multiplyVector(currentQuat, targetSatRotRate, targetSatRotRateB);
  VectorOperations<double>::copy(targetSatRotRateB, targetSatRotRate, 3);
  // Combine the target and reference satellite rotational rates
  double combinedRefSatRotRate[3] = {0, 0, 0};
  VectorOperations<double>::add(targetSatRotRate, refSatRotRate, combinedRefSatRotRate, 3);
  // Then subtract the combined required satellite rotational rates from the actual rate
@ -435,91 +329,48 @@ void Guidance::comparePtg(double currentQuat[4], double currentSatRotRate[3], do
 void Guidance::comparePtg(double currentQuat[4], double currentSatRotRate[3], double targetQuat[4],
                          double targetSatRotRate[3], double errorQuat[4],
                          double errorSatRotRate[3], double &errorAngle) {
-  // First calculate error quaternion between current and target orientation
+  double refQuat[4] = {0, 0, 0, 1}, refSatRotRate[3] = {0, 0, 0};
-  QuaternionOperations::multiply(currentQuat, targetQuat, errorQuat);
+  comparePtg(currentQuat, currentSatRotRate, targetQuat, targetSatRotRate, refQuat, refSatRotRate,
-  // Keep scalar part of quaternion positive
+             errorQuat, errorSatRotRate, errorAngle);
  if (errorQuat[3] < 0) {
    VectorOperations<double>::mulScalar(errorQuat, -1, errorQuat, 4);
  }
  // Calculate error angle
  errorAngle = QuaternionOperations::getAngle(errorQuat, true);
  // Calculate error satellite rotational rate
  VectorOperations<double>::subtract(currentSatRotRate, targetSatRotRate, errorSatRotRate, 3);
 }
 void Guidance::targetRotationRate(int8_t timeElapsedMax, timeval now, double quatInertialTarget[4],
                                  double *refSatRate) {
  //-------------------------------------------------------------------------------------
  //	Calculation of target rotation rate
  //-------------------------------------------------------------------------------------
  double timeElapsed = now.tv_sec + now.tv_usec * 1e-6 -
                       (timeSavedQuaternion.tv_sec + timeSavedQuaternion.tv_usec * 1e-6);
  if (VectorOperations<double>::norm(savedQuaternion, 4) == 0) {
    std::memcpy(savedQuaternion, quatInertialTarget, sizeof(savedQuaternion));
  }
  if (timeElapsed < timeElapsedMax) {
    double q[4] = {0, 0, 0, 0}, qS[4] = {0, 0, 0, 0};
    QuaternionOperations::inverse(quatInertialTarget, q);
    QuaternionOperations::inverse(savedQuaternion, qS);
    double qDiff[4] = {0, 0, 0, 0};
    VectorOperations<double>::subtract(q, qS, qDiff, 4);
    VectorOperations<double>::mulScalar(qDiff, 1 / timeElapsed, qDiff, 4);
    double tgtQuatVec[3] = {q[0], q[1], q[2]};
    double qDiffVec[3] = {qDiff[0], qDiff[1], qDiff[2]};
    double sum1[3] = {0, 0, 0}, sum2[3] = {0, 0, 0}, sum3[3] = {0, 0, 0}, sum[3] = {0, 0, 0};
    VectorOperations<double>::cross(tgtQuatVec, qDiffVec, sum1);
    VectorOperations<double>::mulScalar(tgtQuatVec, qDiff[3], sum2, 3);
    VectorOperations<double>::mulScalar(qDiffVec, q[3], sum3, 3);
    VectorOperations<double>::add(sum1, sum2, sum, 3);
    VectorOperations<double>::subtract(sum, sum3, sum, 3);
    double omegaRefNew[3] = {0, 0, 0};
    VectorOperations<double>::mulScalar(sum, -2, omegaRefNew, 3);
    VectorOperations<double>::mulScalar(omegaRefNew, 2, refSatRate, 3);
    VectorOperations<double>::subtract(refSatRate, omegaRefSaved, refSatRate, 3);
    omegaRefSaved[0] = omegaRefNew[0];
    omegaRefSaved[1] = omegaRefNew[1];
    omegaRefSaved[2] = omegaRefNew[2];
  } else {
    refSatRate[0] = 0;
    refSatRate[1] = 0;
    refSatRate[2] = 0;
  }
  timeSavedQuaternion = now;
  savedQuaternion[0] = quatInertialTarget[0];
  savedQuaternion[1] = quatInertialTarget[1];
  savedQuaternion[2] = quatInertialTarget[2];
  savedQuaternion[3] = quatInertialTarget[3];
 }
 ReturnValue_t Guidance::getDistributionMatrixRw(ACS::SensorValues *sensorValues,
-                                                double *rwPseudoInv) {
+                                                double *rwPseudoInv, acsctrl::RwAvail *rwAvail) {
-  bool rw1valid = (sensorValues->rw1Set.state.value && sensorValues->rw1Set.state.isValid());
+  rwAvail->rw1avail = (sensorValues->rw1Set.state.value and sensorValues->rw1Set.state.isValid());
-  bool rw2valid = (sensorValues->rw2Set.state.value && sensorValues->rw2Set.state.isValid());
+  rwAvail->rw2avail = (sensorValues->rw2Set.state.value and sensorValues->rw2Set.state.isValid());
-  bool rw3valid = (sensorValues->rw3Set.state.value && sensorValues->rw3Set.state.isValid());
+  rwAvail->rw3avail = (sensorValues->rw3Set.state.value and sensorValues->rw3Set.state.isValid());
-  bool rw4valid = (sensorValues->rw4Set.state.value && sensorValues->rw4Set.state.isValid());
+  rwAvail->rw4avail = (sensorValues->rw4Set.state.value and sensorValues->rw4Set.state.isValid());
-  if (rw1valid && rw2valid && rw3valid && rw4valid) {
+  if (rwAvail->rw1avail and rwAvail->rw2avail and rwAvail->rw3avail and rwAvail->rw4avail) {
    std::memcpy(rwPseudoInv, acsParameters->rwMatrices.pseudoInverse, 12 * sizeof(double));
    return returnvalue::OK;
-  } else if (!rw1valid && rw2valid && rw3valid && rw4valid) {
+  } else if (not rwAvail->rw1avail and rwAvail->rw2avail and rwAvail->rw3avail and
-    std::memcpy(rwPseudoInv, acsParameters->rwMatrices.without1, 12 * sizeof(double));
+             rwAvail->rw4avail) {
-    return returnvalue::OK;
+    std::memcpy(rwPseudoInv, acsParameters->rwMatrices.pseudoInverseWithoutRW1,
-  } else if (rw1valid && !rw2valid && rw3valid && rw4valid) {
+                12 * sizeof(double));
-    std::memcpy(rwPseudoInv, acsParameters->rwMatrices.without2, 12 * sizeof(double));
+    return acsctrl::SINGLE_RW_UNAVAILABLE;
-    return returnvalue::OK;
+  } else if (rwAvail->rw1avail and not rwAvail->rw2avail and rwAvail->rw3avail and
-  } else if (rw1valid && rw2valid && !rw3valid && rw4valid) {
+             rwAvail->rw4avail) {
-    std::memcpy(rwPseudoInv, acsParameters->rwMatrices.without3, 12 * sizeof(double));
+    std::memcpy(rwPseudoInv, acsParameters->rwMatrices.pseudoInverseWithoutRW2,
-    return returnvalue::OK;
+                12 * sizeof(double));
-  } else if (rw1valid && rw2valid && rw3valid && !rw4valid) {
+    return acsctrl::SINGLE_RW_UNAVAILABLE;
-    std::memcpy(rwPseudoInv, acsParameters->rwMatrices.without4, 12 * sizeof(double));
+  } else if (rwAvail->rw1avail and rwAvail->rw2avail and not rwAvail->rw3avail and
-    return returnvalue::OK;
+             rwAvail->rw4avail) {
-  } else {
+    std::memcpy(rwPseudoInv, acsParameters->rwMatrices.pseudoInverseWithoutRW3,
-    return returnvalue::FAILED;
+                12 * sizeof(double));
    return acsctrl::SINGLE_RW_UNAVAILABLE;
  } else if (rwAvail->rw1avail and rwAvail->rw2avail and rwAvail->rw3avail and
             not rwAvail->rw4avail) {
    std::memcpy(rwPseudoInv, acsParameters->rwMatrices.pseudoInverseWithoutRW4,
                12 * sizeof(double));
    return acsctrl::SINGLE_RW_UNAVAILABLE;
  }
  return acsctrl::MULTIPLE_RW_UNAVAILABLE;
 }
 void Guidance::resetValues() {
  std::memcpy(quatIXprev, ZERO_VEC4, sizeof(quatIXprev));
  std::memcpy(xAxisIXprev, ZERO_VEC3, sizeof(xAxisIXprev));
 }
 void Guidance::getTargetParamsSafe(double sunTargetSafe[3]) {
--- a/mission/controller/acs/Guidance.h
+++ b/mission/controller/acs/Guidance.h
@ -1,11 +1,18 @@
 #ifndef GUIDANCE_H_
 #define GUIDANCE_H_
-#include <time.h>
+#include <fsfw/coordinates/CoordinateTransformations.h>
 #include <fsfw/datapool/PoolReadGuard.h>
 #include <fsfw/globalfunctions/math/MatrixOperations.h>
 #include <fsfw/globalfunctions/math/QuaternionOperations.h>
 #include <fsfw/globalfunctions/math/VectorOperations.h>
 #include <mission/controller/acs/AcsParameters.h>
 #include <mission/controller/acs/SensorValues.h>
 #include <mission/controller/controllerdefinitions/AcsCtrlDefinitions.h>
-#include "../controllerdefinitions/AcsCtrlDefinitions.h"
+#include <cmath>
-#include "AcsParameters.h"
+#include <filesystem>
-#include "SensorValues.h"
+#include <string>
 class Guidance {
 public:
@ -14,33 +21,22 @@ class Guidance {
  void getTargetParamsSafe(double sunTargetSafe[3]);
  ReturnValue_t solarArrayDeploymentComplete();
  void resetValues();
-  // Function to get the target quaternion and reference rotation rate from gps position and
+  void targetQuatPtgIdle(timeval timeAbsolute, const double timeDelta, const double sunDirI[3],
-  // position of the ground station
+                         const double posSatF[4], double targetQuat[4], double targetSatRotRate[3]);
-  void targetQuatPtgSingleAxis(timeval now, double posSatE[3], double velSatE[3], double sunDirI[3],
+  void targetQuatPtgTarget(timeval timeAbsolute, const double timeDelta, const double posSatF[3],
-                               double refDirB[3], double quatBI[4], double targetQuat[4],
+                           const double velSatE[3], double quatIX[4], double targetSatRotRate[3]);
-                               double targetSatRotRate[3]);
+  void targetQuatPtgGs(timeval timeAbsolute, const double timeDelta, const double posSatF[3],
-  void targetQuatPtgThreeAxes(timeval now, double posSatE[3], double velSatE[3], double quatIX[4],
+                       const double sunDirI[3], double quatIX[4], double targetSatRotRate[3]);
-                              double targetSatRotRate[3]);
+  void targetQuatPtgNadir(timeval timeAbsolute, const double timeDelta, const double posSatF[3],
-  void targetQuatPtgGs(timeval now, double posSatE[3], double sunDirI[3], double quatIX[4],
+                          const double velSatF[3], double targetQuat[4], double refSatRate[3]);
                       double targetSatRotRate[3]);
-  // Function to get the target quaternion and reference rotation rate for sun pointing after ground
+  void targetRotationRate(const double timeDelta, double quatInertialTarget[4],
-  // station
+                          double *targetSatRotRate);
  void targetQuatPtgSun(timeval now, double sunDirI[3], double targetQuat[4],
                        double targetSatRotRate[3]);
-  // Function to get the target quaternion and refence rotation rate from gps position for Nadir
+  void limitReferenceRotation(const double xAxisIX[3], double quatIX[4]);
  // pointing
  void targetQuatPtgNadirSingleAxis(timeval now, double posSatE[3], double quatBI[4],
                                    double targetQuat[4], double refDirB[3], double refSatRate[3]);
  void targetQuatPtgNadirThreeAxes(timeval now, double posSatE[3], double velSatE[3],
                                   double targetQuat[4], double refSatRate[3]);
  // @note: Calculates the error quaternion between the current orientation and the target
  // quaternion, considering a reference quaternion. Additionally the difference between the actual
  // and a desired satellite rotational rate is calculated, again considering a reference rotational
  // rate. Lastly gives back the error angle of the error quaternion.
  void comparePtg(double currentQuat[4], double currentSatRotRate[3], double targetQuat[4],
                  double targetSatRotRate[3], double refQuat[4], double refSatRotRate[3],
                  double errorQuat[4], double errorSatRotRate[3], double &errorAngle);
@ -48,20 +44,18 @@ class Guidance {
                  double targetSatRotRate[3], double errorQuat[4], double errorSatRotRate[3],
                  double &errorAngle);
-  void targetRotationRate(int8_t timeElapsedMax, timeval now, double quatInertialTarget[4],
+  ReturnValue_t getDistributionMatrixRw(ACS::SensorValues *sensorValues, double *rwPseudoInv,
-                          double *targetSatRotRate);
+                                        acsctrl::RwAvail *rwAvail);
  // @note: will give back the pseudoinverse matrix for the reaction wheel depending on the valid
  // reation wheel 	maybe can be done in "commanding.h"
  ReturnValue_t getDistributionMatrixRw(ACS::SensorValues *sensorValues, double *rwPseudoInv);
 private:
  const AcsParameters *acsParameters;
  static constexpr double ZERO_VEC3[3] = {0, 0, 0};
  static constexpr double ZERO_VEC4[4] = {0, 0, 0, 0};
  bool strBlindAvoidFlag = false;
-  timeval timeSavedQuaternion;
+  double quatIXprev[4] = {0, 0, 0, 0};
-  double savedQuaternion[4] = {0, 0, 0, 0};
+  double xAxisIXprev[3] = {0, 0, 0};
  double omegaRefSaved[3] = {0, 0, 0};
  static constexpr char SD_0_SKEWED_PTG_FILE[] = "/mnt/sd0/conf/acsDeploymentConfirm";
  static constexpr char SD_1_SKEWED_PTG_FILE[] = "/mnt/sd1/conf/acsDeploymentConfirm";
--- a/mission/controller/acs/Igrf13Model.cpp
+++ b/mission/controller/acs/Igrf13Model.cpp
@ -1,19 +1,5 @@
 #include "Igrf13Model.h"
 #include <fsfw/src/fsfw/globalfunctions/constants.h>
 #include <fsfw/src/fsfw/globalfunctions/math/MatrixOperations.h>
 #include <fsfw/src/fsfw/globalfunctions/math/QuaternionOperations.h>
 #include <fsfw/src/fsfw/globalfunctions/math/VectorOperations.h>
 #include <stdint.h>
 #include <string.h>
 #include <time.h>
 #include <cmath>
 #include "util/MathOperations.h"
 using namespace Math;
 Igrf13Model::Igrf13Model() {}
 Igrf13Model::~Igrf13Model() {}
@ -23,7 +9,7 @@ void Igrf13Model::magFieldComp(const double longitude, const double gcLatitude,
  double magFieldModel[3] = {0, 0, 0};
  double phi = longitude, theta = gcLatitude;  // geocentric
  /* Here is the co-latitude needed*/
-  theta -= 90 * PI / 180;
+  theta -= 90. * M_PI / 180.;
  theta *= (-1);
  double rE = 6371200.0;  // radius earth [m]
@ -83,13 +69,14 @@ void Igrf13Model::magFieldComp(const double longitude, const double gcLatitude,
  magFieldModel[1] *= -1;
  magFieldModel[2] *= (-1 / sin(theta));
-  double JD2000 = MathOperations<double>::convertUnixToJD2000(timeOfMagMeasurement);
+  double JD2000 = 0;
  Clock::convertTimevalToJD2000(timeOfMagMeasurement, &JD2000);
  double UT1 = JD2000 / 36525.;
  double gst =
      280.46061837 + 360.98564736629 * JD2000 + 0.0003875 * pow(UT1, 2) - 2.6e-8 * pow(UT1, 3);
  gst = std::fmod(gst, 360.);
-  gst *= PI / 180.;
+  gst *= M_PI / 180.;
  double lst = gst + longitude;  // local sidereal time [rad]
  magFieldModelInertial[0] =
@ -107,7 +94,8 @@ void Igrf13Model::magFieldComp(const double longitude, const double gcLatitude,
 void Igrf13Model::updateCoeffGH(timeval timeOfMagMeasurement) {
  double JD2000Igrf = (2458850.0 - 2451545);  // Begin of IGRF-13 (2020-01-01,00:00:00) in JD2000
-  double JD2000 = MathOperations<double>::convertUnixToJD2000(timeOfMagMeasurement);
+  double JD2000 = 0;
  Clock::convertTimevalToJD2000(timeOfMagMeasurement, &JD2000);
  double days = ceil(JD2000 - JD2000Igrf);
  for (int i = 0; i <= igrfOrder; i++) {
    for (int j = 0; j <= (igrfOrder - 1); j++) {
--- a/mission/controller/acs/Igrf13Model.h
+++ b/mission/controller/acs/Igrf13Model.h
@ -16,10 +16,11 @@
 #ifndef IGRF13MODEL_H_
 #define IGRF13MODEL_H_
-#include <fsfw/parameters/HasParametersIF.h>
+#include <fsfw/src/fsfw/globalfunctions/constants.h>
-#include <stdint.h>
+#include <fsfw/src/fsfw/globalfunctions/math/MatrixOperations.h>
-#include <string.h>
+#include <fsfw/src/fsfw/globalfunctions/math/QuaternionOperations.h>
-#include <time.h>
+#include <fsfw/src/fsfw/globalfunctions/math/VectorOperations.h>
 #include <fsfw/src/fsfw/timemanager/Clock.h>
 #include <cmath>
--- a/Show More
+++ b/Show More
		`@ -0,0 +1 @@`
							`# target_sources(${OBSW_NAME} PUBLIC <Source File List>)`
		`@ -1 +1 @@`
			`Subproject commit cc3e64e70d90f6a2b5c59215b2569c1771e890f0`				`Subproject commit 42867ad0cba088ab1cb6cb672d001f991f7e4a60`