Swap PL and PS I2C #725

Merged
muellerr merged 20 commits from swap-pl-ps-i2c into main 2023-07-06 15:05:54 +02:00
70 changed files with 1562 additions and 822 deletions
Showing only changes of commit 697a3e8577 - Show all commits

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@ -16,39 +16,143 @@ will consitute of a breaking change warranting a new major release:
# [unreleased]
## Fixed
## Changed
- SUS total vector was not reset to being a zero vector during eclipse due to a wrong `memcpy`
length.
- TMP device FDIR
- Swapped PL and PS I2C, BPX battery and MGT are connected to PS I2C now for firmware versions
above v4. However, this software version ins compatible to both v3 and v4 of the firmware.
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all typos ins now fixed
# [v6.0.0] 2023-07-02
- `q7s-package` version v3.2.0
- Important bugfixes for PTME. See `q7s-package` CHANGELOG.
## Changed
- Swapped PL and PS I2C, BPX battery and MGT are connected to PS I2C now.
## Added
- Added TMP devices for EM build.
# [v4.0.0] to be released
- `eive-tmtc` version v4.0.0
- `q7s-package` version v3.0.0
- Added back PTME busy bit polling. This is necessary due to changes to the AXI APB interface
to the PTME core.
## Fixed
- For the live channel (VC0), telemetry was still only dumped if the transmitter is active.
Please note that this fix will lead to crashes for FW versions below v3.2.
However, it might not be an issue for the oldest firmware on the satellite (v2.5.1).
# [v5.2.0] 2023-07-02
## Fixed
- The firmware information event was not triggered even when possible because of an ordering
bug in the initializer function.
- Empty dumps (no TM in time range) will now correctly be completed immediately
## Changed
- PTME was always reset on submode changes. The reset will now only be performed if the actual data
rate changes.
- Add back ACS board code for the EM. Now that the radiation sensor was removed, the image switching
issue has disappeared and adding back the ACS board is worth it for the GPS timekeeping.
# [v5.1.0] 2023-06-28
- `eive-tmtc` version v5.1.0
## Changed
- Persistent TM store dumps are now performed in chronological order.
- Increase Syrlinks RX HK rate to 5.0 seconds during a pass.
- Various robustness improvements for the heater handler. The heater handler will now only
process the command queue if it is not busy with switch commanding which reduces the amount
of possible bugs.
- The heater handler is only able to process messages stricly sequentially now but is scheduled
twice in a 0.5 second slot so something like a consecutive heater ON or OFF command can still
be handled relatively quickly.
## Added
- Sequence counters for PUS and CFDP packets are now stored persistently across graceful reboots.
- The PUS packet message type counter will now be incremented properly for each PUS service.
- Internal error reporter set is now enabled by default and generated every 120 seconds.
# [v5.0.0] 2023-06-26
v3.3.1 and all following version will now be moved to v5.0.0 with the additional changes listed
here. This was done because the firmware update (v4.0.0) is not working right now and it is not
known when and how it will be fixed. Because of that, all updates to make the SW work with the new
firmware, which are limited to a few files will be moved to a dev branch so regular development
compatible to the old firmware can continue.
TLDR: This version is compatible to the old firmware and some changes which only work with the new
firmware have been reverted.
## Changed
- Added `sync` syscall in graceful shutdown handler
- Graceful shutdown is now performed by the reboot watchdog
- There is now a separate file for the total reboot counter. The reboot watchdog has its own local
counters to determine whether a reboot is necessary.
# [v4.0.1] 2023-06-24
## Fixed
- `PusLiveDemux` packet demultiplexing bugfix where the demultiplexing did not work when there was
only one destination available.
# [v4.0.0] 2023-06-22
- `eive-tmtc` version v5.0.0
- `q7s-package` version v3.1.1
## Fixed
- CFDP low level protocol bugfix. Requires fsfw update and tmtc update.
- Important bugfixes for PTME. See `q7s-package` CHANGELOG.
- TCS fixes: Set temperature values to invalid value for MAX31865 RTD handler, SUS handler
and STR handler. Also set dataset to invakid for RTD handler.
- Fixed H parameter in SUS converter from 1 mm to 2.5 mm.
## Changed
- Removed PTME busy/ready signals. Those were not used anyway because register reads are used now.
- APB bus access busy checking is not done anymore as this is performed by the bus itself now.
- Core controller will now announce version and image information event in addition to reboot
event in the `inititalize` function.
- Core controller will now try to request and announce the firmware version in addition to the
OBSW version as well.
- Added core controller action to read reboot mechansm information
- GNSS reset pin will now only be asserted for 5 ms instead of 100 ms.
## Added
- Added PL I2C reset pin. It is not used for now but could be used for FDIR procedures to restore
the PL I2C.
- Added PL I2C reset pin. It is not used/connected for now but could be used for FDIR procedures to
restore the PL I2C.
- Core controller now announces firmware version as well when requesting a version info event
# [v3.3.1] 2023-06-22
## Fixed
- `PusLiveDemux` packet demultiplexing bugfix where the demultiplexing did not work when there was
only one destination available.
## Fixed
- Fixed H parameter in SUS converter from 1 mm to 2.5 mm.
# [v3.3.0] 2023-06-21
Like v3.2.0 but without the custom FM changes related to VC0.
# [v3.2.0] 2023-06-21
## Fixed
- Fix sun vector calculation
- SUS total vector was not reset to being a zero vector during eclipse due to a wrong memcpy
length.
## Changed
- Reverted all changes related to VC0 handling to avoid FM bug possibly related to FPGA bug.
# [v3.1.1] 2023-06-14
@ -172,7 +276,6 @@ will consitute of a breaking change warranting a new major release:
# [v2.0.5] 2023-05-11
- The dual lane assembly transition failed handler started new transitions towards the current mode
instead of the target mode. This means that if the dual lane assembly never reached the initial
submode (e.g. mode normal and submode dual side), it will transition back to the current mode,

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@ -9,7 +9,7 @@
# ##############################################################################
cmake_minimum_required(VERSION 3.13)
set(OBSW_VERSION_MAJOR 4)
set(OBSW_VERSION_MAJOR 6)
set(OBSW_VERSION_MINOR 0)
set(OBSW_VERSION_REVISION 0)
@ -105,7 +105,7 @@ set(OBSW_ADD_THERMAL_TEMP_INSERTER
${OBSW_Q7S_EM}
CACHE STRING "Add thermal sensor temperature inserter")
set(OBSW_ADD_ACS_BOARD
${INIT_VAL}
1
CACHE STRING "Add ACS board module")
set(OBSW_ADD_GPS_CTRL
${INIT_VAL}

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@ -964,6 +964,12 @@ used by other software components to read the current chip and copy.
This is a configuration scripts which runs after the Network Time Protocol has run. This script
currently sets the static IP address `192.168.133.10` and starts the `can` interface.
## Initial boot delay
You can create a file named `boot_delays_secs.txt` inside the home folder to delay the OBSW boot
for 6 seconds if the file is empty of for the number of seconds specified inside the file. This
can be helpful if something inside the OBSW leads to an immediate crash of the OBC.
## PCDU
Connect to serial console of P60 Dock

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@ -68,7 +68,7 @@ void ObjectFactory::produce(void* args) {
#endif
auto sdcMan = new DummySdCardManager("/tmp");
ObjectFactory::produceGenericObjects(nullptr, &pusFunnel, &cfdpFunnel, *sdcMan, &ipcStore,
&tmStore, persistentStores, 120);
&tmStore, persistentStores, 120, enableHkSets);
new TmFunnelHandler(objects::LIVE_TM_TASK, *pusFunnel, *cfdpFunnel);
auto* dummyGpioIF = new DummyGpioIF();

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@ -1,7 +1,7 @@
/**
* @brief Auto-generated event translation file. Contains 295 translations.
* @brief Auto-generated event translation file. Contains 296 translations.
* @details
* Generated on: 2023-05-17 17:15:34
* Generated on: 2023-06-21 19:01:02
*/
#include "translateEvents.h"
@ -277,6 +277,7 @@ const char *INDIVIDUAL_BOOT_COUNTS_STRING = "INDIVIDUAL_BOOT_COUNTS";
const char *TRYING_I2C_RECOVERY_STRING = "TRYING_I2C_RECOVERY";
const char *I2C_REBOOT_STRING = "I2C_REBOOT";
const char *PDEC_REBOOT_STRING = "PDEC_REBOOT";
const char *FIRMWARE_INFO_STRING = "FIRMWARE_INFO";
const char *NO_VALID_SENSOR_TEMPERATURE_STRING = "NO_VALID_SENSOR_TEMPERATURE";
const char *NO_HEALTHY_HEATER_AVAILABLE_STRING = "NO_HEALTHY_HEATER_AVAILABLE";
const char *SYRLINKS_OVERHEATING_STRING = "SYRLINKS_OVERHEATING";
@ -847,6 +848,8 @@ const char *translateEvents(Event event) {
return I2C_REBOOT_STRING;
case (14012):
return PDEC_REBOOT_STRING;
case (14013):
return FIRMWARE_INFO_STRING;
case (14100):
return NO_VALID_SENSOR_TEMPERATURE_STRING;
case (14101):

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@ -2,7 +2,7 @@
* @brief Auto-generated object translation file.
* @details
* Contains 171 translations.
* Generated on: 2023-05-17 17:15:34
* Generated on: 2023-06-21 19:01:02
*/
#include "translateObjects.h"

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@ -23,6 +23,7 @@ static constexpr char UART_SCEX_DEV[] = "/dev/scex";
static constexpr char UIO_PDEC_REGISTERS[] = "/dev/uio_pdec_regs";
static constexpr char UIO_PTME[] = "/dev/uio_ptme";
static constexpr char UIO_PDEC_CONFIG_MEMORY[] = "/dev/uio_pdec_cfg_mem";
static constexpr char UIO_SYS_ROM[] = "/dev/uio_sys_rom";
static constexpr char UIO_PDEC_RAM[] = "/dev/uio_pdec_ram";
static constexpr char UIO_PDEC_IRQ[] = "/dev/uio_pdec_irq";
static constexpr int MAP_ID_PTME_CONFIG = 3;

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@ -4,6 +4,7 @@
#include <fsfw/filesystem/HasFileSystemIF.h>
#include <fsfw/ipc/QueueFactory.h>
#include <fsfw/tasks/TaskFactory.h>
#include <fsfw_hal/linux/uio/UioMapper.h>
#include "commonConfig.h"
#include "fsfw/serviceinterface/ServiceInterface.h"
@ -22,6 +23,7 @@
#include <algorithm>
#include <filesystem>
#include "bsp_q7s/boardconfig/busConf.h"
#include "bsp_q7s/fs/SdCardManager.h"
#include "bsp_q7s/memory/scratchApi.h"
#include "bsp_q7s/xadc/Xadc.h"
@ -168,7 +170,6 @@ ReturnValue_t CoreController::initialize() {
sdStateMachine();
triggerEvent(core::REBOOT_SW, CURRENT_CHIP, CURRENT_COPY);
EventManagerIF *eventManager =
ObjectManager::instance()->get<EventManagerIF>(objects::EVENT_MANAGER);
if (eventManager == nullptr or eventQueue == nullptr) {
@ -185,7 +186,22 @@ ReturnValue_t CoreController::initialize() {
if (result != returnvalue::OK) {
sif::warning << "Subscribing for GPS GPS_FIX_CHANGE event failed" << std::endl;
}
return returnvalue::OK;
triggerEvent(core::REBOOT_SW, CURRENT_CHIP, CURRENT_COPY);
announceCurrentImageInfo();
// This has to come before the version announce because it might be required for retrieving
// the firmware version.
if (common::OBSW_VERSION_MAJOR >= 6 or common::OBSW_VERSION_MAJOR == 4) {
UioMapper sysRomMapper(q7s::UIO_SYS_ROM);
result = sysRomMapper.getMappedAdress(&mappedSysRomAddr, UioMapper::Permissions::READ_ONLY);
if (result != returnvalue::OK) {
// TODO: This might be a reason to switch to another image..
sif::error << "Getting mapped SYS ROM UIO address failed" << std::endl;
result = ObjectManager::CHILD_INIT_FAILED;
}
}
announceVersionInfo();
return result;
}
ReturnValue_t CoreController::initializeAfterTaskCreation() {
@ -210,19 +226,7 @@ ReturnValue_t CoreController::executeAction(ActionId_t actionId, MessageQueueId_
using namespace core;
switch (actionId) {
case (ANNOUNCE_VERSION): {
uint32_t p1 = (common::OBSW_VERSION_MAJOR << 24) | (common::OBSW_VERSION_MINOR << 16) |
(common::OBSW_VERSION_REVISION << 8);
uint32_t p2 = 0;
if (strcmp("", common::OBSW_VERSION_CST_GIT_SHA1) != 0) {
p1 |= 1;
auto shaAsStr = std::string(common::OBSW_VERSION_CST_GIT_SHA1);
size_t posDash = shaAsStr.find("-");
auto gitHash = shaAsStr.substr(posDash + 2, 4);
// Only copy first 4 letters of git hash
memcpy(&p2, gitHash.c_str(), 4);
}
triggerEvent(VERSION_INFO, p1, p2);
announceVersionInfo();
return HasActionsIF::EXECUTION_FINISHED;
}
case (ANNOUNCE_BOOT_COUNTS): {
@ -230,7 +234,7 @@ ReturnValue_t CoreController::executeAction(ActionId_t actionId, MessageQueueId_
return HasActionsIF::EXECUTION_FINISHED;
}
case (ANNOUNCE_CURRENT_IMAGE): {
triggerEvent(CURRENT_IMAGE_INFO, CURRENT_CHIP, CURRENT_COPY);
announceCurrentImageInfo();
return HasActionsIF::EXECUTION_FINISHED;
}
case (LIST_DIRECTORY_INTO_FILE): {
@ -246,6 +250,9 @@ ReturnValue_t CoreController::executeAction(ActionId_t actionId, MessageQueueId_
return result;
}
std::ostringstream oss("cp ", std::ostringstream::ate);
if (parser.isForceOptSet()) {
oss << "-f ";
}
if (parser.isRecursiveOptSet()) {
oss << "-r ";
}
@ -318,28 +325,38 @@ ReturnValue_t CoreController::executeAction(ActionId_t actionId, MessageQueueId_
if (size < 1) {
return HasActionsIF::INVALID_PARAMETERS;
}
std::string path = sdcMan->getCurrentMountPrefix() + REBOOT_FILE;
// Disable the reboot file mechanism
parseRebootFile(path, rebootFile);
std::string path = sdcMan->getCurrentMountPrefix() + REBOOT_WATCHDOG_FILE;
parseRebootWatchdogFile(path, rebootWatchdogFile);
if (data[0] == 0) {
rebootFile.enabled = false;
rewriteRebootFile(rebootFile);
rebootWatchdogFile.enabled = false;
rewriteRebootWatchdogFile(rebootWatchdogFile);
} else if (data[0] == 1) {
rebootFile.enabled = true;
rewriteRebootFile(rebootFile);
rebootWatchdogFile.enabled = true;
rewriteRebootWatchdogFile(rebootWatchdogFile);
} else {
return HasActionsIF::INVALID_PARAMETERS;
}
return HasActionsIF::EXECUTION_FINISHED;
}
case (READ_REBOOT_MECHANISM_INFO): {
std::string path = sdcMan->getCurrentMountPrefix() + REBOOT_WATCHDOG_FILE;
parseRebootWatchdogFile(path, rebootWatchdogFile);
RebootWatchdogPacket packet(rebootWatchdogFile);
ReturnValue_t result = actionHelper.reportData(commandedBy, actionId, &packet);
if (result != returnvalue::OK) {
return result;
}
return HasActionsIF::EXECUTION_FINISHED;
}
case (RESET_REBOOT_COUNTERS): {
if (size == 0) {
resetRebootCount(xsc::ALL_CHIP, xsc::ALL_COPY);
resetRebootWatchdogCounters(xsc::ALL_CHIP, xsc::ALL_COPY);
} else if (size == 2) {
if (data[0] > 1 or data[1] > 1) {
return HasActionsIF::INVALID_PARAMETERS;
}
resetRebootCount(static_cast<xsc::Chip>(data[0]), static_cast<xsc::Copy>(data[1]));
resetRebootWatchdogCounters(static_cast<xsc::Chip>(data[0]),
static_cast<xsc::Copy>(data[1]));
}
return HasActionsIF::EXECUTION_FINISHED;
}
@ -434,11 +451,11 @@ ReturnValue_t CoreController::executeAction(ActionId_t actionId, MessageQueueId_
if (size < 1) {
return HasActionsIF::INVALID_PARAMETERS;
}
std::string path = sdcMan->getCurrentMountPrefix() + REBOOT_FILE;
std::string path = sdcMan->getCurrentMountPrefix() + REBOOT_WATCHDOG_FILE;
// Disable the reboot file mechanism
parseRebootFile(path, rebootFile);
rebootFile.maxCount = data[0];
rewriteRebootFile(rebootFile);
parseRebootWatchdogFile(path, rebootWatchdogFile);
rebootWatchdogFile.maxCount = data[0];
rewriteRebootWatchdogFile(rebootWatchdogFile);
return HasActionsIF::EXECUTION_FINISHED;
}
case (XSC_REBOOT_OBC): {
@ -1196,45 +1213,7 @@ ReturnValue_t CoreController::actionXscReboot(const uint8_t *data, size_t size)
auto tgtChip = static_cast<xsc::Chip>(data[1]);
auto tgtCopy = static_cast<xsc::Copy>(data[2]);
// This function can not really fail
gracefulShutdownTasks(tgtChip, tgtCopy, protOpPerformed);
switch (tgtChip) {
case (xsc::Chip::CHIP_0): {
switch (tgtCopy) {
case (xsc::Copy::COPY_0): {
xsc_boot_copy(XSC_LIBNOR_CHIP_0, XSC_LIBNOR_COPY_NOMINAL);
break;
}
case (xsc::Copy::COPY_1): {
xsc_boot_copy(XSC_LIBNOR_CHIP_0, XSC_LIBNOR_COPY_GOLD);
break;
}
default: {
break;
}
}
break;
}
case (xsc::Chip::CHIP_1): {
switch (tgtCopy) {
case (xsc::Copy::COPY_0): {
xsc_boot_copy(XSC_LIBNOR_CHIP_1, XSC_LIBNOR_COPY_NOMINAL);
break;
}
case (xsc::Copy::COPY_1): {
xsc_boot_copy(XSC_LIBNOR_CHIP_1, XSC_LIBNOR_COPY_GOLD);
break;
}
default: {
break;
}
}
break;
}
default:
break;
}
performGracefulShutdown(tgtChip, tgtCopy);
return returnvalue::FAILED;
}
@ -1247,14 +1226,23 @@ ReturnValue_t CoreController::actionReboot(const uint8_t *data, size_t size) {
ReturnValue_t CoreController::gracefulShutdownTasks(xsc::Chip chip, xsc::Copy copy,
bool &protOpPerformed) {
// Store both sequence counters persistently.
core::SAVE_CFDP_SEQUENCE_COUNT = true;
core::SAVE_PUS_SEQUENCE_COUNT = true;
sdcMan->setBlocking(true);
sdcMan->markUnusable();
// Wait two seconds to ensure no one uses the SD cards
TaskFactory::delayTask(2000);
// Ensure that all writes/reads do finish.
sync();
// Attempt graceful shutdown by unmounting and switching off SD cards
sdcMan->switchOffSdCard(sd::SdCard::SLOT_0);
sdcMan->switchOffSdCard(sd::SdCard::SLOT_1);
// If any boot copies are unprotected
// If any boot copies are unprotected.
// Actually this function only ensures that reboots to the own image are protected..
ReturnValue_t result = setBootCopyProtection(xsc::Chip::SELF_CHIP, xsc::Copy::SELF_COPY, true,
protOpPerformed, false);
if (result == returnvalue::OK and protOpPerformed) {
@ -1543,7 +1531,8 @@ void CoreController::performMountedSdCardOperations() {
if (not timeFileInitDone) {
initClockFromTimeFile();
}
performRebootFileHandling(false);
performRebootWatchdogHandling(false);
performRebootCountersHandling(false);
}
backupTimeFileHandler();
};
@ -1615,118 +1604,127 @@ ReturnValue_t CoreController::performSdCardCheck() {
return returnvalue::OK;
}
void CoreController::performRebootFileHandling(bool recreateFile) {
void CoreController::performRebootWatchdogHandling(bool recreateFile) {
using namespace std;
std::string path = currMntPrefix + REBOOT_FILE;
std::string path = currMntPrefix + REBOOT_WATCHDOG_FILE;
std::string legacyPath = currMntPrefix + LEGACY_REBOOT_WATCHDOG_FILE;
std::error_code e;
// TODO: Remove at some point in the future.
if (std::filesystem::exists(legacyPath, e)) {
// Old file might still exist, so copy it to new path
std::filesystem::copy(legacyPath, path, std::filesystem::copy_options::overwrite_existing, e);
if (e) {
sif::error << "File copy has failed: " << e.message() << std::endl;
}
}
if (not std::filesystem::exists(path, e) or recreateFile) {
#if OBSW_VERBOSE_LEVEL >= 1
sif::info << "CoreController::performRebootFileHandling: Recreating reboot file" << std::endl;
sif::info << "CoreController::performRebootFileHandling: Recreating reboot watchdog file"
<< std::endl;
#endif
rebootFile.enabled = false;
rebootFile.img00Cnt = 0;
rebootFile.img01Cnt = 0;
rebootFile.img10Cnt = 0;
rebootFile.img11Cnt = 0;
rebootFile.lastChip = xsc::Chip::CHIP_0;
rebootFile.lastCopy = xsc::Copy::COPY_0;
rebootFile.img00Lock = false;
rebootFile.img01Lock = false;
rebootFile.img10Lock = false;
rebootFile.img11Lock = false;
rebootFile.mechanismNextChip = xsc::Chip::NO_CHIP;
rebootFile.mechanismNextCopy = xsc::Copy::NO_COPY;
rebootFile.bootFlag = false;
rewriteRebootFile(rebootFile);
rebootWatchdogFile.enabled = false;
rebootWatchdogFile.img00Cnt = 0;
rebootWatchdogFile.img01Cnt = 0;
rebootWatchdogFile.img10Cnt = 0;
rebootWatchdogFile.img11Cnt = 0;
rebootWatchdogFile.lastChip = xsc::Chip::CHIP_0;
rebootWatchdogFile.lastCopy = xsc::Copy::COPY_0;
rebootWatchdogFile.img00Lock = false;
rebootWatchdogFile.img01Lock = false;
rebootWatchdogFile.img10Lock = false;
rebootWatchdogFile.img11Lock = false;
rebootWatchdogFile.mechanismNextChip = xsc::Chip::NO_CHIP;
rebootWatchdogFile.mechanismNextCopy = xsc::Copy::NO_COPY;
rebootWatchdogFile.bootFlag = false;
rewriteRebootWatchdogFile(rebootWatchdogFile);
} else {
if (not parseRebootFile(path, rebootFile)) {
performRebootFileHandling(true);
if (not parseRebootWatchdogFile(path, rebootWatchdogFile)) {
performRebootWatchdogHandling(true);
return;
}
}
if (CURRENT_CHIP == xsc::CHIP_0) {
if (CURRENT_COPY == xsc::COPY_0) {
rebootFile.img00Cnt++;
rebootWatchdogFile.img00Cnt++;
} else {
rebootFile.img01Cnt++;
rebootWatchdogFile.img01Cnt++;
}
} else {
if (CURRENT_COPY == xsc::COPY_0) {
rebootFile.img10Cnt++;
rebootWatchdogFile.img10Cnt++;
} else {
rebootFile.img11Cnt++;
rebootWatchdogFile.img11Cnt++;
}
}
if (rebootFile.bootFlag) {
if (rebootWatchdogFile.bootFlag) {
// Trigger event to inform ground that a reboot was triggered
uint32_t p1 = rebootFile.lastChip << 16 | rebootFile.lastCopy;
uint32_t p1 = rebootWatchdogFile.lastChip << 16 | rebootWatchdogFile.lastCopy;
triggerEvent(core::REBOOT_MECHANISM_TRIGGERED, p1, 0);
// Clear the boot flag
rebootFile.bootFlag = false;
rebootWatchdogFile.bootFlag = false;
}
announceBootCounts();
if (rebootFile.mechanismNextChip != xsc::NO_CHIP and
rebootFile.mechanismNextCopy != xsc::NO_COPY) {
if (CURRENT_CHIP != rebootFile.mechanismNextChip or
CURRENT_COPY != rebootFile.mechanismNextCopy) {
std::string infoString = std::to_string(rebootFile.mechanismNextChip) + " " +
std::to_string(rebootFile.mechanismNextCopy);
if (rebootWatchdogFile.mechanismNextChip != xsc::NO_CHIP and
rebootWatchdogFile.mechanismNextCopy != xsc::NO_COPY) {
if (CURRENT_CHIP != rebootWatchdogFile.mechanismNextChip or
CURRENT_COPY != rebootWatchdogFile.mechanismNextCopy) {
std::string infoString = std::to_string(rebootWatchdogFile.mechanismNextChip) + " " +
std::to_string(rebootWatchdogFile.mechanismNextCopy);
sif::warning << "CoreController::performRebootFileHandling: Expected to be on image "
<< infoString << " but currently on other image. Locking " << infoString
<< std::endl;
// Firmware or other component might be corrupt and we are on another image then the target
// image specified by the mechanism. We can't really trust the target image anymore.
// Lock it for now
if (rebootFile.mechanismNextChip == xsc::CHIP_0) {
if (rebootFile.mechanismNextCopy == xsc::COPY_0) {
rebootFile.img00Lock = true;
if (rebootWatchdogFile.mechanismNextChip == xsc::CHIP_0) {
if (rebootWatchdogFile.mechanismNextCopy == xsc::COPY_0) {
rebootWatchdogFile.img00Lock = true;
} else {
rebootFile.img01Lock = true;
rebootWatchdogFile.img01Lock = true;
}
} else {
if (rebootFile.mechanismNextCopy == xsc::COPY_0) {
rebootFile.img10Lock = true;
if (rebootWatchdogFile.mechanismNextCopy == xsc::COPY_0) {
rebootWatchdogFile.img10Lock = true;
} else {
rebootFile.img11Lock = true;
rebootWatchdogFile.img11Lock = true;
}
}
}
}
rebootFile.lastChip = CURRENT_CHIP;
rebootFile.lastCopy = CURRENT_COPY;
rebootWatchdogFile.lastChip = CURRENT_CHIP;
rebootWatchdogFile.lastCopy = CURRENT_COPY;
// Only reboot if the reboot functionality is enabled.
// The handler will still increment the boot counts
if (rebootFile.enabled and (*rebootFile.relevantBootCnt >= rebootFile.maxCount)) {
if (rebootWatchdogFile.enabled and
(*rebootWatchdogFile.relevantBootCnt >= rebootWatchdogFile.maxCount)) {
// Reboot to other image
bool doReboot = false;
xsc::Chip tgtChip = xsc::NO_CHIP;
xsc::Copy tgtCopy = xsc::NO_COPY;
determineAndExecuteReboot(rebootFile, doReboot, tgtChip, tgtCopy);
rebootWatchdogAlgorithm(rebootWatchdogFile, doReboot, tgtChip, tgtCopy);
if (doReboot) {
rebootFile.bootFlag = true;
rebootWatchdogFile.bootFlag = true;
#if OBSW_VERBOSE_LEVEL >= 1
sif::info << "Boot counter for image " << CURRENT_CHIP << " " << CURRENT_COPY
<< " too high. Rebooting to " << tgtChip << " " << tgtCopy << std::endl;
#endif
rebootFile.mechanismNextChip = tgtChip;
rebootFile.mechanismNextCopy = tgtCopy;
rewriteRebootFile(rebootFile);
xsc_boot_copy(static_cast<xsc_libnor_chip_t>(tgtChip),
static_cast<xsc_libnor_copy_t>(tgtCopy));
rebootWatchdogFile.mechanismNextChip = tgtChip;
rebootWatchdogFile.mechanismNextCopy = tgtCopy;
rewriteRebootWatchdogFile(rebootWatchdogFile);
performGracefulShutdown(tgtChip, tgtCopy);
}
} else {
rebootFile.mechanismNextChip = xsc::NO_CHIP;
rebootFile.mechanismNextCopy = xsc::NO_COPY;
rebootWatchdogFile.mechanismNextChip = xsc::NO_CHIP;
rebootWatchdogFile.mechanismNextCopy = xsc::NO_COPY;
}
rewriteRebootFile(rebootFile);
rewriteRebootWatchdogFile(rebootWatchdogFile);
}
void CoreController::determineAndExecuteReboot(RebootFile &rf, bool &needsReboot,
xsc::Chip &tgtChip, xsc::Copy &tgtCopy) {
void CoreController::rebootWatchdogAlgorithm(RebootWatchdogFile &rf, bool &needsReboot,
xsc::Chip &tgtChip, xsc::Copy &tgtCopy) {
tgtChip = xsc::CHIP_0;
tgtCopy = xsc::COPY_0;
needsReboot = false;
@ -1814,7 +1812,7 @@ void CoreController::determineAndExecuteReboot(RebootFile &rf, bool &needsReboot
}
}
bool CoreController::parseRebootFile(std::string path, RebootFile &rf) {
bool CoreController::parseRebootWatchdogFile(std::string path, RebootWatchdogFile &rf) {
using namespace std;
std::string selfMatch;
if (CURRENT_CHIP == xsc::CHIP_0) {
@ -1996,68 +1994,174 @@ bool CoreController::parseRebootFile(std::string path, RebootFile &rf) {
return true;
}
void CoreController::resetRebootCount(xsc::Chip tgtChip, xsc::Copy tgtCopy) {
std::string path = currMntPrefix + REBOOT_FILE;
// Disable the reboot file mechanism
parseRebootFile(path, rebootFile);
bool CoreController::parseRebootCountersFile(std::string path, RebootCountersFile &rf) {
using namespace std;
ifstream file(path);
string word;
string line;
uint8_t lineIdx = 0;
while (std::getline(file, line)) {
istringstream iss(line);
switch (lineIdx) {
case 0: {
iss >> word;
if (word.find("img00:") == string::npos) {
return false;
}
iss >> rf.img00Cnt;
break;
}
case 1: {
iss >> word;
if (word.find("img01:") == string::npos) {
return false;
}
iss >> rf.img01Cnt;
break;
}
case 2: {
iss >> word;
if (word.find("img10:") == string::npos) {
return false;
}
iss >> rf.img10Cnt;
break;
}
case 3: {
iss >> word;
if (word.find("img11:") == string::npos) {
return false;
}
iss >> rf.img11Cnt;
break;
}
}
lineIdx++;
}
return true;
}
void CoreController::resetRebootWatchdogCounters(xsc::Chip tgtChip, xsc::Copy tgtCopy) {
std::string path = currMntPrefix + REBOOT_WATCHDOG_FILE;
parseRebootWatchdogFile(path, rebootWatchdogFile);
if (tgtChip == xsc::ALL_CHIP and tgtCopy == xsc::ALL_COPY) {
rebootFile.img00Cnt = 0;
rebootFile.img01Cnt = 0;
rebootFile.img10Cnt = 0;
rebootFile.img11Cnt = 0;
rebootWatchdogFile.img00Cnt = 0;
rebootWatchdogFile.img01Cnt = 0;
rebootWatchdogFile.img10Cnt = 0;
rebootWatchdogFile.img11Cnt = 0;
} else {
if (tgtChip == xsc::CHIP_0) {
if (tgtCopy == xsc::COPY_0) {
rebootFile.img00Cnt = 0;
rebootWatchdogFile.img00Cnt = 0;
} else {
rebootFile.img01Cnt = 0;
rebootWatchdogFile.img01Cnt = 0;
}
} else {
if (tgtCopy == xsc::COPY_0) {
rebootFile.img10Cnt = 0;
rebootWatchdogFile.img10Cnt = 0;
} else {
rebootFile.img11Cnt = 0;
rebootWatchdogFile.img11Cnt = 0;
}
}
}
rewriteRebootFile(rebootFile);
rewriteRebootWatchdogFile(rebootWatchdogFile);
}
void CoreController::rewriteRebootFile(RebootFile file) {
std::string path = currMntPrefix + REBOOT_FILE;
void CoreController::performRebootCountersHandling(bool recreateFile) {
std::string path = currMntPrefix + REBOOT_COUNTERS_FILE;
std::error_code e;
if (not std::filesystem::exists(path, e) or recreateFile) {
#if OBSW_VERBOSE_LEVEL >= 1
sif::info << "CoreController::performRebootFileHandling: Recreating reboot counters file"
<< std::endl;
#endif
rebootCountersFile.img00Cnt = 0;
rebootCountersFile.img01Cnt = 0;
rebootCountersFile.img10Cnt = 0;
rebootCountersFile.img11Cnt = 0;
rewriteRebootCountersFile(rebootCountersFile);
} else {
if (not parseRebootCountersFile(path, rebootCountersFile)) {
performRebootCountersHandling(true);
return;
}
}
if (CURRENT_CHIP == xsc::CHIP_0) {
if (CURRENT_COPY == xsc::COPY_0) {
rebootCountersFile.img00Cnt++;
} else {
rebootCountersFile.img01Cnt++;
}
} else {
if (CURRENT_COPY == xsc::COPY_0) {
rebootCountersFile.img10Cnt++;
} else {
rebootCountersFile.img11Cnt++;
}
}
announceBootCounts();
rewriteRebootCountersFile(rebootCountersFile);
}
void CoreController::rewriteRebootWatchdogFile(RebootWatchdogFile file) {
using namespace std::filesystem;
std::string path = currMntPrefix + REBOOT_WATCHDOG_FILE;
std::string legacyPath = currMntPrefix + LEGACY_REBOOT_WATCHDOG_FILE;
{
std::ofstream rebootFile(path);
if (rebootFile.is_open()) {
// Initiate reboot file first. Reboot handling will be on on initialization
rebootFile << "on: " << file.enabled << "\nmaxcnt: " << file.maxCount
<< "\nimg00: " << file.img00Cnt << "\nimg01: " << file.img01Cnt
<< "\nimg10: " << file.img10Cnt << "\nimg11: " << file.img11Cnt
<< "\nimg00lock: " << file.img00Lock << "\nimg01lock: " << file.img01Lock
<< "\nimg10lock: " << file.img10Lock << "\nimg11lock: " << file.img11Lock
<< "\nbootflag: " << file.bootFlag << "\nlast: " << static_cast<int>(file.lastChip)
<< " " << static_cast<int>(file.lastCopy)
<< "\nnext: " << static_cast<int>(file.mechanismNextChip) << " "
<< static_cast<int>(file.mechanismNextCopy) << "\n";
}
}
std::error_code e;
// TODO: Remove at some point in the future when all images have been updated.
if (std::filesystem::exists(legacyPath)) {
// Keep those two files in sync
std::filesystem::copy(path, legacyPath, std::filesystem::copy_options::overwrite_existing, e);
if (e) {
sif::error << "File copy has failed: " << e.message() << std::endl;
}
}
}
void CoreController::rewriteRebootCountersFile(RebootCountersFile file) {
std::string path = currMntPrefix + REBOOT_COUNTERS_FILE;
std::ofstream rebootFile(path);
if (rebootFile.is_open()) {
// Initiate reboot file first. Reboot handling will be on on initialization
rebootFile << "on: " << file.enabled << "\nmaxcnt: " << file.maxCount
<< "\nimg00: " << file.img00Cnt << "\nimg01: " << file.img01Cnt
<< "\nimg10: " << file.img10Cnt << "\nimg11: " << file.img11Cnt
<< "\nimg00lock: " << file.img00Lock << "\nimg01lock: " << file.img01Lock
<< "\nimg10lock: " << file.img10Lock << "\nimg11lock: " << file.img11Lock
<< "\nbootflag: " << file.bootFlag << "\nlast: " << static_cast<int>(file.lastChip)
<< " " << static_cast<int>(file.lastCopy)
<< "\nnext: " << static_cast<int>(file.mechanismNextChip) << " "
<< static_cast<int>(file.mechanismNextCopy) << "\n";
rebootFile << "img00: " << file.img00Cnt << "\nimg01: " << file.img01Cnt
<< "\nimg10: " << file.img10Cnt << "\nimg11: " << file.img11Cnt << "\n";
}
}
void CoreController::setRebootMechanismLock(bool lock, xsc::Chip tgtChip, xsc::Copy tgtCopy) {
std::string path = currMntPrefix + REBOOT_FILE;
// Disable the reboot file mechanism
parseRebootFile(path, rebootFile);
std::string path = currMntPrefix + REBOOT_WATCHDOG_FILE;
parseRebootWatchdogFile(path, rebootWatchdogFile);
if (tgtChip == xsc::CHIP_0) {
if (tgtCopy == xsc::COPY_0) {
rebootFile.img00Lock = lock;
rebootWatchdogFile.img00Lock = lock;
} else {
rebootFile.img01Lock = lock;
rebootWatchdogFile.img01Lock = lock;
}
} else {
if (tgtCopy == xsc::COPY_0) {
rebootFile.img10Lock = lock;
rebootWatchdogFile.img10Lock = lock;
} else {
rebootFile.img11Lock = lock;
rebootWatchdogFile.img11Lock = lock;
}
}
rewriteRebootFile(rebootFile);
rewriteRebootWatchdogFile(rebootWatchdogFile);
}
ReturnValue_t CoreController::backupTimeFileHandler() {
@ -2344,10 +2448,12 @@ bool CoreController::startSdStateMachine(sd::SdCard targetActiveSd, SdCfgMode mo
}
void CoreController::announceBootCounts() {
uint64_t totalBootCount =
rebootFile.img00Cnt + rebootFile.img01Cnt + rebootFile.img10Cnt + rebootFile.img11Cnt;
uint32_t individualBootCountsP1 = (rebootFile.img00Cnt << 16) | rebootFile.img01Cnt;
uint32_t individualBootCountsP2 = (rebootFile.img10Cnt << 16) | rebootFile.img11Cnt;
uint64_t totalBootCount = rebootCountersFile.img00Cnt + rebootCountersFile.img01Cnt +
rebootCountersFile.img10Cnt + rebootCountersFile.img11Cnt;
uint32_t individualBootCountsP1 =
(rebootCountersFile.img00Cnt << 16) | rebootCountersFile.img01Cnt;
uint32_t individualBootCountsP2 =
(rebootCountersFile.img10Cnt << 16) | rebootCountersFile.img11Cnt;
triggerEvent(core::INDIVIDUAL_BOOT_COUNTS, individualBootCountsP1, individualBootCountsP2);
triggerEvent(core::REBOOT_COUNTER, (totalBootCount >> 32) & 0xffffffff,
totalBootCount & 0xffffffff);
@ -2405,6 +2511,80 @@ void CoreController::dirListingDumpHandler() {
}
}
void CoreController::announceVersionInfo() {
using namespace core;
uint32_t p1 = (common::OBSW_VERSION_MAJOR << 24) | (common::OBSW_VERSION_MINOR << 16) |
(common::OBSW_VERSION_REVISION << 8);
uint32_t p2 = 0;
if (strcmp("", common::OBSW_VERSION_CST_GIT_SHA1) != 0) {
p1 |= 1;
auto shaAsStr = std::string(common::OBSW_VERSION_CST_GIT_SHA1);
size_t posDash = shaAsStr.find("-");
auto gitHash = shaAsStr.substr(posDash + 2, 4);
// Only copy first 4 letters of git hash
memcpy(&p2, gitHash.c_str(), 4);
}
triggerEvent(VERSION_INFO, p1, p2);
if (common::OBSW_VERSION_MAJOR >= 6 or common::OBSW_VERSION_MAJOR == 4) {
if (mappedSysRomAddr != nullptr) {
uint32_t p1Firmware = *(reinterpret_cast<uint32_t *>(mappedSysRomAddr));
uint32_t p2Firmware = *(reinterpret_cast<uint32_t *>(mappedSysRomAddr) + 1);
triggerEvent(FIRMWARE_INFO, p1Firmware, p2Firmware);
}
}
}
void CoreController::announceCurrentImageInfo() {
using namespace core;
triggerEvent(CURRENT_IMAGE_INFO, CURRENT_CHIP, CURRENT_COPY);
}
ReturnValue_t CoreController::performGracefulShutdown(xsc::Chip tgtChip, xsc::Copy tgtCopy) {
bool protOpPerformed = false;
// This function can not really fail
gracefulShutdownTasks(tgtChip, tgtCopy, protOpPerformed);
switch (tgtChip) {
case (xsc::Chip::CHIP_0): {
switch (tgtCopy) {
case (xsc::Copy::COPY_0): {
xsc_boot_copy(XSC_LIBNOR_CHIP_0, XSC_LIBNOR_COPY_NOMINAL);
break;
}
case (xsc::Copy::COPY_1): {
xsc_boot_copy(XSC_LIBNOR_CHIP_0, XSC_LIBNOR_COPY_GOLD);
break;
}
default: {
break;
}
}
break;
}
case (xsc::Chip::CHIP_1): {
switch (tgtCopy) {
case (xsc::Copy::COPY_0): {
xsc_boot_copy(XSC_LIBNOR_CHIP_1, XSC_LIBNOR_COPY_NOMINAL);
break;
}
case (xsc::Copy::COPY_1): {
xsc_boot_copy(XSC_LIBNOR_CHIP_1, XSC_LIBNOR_COPY_GOLD);
break;
}
default: {
break;
}
}
break;
}
default:
break;
}
return returnvalue::OK;
}
bool CoreController::isNumber(const std::string &s) {
return !s.empty() && std::find_if(s.begin(), s.end(),
[](unsigned char c) { return !std::isdigit(c); }) == s.end();

View File

@ -6,6 +6,7 @@
#include <fsfw/globalfunctions/PeriodicOperationDivider.h>
#include <fsfw/parameters/ParameterHelper.h>
#include <fsfw/parameters/ReceivesParameterMessagesIF.h>
#include <fsfw_hal/linux/uio/UioMapper.h>
#include <libxiphos.h>
#include <mission/acs/archive/GPSDefinitions.h>
#include <mission/utility/trace.h>
@ -23,7 +24,7 @@
class Timer;
class SdCardManager;
struct RebootFile {
struct RebootWatchdogFile {
static constexpr uint8_t DEFAULT_MAX_BOOT_CNT = 10;
bool enabled = true;
@ -44,6 +45,93 @@ struct RebootFile {
xsc::Copy mechanismNextCopy = xsc::Copy::NO_COPY;
};
class RebootWatchdogPacket : public SerialLinkedListAdapter<SerializeIF> {
public:
RebootWatchdogPacket(RebootWatchdogFile& rf) {
enabled = rf.enabled;
maxCount = rf.maxCount;
img00Count = rf.img00Cnt;
img01Count = rf.img01Cnt;
img10Count = rf.img10Cnt;
img11Count = rf.img11Cnt;
img00Lock = rf.img00Lock;
img01Lock = rf.img01Lock;
img10Lock = rf.img10Lock;
img11Lock = rf.img11Lock;
lastChip = static_cast<uint8_t>(rf.lastChip);
lastCopy = static_cast<uint8_t>(rf.lastCopy);
nextChip = static_cast<uint8_t>(rf.mechanismNextChip);
nextCopy = static_cast<uint8_t>(rf.mechanismNextCopy);
setLinks();
}
private:
void setLinks() {
setStart(&enabled);
enabled.setNext(&maxCount);
maxCount.setNext(&img00Count);
img00Count.setNext(&img01Count);
img01Count.setNext(&img10Count);
img10Count.setNext(&img11Count);
img11Count.setNext(&img00Lock);
img00Lock.setNext(&img01Lock);
img01Lock.setNext(&img10Lock);
img10Lock.setNext(&img11Lock);
img11Lock.setNext(&lastChip);
lastChip.setNext(&lastCopy);
lastCopy.setNext(&nextChip);
nextChip.setNext(&nextCopy);
setLast(&nextCopy);
}
SerializeElement<uint8_t> enabled = false;
SerializeElement<uint32_t> maxCount = 0;
SerializeElement<uint32_t> img00Count = 0;
SerializeElement<uint32_t> img01Count = 0;
SerializeElement<uint32_t> img10Count = 0;
SerializeElement<uint32_t> img11Count = 0;
SerializeElement<uint8_t> img00Lock = false;
SerializeElement<uint8_t> img01Lock = false;
SerializeElement<uint8_t> img10Lock = false;
SerializeElement<uint8_t> img11Lock = false;
SerializeElement<uint8_t> lastChip = 0;
SerializeElement<uint8_t> lastCopy = 0;
SerializeElement<uint8_t> nextChip = 0;
SerializeElement<uint8_t> nextCopy = 0;
};
struct RebootCountersFile {
// 16 bit values so all boot counters fit into one event.
uint16_t img00Cnt = 0;
uint16_t img01Cnt = 0;
uint16_t img10Cnt = 0;
uint16_t img11Cnt = 0;
};
class RebootCountersPacket : public SerialLinkedListAdapter<SerializeIF> {
RebootCountersPacket(RebootCountersFile& rf) {
img00Count = rf.img00Cnt;
img01Count = rf.img01Cnt;
img10Count = rf.img10Cnt;
img11Count = rf.img11Cnt;
setLinks();
}
private:
void setLinks() {
setStart(&img00Count);
img00Count.setNext(&img01Count);
img01Count.setNext(&img10Count);
img10Count.setNext(&img11Count);
setLast(&img11Count);
}
SerializeElement<uint16_t> img00Count = 0;
SerializeElement<uint16_t> img01Count = 0;
SerializeElement<uint16_t> img10Count = 0;
SerializeElement<uint16_t> img11Count = 0;
};
class CoreController : public ExtendedControllerBase, public ReceivesParameterMessagesIF {
public:
enum ParamId : uint8_t { PREF_SD = 0, NUM_IDS };
@ -57,10 +145,15 @@ class CoreController : public ExtendedControllerBase, public ReceivesParameterMe
const std::string VERSION_FILE =
"/" + std::string(core::CONF_FOLDER) + "/" + std::string(core::VERSION_FILE_NAME);
const std::string REBOOT_FILE =
"/" + std::string(core::CONF_FOLDER) + "/" + std::string(core::REBOOT_FILE_NAME);
const std::string LEGACY_REBOOT_WATCHDOG_FILE =
"/" + std::string(core::CONF_FOLDER) + "/" +
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 BACKUP_TIME_FILE =
"/" + std::string(core::CONF_FOLDER) + "/" + std::string(core::TIME_FILE_NAME);
const std::string REBOOT_COUNTERS_FILE =
"/" + std::string(core::CONF_FOLDER) + "/" + std::string(core::REBOOT_COUNTER_FILE_NAME);
static constexpr char CHIP_0_COPY_0_MOUNT_DIR[] = "/tmp/mntupdate-xdi-qspi0-nom-rootfs";
static constexpr char CHIP_0_COPY_1_MOUNT_DIR[] = "/tmp/mntupdate-xdi-qspi0-gold-rootfs";
@ -142,6 +235,7 @@ class CoreController : public ExtendedControllerBase, public ReceivesParameterMe
static constexpr bool BLOCKING_SD_INIT = false;
uint32_t* mappedSysRomAddr = nullptr;
SdCardManager* sdcMan = nullptr;
MessageQueueIF* eventQueue = nullptr;
@ -191,7 +285,8 @@ class CoreController : public ExtendedControllerBase, public ReceivesParameterMe
std::array<uint8_t, 1024> dirListingBuf{};
DirListingDumpContext dumpContext{};
RebootFile rebootFile = {};
RebootWatchdogFile rebootWatchdogFile = {};
RebootCountersFile rebootCountersFile = {};
CommandExecutor cmdExecutor;
SimpleRingBuffer cmdReplyBuf;
@ -261,12 +356,14 @@ class CoreController : public ExtendedControllerBase, public ReceivesParameterMe
void currentStateSetter(sd::SdCard sdCard, sd::SdState newState);
void executeNextExternalSdCommand();
void checkExternalSdCommandStatus();
void performRebootFileHandling(bool recreateFile);
void performRebootWatchdogHandling(bool recreateFile);
void performRebootCountersHandling(bool recreateFile);
ReturnValue_t actionListDirectoryIntoFile(ActionId_t actionId, MessageQueueId_t commandedBy,
const uint8_t* data, size_t size);
ReturnValue_t actionListDirectoryDumpDirectly(ActionId_t actionId, MessageQueueId_t commandedBy,
const uint8_t* data, size_t size);
ReturnValue_t performGracefulShutdown(xsc::Chip targetChip, xsc::Copy targetCopy);
ReturnValue_t actionListDirectoryCommonCommandCreator(const uint8_t* data, size_t size,
std::ostringstream& oss);
@ -280,13 +377,17 @@ class CoreController : public ExtendedControllerBase, public ReceivesParameterMe
int handleBootCopyProtAtIndex(xsc::Chip targetChip, xsc::Copy targetCopy, bool protect,
bool& protOperationPerformed, bool selfChip, bool selfCopy,
bool allChips, bool allCopies, uint8_t arrIdx);
void determineAndExecuteReboot(RebootFile& rf, bool& needsReboot, xsc::Chip& tgtChip,
xsc::Copy& tgtCopy);
void resetRebootCount(xsc::Chip tgtChip, xsc::Copy tgtCopy);
void rebootWatchdogAlgorithm(RebootWatchdogFile& rf, bool& needsReboot, xsc::Chip& tgtChip,
xsc::Copy& tgtCopy);
void resetRebootWatchdogCounters(xsc::Chip tgtChip, xsc::Copy tgtCopy);
void setRebootMechanismLock(bool lock, xsc::Chip tgtChip, xsc::Copy tgtCopy);
bool parseRebootFile(std::string path, RebootFile& file);
void rewriteRebootFile(RebootFile file);
bool parseRebootWatchdogFile(std::string path, RebootWatchdogFile& file);
bool parseRebootCountersFile(std::string path, RebootCountersFile& file);
void rewriteRebootWatchdogFile(RebootWatchdogFile file);
void rewriteRebootCountersFile(RebootCountersFile file);
void announceBootCounts();
void announceVersionInfo();
void announceCurrentImageInfo();
void readHkData();
void dirListingDumpHandler();
bool isNumber(const std::string& s);

View File

@ -499,7 +499,7 @@ void ObjectFactory::createAcsBoardComponents(SpiComIF& spiComIF, LinuxLibgpioIF*
debugGps = true;
#endif
RESET_ARGS_GNSS.gpioComIF = gpioComIF;
RESET_ARGS_GNSS.waitPeriodMs = 100;
RESET_ARGS_GNSS.waitPeriodMs = 5;
auto gpsCtrl = new GpsHyperionLinuxController(objects::GPS_CONTROLLER, objects::NO_OBJECT,
enableHkSets, debugGps);
gpsCtrl->setResetPinTriggerFunction(gps::triggerGpioResetPin, &RESET_ARGS_GNSS);
@ -1010,16 +1010,18 @@ void ObjectFactory::createRadSensorChipSelect(LinuxLibgpioIF* gpioIF) {
void ObjectFactory::createPlI2cResetGpio(LinuxLibgpioIF* gpioIF) {
using namespace gpio;
if (gpioIF == nullptr) {
return;
if (common::OBSW_VERSION_MAJOR >= 6 or common::OBSW_VERSION_MAJOR == 4) {
if (gpioIF == nullptr) {
return;
}
GpioCookie* gpioI2cResetnCookie = new GpioCookie;
GpiodRegularByLineName* gpioI2cResetn = new GpiodRegularByLineName(
q7s::gpioNames::PL_I2C_ARESETN, "PL_I2C_ARESETN", Direction::OUT, Levels::HIGH);
gpioI2cResetnCookie->addGpio(gpioIds::PL_I2C_ARESETN, gpioI2cResetn);
gpioChecker(gpioIF->addGpios(gpioI2cResetnCookie), "PL I2C ARESETN");
// Reset I2C explicitely again.
gpioIF->pullLow(gpioIds::PL_I2C_ARESETN);
TaskFactory::delayTask(1);
gpioIF->pullHigh(gpioIds::PL_I2C_ARESETN);
}
GpioCookie* gpioI2cResetnCookie = new GpioCookie;
GpiodRegularByLineName* gpioI2cResetn = new GpiodRegularByLineName(
q7s::gpioNames::PL_I2C_ARESETN, "PL_I2C_ARESETN", Direction::OUT, Levels::HIGH);
gpioI2cResetnCookie->addGpio(gpioIds::PL_I2C_ARESETN, gpioI2cResetn);
gpioChecker(gpioIF->addGpios(gpioI2cResetnCookie), "PL I2C ARESETN");
// Reset I2C explicitely again.
gpioIF->pullLow(gpioIds::PL_I2C_ARESETN);
TaskFactory::delayTask(1);
gpioIF->pullHigh(gpioIds::PL_I2C_ARESETN);
}

View File

@ -325,6 +325,10 @@ void scheduling::initTasks() {
if (result != returnvalue::OK) {
scheduling::printAddObjectError("HEATER_HANDLER", objects::HEATER_HANDLER);
}
result = tcsSystemTask->addComponent(objects::HEATER_HANDLER);
if (result != returnvalue::OK) {
scheduling::printAddObjectError("HEATER_HANDLER", objects::HEATER_HANDLER);
}
#if OBSW_ADD_SYRLINKS == 1
PeriodicTaskIF* syrlinksCom = factory->createPeriodicTask(

View File

@ -37,8 +37,8 @@ void ObjectFactory::produce(void* args) {
PersistentTmStores stores;
ObjectFactory::produceGenericObjects(&healthTable, &pusFunnel, &cfdpFunnel,
*SdCardManager::instance(), &ipcStore, &tmStore, stores,
200);
*SdCardManager::instance(), &ipcStore, &tmStore, stores, 200,
enableHkSets);
LinuxLibgpioIF* gpioComIF = nullptr;
SerialComIF* uartComIF = nullptr;
@ -100,9 +100,10 @@ void ObjectFactory::produce(void* args) {
new CoreController(objects::CORE_CONTROLLER, enableHkSets);
#if OBSW_ADD_ACS_BOARD == 1
// Still initialize chip select to avoid SPI bus issues.
// Initialize chip select to avoid SPI bus issues.
createRadSensorChipSelect(gpioComIF);
#if OBSW_ADD_ACS_BOARD == 1
createAcsBoardComponents(*spiMainComIF, gpioComIF, uartComIF, *pwrSwitcher, true,
adis1650x::Type::ADIS16507);
#else

View File

@ -33,8 +33,8 @@ void ObjectFactory::produce(void* args) {
PersistentTmStores stores;
ObjectFactory::produceGenericObjects(&healthTable, &pusFunnel, &cfdpFunnel,
*SdCardManager::instance(), &ipcStore, &tmStore, stores,
200);
*SdCardManager::instance(), &ipcStore, &tmStore, stores, 200,
true);
LinuxLibgpioIF* gpioComIF = nullptr;
SerialComIF* uartComIF = nullptr;

View File

@ -11,6 +11,8 @@ static constexpr char SD_1_MOUNT_POINT[] = "/mnt/sd1";
static constexpr char OBSW_UPDATE_ARCHIVE_FILE_NAME[] = "eive-sw-update.tar.xz";
static constexpr char STRIPPED_OBSW_BINARY_FILE_NAME[] = "eive-obsw-stripped";
static constexpr char OBSW_VERSION_FILE_NAME[] = "obsw_version.txt";
static constexpr char PUS_SEQUENCE_COUNT_FILE[] = "pus-sequence-count.txt";
static constexpr char CFDP_SEQUENCE_COUNT_FILE[] = "cfdp-sequence-count.txt";
static constexpr char OBSW_PATH[] = "/usr/bin/eive-obsw";
static constexpr char OBSW_VERSION_FILE_PATH[] = "/usr/share/eive-obsw/obsw_version.txt";

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@ -5,14 +5,19 @@
ImtqDummy::ImtqDummy(object_id_t objectId, object_id_t comif, CookieIF *comCookie,
power::Switch_t pwrSwitcher, bool enableHkSets)
: DeviceHandlerBase(objectId, comif, comCookie),
setNoTorque(this),
setWithTorque(this),
enableHkSets(enableHkSets),
statusSet(this),
dipoleSet(*this),
rawMtmNoTorque(this),
hkDatasetNoTorque(this),
rawMtmWithTorque(this),
hkDatasetWithTorque(this),
calMtmMeasurementSet(this),
switcher(pwrSwitcher) {}
ImtqDummy::~ImtqDummy() = default;
void ImtqDummy::doStartUp() { setMode(MODE_NORMAL); }
void ImtqDummy::doStartUp() { setMode(MODE_ON); }
void ImtqDummy::doShutDown() { setMode(_MODE_POWER_DOWN); }
@ -79,17 +84,37 @@ ReturnValue_t ImtqDummy::initializeLocalDataPool(localpool::DataPool &localDataP
localDataPoolMap.emplace(imtq::MCU_TEMPERATURE_WT, new PoolEntry<int16_t>({0}));
poolManager.subscribeForDiagPeriodicPacket(
subdp::DiagnosticsHkPeriodicParams(setNoTorque.getSid(), enableHkSets, 30.0));
subdp::DiagnosticsHkPeriodicParams(hkDatasetNoTorque.getSid(), enableHkSets, 30.0));
poolManager.subscribeForDiagPeriodicPacket(
subdp::DiagnosticsHkPeriodicParams(setWithTorque.getSid(), enableHkSets, 30.0));
subdp::DiagnosticsHkPeriodicParams(hkDatasetWithTorque.getSid(), enableHkSets, 30.0));
poolManager.subscribeForDiagPeriodicPacket(
subdp::DiagnosticsHkPeriodicParams(rawMtmNoTorque.getSid(), false, 10.0));
poolManager.subscribeForDiagPeriodicPacket(
subdp::DiagnosticsHkPeriodicParams(rawMtmWithTorque.getSid(), false, 10.0));
poolManager.subscribeForDiagPeriodicPacket(
subdp::DiagnosticsHkPeriodicParams(calMtmMeasurementSet.getSid(), false, 10.0));
poolManager.subscribeForRegularPeriodicPacket(
subdp::RegularHkPeriodicParams(statusSet.getSid(), false, 10.0));
poolManager.subscribeForDiagPeriodicPacket(
subdp::DiagnosticsHkPeriodicParams(dipoleSet.getSid(), false, 10.0));
return DeviceHandlerBase::initializeLocalDataPool(localDataPoolMap, poolManager);
}
LocalPoolDataSetBase *ImtqDummy::getDataSetHandle(sid_t sid) {
if (sid == setNoTorque.getSid()) {
return &setNoTorque;
} else if (sid == setWithTorque.getSid()) {
return &setWithTorque;
if (sid == hkDatasetNoTorque.getSid()) {
return &hkDatasetNoTorque;
} else if (sid == dipoleSet.getSid()) {
return &dipoleSet;
} else if (sid == statusSet.getSid()) {
return &statusSet;
} else if (sid == hkDatasetWithTorque.getSid()) {
return &hkDatasetWithTorque;
} else if (sid == rawMtmWithTorque.getSid()) {
return &rawMtmWithTorque;
} else if (sid == calMtmMeasurementSet.getSid()) {
return &calMtmMeasurementSet;
} else if (sid == rawMtmNoTorque.getSid()) {
return &rawMtmNoTorque;
}
return nullptr;
}

View File

@ -18,11 +18,18 @@ class ImtqDummy : public DeviceHandlerBase {
~ImtqDummy() override;
protected:
ReturnValue_t getSwitches(const uint8_t **switches, uint8_t *numberOfSwitches) override;
imtq::HkDatasetNoTorque setNoTorque;
imtq::HkDatasetWithTorque setWithTorque;
bool enableHkSets;
imtq::StatusDataset statusSet;
imtq::DipoleActuationSet dipoleSet;
imtq::RawMtmMeasurementNoTorque rawMtmNoTorque;
imtq::HkDatasetNoTorque hkDatasetNoTorque;
imtq::RawMtmMeasurementWithTorque rawMtmWithTorque;
imtq::HkDatasetWithTorque hkDatasetWithTorque;
imtq::CalibratedMtmMeasurementSet calMtmMeasurementSet;
PoolEntry<uint8_t> statusMode = PoolEntry<uint8_t>({0});
PoolEntry<uint8_t> statusError = PoolEntry<uint8_t>({0});
PoolEntry<uint8_t> statusConfig = PoolEntry<uint8_t>({0});
@ -42,6 +49,8 @@ class ImtqDummy : public DeviceHandlerBase {
power::Switch_t switcher = power::NO_SWITCH;
ReturnValue_t getSwitches(const uint8_t **switches, uint8_t *numberOfSwitches) override;
void doStartUp() override;
void doShutDown() override;
ReturnValue_t buildNormalDeviceCommand(DeviceCommandId_t *id) override;

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@ -3,13 +3,24 @@
#include <mission/acs/rwHelpers.h>
RwDummy::RwDummy(object_id_t objectId, object_id_t comif, CookieIF *comCookie)
: DeviceHandlerBase(objectId, comif, comCookie) {}
: DeviceHandlerBase(objectId, comif, comCookie),
statusSet(this),
lastResetStatusSet(this),
tmDataset(this),
rwSpeedActuationSet(*this) {}
RwDummy::~RwDummy() {}
void RwDummy::doStartUp() { setMode(MODE_ON); }
void RwDummy::doStartUp() {
statusSet.setReportingEnabled(true);
setMode(MODE_ON);
}
void RwDummy::doShutDown() { setMode(MODE_OFF); }
void RwDummy::doShutDown() {
statusSet.setReportingEnabled(false);
setMode(MODE_OFF);
}
ReturnValue_t RwDummy::buildNormalDeviceCommand(DeviceCommandId_t *id) { return NOTHING_TO_SEND; }
@ -74,5 +85,11 @@ ReturnValue_t RwDummy::initializeLocalDataPool(localpool::DataPool &localDataPoo
localDataPoolMap.emplace(rws::SPI_BYTES_READ, new PoolEntry<uint32_t>({0}));
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));
poolManager.subscribeForRegularPeriodicPacket(
subdp::RegularHkPeriodicParams(tmDataset.getSid(), false, 30.0));
poolManager.subscribeForRegularPeriodicPacket(
subdp::RegularHkPeriodicParams(lastResetStatusSet.getSid(), false, 30.0));
return returnvalue::OK;
}

View File

@ -2,6 +2,7 @@
#define DUMMIES_RWDUMMY_H_
#include <fsfw/devicehandlers/DeviceHandlerBase.h>
#include <mission/acs/rwHelpers.h>
class RwDummy : public DeviceHandlerBase {
public:
@ -15,6 +16,11 @@ class RwDummy : public DeviceHandlerBase {
virtual ~RwDummy();
protected:
rws::StatusSet statusSet;
rws::LastResetSatus lastResetStatusSet;
rws::TmDataset tmDataset;
rws::RwSpeedActuationSet rwSpeedActuationSet;
PoolEntry<int32_t> rwSpeed = PoolEntry<int32_t>({0});
PoolEntry<uint16_t> rampTime = PoolEntry<uint16_t>({10});

View File

@ -98,6 +98,25 @@ ReturnValue_t TemperatureSensorInserter::performOperation(uint8_t opCode) {
}
break;
}
case (TestCase::COLD_PLOC_CONSECUTIVE): {
if (cycles == 15) {
sif::debug << "Setting cold PLOC temperature" << std::endl;
max31865DummyMap[objects::RTD_0_IC3_PLOC_HEATSPREADER]->setTemperature(-15, true);
}
if (cycles == 30) {
sif::debug << "Setting warmer PLOC temperature" << std::endl;
max31865DummyMap[objects::RTD_0_IC3_PLOC_HEATSPREADER]->setTemperature(0, true);
}
if (cycles == 45) {
sif::debug << "Setting cold PLOC temperature again" << std::endl;
max31865DummyMap[objects::RTD_0_IC3_PLOC_HEATSPREADER]->setTemperature(-15, true);
}
if (cycles == 60) {
sif::debug << "Setting warmer PLOC temperature again" << std::endl;
max31865DummyMap[objects::RTD_0_IC3_PLOC_HEATSPREADER]->setTemperature(0, true);
}
break;
}
case (TestCase::COLD_CAMERA): {
if (cycles == 15) {
sif::debug << "Setting cold CAM temperature" << std::endl;

View File

@ -32,6 +32,7 @@ class TemperatureSensorInserter : public ExecutableObjectIF, public SystemObject
COLD_STR = 4,
COLD_STR_CONSECUTIVE = 5,
COLD_CAMERA = 6,
COLD_PLOC_CONSECUTIVE = 7,
};
int iteration = 0;
uint32_t cycles = 0;

2
fsfw

@ -1 +1 @@
Subproject commit 0a977ea688cd78585aabb9ba511eaf8030452712
Subproject commit 8da89eba80f73cb05e5c38fc012456f1d9569af5

View File

@ -271,6 +271,7 @@ Event ID (dec); Event ID (hex); Name; Severity; Description; File Path
14010;0x36ba;TRYING_I2C_RECOVERY;HIGH;I2C is unavailable. Trying recovery of I2C bus by power cycling all I2C devices.;mission/sysDefs.h
14011;0x36bb;I2C_REBOOT;HIGH;I2C is unavailable. Recovery did not work, performing full reboot.;mission/sysDefs.h
14012;0x36bc;PDEC_REBOOT;HIGH;PDEC recovery through reset was not possible, performing full reboot.;mission/sysDefs.h
14013;0x36bd;FIRMWARE_INFO;INFO;Version information of the firmware (not OBSW). P1: Byte 0: Major, Byte 1: Minor, Byte 2: Patch, Byte 3: Has Git Hash P2: First four letters of Git SHA is the last byte of P1 is set.;mission/sysDefs.h
14100;0x3714;NO_VALID_SENSOR_TEMPERATURE;MEDIUM;No description;mission/controller/tcsDefs.h
14101;0x3715;NO_HEALTHY_HEATER_AVAILABLE;MEDIUM;No description;mission/controller/tcsDefs.h
14102;0x3716;SYRLINKS_OVERHEATING;HIGH;No description;mission/controller/tcsDefs.h

1 Event ID (dec) Event ID (hex) Name Severity Description File Path
271 14010 0x36ba TRYING_I2C_RECOVERY HIGH I2C is unavailable. Trying recovery of I2C bus by power cycling all I2C devices. mission/sysDefs.h
272 14011 0x36bb I2C_REBOOT HIGH I2C is unavailable. Recovery did not work, performing full reboot. mission/sysDefs.h
273 14012 0x36bc PDEC_REBOOT HIGH PDEC recovery through reset was not possible, performing full reboot. mission/sysDefs.h
274 14013 0x36bd FIRMWARE_INFO INFO Version information of the firmware (not OBSW). P1: Byte 0: Major, Byte 1: Minor, Byte 2: Patch, Byte 3: Has Git Hash P2: First four letters of Git SHA is the last byte of P1 is set. mission/sysDefs.h
275 14013 14100 0x36bd 0x3714 FIRMWARE_INFO NO_VALID_SENSOR_TEMPERATURE INFO MEDIUM Version information of the firmware (not OBSW). P1: Byte 0: Major, Byte 1: Minor, Byte 2: Patch, Byte 3: Has Git Hash P2: First four letters of Git SHA is the last byte of P1 is set. No description mission/sysDefs.h mission/controller/tcsDefs.h
276 14100 14101 0x3714 0x3715 NO_VALID_SENSOR_TEMPERATURE NO_HEALTHY_HEATER_AVAILABLE MEDIUM No description mission/controller/tcsDefs.h
277 14101 14102 0x3715 0x3716 NO_HEALTHY_HEATER_AVAILABLE SYRLINKS_OVERHEATING MEDIUM HIGH No description mission/controller/tcsDefs.h

View File

@ -271,6 +271,7 @@ Event ID (dec); Event ID (hex); Name; Severity; Description; File Path
14010;0x36ba;TRYING_I2C_RECOVERY;HIGH;I2C is unavailable. Trying recovery of I2C bus by power cycling all I2C devices.;mission/sysDefs.h
14011;0x36bb;I2C_REBOOT;HIGH;I2C is unavailable. Recovery did not work, performing full reboot.;mission/sysDefs.h
14012;0x36bc;PDEC_REBOOT;HIGH;PDEC recovery through reset was not possible, performing full reboot.;mission/sysDefs.h
14013;0x36bd;FIRMWARE_INFO;INFO;Version information of the firmware (not OBSW). P1: Byte 0: Major, Byte 1: Minor, Byte 2: Patch, Byte 3: Has Git Hash P2: First four letters of Git SHA is the last byte of P1 is set.;mission/sysDefs.h
14100;0x3714;NO_VALID_SENSOR_TEMPERATURE;MEDIUM;No description;mission/controller/tcsDefs.h
14101;0x3715;NO_HEALTHY_HEATER_AVAILABLE;MEDIUM;No description;mission/controller/tcsDefs.h
14102;0x3716;SYRLINKS_OVERHEATING;HIGH;No description;mission/controller/tcsDefs.h

1 Event ID (dec) Event ID (hex) Name Severity Description File Path
271 14010 0x36ba TRYING_I2C_RECOVERY HIGH I2C is unavailable. Trying recovery of I2C bus by power cycling all I2C devices. mission/sysDefs.h
272 14011 0x36bb I2C_REBOOT HIGH I2C is unavailable. Recovery did not work, performing full reboot. mission/sysDefs.h
273 14012 0x36bc PDEC_REBOOT HIGH PDEC recovery through reset was not possible, performing full reboot. mission/sysDefs.h
274 14013 0x36bd FIRMWARE_INFO INFO Version information of the firmware (not OBSW). P1: Byte 0: Major, Byte 1: Minor, Byte 2: Patch, Byte 3: Has Git Hash P2: First four letters of Git SHA is the last byte of P1 is set. mission/sysDefs.h
275 14013 14100 0x36bd 0x3714 FIRMWARE_INFO NO_VALID_SENSOR_TEMPERATURE INFO MEDIUM Version information of the firmware (not OBSW). P1: Byte 0: Major, Byte 1: Minor, Byte 2: Patch, Byte 3: Has Git Hash P2: First four letters of Git SHA is the last byte of P1 is set. No description mission/sysDefs.h mission/controller/tcsDefs.h
276 14100 14101 0x3714 0x3715 NO_VALID_SENSOR_TEMPERATURE NO_HEALTHY_HEATER_AVAILABLE MEDIUM No description mission/controller/tcsDefs.h
277 14101 14102 0x3715 0x3716 NO_HEALTHY_HEATER_AVAILABLE SYRLINKS_OVERHEATING MEDIUM HIGH No description mission/controller/tcsDefs.h

View File

@ -1,7 +1,7 @@
/**
* @brief Auto-generated event translation file. Contains 295 translations.
* @brief Auto-generated event translation file. Contains 296 translations.
* @details
* Generated on: 2023-05-17 17:15:34
* Generated on: 2023-06-21 19:01:02
*/
#include "translateEvents.h"
@ -277,6 +277,7 @@ const char *INDIVIDUAL_BOOT_COUNTS_STRING = "INDIVIDUAL_BOOT_COUNTS";
const char *TRYING_I2C_RECOVERY_STRING = "TRYING_I2C_RECOVERY";
const char *I2C_REBOOT_STRING = "I2C_REBOOT";
const char *PDEC_REBOOT_STRING = "PDEC_REBOOT";
const char *FIRMWARE_INFO_STRING = "FIRMWARE_INFO";
const char *NO_VALID_SENSOR_TEMPERATURE_STRING = "NO_VALID_SENSOR_TEMPERATURE";
const char *NO_HEALTHY_HEATER_AVAILABLE_STRING = "NO_HEALTHY_HEATER_AVAILABLE";
const char *SYRLINKS_OVERHEATING_STRING = "SYRLINKS_OVERHEATING";
@ -847,6 +848,8 @@ const char *translateEvents(Event event) {
return I2C_REBOOT_STRING;
case (14012):
return PDEC_REBOOT_STRING;
case (14013):
return FIRMWARE_INFO_STRING;
case (14100):
return NO_VALID_SENSOR_TEMPERATURE_STRING;
case (14101):

View File

@ -2,7 +2,7 @@
* @brief Auto-generated object translation file.
* @details
* Contains 175 translations.
* Generated on: 2023-05-17 17:15:34
* Generated on: 2023-06-21 19:01:02
*/
#include "translateObjects.h"

View File

@ -1,7 +1,7 @@
/**
* @brief Auto-generated event translation file. Contains 295 translations.
* @brief Auto-generated event translation file. Contains 296 translations.
* @details
* Generated on: 2023-05-17 17:15:34
* Generated on: 2023-06-21 19:01:02
*/
#include "translateEvents.h"
@ -277,6 +277,7 @@ const char *INDIVIDUAL_BOOT_COUNTS_STRING = "INDIVIDUAL_BOOT_COUNTS";
const char *TRYING_I2C_RECOVERY_STRING = "TRYING_I2C_RECOVERY";
const char *I2C_REBOOT_STRING = "I2C_REBOOT";
const char *PDEC_REBOOT_STRING = "PDEC_REBOOT";
const char *FIRMWARE_INFO_STRING = "FIRMWARE_INFO";
const char *NO_VALID_SENSOR_TEMPERATURE_STRING = "NO_VALID_SENSOR_TEMPERATURE";
const char *NO_HEALTHY_HEATER_AVAILABLE_STRING = "NO_HEALTHY_HEATER_AVAILABLE";
const char *SYRLINKS_OVERHEATING_STRING = "SYRLINKS_OVERHEATING";
@ -847,6 +848,8 @@ const char *translateEvents(Event event) {
return I2C_REBOOT_STRING;
case (14012):
return PDEC_REBOOT_STRING;
case (14013):
return FIRMWARE_INFO_STRING;
case (14100):
return NO_VALID_SENSOR_TEMPERATURE_STRING;
case (14101):

View File

@ -2,7 +2,7 @@
* @brief Auto-generated object translation file.
* @details
* Contains 175 translations.
* Generated on: 2023-05-17 17:15:34
* Generated on: 2023-06-21 19:01:02
*/
#include "translateObjects.h"

View File

@ -16,9 +16,9 @@ AxiPtmeConfig::AxiPtmeConfig(object_id_t objectId, std::string axiUio, int mapNu
AxiPtmeConfig::~AxiPtmeConfig() {}
ReturnValue_t AxiPtmeConfig::initialize() {
ReturnValue_t result = returnvalue::OK;
UioMapper uioMapper(axiUio, mapNum);
result = uioMapper.getMappedAdress(&baseAddress, UioMapper::Permissions::READ_WRITE);
ReturnValue_t result =
uioMapper.getMappedAdress(&baseAddress, UioMapper::Permissions::READ_WRITE);
if (result != returnvalue::OK) {
return result;
}
@ -26,8 +26,7 @@ ReturnValue_t AxiPtmeConfig::initialize() {
}
ReturnValue_t AxiPtmeConfig::writeCaduRateReg(uint8_t rateVal) {
ReturnValue_t result = returnvalue::OK;
result = mutex->lockMutex(timeoutType, mutexTimeout);
ReturnValue_t result = mutex->lockMutex(timeoutType, mutexTimeout);
if (result != returnvalue::OK) {
sif::warning << "AxiPtmeConfig::writeCaduRateReg: Failed to lock mutex" << std::endl;
return returnvalue::FAILED;
@ -41,6 +40,11 @@ ReturnValue_t AxiPtmeConfig::writeCaduRateReg(uint8_t rateVal) {
return returnvalue::OK;
}
uint8_t AxiPtmeConfig::readCaduRateReg() {
MutexGuard mg(mutex);
return static_cast<uint8_t>(*(baseAddress + CADU_BITRATE_REG));
}
void AxiPtmeConfig::enableTxclockManipulator() {
writeBit(COMMON_CONFIG_REG, true, BitPos::EN_TX_CLK_MANIPULATOR);
}

View File

@ -38,6 +38,7 @@ class AxiPtmeConfig : public SystemObject {
* frequency of the clock connected to the bit clock input of PTME.
*/
ReturnValue_t writeCaduRateReg(uint8_t rateVal);
uint8_t readCaduRateReg();
/**
* @brief Next to functions control the tx clock manipulator component

View File

@ -33,10 +33,21 @@ ReturnValue_t PapbVcInterface::write(const uint8_t* data, size_t size) {
} else {
return DirectTmSinkIF::IS_BUSY;
}
if (not pollReadyForOctet(MAX_BUSY_POLLS)) {
abortPacketTransfer();
return returnvalue::FAILED;
}
for (size_t idx = 0; idx < size; idx++) {
// if (pollInterfaceReadiness(2, false) == returnvalue::OK) {
if (not pollReadyForOctet(MAX_BUSY_POLLS)) {
abortPacketTransfer();
return returnvalue::FAILED;
}
*(vcBaseReg + DATA_REG_OFFSET) = static_cast<uint32_t>(data[idx]);
}
if (not pollReadyForOctet(MAX_BUSY_POLLS)) {
abortPacketTransfer();
return returnvalue::FAILED;
}
completePacketTransfer();
return returnvalue::OK;
}
@ -51,7 +62,6 @@ bool PapbVcInterface::pollReadyForPacket() const {
// Check if PAPB interface is ready to receive data. Use the configuration register for this.
// Bit 5, see PTME ptme_001_01-0-7-r2 Table 31.
uint32_t reg = *vcBaseReg;
// bool busy = (reg >> 5) & 0b1;
return (reg >> 6) & 0b1;
}
@ -77,6 +87,20 @@ bool PapbVcInterface::isBusy() const { return not pollReadyForPacket(); }
void PapbVcInterface::cancelTransfer() { abortPacketTransfer(); }
inline bool PapbVcInterface::pollReadyForOctet(uint32_t maxCycles) const {
uint32_t reg;
uint32_t idx = 0;
while (idx < maxCycles) {
reg = *vcBaseReg;
// Busy bit.
if (not((reg >> 5) & 0b1)) {
return true;
}
idx++;
}
return false;
}
ReturnValue_t PapbVcInterface::sendTestFrame() {
/** Size of one complete transfer frame data field amounts to 1105 bytes */
uint8_t testPacket[1105];

View File

@ -80,6 +80,7 @@ class PapbVcInterface : public VirtualChannelIF {
static constexpr long int FIRST_DELAY_PAPB_POLLING_NS = 10;
static constexpr long int MAX_DELAY_PAPB_POLLING_NS = 40;
static constexpr uint32_t MAX_BUSY_POLLS = 1000;
LinuxLibgpioIF* gpioComIF = nullptr;
/** High when external buffer memory of virtual channel is empty */
@ -118,6 +119,8 @@ class PapbVcInterface : public VirtualChannelIF {
*/
inline bool pollReadyForPacket() const;
inline bool pollReadyForOctet(uint32_t maxCycles) const;
/**
* @brief This function can be used for debugging to check whether there are packets in
* the packet buffer of the virtual channel or not.

View File

@ -26,6 +26,11 @@ ReturnValue_t PtmeConfig::setRate(uint32_t bitRate) {
return axiPtmeConfig->writeCaduRateReg(static_cast<uint8_t>(rateVal));
}
uint32_t PtmeConfig::getRate() {
uint8_t rateReg = axiPtmeConfig->readCaduRateReg();
return (BIT_CLK_FREQ / (rateReg + 1));
}
void PtmeConfig::invertTxClock(bool invert) {
if (invert) {
axiPtmeConfig->enableTxclockInversion();

View File

@ -32,6 +32,7 @@ class PtmeConfig : public SystemObject {
* of the CADU clock due to the convolutional code added by the s-Band transceiver.
*/
ReturnValue_t setRate(uint32_t bitRate);
uint32_t getRate();
/**
* @brief Will change the time the tx data signal is updated with respect to the tx clock

View File

@ -57,7 +57,8 @@
</toolChain>
</folderInfo>
<sourceEntries>
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<entry flags="VALUE_WORKSPACE_PATH|RESOLVED" kind="sourcePath" name="thirdparty/json/include"/>
</sourceEntries>
</configuration>
</storageModule>
@ -1084,7 +1092,8 @@
</toolChain>
</folderInfo>
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<entry flags="VALUE_WORKSPACE_PATH|RESOLVED" kind="sourcePath" name="thirdparty/json/include"/>
</sourceEntries>
</configuration>
</storageModule>
@ -1149,7 +1158,8 @@
</toolChain>
</folderInfo>
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<entry flags="VALUE_WORKSPACE_PATH|RESOLVED" kind="sourcePath" name="thirdparty/json/include"/>
</sourceEntries>
</configuration>
</storageModule>
@ -1172,7 +1182,7 @@
</extensions>
</storageModule>
<storageModule moduleId="cdtBuildSystem" version="4.0.0">
<configuration artifactName="${ProjName}" buildProperties="" description="" errorParsers="org.eclipse.cdt.core.GASErrorParser;org.eclipse.cdt.core.GmakeErrorParser;org.eclipse.cdt.core.GLDErrorParser;org.eclipse.cdt.core.CWDLocator;org.eclipse.cdt.core.GCCErrorParser" id="cdt.managedbuild.toolchain.gnu.mingw.base.1455833186.1840876443.2117915473.688890851.1707795689.1171630561" name="eive-q7s-debug-em" optionalBuildProperties="org.eclipse.cdt.docker.launcher.containerbuild.property.enablement=null,org.eclipse.cdt.docker.launcher.containerbuild.property.selectedvolumes=,org.eclipse.cdt.docker.launcher.containerbuild.property.volumes=,org.eclipse.cdt.docker.launcher.containerbuild.property.image=null,org.eclipse.cdt.docker.launcher.containerbuild.property.connection=null" parent="org.eclipse.cdt.build.core.emptycfg">
<configuration artifactName="${ProjName}" buildProperties="" description="" errorParsers="org.eclipse.cdt.core.GASErrorParser;org.eclipse.cdt.core.GmakeErrorParser;org.eclipse.cdt.core.GLDErrorParser;org.eclipse.cdt.core.CWDLocator;org.eclipse.cdt.core.GCCErrorParser" id="cdt.managedbuild.toolchain.gnu.mingw.base.1455833186.1840876443.2117915473.688890851.1707795689.1171630561" name="eive-q7s-debug-em" optionalBuildProperties="org.eclipse.cdt.docker.launcher.containerbuild.property.enablement=null,org.eclipse.cdt.docker.launcher.containerbuild.property.dockerdpath=,org.eclipse.cdt.docker.launcher.containerbuild.property.volumes=,org.eclipse.cdt.docker.launcher.containerbuild.property.connection=unix:///var/run/docker.sock,org.eclipse.cdt.docker.launcher.containerbuild.property.selectedvolumes=,org.eclipse.cdt.docker.launcher.containerbuild.property.image=null" parent="org.eclipse.cdt.build.core.emptycfg">
<folderInfo id="cdt.managedbuild.toolchain.gnu.mingw.base.1455833186.1840876443.2117915473.688890851.1707795689.1171630561." name="/" resourcePath="">
<toolChain id="ilg.gnuarmeclipse.managedbuild.cross.toolchain.base.1640701365" name="Arm Cross GCC" superClass="ilg.gnuarmeclipse.managedbuild.cross.toolchain.base">
<option id="ilg.gnuarmeclipse.managedbuild.cross.option.architecture.564607779" name="Architecture" superClass="ilg.gnuarmeclipse.managedbuild.cross.option.architecture" value="ilg.gnuarmeclipse.managedbuild.cross.option.architecture.arm" valueType="enumerated"/>
@ -1317,7 +1327,9 @@
</toolChain>
</folderInfo>
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<entry flags="VALUE_WORKSPACE_PATH|RESOLVED" kind="sourcePath" name="cmake-build-debug-q7s-em/_deps/etl-src/include"/>
<entry flags="VALUE_WORKSPACE_PATH|RESOLVED" kind="sourcePath" name="thirdparty/json/include"/>
</sourceEntries>
</configuration>
</storageModule>
@ -1386,7 +1398,8 @@
</toolChain>
</folderInfo>
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<entry flags="VALUE_WORKSPACE_PATH|RESOLVED" kind="sourcePath" name="thirdparty/json/include"/>
</sourceEntries>
</configuration>
</storageModule>

View File

@ -30,6 +30,7 @@ void SusHandler::doStartUp() {
void SusHandler::doShutDown() {
if (internalState != InternalState::SHUTDOWN) {
PoolReadGuard pg(&dataset);
dataset.tempC = thermal::INVALID_TEMPERATURE;
dataset.setValidity(false, true);
internalState = InternalState::SHUTDOWN;
commandExecuted = false;

View File

@ -18,6 +18,7 @@ extern "C" {
#include "OBSWConfig.h"
#include "eive/definitions.h"
#include "fsfw/thermal/tcsDefinitions.h"
std::atomic_bool JCFG_DONE(false);
@ -106,11 +107,14 @@ void StarTrackerHandler::doShutDown() {
solutionSet.caliQx.value = 0.0;
solutionSet.caliQy.value = 0.0;
solutionSet.caliQz.value = 0.0;
solutionSet.isTrustWorthy = 0;
solutionSet.isTrustWorthy.value = 0;
solutionSet.setValidity(false, true);
}
{
PoolReadGuard pg(&temperatureSet);
temperatureSet.fpgaTemperature = thermal::INVALID_TEMPERATURE;
temperatureSet.cmosTemperature = thermal::INVALID_TEMPERATURE;
temperatureSet.mcuTemperature = thermal::INVALID_TEMPERATURE;
temperatureSet.setValidity(false, true);
}
reinitNextSetParam = false;

View File

@ -93,7 +93,8 @@ ReturnValue_t CfdpHandler::handleCfdpPacket(TmTcMessage& msg) {
return INVALID_PDU_FORMAT;
}
if (not FileDirectiveReader::checkFileDirective(pduDataField[0])) {
sif::error << "CfdpHandler: Invalid PDU directive field " << pduDataField[0] << std::endl;
sif::error << "CfdpHandler: Invalid PDU directive field " << static_cast<int>(pduDataField[0])
<< std::endl;
return INVALID_DIRECTIVE_FIELD;
}
auto directive = static_cast<FileDirective>(pduDataField[0]);

View File

@ -246,7 +246,13 @@ ReturnValue_t CcsdsIpCoreHandler::checkModeCommand(Mode_t mode, Submode_t submod
void CcsdsIpCoreHandler::startTransition(Mode_t mode, Submode_t submode) {
triggerEvent(CHANGING_MODE, mode, submode);
if (mode == HasModesIF::MODE_ON) {
if (this->submode != submode) {
uint32_t currentRate = ptmeConfig.getRate();
// Check whether the rate actually changes.
if ((this->submode != submode) and
(((submode == static_cast<Submode_t>(com::CcsdsSubmode::DATARATE_LOW) and
(currentRate != RATE_100KBPS))) or
((submode == static_cast<Submode_t>(com::CcsdsSubmode::DATARATE_HIGH) and
(currentRate != RATE_500KBPS))))) {
initPtmeUpdateAfterXCycles();
updateContext.enableTransmitAfterPtmeUpdate = true;
updateContext.updateClockRate = true;

View File

@ -19,13 +19,8 @@ LiveTmTask::LiveTmTask(object_id_t objectId, PusTmFunnel& pusFunnel, CfdpTmFunne
ReturnValue_t LiveTmTask::performOperation(uint8_t opCode) {
readCommandQueue();
while (true) {
bool performWriteOp = true;
if (mode == MODE_OFF or ptmeLocked) {
performWriteOp = false;
}
// The funnel tasks are scheduled here directly as well.
ReturnValue_t result = channel.handleNextTm(performWriteOp);
ReturnValue_t result = channel.handleNextTm(!ptmeLocked);
if (result == DirectTmSinkIF::IS_BUSY) {
sif::error << "Lost live TM, PAPB busy" << std::endl;
}

View File

@ -773,11 +773,13 @@ void SyrlinksHandler::doTransition(Mode_t modeFrom, Submode_t subModeFrom) {
auto txStandbyHandler = [&]() {
txDataset.setReportingEnabled(false);
poolManager.changeCollectionInterval(temperatureSet.getSid(), 60.0);
poolManager.changeCollectionInterval(rxDataset.getSid(), 60.0);
transState = TransitionState::SET_TX_STANDBY;
internalState = InternalState::TX_TRANSITION;
};
auto txOnHandler = [&](TransitionState tgtTransitionState) {
txDataset.setReportingEnabled(true);
poolManager.changeCollectionInterval(rxDataset.getSid(), 5.0);
poolManager.changeCollectionInterval(txDataset.getSid(), 10.0);
poolManager.changeCollectionInterval(temperatureSet.getSid(), 5.0);
transState = tgtTransitionState;

View File

@ -45,13 +45,19 @@ bool TmStoreTaskBase::handleOneStore(PersistentTmStoreWithTmQueue& store,
} else {
Command_t execCmd;
// Handle TC requests, for example deletion or retrieval requests.
// TODO: Not really clean here.. would be better if the executed command is returns as an
// enumeration.
result = store.handleCommandQueue(ipcStore, execCmd);
if (result == returnvalue::OK) {
if (execCmd == TmStoreMessage::DOWNLINK_STORE_CONTENT_TIME) {
if (execCmd == TmStoreMessage::DOWNLINK_STORE_CONTENT_TIME) {
if (result == PersistentTmStore::DUMP_DONE) {
dumpDoneHandler(store, dumpContext);
} else if (result == returnvalue::OK) {
cancelDumpCd.resetTimer();
tmSinkBusyCd.resetTimer();
dumpContext.reset();
}
}
if (execCmd != CommandMessageIF::CMD_NONE) {
tcRequestReceived = true;
}
}
@ -119,21 +125,13 @@ ReturnValue_t TmStoreTaskBase::performDump(PersistentTmStoreWithTmQueue& store,
DumpContext& dumpContext, bool& dumpPerformed) {
size_t dumpedLen = 0;
auto dumpDoneHandler = [&]() {
uint32_t startTime;
uint32_t endTime;
store.getStartAndEndTimeCurrentOrLastDump(startTime, endTime);
triggerEvent(dumpContext.eventIfDone, dumpContext.numberOfDumpedPackets,
dumpContext.dumpedBytes);
dumpContext.reset();
};
// Dump the next packet into the PTME.
dumpContext.ptmeBusyCounter = 0;
tmSinkBusyCd.resetTimer();
ReturnValue_t result = store.getNextDumpPacket(tmReader, fileHasSwapped);
if (fileHasSwapped and result == PersistentTmStore::DUMP_DONE) {
// This can happen if a file is corrupted and the next file swap completes the dump.
dumpDoneHandler();
dumpDoneHandler(store, dumpContext);
return returnvalue::OK;
} else if (result != returnvalue::OK) {
sif::error << "PersistentTmStore: Getting next dump packet failed" << std::endl;
@ -157,7 +155,7 @@ ReturnValue_t TmStoreTaskBase::performDump(PersistentTmStoreWithTmQueue& store,
}
}
if (result == PersistentTmStore::DUMP_DONE) {
dumpDoneHandler();
dumpDoneHandler(store, dumpContext);
}
return returnvalue::OK;
}
@ -198,6 +196,14 @@ ReturnValue_t TmStoreTaskBase::connectModeTreeParent(HasModeTreeChildrenIF& pare
return modetree::connectModeTreeParent(parent, *this, nullptr, modeHelper);
}
void TmStoreTaskBase::dumpDoneHandler(PersistentTmStore& store, DumpContext& dumpContext) {
uint32_t startTime;
uint32_t endTime;
store.getStartAndEndTimeCurrentOrLastDump(startTime, endTime);
triggerEvent(dumpContext.eventIfDone, dumpContext.numberOfDumpedPackets, dumpContext.dumpedBytes);
dumpContext.reset();
}
ModeTreeChildIF& TmStoreTaskBase::getModeTreeChildIF() { return *this; }
void TmStoreTaskBase::readCommandQueue(void) {

View File

@ -96,6 +96,8 @@ class TmStoreTaskBase : public SystemObject,
ReturnValue_t checkModeCommand(Mode_t mode, Submode_t submode,
uint32_t* msToReachTheMode) override;
void dumpDoneHandler(PersistentTmStore& store, DumpContext& dumpContext);
void announceMode(bool recursive) override;
object_id_t getObjectId() const override;
const HasHealthIF* getOptHealthIF() const override;

View File

@ -221,6 +221,9 @@ ReturnValue_t AcsParameters::getParameter(uint8_t domainId, uint8_t parameterId,
case 0x23:
parameterWrapper->setMatrix(susHandlingParameters.sus11coeffBeta);
break;
case 0x24:
parameterWrapper->set(susHandlingParameters.susBrightnessThreshold);
break;
default:
return INVALID_IDENTIFIER_ID;
}

View File

@ -766,6 +766,7 @@ class AcsParameters : public HasParametersIF {
{116.975421945286, -5.53022680362263, -5.61081660666997, 0.109754904982136,
0.167666815691513, 0.163137400730063, -0.000609874123906977, -0.00205336098697513,
-0.000889232196185857, -0.00168429567131815}};
float susBrightnessThreshold = 0.7;
} susHandlingParameters;
struct GyrHandlingParameters {

View File

@ -206,45 +206,51 @@ void SensorProcessing::processSus(
sunIjkModel[0] = cos(eclipticLongitude);
sunIjkModel[1] = sin(eclipticLongitude) * cos(epsilon);
sunIjkModel[2] = sin(eclipticLongitude) * sin(epsilon);
uint64_t susBrightness[12] = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
if (sus0valid) {
sus0valid = susConverter.checkSunSensorData(sus0Value);
susBrightness[0] = susConverter.checkSunSensorData(sus0Value);
}
if (sus1valid) {
sus1valid = susConverter.checkSunSensorData(sus1Value);
susBrightness[1] = susConverter.checkSunSensorData(sus1Value);
}
if (sus2valid) {
sus2valid = susConverter.checkSunSensorData(sus2Value);
susBrightness[2] = susConverter.checkSunSensorData(sus2Value);
}
if (sus3valid) {
sus3valid = susConverter.checkSunSensorData(sus3Value);
susBrightness[3] = susConverter.checkSunSensorData(sus3Value);
}
if (sus4valid) {
sus4valid = susConverter.checkSunSensorData(sus4Value);
susBrightness[4] = susConverter.checkSunSensorData(sus4Value);
}
if (sus5valid) {
sus5valid = susConverter.checkSunSensorData(sus5Value);
susBrightness[5] = susConverter.checkSunSensorData(sus5Value);
}
if (sus6valid) {
sus6valid = susConverter.checkSunSensorData(sus6Value);
susBrightness[6] = susConverter.checkSunSensorData(sus6Value);
}
if (sus7valid) {
sus7valid = susConverter.checkSunSensorData(sus7Value);
susBrightness[7] = susConverter.checkSunSensorData(sus7Value);
}
if (sus8valid) {
sus8valid = susConverter.checkSunSensorData(sus8Value);
susBrightness[8] = susConverter.checkSunSensorData(sus8Value);
}
if (sus9valid) {
sus9valid = susConverter.checkSunSensorData(sus9Value);
susBrightness[9] = susConverter.checkSunSensorData(sus9Value);
}
if (sus10valid) {
sus10valid = susConverter.checkSunSensorData(sus10Value);
susBrightness[10] = susConverter.checkSunSensorData(sus10Value);
}
if (sus11valid) {
sus11valid = susConverter.checkSunSensorData(sus11Value);
susBrightness[11] = susConverter.checkSunSensorData(sus11Value);
}
if (!sus0valid && !sus1valid && !sus2valid && !sus3valid && !sus4valid && !sus5valid &&
!sus6valid && !sus7valid && !sus8valid && !sus9valid && !sus10valid && !sus11valid) {
bool susValid[12] = {sus0valid, sus1valid, sus2valid, sus3valid, sus4valid, sus5valid,
sus6valid, sus7valid, sus8valid, sus9valid, sus10valid, sus11valid};
bool allInvalid =
susConverter.checkValidity(susValid, susBrightness, susParameters->susBrightnessThreshold);
if (allInvalid) {
{
PoolReadGuard pg(susDataProcessed);
if (pg.getReadResult() == returnvalue::OK) {
@ -269,117 +275,78 @@ void SensorProcessing::processSus(
}
return;
}
// Transformation into Geomtry Frame
float sus0VecBody[3] = {0, 0, 0}, sus1VecBody[3] = {0, 0, 0}, sus2VecBody[3] = {0, 0, 0},
sus3VecBody[3] = {0, 0, 0}, sus4VecBody[3] = {0, 0, 0}, sus5VecBody[3] = {0, 0, 0},
sus6VecBody[3] = {0, 0, 0}, sus7VecBody[3] = {0, 0, 0}, sus8VecBody[3] = {0, 0, 0},
sus9VecBody[3] = {0, 0, 0}, sus10VecBody[3] = {0, 0, 0}, sus11VecBody[3] = {0, 0, 0};
if (sus0valid) {
MatrixOperations<float>::multiply(
susParameters->sus0orientationMatrix[0],
susConverter.getSunVectorSensorFrame(sus0Value, susParameters->sus0coeffAlpha,
susParameters->sus0coeffBeta),
sus0VecBody, 3, 3, 1);
}
if (sus1valid) {
MatrixOperations<float>::multiply(
susParameters->sus1orientationMatrix[0],
susConverter.getSunVectorSensorFrame(sus1Value, susParameters->sus1coeffAlpha,
susParameters->sus1coeffBeta),
sus1VecBody, 3, 3, 1);
}
if (sus2valid) {
MatrixOperations<float>::multiply(
susParameters->sus2orientationMatrix[0],
susConverter.getSunVectorSensorFrame(sus2Value, susParameters->sus2coeffAlpha,
susParameters->sus2coeffBeta),
sus2VecBody, 3, 3, 1);
}
if (sus3valid) {
MatrixOperations<float>::multiply(
susParameters->sus3orientationMatrix[0],
susConverter.getSunVectorSensorFrame(sus3Value, susParameters->sus3coeffAlpha,
susParameters->sus3coeffBeta),
sus3VecBody, 3, 3, 1);
}
if (sus4valid) {
MatrixOperations<float>::multiply(
susParameters->sus4orientationMatrix[0],
susConverter.getSunVectorSensorFrame(sus4Value, susParameters->sus4coeffAlpha,
susParameters->sus4coeffBeta),
sus4VecBody, 3, 3, 1);
}
if (sus5valid) {
MatrixOperations<float>::multiply(
susParameters->sus5orientationMatrix[0],
susConverter.getSunVectorSensorFrame(sus5Value, susParameters->sus5coeffAlpha,
susParameters->sus5coeffBeta),
sus5VecBody, 3, 3, 1);
}
if (sus6valid) {
MatrixOperations<float>::multiply(
susParameters->sus6orientationMatrix[0],
susConverter.getSunVectorSensorFrame(sus6Value, susParameters->sus6coeffAlpha,
susParameters->sus6coeffBeta),
sus6VecBody, 3, 3, 1);
}
if (sus7valid) {
MatrixOperations<float>::multiply(
susParameters->sus7orientationMatrix[0],
susConverter.getSunVectorSensorFrame(sus7Value, susParameters->sus7coeffAlpha,
susParameters->sus7coeffBeta),
sus7VecBody, 3, 3, 1);
}
if (sus8valid) {
MatrixOperations<float>::multiply(
susParameters->sus8orientationMatrix[0],
susConverter.getSunVectorSensorFrame(sus8Value, susParameters->sus8coeffAlpha,
susParameters->sus8coeffBeta),
sus8VecBody, 3, 3, 1);
}
if (sus9valid) {
MatrixOperations<float>::multiply(
susParameters->sus9orientationMatrix[0],
susConverter.getSunVectorSensorFrame(sus9Value, susParameters->sus9coeffAlpha,
susParameters->sus9coeffBeta),
sus9VecBody, 3, 3, 1);
}
if (sus10valid) {
MatrixOperations<float>::multiply(
susParameters->sus10orientationMatrix[0],
susConverter.getSunVectorSensorFrame(sus10Value, susParameters->sus10coeffAlpha,
susParameters->sus10coeffBeta),
sus10VecBody, 3, 3, 1);
}
if (sus11valid) {
MatrixOperations<float>::multiply(
susParameters->sus11orientationMatrix[0],
susConverter.getSunVectorSensorFrame(sus11Value, susParameters->sus11coeffAlpha,
susParameters->sus11coeffBeta),
sus11VecBody, 3, 3, 1);
}
float susVecSensor[12][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}, {0, 0, 0}, {0, 0, 0}, {0, 0, 0},
{0, 0, 0}, {0, 0, 0}, {0, 0, 0}, {0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
float susVecBody[12][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}, {0, 0, 0}, {0, 0, 0}, {0, 0, 0},
{0, 0, 0}, {0, 0, 0}, {0, 0, 0}, {0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
/* ------ Mean Value: susDirEst ------ */
bool validIds[12] = {sus0valid, sus1valid, sus2valid, sus3valid, sus4valid, sus5valid,
sus6valid, sus7valid, sus8valid, sus9valid, sus10valid, sus11valid};
float susVecBody[3][12] = {{sus0VecBody[0], sus1VecBody[0], sus2VecBody[0], sus3VecBody[0],
sus4VecBody[0], sus5VecBody[0], sus6VecBody[0], sus7VecBody[0],
sus8VecBody[0], sus9VecBody[0], sus10VecBody[0], sus11VecBody[0]},
{sus0VecBody[1], sus1VecBody[1], sus2VecBody[1], sus3VecBody[1],
sus4VecBody[1], sus5VecBody[1], sus6VecBody[1], sus7VecBody[1],
sus8VecBody[1], sus9VecBody[1], sus10VecBody[1], sus11VecBody[1]},
{sus0VecBody[2], sus1VecBody[2], sus2VecBody[2], sus3VecBody[2],
sus4VecBody[2], sus5VecBody[2], sus6VecBody[2], sus7VecBody[2],
sus8VecBody[2], sus9VecBody[2], sus10VecBody[2], sus11VecBody[2]}};
if (susValid[0]) {
susConverter.calculateSunVector(susVecSensor[0], sus0Value);
MatrixOperations<float>::multiply(susParameters->sus0orientationMatrix[0], susVecSensor[0],
susVecBody[0], 3, 3, 1);
}
if (susValid[1]) {
susConverter.calculateSunVector(susVecSensor[1], sus1Value);
MatrixOperations<float>::multiply(susParameters->sus1orientationMatrix[0], susVecSensor[1],
susVecBody[1], 3, 3, 1);
}
if (susValid[2]) {
susConverter.calculateSunVector(susVecSensor[2], sus2Value);
MatrixOperations<float>::multiply(susParameters->sus2orientationMatrix[0], susVecSensor[2],
susVecBody[2], 3, 3, 1);
}
if (susValid[3]) {
susConverter.calculateSunVector(susVecSensor[3], sus3Value);
MatrixOperations<float>::multiply(susParameters->sus3orientationMatrix[0], susVecSensor[3],
susVecBody[3], 3, 3, 1);
}
if (susValid[4]) {
susConverter.calculateSunVector(susVecSensor[4], sus4Value);
MatrixOperations<float>::multiply(susParameters->sus4orientationMatrix[0], susVecSensor[4],
susVecBody[4], 3, 3, 1);
}
if (susValid[5]) {
susConverter.calculateSunVector(susVecSensor[5], sus5Value);
MatrixOperations<float>::multiply(susParameters->sus5orientationMatrix[0], susVecSensor[5],
susVecBody[5], 3, 3, 1);
}
if (susValid[6]) {
susConverter.calculateSunVector(susVecSensor[6], sus6Value);
MatrixOperations<float>::multiply(susParameters->sus6orientationMatrix[0], susVecSensor[6],
susVecBody[6], 3, 3, 1);
}
if (susValid[7]) {
susConverter.calculateSunVector(susVecSensor[7], sus7Value);
MatrixOperations<float>::multiply(susParameters->sus7orientationMatrix[0], susVecSensor[7],
susVecBody[7], 3, 3, 1);
}
if (susValid[8]) {
susConverter.calculateSunVector(susVecSensor[8], sus8Value);
MatrixOperations<float>::multiply(susParameters->sus8orientationMatrix[0], susVecSensor[8],
susVecBody[8], 3, 3, 1);
}
if (susValid[9]) {
susConverter.calculateSunVector(susVecSensor[9], sus9Value);
MatrixOperations<float>::multiply(susParameters->sus9orientationMatrix[0], susVecSensor[9],
susVecBody[9], 3, 3, 1);
}
if (susValid[10]) {
susConverter.calculateSunVector(susVecSensor[10], sus10Value);
MatrixOperations<float>::multiply(susParameters->sus10orientationMatrix[0], susVecSensor[10],
susVecBody[10], 3, 3, 1);
}
if (susValid[11]) {
susConverter.calculateSunVector(susVecSensor[11], sus11Value);
MatrixOperations<float>::multiply(susParameters->sus11orientationMatrix[0], susVecSensor[11],
susVecBody[11], 3, 3, 1);
}
double susMeanValue[3] = {0, 0, 0};
for (uint8_t i = 0; i < 12; i++) {
if (validIds[i]) {
susMeanValue[0] += susVecBody[0][i];
susMeanValue[1] += susVecBody[1][i];
susMeanValue[2] += susVecBody[2][i];
}
susMeanValue[0] += susVecBody[i][0];
susMeanValue[1] += susVecBody[i][1];
susMeanValue[2] += susVecBody[i][2];
}
double susVecTot[3] = {0.0, 0.0, 0.0};
VectorOperations<double>::normalize(susMeanValue, susVecTot, 3);
@ -400,29 +367,29 @@ void SensorProcessing::processSus(
{
PoolReadGuard pg(susDataProcessed);
if (pg.getReadResult() == returnvalue::OK) {
std::memcpy(susDataProcessed->sus0vec.value, sus0VecBody, 3 * sizeof(float));
std::memcpy(susDataProcessed->sus0vec.value, susVecBody[0], 3 * sizeof(float));
susDataProcessed->sus0vec.setValid(sus0valid);
std::memcpy(susDataProcessed->sus1vec.value, sus1VecBody, 3 * sizeof(float));
std::memcpy(susDataProcessed->sus1vec.value, susVecBody[1], 3 * sizeof(float));
susDataProcessed->sus1vec.setValid(sus1valid);
std::memcpy(susDataProcessed->sus2vec.value, sus2VecBody, 3 * sizeof(float));
std::memcpy(susDataProcessed->sus2vec.value, susVecBody[2], 3 * sizeof(float));
susDataProcessed->sus2vec.setValid(sus2valid);
std::memcpy(susDataProcessed->sus3vec.value, sus3VecBody, 3 * sizeof(float));
std::memcpy(susDataProcessed->sus3vec.value, susVecBody[3], 3 * sizeof(float));
susDataProcessed->sus3vec.setValid(sus3valid);
std::memcpy(susDataProcessed->sus4vec.value, sus4VecBody, 3 * sizeof(float));
std::memcpy(susDataProcessed->sus4vec.value, susVecBody[4], 3 * sizeof(float));
susDataProcessed->sus4vec.setValid(sus4valid);
std::memcpy(susDataProcessed->sus5vec.value, sus5VecBody, 3 * sizeof(float));
std::memcpy(susDataProcessed->sus5vec.value, susVecBody[5], 3 * sizeof(float));
susDataProcessed->sus5vec.setValid(sus5valid);
std::memcpy(susDataProcessed->sus6vec.value, sus6VecBody, 3 * sizeof(float));
std::memcpy(susDataProcessed->sus6vec.value, susVecBody[6], 3 * sizeof(float));
susDataProcessed->sus6vec.setValid(sus6valid);
std::memcpy(susDataProcessed->sus7vec.value, sus7VecBody, 3 * sizeof(float));
std::memcpy(susDataProcessed->sus7vec.value, susVecBody[7], 3 * sizeof(float));
susDataProcessed->sus7vec.setValid(sus7valid);
std::memcpy(susDataProcessed->sus8vec.value, sus8VecBody, 3 * sizeof(float));
std::memcpy(susDataProcessed->sus8vec.value, susVecBody[8], 3 * sizeof(float));
susDataProcessed->sus8vec.setValid(sus8valid);
std::memcpy(susDataProcessed->sus9vec.value, sus9VecBody, 3 * sizeof(float));
std::memcpy(susDataProcessed->sus9vec.value, susVecBody[9], 3 * sizeof(float));
susDataProcessed->sus9vec.setValid(sus9valid);
std::memcpy(susDataProcessed->sus10vec.value, sus10VecBody, 3 * sizeof(float));
std::memcpy(susDataProcessed->sus10vec.value, susVecBody[10], 3 * sizeof(float));
susDataProcessed->sus10vec.setValid(sus10valid);
std::memcpy(susDataProcessed->sus11vec.value, sus11VecBody, 3 * sizeof(float));
std::memcpy(susDataProcessed->sus11vec.value, susVecBody[11], 3 * sizeof(float));
susDataProcessed->sus11vec.setValid(sus11valid);
std::memcpy(susDataProcessed->susVecTot.value, susVecTot, 3 * sizeof(double));
susDataProcessed->susVecTot.setValid(true);

View File

@ -1,121 +1,64 @@
#include "SusConverter.h"
#include <fsfw/datapoollocal/LocalPoolVariable.h>
#include <fsfw/datapoollocal/LocalPoolVector.h>
#include <fsfw/globalfunctions/math/VectorOperations.h>
#include <math.h>
#include <iostream>
bool SusConverter::checkSunSensorData(const uint16_t susChannel[6]) {
if (susChannel[0] <= susChannelValueCheckLow || susChannel[0] > susChannelValueCheckHigh ||
uint64_t SusConverter::checkSunSensorData(const uint16_t susChannel[6]) {
if (susChannel[0] <= SUS_CHANNEL_VALUE_LOW || susChannel[0] > SUS_CHANNEL_VALUE_HIGH ||
susChannel[0] > susChannel[GNDREF]) {
return false;
return 0;
}
if (susChannel[1] <= susChannelValueCheckLow || susChannel[1] > susChannelValueCheckHigh ||
if (susChannel[1] <= SUS_CHANNEL_VALUE_LOW || susChannel[1] > SUS_CHANNEL_VALUE_HIGH ||
susChannel[1] > susChannel[GNDREF]) {
return false;
return 0;
};
if (susChannel[2] <= susChannelValueCheckLow || susChannel[2] > susChannelValueCheckHigh ||
if (susChannel[2] <= SUS_CHANNEL_VALUE_LOW || susChannel[2] > SUS_CHANNEL_VALUE_HIGH ||
susChannel[2] > susChannel[GNDREF]) {
return false;
return 0;
};
if (susChannel[3] <= susChannelValueCheckLow || susChannel[3] > susChannelValueCheckHigh ||
if (susChannel[3] <= SUS_CHANNEL_VALUE_LOW || susChannel[3] > SUS_CHANNEL_VALUE_HIGH ||
susChannel[3] > susChannel[GNDREF]) {
return false;
return 0;
};
susChannelValueSum =
uint64_t susChannelValueSum =
4 * susChannel[GNDREF] - (susChannel[0] + susChannel[1] + susChannel[2] + susChannel[3]);
if ((susChannelValueSum < susChannelValueSumHigh) &&
(susChannelValueSum > susChannelValueSumLow)) {
return false;
if (susChannelValueSum < SUS_ALBEDO_CHECK) {
return 0;
};
return true;
return susChannelValueSum;
}
void SusConverter::calcAngle(const uint16_t susChannel[6]) {
float xout, yout;
float s = 0.03; // s=[mm] gap between diodes
uint8_t d = 5; // d=[mm] edge length of the quadratic aperture
uint8_t h = 1; // h=[mm] distance between diodes and aperture
int ch0, ch1, ch2, ch3;
bool SusConverter::checkValidity(bool* susValid, const uint64_t brightness[12],
const float threshold) {
uint8_t maxBrightness = 0;
VectorOperations<uint64_t>::maxValue(brightness, 12, &maxBrightness);
if (brightness[maxBrightness] == 0) {
return true;
}
for (uint8_t idx = 0; idx < 12; idx++) {
if ((idx != maxBrightness) and (brightness[idx] < threshold * brightness[maxBrightness])) {
susValid[idx] = false;
continue;
}
susValid[idx] = true;
}
return false;
}
void SusConverter::calculateSunVector(float* sunVectorSensorFrame, const uint16_t susChannel[6]) {
// Substract measurement values from GNDREF zero current threshold
ch0 = susChannel[GNDREF] - susChannel[0];
ch1 = susChannel[GNDREF] - susChannel[1];
ch2 = susChannel[GNDREF] - susChannel[2];
ch3 = susChannel[GNDREF] - susChannel[3];
float ch0 = susChannel[GNDREF] - susChannel[0];
float ch1 = susChannel[GNDREF] - susChannel[1];
float ch2 = susChannel[GNDREF] - susChannel[2];
float ch3 = susChannel[GNDREF] - susChannel[3];
// Calculation of x and y
xout = ((d - s) / 2) * (ch2 - ch3 - ch0 + ch1) / (ch0 + ch1 + ch2 + ch3); //[mm]
yout = ((d - s) / 2) * (ch2 + ch3 - ch0 - ch1) / (ch0 + ch1 + ch2 + ch3); //[mm]
float xout = ((D - S) / 2) * (ch2 - ch3 - ch0 + ch1) / (ch0 + ch1 + ch2 + ch3); //[mm]
float yout = ((D - S) / 2) * (ch2 + ch3 - ch0 - ch1) / (ch0 + ch1 + ch2 + ch3); //[mm]
// Calculation of the angles
alphaBetaRaw[0] = atan2(xout, h) * (180 / M_PI); //[°]
alphaBetaRaw[1] = atan2(yout, h) * (180 / M_PI); //[°]
}
void SusConverter::calibration(const float coeffAlpha[9][10], const float coeffBeta[9][10]) {
uint8_t index, k, l;
// while loop iterates above all calibration cells to use the different calibration functions in
// each cell
k = 0;
while (k < 3) {
k++;
l = 0;
while (l < 3) {
l++;
// if-condition to check in which cell the data point has to be
if ((alphaBetaRaw[0] > ((completeCellWidth * ((k - 1) / 3.)) - halfCellWidth) &&
alphaBetaRaw[0] < ((completeCellWidth * (k / 3.)) - halfCellWidth)) &&
(alphaBetaRaw[1] > ((completeCellWidth * ((l - 1) / 3.)) - halfCellWidth) &&
alphaBetaRaw[1] < ((completeCellWidth * (l / 3.)) - halfCellWidth))) {
index = (3 * (k - 1) + l) - 1; // calculate the index of the datapoint for the right cell
alphaBetaCalibrated[0] =
coeffAlpha[index][0] + coeffAlpha[index][1] * alphaBetaRaw[0] +
coeffAlpha[index][2] * alphaBetaRaw[1] +
coeffAlpha[index][3] * alphaBetaRaw[0] * alphaBetaRaw[0] +
coeffAlpha[index][4] * alphaBetaRaw[0] * alphaBetaRaw[1] +
coeffAlpha[index][5] * alphaBetaRaw[1] * alphaBetaRaw[1] +
coeffAlpha[index][6] * alphaBetaRaw[0] * alphaBetaRaw[0] * alphaBetaRaw[0] +
coeffAlpha[index][7] * alphaBetaRaw[0] * alphaBetaRaw[0] * alphaBetaRaw[1] +
coeffAlpha[index][8] * alphaBetaRaw[0] * alphaBetaRaw[1] * alphaBetaRaw[1] +
coeffAlpha[index][9] * alphaBetaRaw[1] * alphaBetaRaw[1] * alphaBetaRaw[1]; //[°]
alphaBetaCalibrated[1] =
coeffBeta[index][0] + coeffBeta[index][1] * alphaBetaRaw[0] +
coeffBeta[index][2] * alphaBetaRaw[1] +
coeffBeta[index][3] * alphaBetaRaw[0] * alphaBetaRaw[0] +
coeffBeta[index][4] * alphaBetaRaw[0] * alphaBetaRaw[1] +
coeffBeta[index][5] * alphaBetaRaw[1] * alphaBetaRaw[1] +
coeffBeta[index][6] * alphaBetaRaw[0] * alphaBetaRaw[0] * alphaBetaRaw[0] +
coeffBeta[index][7] * alphaBetaRaw[0] * alphaBetaRaw[0] * alphaBetaRaw[1] +
coeffBeta[index][8] * alphaBetaRaw[0] * alphaBetaRaw[1] * alphaBetaRaw[1] +
coeffBeta[index][9] * alphaBetaRaw[1] * alphaBetaRaw[1] * alphaBetaRaw[1]; //[°]
}
}
}
}
float* SusConverter::calculateSunVector() {
// Calculate the normalized Sun Vector
sunVectorSensorFrame[0] = -(tan(alphaBetaCalibrated[0] * (M_PI / 180)) /
(sqrt((powf(tan(alphaBetaCalibrated[0] * (M_PI / 180)), 2)) +
powf(tan((alphaBetaCalibrated[1] * (M_PI / 180))), 2) + (1))));
sunVectorSensorFrame[1] = -(tan(alphaBetaCalibrated[1] * (M_PI / 180)) /
(sqrt(powf((tan(alphaBetaCalibrated[0] * (M_PI / 180))), 2) +
powf(tan((alphaBetaCalibrated[1] * (M_PI / 180))), 2) + (1))));
sunVectorSensorFrame[2] =
-(-1 / (sqrt(powf((tan(alphaBetaCalibrated[0] * (M_PI / 180))), 2) +
powf((tan(alphaBetaCalibrated[1] * (M_PI / 180))), 2) + (1))));
return sunVectorSensorFrame;
}
float* SusConverter::getSunVectorSensorFrame(const uint16_t susChannel[6],
const float coeffAlpha[9][10],
const float coeffBeta[9][10]) {
calcAngle(susChannel);
calibration(coeffAlpha, coeffBeta);
return calculateSunVector();
sunVectorSensorFrame[0] = -xout;
sunVectorSensorFrame[1] = -yout;
sunVectorSensorFrame[2] = H;
VectorOperations<float>::normalize(sunVectorSensorFrame, sunVectorSensorFrame, 3);
}

View File

@ -1,8 +1,4 @@
#ifndef MISSION_CONTROLLER_ACS_SUSCONVERTER_H_
#define MISSION_CONTROLLER_ACS_SUSCONVERTER_H_
#include <fsfw/datapoollocal/LocalPoolVector.h>
#include <stdint.h>
#include <fsfw/globalfunctions/math/VectorOperations.h>
#include "AcsParameters.h"
@ -10,41 +6,26 @@ class SusConverter {
public:
SusConverter() {}
bool checkSunSensorData(const uint16_t susChannel[6]);
void calcAngle(const uint16_t susChannel[6]);
void calibration(const float coeffAlpha[9][10], const float coeffBeta[9][10]);
float* calculateSunVector();
float* getSunVectorSensorFrame(const uint16_t susChannel[6], const float coeffAlpha[9][10],
const float coeffBeta[9][10]);
uint64_t checkSunSensorData(const uint16_t susChannel[6]);
bool checkValidity(bool* susValid, const uint64_t brightness[12], const float threshold);
void calculateSunVector(float* sunVectorSensorFrame, const uint16_t susChannel[6]);
private:
float alphaBetaRaw[2]; //[°]
float alphaBetaCalibrated[2]; //[°]
float sunVectorSensorFrame[3]; //[-]
bool validFlag[12] = {returnvalue::OK, returnvalue::OK, returnvalue::OK, returnvalue::OK,
returnvalue::OK, returnvalue::OK, returnvalue::OK, returnvalue::OK,
returnvalue::OK, returnvalue::OK, returnvalue::OK, returnvalue::OK};
static const uint8_t GNDREF = 4;
uint16_t susChannelValueCheckHigh =
4096; //=2^12[Bit]high borderline for the channel values of one sun sensor for validity Check
uint8_t susChannelValueCheckLow =
0; //[Bit]low borderline for the channel values of one sun sensor for validity Check
uint16_t susChannelValueSumHigh =
100; // 4096[Bit]high borderline for check if the sun sensor is illuminated by the sun or by
// the reflection of sunlight from the moon/earth
uint8_t susChannelValueSumLow =
0; //[Bit]low borderline for check if the sun sensor is illuminated
// by the sun or by the reflection of sunlight from the moon/earth
uint8_t completeCellWidth = 140,
halfCellWidth = 70; //[°] Width of the calibration cells --> necessary for checking in
// which cell a data point should be
uint16_t susChannelValueSum = 0;
// =2^12[Bit]high borderline for the channel values of one sun sensor for validity Check
static constexpr uint16_t SUS_CHANNEL_VALUE_HIGH = 4096;
// [Bit]low borderline for the channel values of one sun sensor for validity Check
static constexpr uint8_t SUS_CHANNEL_VALUE_LOW = 0;
// 4096[Bit]high borderline for check if the sun sensor is illuminated by the sun or by the
// reflection of sunlight from the moon/earth
static constexpr uint16_t SUS_ALBEDO_CHECK = 1000;
// [Bit]low borderline for check if the sun sensor is illuminated by the sun or by the reflection
// of sunlight from the moon/earth
static constexpr uint8_t SUS_CHANNEL_SUM_LOW = 0;
static constexpr float S = 0.03; // S=[mm] gap between diodes
static constexpr float D = 5; // D=[mm] edge length of the quadratic aperture
static constexpr float H = 2.5; // H=[mm] distance between diodes and aperture
AcsParameters acsParameters;
};
#endif /* MISSION_CONTROLLER_ACS_SUSCONVERTER_H_ */

View File

@ -91,19 +91,21 @@ EiveFaultHandler EIVE_FAULT_HANDLER;
} // namespace cfdp
std::atomic_bool tcs::TCS_BOARD_SHORTLY_UNAVAILABLE = false;
std::atomic_bool core::SAVE_PUS_SEQUENCE_COUNT = false;
std::atomic_bool core::SAVE_CFDP_SEQUENCE_COUNT = false;
void ObjectFactory::produceGenericObjects(HealthTableIF** healthTable_, PusTmFunnel** pusFunnel,
CfdpTmFunnel** cfdpFunnel, SdCardMountedIF& sdcMan,
StorageManagerIF** ipcStore, StorageManagerIF** tmStore,
PersistentTmStores& stores,
uint32_t eventManagerQueueDepth) {
uint32_t eventManagerQueueDepth, bool enableHkSets) {
// Framework objects
new EventManager(objects::EVENT_MANAGER, eventManagerQueueDepth);
auto healthTable = new HealthTable(objects::HEALTH_TABLE);
if (healthTable_ != nullptr) {
*healthTable_ = healthTable;
}
new InternalErrorReporter(objects::INTERNAL_ERROR_REPORTER);
new InternalErrorReporter(objects::INTERNAL_ERROR_REPORTER, 5, enableHkSets, 120);
new VerificationReporter();
auto* timeStamper = new CdsShortTimeStamper(objects::TIME_STAMPER);
StorageManagerIF* tcStore;
@ -155,9 +157,11 @@ void ObjectFactory::produceGenericObjects(HealthTableIF** healthTable_, PusTmFun
new PusDistributor(config::EIVE_PUS_APID, objects::PUS_PACKET_DISTRIBUTOR, ccsdsDistrib);
PusTmFunnel::FunnelCfg pusFunnelCfg(objects::PUS_TM_FUNNEL, "PusTmFunnel", **tmStore, **ipcStore,
config::MAX_PUS_FUNNEL_QUEUE_DEPTH);
config::MAX_PUS_FUNNEL_QUEUE_DEPTH, sdcMan,
config::PUS_SEQUENCE_COUNT_FILE,
core::SAVE_PUS_SEQUENCE_COUNT);
// The PUS funnel routes all live TM to the live destinations and to the TM stores.
*pusFunnel = new PusTmFunnel(pusFunnelCfg, *ramToFileStore, *timeStamper, sdcMan);
*pusFunnel = new PusTmFunnel(pusFunnelCfg, *ramToFileStore, *timeStamper);
// MISC store and PUS funnel to MISC store routing
{
@ -216,7 +220,9 @@ void ObjectFactory::produceGenericObjects(HealthTableIF** healthTable_, PusTmFun
stores.cfdpStore->getReportReceptionQueue(0));
}
PusTmFunnel::FunnelCfg cfdpFunnelCfg(objects::CFDP_TM_FUNNEL, "CfdpTmFunnel", **tmStore,
**ipcStore, config::MAX_CFDP_FUNNEL_QUEUE_DEPTH);
**ipcStore, config::MAX_CFDP_FUNNEL_QUEUE_DEPTH, sdcMan,
config::CFDP_SEQUENCE_COUNT_FILE,
core::SAVE_CFDP_SEQUENCE_COUNT);
*cfdpFunnel = new CfdpTmFunnel(cfdpFunnelCfg, stores.cfdpStore->getReportReceptionQueue(0),
*ramToFileStore, config::EIVE_CFDP_APID);

View File

@ -45,7 +45,8 @@ namespace ObjectFactory {
void produceGenericObjects(HealthTableIF** healthTable, PusTmFunnel** pusFunnel,
CfdpTmFunnel** cfdpFunnel, SdCardMountedIF& sdcMan,
StorageManagerIF** ipcStore, StorageManagerIF** tmStore,
PersistentTmStores& stores, uint32_t eventManagerQueueDepth);
PersistentTmStores& stores, uint32_t eventManagerQueueDepth,
bool enableHkSets);
void createGenericHeaterComponents(GpioIF& gpioIF, PowerSwitchIF& pwrSwitcher,
HeaterHandler*& heaterHandler);

View File

@ -34,6 +34,9 @@ enum Copy : int { COPY_0, COPY_1, NO_COPY, SELF_COPY, ALL_COPY };
namespace core {
extern std::atomic_bool SAVE_PUS_SEQUENCE_COUNT;
extern std::atomic_bool SAVE_CFDP_SEQUENCE_COUNT;
// TODO: Support for status? Or maybe some command to quickly get information whether a unit
// is running.
enum SystemctlCmd : uint8_t { START = 0, STOP = 1, RESTART = 2, NUM_CMDS = 3 };
@ -41,9 +44,13 @@ enum SystemctlCmd : uint8_t { START = 0, STOP = 1, RESTART = 2, NUM_CMDS = 3 };
static constexpr char CONF_FOLDER[] = "conf";
static constexpr char VERSION_FILE_NAME[] = "version.txt";
static constexpr char REBOOT_FILE_NAME[] = "reboot.txt";
static constexpr char LEGACY_REBOOT_WATCHDOG_FILE_NAME[] = "reboot.txt";
static constexpr char REBOOT_WATCHDOG_FILE_NAME[] = "reboot_watchdog.txt";
static constexpr char REBOOT_COUNTER_FILE_NAME[] = "reboot_counters.txt";
static constexpr char TIME_FILE_NAME[] = "time_backup.txt";
static constexpr uint32_t SYS_ROM_BASE_ADDR = 0x80000000;
static constexpr ActionId_t ANNOUNCE_VERSION = 1;
static constexpr ActionId_t ANNOUNCE_CURRENT_IMAGE = 2;
static constexpr ActionId_t ANNOUNCE_BOOT_COUNTS = 3;
@ -51,6 +58,7 @@ static constexpr ActionId_t SWITCH_REBOOT_FILE_HANDLING = 5;
static constexpr ActionId_t RESET_REBOOT_COUNTERS = 6;
static constexpr ActionId_t SWITCH_IMG_LOCK = 7;
static constexpr ActionId_t SET_MAX_REBOOT_CNT = 8;
static constexpr ActionId_t READ_REBOOT_MECHANISM_INFO = 9;
static constexpr ActionId_t OBSW_UPDATE_FROM_SD_0 = 10;
static constexpr ActionId_t OBSW_UPDATE_FROM_SD_1 = 11;
@ -113,6 +121,10 @@ static constexpr Event TRYING_I2C_RECOVERY = event::makeEvent(SUBSYSTEM_ID, 10,
static constexpr Event I2C_REBOOT = event::makeEvent(SUBSYSTEM_ID, 11, severity::HIGH);
//! [EXPORT] : [COMMENT] PDEC recovery through reset was not possible, performing full reboot.
static constexpr Event PDEC_REBOOT = event::makeEvent(SUBSYSTEM_ID, 12, severity::HIGH);
//! [EXPORT] : [COMMENT] Version information of the firmware (not OBSW).
//! P1: Byte 0: Major, Byte 1: Minor, Byte 2: Patch, Byte 3: Has Git Hash
//! P2: First four letters of Git SHA is the last byte of P1 is set.
static constexpr Event FIRMWARE_INFO = event::makeEvent(SUBSYSTEM_ID, 13, severity::INFO);
class ListDirectoryCmdBase {
public: // TODO: Packet definition for clean deserialization
@ -242,19 +254,22 @@ class CpHelperParser {
CpHelperParser(const uint8_t* data, size_t maxLen) : data(data), maxLen(maxLen) {}
ReturnValue_t parse() {
if (maxLen < 1) {
if (maxLen < 2) {
return SerializeIF::STREAM_TOO_SHORT;
}
recursiveOpt = data[0];
return parseDestTargetString(data + 1, maxLen - 1, destTgt);
forceOpt = data[1];
return parseDestTargetString(data + 2, maxLen - 2, destTgt);
}
const SourceTargetPair& destTgtPair() const { return destTgt; }
bool isRecursiveOptSet() const { return recursiveOpt; }
bool isForceOptSet() const { return forceOpt; }
private:
const uint8_t* data;
size_t maxLen;
bool recursiveOpt = false;
bool forceOpt = false;
SourceTargetPair destTgt;
};

View File

@ -51,9 +51,13 @@ ReturnValue_t HeaterHandler::performOperation(uint8_t operationCode) {
if (mainLineSwitcher->getSwitchState(mainLineSwitch) == SWITCH_OFF) {
waitForSwitchOff = false;
mode = MODE_OFF;
busyWithSwitchCommanding = false;
modeHelper.modeChanged(mode, submode);
}
}
if (busyWithSwitchCommanding and heaterCmdBusyCd.hasTimedOut()) {
busyWithSwitchCommanding = false;
}
} catch (const std::out_of_range& e) {
sif::warning << "HeaterHandler::performOperation: "
"Out of range error | "
@ -101,23 +105,23 @@ ReturnValue_t HeaterHandler::initializeHeaterMap() {
void HeaterHandler::readCommandQueue() {
ReturnValue_t result = returnvalue::OK;
CommandMessage command;
do {
if (not busyWithSwitchCommanding) {
result = commandQueue->receiveMessage(&command);
if (result == MessageQueueIF::EMPTY) {
break;
return;
} else if (result != returnvalue::OK) {
sif::warning << "HeaterHandler::readCommandQueue: Message reception error" << std::endl;
break;
}
result = actionHelper.handleActionMessage(&command);
if (result == returnvalue::OK) {
continue;
return;
}
result = modeHelper.handleModeCommand(&command);
if (result == returnvalue::OK) {
continue;
return;
}
} while (result == returnvalue::OK);
result = actionHelper.handleActionMessage(&command);
if (result == returnvalue::OK) {
return;
}
}
}
ReturnValue_t HeaterHandler::executeAction(ActionId_t actionId, MessageQueueId_t commandedBy,
@ -167,6 +171,8 @@ ReturnValue_t HeaterHandler::executeAction(ActionId_t actionId, MessageQueueId_t
heater.action = action;
heater.cmdActive = true;
heater.replyQueue = commandedBy;
busyWithSwitchCommanding = true;
heaterCmdBusyCd.resetTimer();
return returnvalue::OK;
}
@ -249,6 +255,7 @@ void HeaterHandler::handleSwitchOnCommand(heater::Switch heaterIdx) {
sif::error << "HeaterHandler::handleSwitchOnCommand: Main switch setting on timeout"
<< std::endl;
heater.cmdActive = false;
busyWithSwitchCommanding = false;
heater.waitMainSwitchOn = false;
if (heater.replyQueue != commandQueue->getId()) {
actionHelper.finish(false, heater.replyQueue, heater.action, MAIN_SWITCH_SET_TIMEOUT);
@ -259,27 +266,25 @@ void HeaterHandler::handleSwitchOnCommand(heater::Switch heaterIdx) {
// Check state of main line switch
ReturnValue_t mainSwitchState = mainLineSwitcher->getSwitchState(mainLineSwitch);
if (mainSwitchState == PowerSwitchIF::SWITCH_ON) {
if (getSwitchState(heaterIdx) == SwitchState::OFF) {
gpioId_t gpioId = heater.gpioId;
result = gpioInterface->pullHigh(gpioId);
if (result != returnvalue::OK) {
sif::error << "HeaterHandler::handleSwitchOnCommand: Failed to pull gpio with id " << gpioId
<< " high" << std::endl;
triggerEvent(GPIO_PULL_HIGH_FAILED, result);
} else {
triggerEvent(HEATER_WENT_ON, heaterIdx, 0);
EventManagerIF::triggerEvent(helper.heaters[heaterIdx].first->getObjectId(), MODE_INFO,
MODE_ON, 0);
{
MutexGuard mg(handlerLock, LOCK_TYPE, LOCK_TIMEOUT, LOCK_CTX);
heater.switchState = ON;
}
}
} else {
triggerEvent(SWITCH_ALREADY_ON, heaterIdx);
gpioId_t gpioId = heater.gpioId;
result = gpioInterface->pullHigh(gpioId);
if (result != returnvalue::OK) {
sif::error << "HeaterHandler::handleSwitchOnCommand: Failed to pull GPIO with ID " << gpioId
<< " high" << std::endl;
triggerEvent(GPIO_PULL_HIGH_FAILED, result);
}
if (result == returnvalue::OK) {
triggerEvent(HEATER_WENT_ON, heaterIdx, 0);
{
MutexGuard mg(handlerLock, LOCK_TYPE, LOCK_TIMEOUT, LOCK_CTX);
heater.switchState = ON;
}
EventManagerIF::triggerEvent(helper.heaters[heaterIdx].first->getObjectId(), MODE_INFO,
MODE_ON, 0);
busyWithSwitchCommanding = false;
mode = HasModesIF::MODE_ON;
modeHelper.modeChanged(mode, submode);
}
mode = HasModesIF::MODE_ON;
modeHelper.modeChanged(mode, submode);
// There is no need to send action finish replies if the sender was the
// HeaterHandler itself
if (heater.replyQueue != commandQueue->getId()) {
@ -312,30 +317,33 @@ void HeaterHandler::handleSwitchOnCommand(heater::Switch heaterIdx) {
void HeaterHandler::handleSwitchOffCommand(heater::Switch heaterIdx) {
ReturnValue_t result = returnvalue::OK;
auto& heater = heaterVec.at(heaterIdx);
// Check whether switch is already off
if (getSwitchState(heaterIdx)) {
gpioId_t gpioId = heater.gpioId;
result = gpioInterface->pullLow(gpioId);
if (result != returnvalue::OK) {
sif::error << "HeaterHandler::handleSwitchOffCommand: Failed to pull gpio with id" << gpioId
<< " low" << std::endl;
triggerEvent(GPIO_PULL_LOW_FAILED, result);
} else {
gpioId_t gpioId = heater.gpioId;
result = gpioInterface->pullLow(gpioId);
if (result != returnvalue::OK) {
sif::error << "HeaterHandler::handleSwitchOffCommand: Failed to pull gpio with id" << gpioId
<< " low" << std::endl;
triggerEvent(GPIO_PULL_LOW_FAILED, result);
}
if (result == returnvalue::OK) {
// Check whether switch is already off
if (getSwitchState(heaterIdx) == SwitchState::ON) {
{
MutexGuard mg(handlerLock, LOCK_TYPE, LOCK_TIMEOUT, LOCK_CTX);
heater.switchState = OFF;
}
triggerEvent(HEATER_WENT_OFF, heaterIdx, 0);
EventManagerIF::triggerEvent(helper.heaters[heaterIdx].first->getObjectId(), MODE_INFO,
MODE_OFF, 0);
// When all switches are off, also main line switch will be turned off
if (allSwitchesOff()) {
mainLineSwitcher->sendSwitchCommand(mainLineSwitch, PowerSwitchIF::SWITCH_OFF);
waitForSwitchOff = true;
}
} else {
triggerEvent(SWITCH_ALREADY_OFF, heaterIdx);
}
EventManagerIF::triggerEvent(helper.heaters[heaterIdx].first->getObjectId(), MODE_INFO,
MODE_OFF, 0);
// When all switches are off, also main line switch will be turned off
if (allSwitchesOff()) {
mainLineSwitcher->sendSwitchCommand(mainLineSwitch, PowerSwitchIF::SWITCH_OFF);
waitForSwitchOff = true;
} else {
busyWithSwitchCommanding = false;
}
} else {
triggerEvent(SWITCH_ALREADY_OFF, heaterIdx);
}
if (heater.replyQueue != NO_COMMANDER) {
// Report back switch command reply if necessary

View File

@ -148,6 +148,7 @@ class HeaterHandler : public ExecutableObjectIF,
/** Size of command queue */
size_t cmdQueueSize = 20;
bool waitForSwitchOff = true;
bool busyWithSwitchCommanding = false;
GpioIF* gpioInterface = nullptr;
@ -163,6 +164,7 @@ class HeaterHandler : public ExecutableObjectIF,
power::Switch_t mainLineSwitch;
ActionHelper actionHelper;
Countdown heaterCmdBusyCd = Countdown(2000);
StorageManagerIF* ipcStore = nullptr;

View File

@ -37,6 +37,8 @@ void Max31865EiveHandler::doShutDown() {
transitionOk = false;
}
if (state == InternalState::INACTIVE and transitionOk) {
sensorDataset.temperatureCelcius = thermal::INVALID_TEMPERATURE;
sensorDataset.setValidity(false, true);
updatePeriodicReply(false, EiveMax31855::RtdCommands::EXCHANGE_SET_ID);
setMode(MODE_OFF);
}

View File

@ -15,8 +15,16 @@ const char* CfdpTmFunnel::getName() const { return "CFDP TM Funnel"; }
ReturnValue_t CfdpTmFunnel::performOperation(uint8_t) {
TmTcMessage currentMessage;
ReturnValue_t status;
unsigned int count = 0;
ReturnValue_t status = tmQueue->receiveMessage(&currentMessage);
if (saveSequenceCount) {
status = saveSequenceCountToFile();
if (status != returnvalue::OK) {
sif::error << "CfdpTmFunnel: Storing sequence count to file has failed" << std::endl;
}
saveSequenceCount = false;
}
status = tmQueue->receiveMessage(&currentMessage);
while (status == returnvalue::OK) {
status = handlePacket(currentMessage);
if (status != returnvalue::OK) {

View File

@ -3,6 +3,7 @@
#include <mission/tmtc/TmFunnelBase.h>
#include <atomic>
#include <vector>
#include "fsfw/objectmanager/SystemObject.h"
@ -23,7 +24,6 @@ class CfdpTmFunnel : public TmFunnelBase {
MessageQueueId_t fileStoreDest;
StorageManagerIF& ramToFileStore;
uint16_t sourceSequenceCount = 0;
uint16_t cfdpInCcsdsApid;
};
#endif // FSFW_EXAMPLE_COMMON_CFDPTMFUNNEL_H

View File

@ -17,6 +17,8 @@
using namespace returnvalue;
static constexpr bool DEBUG_DUMPS = false;
PersistentTmStore::PersistentTmStore(PersistentTmStoreArgs args)
: SystemObject(args.objectId),
tmStore(args.tmStore),
@ -32,6 +34,91 @@ ReturnValue_t PersistentTmStore::cancelDump() {
return returnvalue::OK;
}
ReturnValue_t PersistentTmStore::buildDumpSet(uint32_t fromUnixSeconds, uint32_t upToUnixSeconds) {
using namespace std::filesystem;
std::error_code e;
dumpParams.orderedDumpFilestamps.clear();
for (auto const& fileOrDir : directory_iterator(basePath)) {
if (not fileOrDir.is_regular_file(e)) {
continue;
}
dumpParams.fileSize = std::filesystem::file_size(fileOrDir.path(), e);
if (e) {
sif::error << "PersistentTmStore: Could not retrieve file size: " << e.message() << std::endl;
continue;
}
// File empty or can't even read CCSDS header.
if (dumpParams.fileSize <= 6) {
continue;
}
if (dumpParams.fileSize > fileBuf.size()) {
sif::error << "PersistentTmStore: File too large, is deleted" << std::endl;
triggerEvent(persTmStore::FILE_TOO_LARGE, dumpParams.fileSize, fileBuf.size());
std::filesystem::remove(fileOrDir.path(), e);
continue;
}
const path& file = fileOrDir.path();
struct tm fileTime {};
if (pathToTime(file, fileTime) != returnvalue::OK) {
sif::error << "Time extraction for file " << file << "failed" << std::endl;
continue;
}
auto fileEpoch = static_cast<uint32_t>(timegm(&fileTime));
if ((fileEpoch > dumpParams.fromUnixTime) and
(fileEpoch + rolloverDiffSeconds <= dumpParams.untilUnixTime)) {
std::ifstream ifile(file, std::ios::binary);
if (ifile.bad()) {
sif::error << "PersistentTmStore: File is bad" << std::endl;
// TODO: Consider deleting file here?
continue;
}
if (DEBUG_DUMPS) {
sif::debug << "Inserting file " << fileOrDir.path() << std::endl;
}
DumpIndex dumpIndex;
dumpIndex.epoch = fileEpoch;
// Multiple files for the same time are supported via a special suffix. We simply count the
// number of copies and later try to dump the same number of files with the additional
// suffixes
auto iter = dumpParams.orderedDumpFilestamps.find(dumpIndex);
if (iter != dumpParams.orderedDumpFilestamps.end()) {
dumpIndex.epoch = iter->epoch;
dumpIndex.additionalFiles = iter->additionalFiles + 1;
dumpParams.orderedDumpFilestamps.erase(dumpIndex);
} else {
dumpIndex.additionalFiles = 0;
}
dumpParams.orderedDumpFilestamps.emplace(dumpIndex);
}
}
return returnvalue::OK;
}
std::optional<uint8_t> PersistentTmStore::extractSuffix(const std::string& pathStr) {
std::string numberStr;
// Find the position of the dot at the end of the file path
size_t dotPos = pathStr.find_last_of('.');
if ((dotPos < pathStr.length()) and not std::isdigit(pathStr[dotPos + 1])) {
return std::nullopt;
}
// Extract the substring after the dot
numberStr = pathStr.substr(dotPos + 1);
std::optional<uint8_t> number;
try {
number = std::stoi(numberStr);
if (number.value() > std::numeric_limits<uint8_t>::max()) {
return std::nullopt;
}
} catch (std::invalid_argument& exception) {
sif::error << "PersistentTmStore::extractSuffix: Exception " << exception.what()
<< ", invald input string: " << numberStr << std::endl;
}
return number;
}
ReturnValue_t PersistentTmStore::assignAndOrCreateMostRecentFile() {
if (not activeFile.has_value()) {
return createMostRecentFile(std::nullopt);
@ -41,6 +128,7 @@ ReturnValue_t PersistentTmStore::assignAndOrCreateMostRecentFile() {
ReturnValue_t PersistentTmStore::handleCommandQueue(StorageManagerIF& ipcStore,
Command_t& execCmd) {
execCmd = CommandMessageIF::CMD_NONE;
CommandMessage cmdMessage;
ReturnValue_t result = tcQueue->receiveMessage(&cmdMessage);
if (result != returnvalue::OK) {
@ -75,9 +163,9 @@ ReturnValue_t PersistentTmStore::handleCommandQueue(StorageManagerIF& ipcStore,
result = startDumpFromUpTo(dumpFromUnixSeconds, dumpUntilUnixSeconds);
if (result == BUSY_DUMPING) {
triggerEvent(persTmStore::BUSY_DUMPING_EVENT);
} else {
execCmd = cmd;
return result;
}
execCmd = cmd;
}
}
return result;
@ -159,6 +247,12 @@ bool PersistentTmStore::updateBaseDir() {
if (not exists(basePath, e)) {
create_directories(basePath);
}
// Each file will have the base name as a prefix again
path preparedFullFilePath = basePath / baseName;
basePathSize = preparedFullFilePath.string().length();
std::memcpy(filePathBuf.data(), preparedFullFilePath.c_str(), basePathSize);
filePathBuf[basePathSize] = '_';
basePathSize += 1;
baseDirUninitialized = false;
return true;
}
@ -189,12 +283,20 @@ ReturnValue_t PersistentTmStore::startDumpFromUpTo(uint32_t fromUnixSeconds,
if (state == State::DUMPING) {
return returnvalue::FAILED;
}
dumpParams.dirIter = directory_iterator(basePath);
if (dumpParams.dirIter == directory_iterator()) {
auto dirIter = directory_iterator(basePath);
// Directory empty case.
if (dirIter == directory_iterator()) {
return returnvalue::FAILED;
}
dumpParams.fromUnixTime = fromUnixSeconds;
dumpParams.untilUnixTime = upToUnixSeconds;
buildDumpSet(fromUnixSeconds, upToUnixSeconds);
// No files in time window found.
if (dumpParams.orderedDumpFilestamps.empty()) {
return DUMP_DONE;
}
dumpParams.dumpIter = dumpParams.orderedDumpFilestamps.begin();
dumpParams.currentSameFileIdx = std::nullopt;
state = State::DUMPING;
return loadNextDumpFile();
}
@ -203,49 +305,54 @@ ReturnValue_t PersistentTmStore::loadNextDumpFile() {
using namespace std::filesystem;
dumpParams.currentSize = 0;
std::error_code e;
for (; dumpParams.dirIter != directory_iterator(); dumpParams.dirIter++) {
dumpParams.dirEntry = *dumpParams.dirIter;
if (dumpParams.dirEntry.is_directory(e)) {
continue;
}
dumpParams.fileSize = std::filesystem::file_size(dumpParams.dirEntry.path(), e);
if (e) {
sif::error << "PersistentTmStore: Could not retrieve file size: " << e.message() << std::endl;
continue;
}
// sif::debug << "Path: " << dumpParams.dirEntry.path() << std::endl;
// File empty or can't even read CCSDS header.
if (dumpParams.fileSize <= 6) {
continue;
}
if (dumpParams.fileSize > fileBuf.size()) {
sif::error << "PersistentTmStore: File too large, is deleted" << std::endl;
triggerEvent(persTmStore::FILE_TOO_LARGE, dumpParams.fileSize, fileBuf.size());
std::filesystem::remove(dumpParams.dirEntry.path(), e);
continue;
}
const path& file = dumpParams.dirEntry.path();
struct tm fileTime {};
if (pathToTime(file, fileTime) != returnvalue::OK) {
sif::error << "Time extraction for file " << file << "failed" << std::endl;
continue;
}
auto fileEpoch = static_cast<uint32_t>(timegm(&fileTime));
if ((fileEpoch > dumpParams.fromUnixTime) and
(fileEpoch + rolloverDiffSeconds <= dumpParams.untilUnixTime)) {
dumpParams.currentFileUnixStamp = fileEpoch;
std::ifstream ifile(file, std::ios::binary);
if (ifile.bad()) {
sif::error << "PersistentTmStore: File is bad" << std::endl;
continue;
// Handle iteration, which does not necessarily have to increment the set iterator
// if there are multiple files for a given timestamp.
auto handleIteration = [&](DumpIndex& dumpIndex) {
if (dumpIndex.additionalFiles > 0) {
if (not dumpParams.currentSameFileIdx.has_value()) {
// Initialize the file index and stay on same file
dumpParams.currentSameFileIdx = 0;
return;
} else if (dumpParams.currentSameFileIdx.value() < dumpIndex.additionalFiles - 1) {
dumpParams.currentSameFileIdx = dumpParams.currentSameFileIdx.value() + 1;
return;
}
ifile.read(reinterpret_cast<char*>(fileBuf.data()),
static_cast<std::streamsize>(dumpParams.fileSize));
// Increment iterator for next cycle.
dumpParams.dirIter++;
return returnvalue::OK;
}
// File will change, reset this field for correct state-keeping.
dumpParams.currentSameFileIdx = std::nullopt;
// Increment iterator for next cycle.
dumpParams.dumpIter++;
};
while (dumpParams.dumpIter != dumpParams.orderedDumpFilestamps.end()) {
DumpIndex dumpIndex = *dumpParams.dumpIter;
timeval tv{};
tv.tv_sec = dumpIndex.epoch;
size_t fullPathLength = 0;
createFileName(tv, dumpParams.currentSameFileIdx, fullPathLength);
dumpParams.currentFile =
path(std::string(reinterpret_cast<const char*>(filePathBuf.data()), fullPathLength));
if (DEBUG_DUMPS) {
sif::debug << baseName << " dump: Loading " << dumpParams.currentFile << std::endl;
}
dumpParams.fileSize = std::filesystem::file_size(dumpParams.currentFile, e);
if (e) {
// TODO: Event?
sif::error << "PersistentTmStore: Could not load next dump file: " << e.message()
<< std::endl;
handleIteration(dumpIndex);
continue;
}
std::ifstream ifile(dumpParams.currentFile, std::ios::binary);
if (ifile.bad()) {
sif::error << "PersistentTmStore: File is bad. Loading next file" << std::endl;
handleIteration(dumpIndex);
continue;
}
ifile.read(reinterpret_cast<char*>(fileBuf.data()),
static_cast<std::streamsize>(dumpParams.fileSize));
// Next file is loaded, exit the loop.
handleIteration(dumpIndex);
return returnvalue::OK;
}
// Directory iterator was consumed and we are done.
state = State::IDLE;
@ -253,7 +360,10 @@ ReturnValue_t PersistentTmStore::loadNextDumpFile() {
}
ReturnValue_t PersistentTmStore::getNextDumpPacket(PusTmReader& reader, bool& fileHasSwapped) {
if (state == State::IDLE or dumpParams.pendingPacketDump) {
if (state == State::IDLE) {
return DUMP_DONE;
}
if (dumpParams.pendingPacketDump) {
return returnvalue::FAILED;
}
fileHasSwapped = false;
@ -267,7 +377,11 @@ ReturnValue_t PersistentTmStore::getNextDumpPacket(PusTmReader& reader, bool& fi
// Delete the file and load next. Could use better algorithm to partially
// restore the file dump, but for now do not trust the file.
std::error_code e;
std::filesystem::remove(dumpParams.dirEntry.path().c_str(), e);
std::filesystem::remove(dumpParams.currentFile.c_str(), e);
if (dumpParams.currentFile == activeFile) {
activeFile == std::nullopt;
assignAndOrCreateMostRecentFile();
}
fileHasSwapped = true;
return loadNextDumpFile();
}
@ -298,37 +412,9 @@ ReturnValue_t PersistentTmStore::pathToTime(const std::filesystem::path& path, s
ReturnValue_t PersistentTmStore::createMostRecentFile(std::optional<uint8_t> suffix) {
using namespace std::filesystem;
unsigned currentIdx = 0;
path pathStart = basePath / baseName;
memcpy(fileBuf.data() + currentIdx, pathStart.c_str(), pathStart.string().length());
currentIdx += pathStart.string().length();
fileBuf[currentIdx] = '_';
currentIdx += 1;
time_t epoch = currentTv.tv_sec;
struct tm* time = gmtime(&epoch);
size_t writtenBytes = strftime(reinterpret_cast<char*>(fileBuf.data() + currentIdx),
fileBuf.size(), config::FILE_DATE_FORMAT, time);
if (writtenBytes == 0) {
sif::error << "PersistentTmStore::createMostRecentFile: Could not create file timestamp"
<< std::endl;
return returnvalue::FAILED;
}
currentIdx += writtenBytes;
char* res = strcpy(reinterpret_cast<char*>(fileBuf.data() + currentIdx), ".bin");
if (res == nullptr) {
return returnvalue::FAILED;
}
currentIdx += 4;
if (suffix.has_value()) {
std::string fullSuffix = "." + std::to_string(suffix.value());
res = strcpy(reinterpret_cast<char*>(fileBuf.data() + currentIdx), fullSuffix.c_str());
if (res == nullptr) {
return returnvalue::FAILED;
}
currentIdx += fullSuffix.size();
}
path newPath(std::string(reinterpret_cast<const char*>(fileBuf.data()), currentIdx));
size_t currentIdx;
createFileName(currentTv, suffix, currentIdx);
path newPath(std::string(reinterpret_cast<const char*>(filePathBuf.data()), currentIdx));
std::ofstream of(newPath, std::ios::binary);
activeFile = newPath;
activeFileTv = currentTv;
@ -350,3 +436,33 @@ void PersistentTmStore::getStartAndEndTimeCurrentOrLastDump(uint32_t& startTime,
startTime = dumpParams.fromUnixTime;
endTime = dumpParams.untilUnixTime;
}
ReturnValue_t PersistentTmStore::createFileName(timeval& tv, std::optional<uint8_t> suffix,
size_t& fullPathLength) {
unsigned currentIdx = basePathSize;
time_t epoch = tv.tv_sec;
struct tm* time = gmtime(&epoch);
size_t writtenBytes = strftime(reinterpret_cast<char*>(filePathBuf.data() + currentIdx),
filePathBuf.size(), config::FILE_DATE_FORMAT, time);
if (writtenBytes == 0) {
sif::error << "PersistentTmStore::createMostRecentFile: Could not create file timestamp"
<< std::endl;
return returnvalue::FAILED;
}
currentIdx += writtenBytes;
char* res = strcpy(reinterpret_cast<char*>(filePathBuf.data() + currentIdx), ".bin");
if (res == nullptr) {
return returnvalue::FAILED;
}
currentIdx += 4;
if (suffix.has_value()) {
std::string fullSuffix = "." + std::to_string(suffix.value());
res = strcpy(reinterpret_cast<char*>(filePathBuf.data() + currentIdx), fullSuffix.c_str());
if (res == nullptr) {
return returnvalue::FAILED;
}
currentIdx += fullSuffix.size();
}
fullPathLength = currentIdx;
return returnvalue::OK;
}

View File

@ -10,6 +10,7 @@
#include <mission/memory/SdCardMountedIF.h>
#include <filesystem>
#include <set>
#include "eive/eventSubsystemIds.h"
#include "eive/resultClassIds.h"
@ -37,6 +38,14 @@ struct PersistentTmStoreArgs {
SdCardMountedIF& sdcMan;
};
struct DumpIndex {
uint32_t epoch = 0;
// Number of additional files with a suffix like .0, .1 etc.
uint8_t additionalFiles = 0;
// Define a custom comparison function based on the epoch variable
bool operator<(const DumpIndex& other) const { return epoch < other.epoch; }
};
class PersistentTmStore : public TmStoreFrontendSimpleIF, public SystemObject {
public:
enum class State { IDLE, DUMPING };
@ -96,7 +105,10 @@ class PersistentTmStore : public TmStoreFrontendSimpleIF, public SystemObject {
std::string baseName;
uint8_t currentSameSecNumber = 0;
std::filesystem::path basePath;
// std::filesystem::path pathStart = basePath / baseName;
uint32_t rolloverDiffSeconds = 0;
std::array<uint8_t, 524> filePathBuf{};
size_t basePathSize;
std::array<uint8_t, MAX_FILESIZE> fileBuf{};
timeval currentTv;
timeval activeFileTv{};
@ -106,8 +118,10 @@ class PersistentTmStore : public TmStoreFrontendSimpleIF, public SystemObject {
uint32_t fromUnixTime = 0;
uint32_t untilUnixTime = 0;
uint32_t currentFileUnixStamp = 0;
std::filesystem::directory_iterator dirIter;
std::filesystem::directory_entry dirEntry;
std::filesystem::path currentFile;
std::set<DumpIndex> orderedDumpFilestamps{};
std::set<DumpIndex>::iterator dumpIter;
std::optional<uint8_t> currentSameFileIdx = 0;
size_t fileSize = 0;
size_t currentSize = 0;
};
@ -122,10 +136,13 @@ class PersistentTmStore : public TmStoreFrontendSimpleIF, public SystemObject {
[[nodiscard]] MessageQueueId_t getCommandQueue() const override;
void calcDiffSeconds(RolloverInterval intervalUnit, uint32_t intervalCount);
ReturnValue_t buildDumpSet(uint32_t fromUnixSeconds, uint32_t upToUnixSeconds);
ReturnValue_t createMostRecentFile(std::optional<uint8_t> suffix);
static ReturnValue_t pathToTime(const std::filesystem::path& path, struct tm& time);
void fileToPackets(const std::filesystem::path& path, uint32_t unixStamp);
ReturnValue_t loadNextDumpFile();
ReturnValue_t createFileName(timeval& tv, std::optional<uint8_t> suffix, size_t& fullPathLength);
std::optional<uint8_t> extractSuffix(const std::string& pathStr);
bool updateBaseDir();
ReturnValue_t assignAndOrCreateMostRecentFile();
};

View File

@ -11,23 +11,20 @@ ReturnValue_t PusLiveDemux::demultiplexPackets(StorageManagerIF& tmStore,
ReturnValue_t result = returnvalue::OK;
for (unsigned int idx = 0; idx < destinations.size(); idx++) {
const auto& dest = destinations[idx];
if (destinations.size() > 1) {
if (idx < destinations.size() - 1) {
// Create copy of data to ensure each TM recipient has its own copy. That way, we don't need
// to bother with send order and where the data is deleted.
store_address_t storeId;
result = tmStore.addData(&storeId, tmData, tmSize);
if (result == returnvalue::OK) {
message.setStorageId(storeId);
} else {
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::error << "PusLiveDemux::handlePacket: Store too full to create data copy"
<< std::endl;
#endif
}
if ((destinations.size() > 1) and (idx < (destinations.size() - 1))) {
// Create copy of data to ensure each TM recipient has its own copy. That way, we don't need
// to bother with send order and where the data is deleted.
store_address_t storeId;
result = tmStore.addData(&storeId, tmData, tmSize);
if (result == returnvalue::OK) {
message.setStorageId(storeId);
} else {
message.setStorageId(origStoreId);
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::error << "PusLiveDemux::handlePacket: Store too full to create data copy" << std::endl;
#endif
}
} else {
message.setStorageId(origStoreId);
}
result = ownerQueue.sendMessage(dest.queueId, &message);
if (result != returnvalue::OK) {

View File

@ -1,5 +1,7 @@
#include "PusTmFunnel.h"
#include <limits>
#include "eive/definitions.h"
#include "eive/objects.h"
#include "fsfw/ipc/CommandMessage.h"
@ -11,8 +13,8 @@
#include "tmtc/pusIds.h"
PusTmFunnel::PusTmFunnel(TmFunnelBase::FunnelCfg cfg, StorageManagerIF &ramToFileStore,
TimeReaderIF &timeReader, SdCardMountedIF &sdcMan)
: TmFunnelBase(cfg), ramToFileStore(ramToFileStore), timeReader(timeReader), sdcMan(sdcMan) {}
TimeReaderIF &timeReader)
: TmFunnelBase(cfg), ramToFileStore(ramToFileStore), timeReader(timeReader) {}
PusTmFunnel::~PusTmFunnel() = default;
@ -21,6 +23,13 @@ ReturnValue_t PusTmFunnel::performOperation(uint8_t) {
ReturnValue_t result;
TmTcMessage currentMessage;
unsigned int count = 0;
if (saveSequenceCount) {
result = saveSequenceCountToFile();
if (result != returnvalue::OK) {
sif::error << "PusTmFunnel: Storing sequence count to file has failed" << std::endl;
}
saveSequenceCount = false;
}
result = tmQueue->receiveMessage(&currentMessage);
while (result == returnvalue::OK) {
result = handleTmPacket(currentMessage);
@ -59,7 +68,33 @@ ReturnValue_t PusTmFunnel::handleTmPacket(TmTcMessage &message) {
return result;
}
packet.setSequenceCount(sourceSequenceCount++);
// NOTE: This only works because the limit value bit width is below 16 bits!
sourceSequenceCount = sourceSequenceCount % ccsds::LIMIT_SEQUENCE_COUNT;
// Message type counter handling.
uint8_t service = packet.getService();
bool insertionFailed = false;
auto mapIter = msgCounterMap.find(service);
if (mapIter == msgCounterMap.end()) {
auto iterPair = msgCounterMap.emplace(service, 0);
if (iterPair.second) {
mapIter = iterPair.first;
} else {
// Should really never never happen but you never know..
insertionFailed = true;
}
}
if (not insertionFailed) {
packet.setMessageCount(mapIter->second);
// Sane overflow handling.
if (mapIter->second == std::numeric_limits<uint16_t>::max()) {
mapIter->second = 0;
} else {
mapIter->second++;
}
}
// Re-calculate CRC after changing the fields. This operation HAS to come last!
packet.updateErrorControl();
// Send to persistent TM store if the packet matches some filter.

View File

@ -9,6 +9,8 @@
#include <mission/tmtc/PusTmRouteByFilterHelper.h>
#include <mission/tmtc/TmFunnelBase.h>
#include <atomic>
#include <map>
#include <vector>
#include "PersistentTmStore.h"
@ -25,7 +27,7 @@
class PusTmFunnel : public TmFunnelBase {
public:
PusTmFunnel(TmFunnelBase::FunnelCfg cfg, StorageManagerIF &ramToFileStore,
TimeReaderIF &timeReader, SdCardMountedIF &sdcMan);
TimeReaderIF &timeReader);
[[nodiscard]] const char *getName() const override;
~PusTmFunnel() override;
@ -36,11 +38,10 @@ class PusTmFunnel : public TmFunnelBase {
// Update TV stamp every 5 minutes
static constexpr dur_millis_t TV_UPDATE_INTERVAL_SECS = 60 * 5;
uint16_t sourceSequenceCount = 0;
std::map<uint8_t, uint16_t> msgCounterMap;
StorageManagerIF &ramToFileStore;
TimeReaderIF &timeReader;
bool storesInitialized = false;
SdCardMountedIF &sdcMan;
PusTmRouteByFilterHelper persistentTmMap;
ReturnValue_t handleTmPacket(TmTcMessage &message);

View File

@ -2,6 +2,10 @@
#include <fsfw/tmtcservices/TmTcMessage.h>
#include <atomic>
#include <filesystem>
#include <fstream>
#include "fsfw/ipc/QueueFactory.h"
TmFunnelBase::TmFunnelBase(FunnelCfg cfg)
@ -10,7 +14,10 @@ TmFunnelBase::TmFunnelBase(FunnelCfg cfg)
tmStore(cfg.tmStore),
ipcStore(cfg.ipcStore),
tmQueue(QueueFactory::instance()->createMessageQueue(cfg.tmMsgDepth)),
liveDemux(*tmQueue) {}
liveDemux(*tmQueue),
sdcMan(cfg.sdcMan),
sequenceCounterFilename(cfg.sequenceCounterFilename),
saveSequenceCount(cfg.saveSequenceCount) {}
ReturnValue_t TmFunnelBase::demultiplexLivePackets(store_address_t origStoreId,
const uint8_t *tmData, size_t tmSize) {
@ -27,3 +34,38 @@ void TmFunnelBase::addLiveDestination(const char *name,
const AcceptsTelemetryIF &downlinkDestination, uint8_t vcid) {
liveDemux.addDestination(name, downlinkDestination, vcid);
}
ReturnValue_t TmFunnelBase::initialize() {
using namespace std::filesystem;
// The filesystem should always be available at the start.. Let's assume it always is, otherwise
// we just live with a regular 0 initialization. It simplifies a lot.
std::error_code e;
path filePath =
path(path(sdcMan.getCurrentMountPrefix()) / path("conf") / path(sequenceCounterFilename));
if (exists(filePath, e)) {
std::ifstream ifile(filePath);
if (ifile.bad()) {
sif::error << "TmFunnelBase::initialize: Faulty file open for sequence counter initialization"
<< std::endl;
return returnvalue::OK;
}
if (not(ifile >> sourceSequenceCount)) {
// Initialize to 0 in any case if reading a number failed.
sourceSequenceCount = 0;
}
}
return returnvalue::OK;
}
ReturnValue_t TmFunnelBase::saveSequenceCountToFile() {
using namespace std::filesystem;
std::error_code e;
path filePath =
path(path(sdcMan.getCurrentMountPrefix()) / path("conf") / path(sequenceCounterFilename));
std::ofstream ofile(filePath);
if (ofile.bad()) {
return returnvalue::FAILED;
}
ofile << sourceSequenceCount << "\n";
return returnvalue::OK;
}

View File

@ -6,25 +6,34 @@
#include <fsfw/tmstorage/TmStoreFrontendSimpleIF.h>
#include <fsfw/tmtcservices/AcceptsTelemetryIF.h>
#include <fsfw/tmtcservices/TmTcMessage.h>
#include <mission/memory/SdCardMountedIF.h>
#include <mission/tmtc/PusLiveDemux.h>
#include <atomic>
#include <vector>
class TmFunnelBase : public AcceptsTelemetryIF, public SystemObject {
public:
struct FunnelCfg {
FunnelCfg(object_id_t objId, const char* name, StorageManagerIF& tmStore,
StorageManagerIF& ipcStore, uint32_t tmMsgDepth)
StorageManagerIF& ipcStore, uint32_t tmMsgDepth, SdCardMountedIF& sdcMan,
const char* sequenceCounterFilename, std::atomic_bool& saveSequenceCount)
: objectId(objId),
name(name),
tmStore(tmStore),
ipcStore(ipcStore),
tmMsgDepth(tmMsgDepth) {}
tmMsgDepth(tmMsgDepth),
sdcMan(sdcMan),
sequenceCounterFilename(sequenceCounterFilename),
saveSequenceCount(saveSequenceCount) {}
object_id_t objectId;
const char* name;
StorageManagerIF& tmStore;
StorageManagerIF& ipcStore;
uint32_t tmMsgDepth;
SdCardMountedIF& sdcMan;
const char* sequenceCounterFilename;
std::atomic_bool& saveSequenceCount;
};
explicit TmFunnelBase(FunnelCfg cfg);
[[nodiscard]] MessageQueueId_t getReportReceptionQueue(uint8_t virtualChannel) const override;
@ -32,6 +41,9 @@ class TmFunnelBase : public AcceptsTelemetryIF, public SystemObject {
uint8_t vcid = 0);
ReturnValue_t demultiplexLivePackets(store_address_t origStoreId, const uint8_t* tmData,
size_t tmSize);
ReturnValue_t initialize() override;
ReturnValue_t saveSequenceCountToFile();
~TmFunnelBase() override;
@ -41,6 +53,10 @@ class TmFunnelBase : public AcceptsTelemetryIF, public SystemObject {
StorageManagerIF& ipcStore;
MessageQueueIF* tmQueue = nullptr;
PusLiveDemux liveDemux;
SdCardMountedIF& sdcMan;
const char* sequenceCounterFilename;
std::atomic_bool& saveSequenceCount;
uint16_t sourceSequenceCount = 0;
};
#endif /* MISSION_TMTC_TMFUNNELBASE_H_ */

2
tmtc

@ -1 +1 @@
Subproject commit 79060acfb688a8896cf56c27d83da14e5630f091
Subproject commit 18304c31fa423b1af6ff47764d4be81c7f20c8f2

View File

@ -4,7 +4,7 @@ add_subdirectory(mocks)
target_sources(${UNITTEST_NAME} PRIVATE
main.cpp
testEnvironment.cpp
testStampInFilename.cpp
testGenericFilesystem.cpp
hdlcEncodingRw.cpp
printChar.cpp
)

View File

@ -19,116 +19,117 @@ CoreController::CoreController() {
setCurrentBootCopy(xsc::CHIP_0, xsc::COPY_0);
}
void CoreController::performRebootFileHandling(bool recreateFile) {
void CoreController::performRebootWatchdogHandling(bool recreateFile) {
using namespace std;
std::string path = sdcMan->getCurrentMountPrefix(sdInfo.active) + REBOOT_FILE;
std::string path = sdcMan->getCurrentMountPrefix(sdInfo.active) + REBOOT_WATCHDOG_FILE;
if (not std::filesystem::exists(path) or recreateFile) {
#if OBSW_VERBOSE_LEVEL >= 1
sif::info << "CoreController::performRebootFileHandling: Recreating reboot file" << std::endl;
#endif
rebootFile.enabled = true;
rebootFile.img00Cnt = 0;
rebootFile.img01Cnt = 0;
rebootFile.img10Cnt = 0;
rebootFile.img11Cnt = 0;
rebootFile.lastChip = xsc::Chip::CHIP_0;
rebootFile.lastCopy = xsc::Copy::COPY_0;
rebootFile.img00Lock = false;
rebootFile.img01Lock = false;
rebootFile.img10Lock = false;
rebootFile.img11Lock = false;
rebootFile.mechanismNextChip = xsc::Chip::NO_CHIP;
rebootFile.mechanismNextCopy = xsc::Copy::NO_COPY;
rebootFile.bootFlag = false;
rewriteRebootFile(rebootFile);
rebootWatchdogFile.enabled = true;
rebootWatchdogFile.img00Cnt = 0;
rebootWatchdogFile.img01Cnt = 0;
rebootWatchdogFile.img10Cnt = 0;
rebootWatchdogFile.img11Cnt = 0;
rebootWatchdogFile.lastChip = xsc::Chip::CHIP_0;
rebootWatchdogFile.lastCopy = xsc::Copy::COPY_0;
rebootWatchdogFile.img00Lock = false;
rebootWatchdogFile.img01Lock = false;
rebootWatchdogFile.img10Lock = false;
rebootWatchdogFile.img11Lock = false;
rebootWatchdogFile.mechanismNextChip = xsc::Chip::NO_CHIP;
rebootWatchdogFile.mechanismNextCopy = xsc::Copy::NO_COPY;
rebootWatchdogFile.bootFlag = false;
rewriteRebootWatchdogFile(rebootWatchdogFile);
} else {
if (not parseRebootFile(path, rebootFile)) {
performRebootFileHandling(true);
if (not parseRebootWatchdogFile(path, rebootWatchdogFile)) {
performRebootWatchdogHandling(true);
}
}
if (CURRENT_CHIP == xsc::CHIP_0) {
if (CURRENT_COPY == xsc::COPY_0) {
rebootFile.img00Cnt++;
rebootWatchdogFile.img00Cnt++;
} else {
rebootFile.img01Cnt++;
rebootWatchdogFile.img01Cnt++;
}
} else {
if (CURRENT_COPY == xsc::COPY_0) {
rebootFile.img10Cnt++;
rebootWatchdogFile.img10Cnt++;
} else {
rebootFile.img11Cnt++;
rebootWatchdogFile.img11Cnt++;
}
}
if (rebootFile.bootFlag) {
if (rebootWatchdogFile.bootFlag) {
// Trigger event to inform ground that a reboot was triggered
uint32_t p1 = rebootFile.lastChip << 16 | rebootFile.lastCopy;
uint32_t p2 = rebootFile.img00Cnt << 24 | rebootFile.img01Cnt << 16 | rebootFile.img10Cnt << 8 |
rebootFile.img11Cnt;
uint32_t p1 = rebootWatchdogFile.lastChip << 16 | rebootWatchdogFile.lastCopy;
uint32_t p2 = rebootWatchdogFile.img00Cnt << 24 | rebootWatchdogFile.img01Cnt << 16 |
rebootWatchdogFile.img10Cnt << 8 | rebootWatchdogFile.img11Cnt;
triggerEvent(REBOOT_MECHANISM_TRIGGERED, p1, p2);
// Clear the boot flag
rebootFile.bootFlag = false;
rebootWatchdogFile.bootFlag = false;
}
if (rebootFile.mechanismNextChip != xsc::NO_CHIP and
rebootFile.mechanismNextCopy != xsc::NO_COPY) {
if (CURRENT_CHIP != rebootFile.mechanismNextChip or
CURRENT_COPY != rebootFile.mechanismNextCopy) {
std::string infoString = std::to_string(rebootFile.mechanismNextChip) + " " +
std::to_string(rebootFile.mechanismNextCopy);
if (rebootWatchdogFile.mechanismNextChip != xsc::NO_CHIP and
rebootWatchdogFile.mechanismNextCopy != xsc::NO_COPY) {
if (CURRENT_CHIP != rebootWatchdogFile.mechanismNextChip or
CURRENT_COPY != rebootWatchdogFile.mechanismNextCopy) {
std::string infoString = std::to_string(rebootWatchdogFile.mechanismNextChip) + " " +
std::to_string(rebootWatchdogFile.mechanismNextCopy);
sif::warning << "CoreController::performRebootFileHandling: Expected to be on image "
<< infoString << " but currently on other image. Locking " << infoString
<< std::endl;
// Firmware or other component might be corrupt and we are on another image then the target
// image specified by the mechanism. We can't really trust the target image anymore.
// Lock it for now
if (rebootFile.mechanismNextChip == xsc::CHIP_0) {
if (rebootFile.mechanismNextCopy == xsc::COPY_0) {
rebootFile.img00Lock = true;
if (rebootWatchdogFile.mechanismNextChip == xsc::CHIP_0) {
if (rebootWatchdogFile.mechanismNextCopy == xsc::COPY_0) {
rebootWatchdogFile.img00Lock = true;
} else {
rebootFile.img01Lock = true;
rebootWatchdogFile.img01Lock = true;
}
} else {
if (rebootFile.mechanismNextCopy == xsc::COPY_0) {
rebootFile.img10Lock = true;
if (rebootWatchdogFile.mechanismNextCopy == xsc::COPY_0) {
rebootWatchdogFile.img10Lock = true;
} else {
rebootFile.img11Lock = true;
rebootWatchdogFile.img11Lock = true;
}
}
}
}
rebootFile.lastChip = CURRENT_CHIP;
rebootFile.lastCopy = CURRENT_COPY;
rebootWatchdogFile.lastChip = CURRENT_CHIP;
rebootWatchdogFile.lastCopy = CURRENT_COPY;
// Only reboot if the reboot functionality is enabled.
// The handler will still increment the boot counts
if (rebootFile.enabled and (*rebootFile.relevantBootCnt >= rebootFile.maxCount)) {
if (rebootWatchdogFile.enabled and
(*rebootWatchdogFile.relevantBootCnt >= rebootWatchdogFile.maxCount)) {
// Reboot to other image
bool doReboot = false;
xsc::Chip tgtChip = xsc::NO_CHIP;
xsc::Copy tgtCopy = xsc::NO_COPY;
determineAndExecuteReboot(rebootFile, doReboot, tgtChip, tgtCopy);
determineAndExecuteReboot(rebootWatchdogFile, doReboot, tgtChip, tgtCopy);
if (doReboot) {
rebootFile.bootFlag = true;
rebootWatchdogFile.bootFlag = true;
#if OBSW_VERBOSE_LEVEL >= 1
sif::info << "Boot counter for image " << CURRENT_CHIP << " " << CURRENT_COPY
<< " too high. Rebooting to " << tgtChip << " " << tgtCopy << std::endl;
#endif
rebootFile.mechanismNextChip = tgtChip;
rebootFile.mechanismNextCopy = tgtCopy;
rewriteRebootFile(rebootFile);
rebootWatchdogFile.mechanismNextChip = tgtChip;
rebootWatchdogFile.mechanismNextCopy = tgtCopy;
rewriteRebootWatchdogFile(rebootWatchdogFile);
xsc_boot_copy(static_cast<xsc_libnor_chip_t>(tgtChip),
static_cast<xsc_libnor_copy_t>(tgtCopy));
}
} else {
rebootFile.mechanismNextChip = xsc::NO_CHIP;
rebootFile.mechanismNextCopy = xsc::NO_COPY;
rebootWatchdogFile.mechanismNextChip = xsc::NO_CHIP;
rebootWatchdogFile.mechanismNextCopy = xsc::NO_COPY;
}
rewriteRebootFile(rebootFile);
rewriteRebootWatchdogFile(rebootWatchdogFile);
}
void CoreController::determineAndExecuteReboot(RebootFile &rf, bool &needsReboot,
void CoreController::determineAndExecuteReboot(RebootWatchdogFile &rf, bool &needsReboot,
xsc::Chip &tgtChip, xsc::Copy &tgtCopy) {
tgtChip = xsc::CHIP_0;
tgtCopy = xsc::COPY_0;
@ -217,7 +218,7 @@ void CoreController::determineAndExecuteReboot(RebootFile &rf, bool &needsReboot
}
}
bool CoreController::parseRebootFile(std::string path, RebootFile &rf) {
bool CoreController::parseRebootWatchdogFile(std::string path, RebootWatchdogFile &rf) {
using namespace std;
std::string selfMatch;
if (CURRENT_CHIP == xsc::CHIP_0) {
@ -400,34 +401,34 @@ bool CoreController::parseRebootFile(std::string path, RebootFile &rf) {
}
void CoreController::resetRebootCount(xsc::Chip tgtChip, xsc::Copy tgtCopy) {
std::string path = sdcMan->getCurrentMountPrefix(sdInfo.active) + REBOOT_FILE;
std::string path = sdcMan->getCurrentMountPrefix(sdInfo.active) + REBOOT_WATCHDOG_FILE;
// Disable the reboot file mechanism
parseRebootFile(path, rebootFile);
parseRebootWatchdogFile(path, rebootWatchdogFile);
if (tgtChip == xsc::ALL_CHIP and tgtCopy == xsc::ALL_COPY) {
rebootFile.img00Cnt = 0;
rebootFile.img01Cnt = 0;
rebootFile.img10Cnt = 0;
rebootFile.img11Cnt = 0;
rebootWatchdogFile.img00Cnt = 0;
rebootWatchdogFile.img01Cnt = 0;
rebootWatchdogFile.img10Cnt = 0;
rebootWatchdogFile.img11Cnt = 0;
} else {
if (tgtChip == xsc::CHIP_0) {
if (tgtCopy == xsc::COPY_0) {
rebootFile.img00Cnt = 0;
rebootWatchdogFile.img00Cnt = 0;
} else {
rebootFile.img01Cnt = 0;
rebootWatchdogFile.img01Cnt = 0;
}
} else {
if (tgtCopy == xsc::COPY_0) {
rebootFile.img10Cnt = 0;
rebootWatchdogFile.img10Cnt = 0;
} else {
rebootFile.img11Cnt = 0;
rebootWatchdogFile.img11Cnt = 0;
}
}
}
rewriteRebootFile(rebootFile);
rewriteRebootWatchdogFile(rebootWatchdogFile);
}
void CoreController::rewriteRebootFile(RebootFile file) {
std::string path = sdcMan->getCurrentMountPrefix(sdInfo.active) + REBOOT_FILE;
void CoreController::rewriteRebootWatchdogFile(RebootWatchdogFile file) {
std::string path = sdcMan->getCurrentMountPrefix(sdInfo.active) + REBOOT_WATCHDOG_FILE;
std::ofstream rebootFile(path);
if (rebootFile.is_open()) {
// Initiate reboot file first. Reboot handling will be on on initialization
@ -450,15 +451,15 @@ ReturnValue_t CoreController::executeAction(ActionId_t actionId, MessageQueueId_
if (size < 1) {
return HasActionsIF::INVALID_PARAMETERS;
}
std::string path = sdcMan->getCurrentMountPrefix(sdInfo.active) + REBOOT_FILE;
std::string path = sdcMan->getCurrentMountPrefix(sdInfo.active) + REBOOT_WATCHDOG_FILE;
// Disable the reboot file mechanism
parseRebootFile(path, rebootFile);
parseRebootWatchdogFile(path, rebootWatchdogFile);
if (data[0] == 0) {
rebootFile.enabled = false;
rewriteRebootFile(rebootFile);
rebootWatchdogFile.enabled = false;
rewriteRebootWatchdogFile(rebootWatchdogFile);
} else if (data[0] == 1) {
rebootFile.enabled = true;
rewriteRebootFile(rebootFile);
rebootWatchdogFile.enabled = true;
rewriteRebootWatchdogFile(rebootWatchdogFile);
} else {
return HasActionsIF::INVALID_PARAMETERS;
}
@ -490,11 +491,11 @@ ReturnValue_t CoreController::executeAction(ActionId_t actionId, MessageQueueId_
if (size < 1) {
return HasActionsIF::INVALID_PARAMETERS;
}
std::string path = sdcMan->getCurrentMountPrefix(sdInfo.active) + REBOOT_FILE;
std::string path = sdcMan->getCurrentMountPrefix(sdInfo.active) + REBOOT_WATCHDOG_FILE;
// Disable the reboot file mechanism
parseRebootFile(path, rebootFile);
rebootFile.maxCount = data[0];
rewriteRebootFile(rebootFile);
parseRebootWatchdogFile(path, rebootWatchdogFile);
rebootWatchdogFile.maxCount = data[0];
rewriteRebootWatchdogFile(rebootWatchdogFile);
return HasActionsIF::EXECUTION_FINISHED;
}
default: {
@ -504,23 +505,23 @@ ReturnValue_t CoreController::executeAction(ActionId_t actionId, MessageQueueId_
}
void CoreController::setRebootMechanismLock(bool lock, xsc::Chip tgtChip, xsc::Copy tgtCopy) {
std::string path = sdcMan->getCurrentMountPrefix(sdInfo.active) + REBOOT_FILE;
std::string path = sdcMan->getCurrentMountPrefix(sdInfo.active) + REBOOT_WATCHDOG_FILE;
// Disable the reboot file mechanism
parseRebootFile(path, rebootFile);
parseRebootWatchdogFile(path, rebootWatchdogFile);
if (tgtChip == xsc::CHIP_0) {
if (tgtCopy == xsc::COPY_0) {
rebootFile.img00Lock = lock;
rebootWatchdogFile.img00Lock = lock;
} else {
rebootFile.img01Lock = lock;
rebootWatchdogFile.img01Lock = lock;
}
} else {
if (tgtCopy == xsc::COPY_0) {
rebootFile.img10Lock = lock;
rebootWatchdogFile.img10Lock = lock;
} else {
rebootFile.img11Lock = lock;
rebootWatchdogFile.img11Lock = lock;
}
}
rewriteRebootFile(rebootFile);
rewriteRebootWatchdogFile(rebootWatchdogFile);
}
void CoreController::setCurrentBootCopy(xsc::Chip chip, xsc::Copy copy) {

View File

@ -14,7 +14,7 @@ enum Copy : int { COPY_0, COPY_1, NO_COPY, SELF_COPY, ALL_COPY };
} // namespace xsc
struct RebootFile {
struct RebootWatchdogFile {
static constexpr uint8_t DEFAULT_MAX_BOOT_CNT = 10;
bool enabled = true;
@ -39,7 +39,7 @@ class SdCardManager;
class CoreController {
public:
static constexpr char REBOOT_FILE[] = "/conf/reboot.txt";
static constexpr char REBOOT_WATCHDOG_FILE[] = "/conf/reboot.txt";
//! [EXPORT] : [COMMENT] The reboot mechanism was triggered.
//! P1: First 16 bits: Last Chip, Last 16 bits: Last Copy,
//! P2: Each byte is the respective reboot count for the slots
@ -57,13 +57,13 @@ class CoreController {
static void setCurrentBootCopy(xsc::Chip chip, xsc::Copy copy);
ReturnValue_t executeAction(ActionId_t actionId, MessageQueueId_t commandedBy,
const uint8_t* data, size_t size);
void performRebootFileHandling(bool recreateFile);
void determineAndExecuteReboot(RebootFile& rf, bool& needsReboot, xsc::Chip& tgtChip,
void performRebootWatchdogHandling(bool recreateFile);
void determineAndExecuteReboot(RebootWatchdogFile& rf, bool& needsReboot, xsc::Chip& tgtChip,
xsc::Copy& tgtCopy);
void setRebootMechanismLock(bool lock, xsc::Chip tgtChip, xsc::Copy tgtCopy);
void resetRebootCount(xsc::Chip tgtChip, xsc::Copy tgtCopy);
bool parseRebootFile(std::string path, RebootFile& file);
void rewriteRebootFile(RebootFile file);
bool parseRebootWatchdogFile(std::string path, RebootWatchdogFile& file);
void rewriteRebootWatchdogFile(RebootWatchdogFile file);
private:
struct SdFsmParams {
@ -74,6 +74,6 @@ class CoreController {
} sdInfo;
SdCardManager* sdcMan = nullptr;
RebootFile rebootFile = {};
RebootWatchdogFile rebootWatchdogFile = {};
bool doPerformRebootFileHandling = true;
};

View File

@ -27,7 +27,7 @@ void factory(void* args) {
new HouseKeepingMock();
eventManager = new EventManagerMock();
new HealthTable(objects::HEALTH_TABLE);
new InternalErrorReporter(objects::INTERNAL_ERROR_REPORTER);
new InternalErrorReporter(objects::INTERNAL_ERROR_REPORTER, 5, false, 60.0);
new CdsShortTimeStamper(objects::TIME_STAMPER);
{

View File

@ -0,0 +1,43 @@
#include <catch2/catch_test_macros.hpp>
#include <cinttypes>
#include "fsfw/timemanager/Clock.h"
uint8_t extractSuffix(const std::string& pathStr) {
std::string numberStr;
// Find the position of the dot at the end of the file path
size_t dotPos = pathStr.find_last_of('.');
if (dotPos != std::string::npos && dotPos < pathStr.length() - 1) {
// Extract the substring after the dot
numberStr = pathStr.substr(dotPos + 1);
}
int number = std::stoi(numberStr);
if (number < 0 or number > std::numeric_limits<uint8_t>::max()) {
return 0;
}
return static_cast<uint8_t>(number);
}
TEST_CASE("Stamp in Filename", "[Stamp In Filename]") {
Clock::TimeOfDay_t tod;
std::string baseName = "verif";
std::string pathStr = "verif_2022-05-25T16:55:23Z.bin";
unsigned int underscorePos = pathStr.find_last_of('_');
std::string stampStr = pathStr.substr(underscorePos + 1);
float seconds = 0.0;
char* prefix = nullptr;
int count =
sscanf(stampStr.c_str(),
"%4" SCNu32 "-%2" SCNu32 "-%2" SCNu32 "T%2" SCNu32 ":%2" SCNu32 ":%2" SCNu32 "Z",
&tod.year, &tod.month, &tod.day, &tod.hour, &tod.minute, &tod.second);
static_cast<void>(count);
CHECK(count == 6);
}
TEST_CASE("Suffix Extraction") {
std::string pathStr = "/mnt/sd0/tm/hk/hk-some-stamp.bin.0";
CHECK(extractSuffix(pathStr) == 0);
pathStr = "/mnt/sd0/tm/hk/hk-some-stamp.bin.2";
CHECK(extractSuffix(pathStr) == 2);
}

View File

@ -1,21 +0,0 @@
#include <catch2/catch_test_macros.hpp>
#include <cinttypes>
#include "fsfw/timemanager/Clock.h"
TEST_CASE("Stamp in Filename", "[Stamp In Filename]") {
Clock::TimeOfDay_t tod;
std::string baseName = "verif";
std::string pathStr = "verif_2022-05-25T16:55:23Z.bin";
unsigned int underscorePos = pathStr.find_last_of('_');
std::string stampStr = pathStr.substr(underscorePos + 1);
float seconds = 0.0;
char* prefix = nullptr;
int count =
sscanf(stampStr.c_str(),
"%4" SCNu32 "-%2" SCNu32 "-%2" SCNu32 "T%2" SCNu32 ":%2" SCNu32 ":%2" SCNu32 "Z",
&tod.year, &tod.month, &tod.day, &tod.hour, &tod.minute, &tod.second);
static_cast<void>(count);
CHECK(count == 6);
}