Robin Mueller
0fc17624f3
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177 lines
5.8 KiB
C++
177 lines
5.8 KiB
C++
#include "SusAssembly.h"
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#include <devices/powerSwitcherList.h>
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#include <fsfw/power/PowerSwitchIF.h>
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#include <fsfw/serviceinterface.h>
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SusAssembly::SusAssembly(object_id_t objectId, PowerSwitchIF* pwrSwitcher, SusAssHelper helper)
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: DualLaneAssemblyBase(objectId, pwrSwitcher, SWITCH_NOM, SWITCH_RED,
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POWER_STATE_MACHINE_TIMEOUT, SIDE_SWITCH_TRANSITION_NOT_ALLOWED,
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TRANSITION_OTHER_SIDE_FAILED),
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helper(helper),
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pwrSwitcher(pwrSwitcher) {
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ModeListEntry entry;
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for (uint8_t idx = 0; idx < NUMBER_SUN_SENSORS; idx++) {
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initModeTableEntry(helper.susIds[idx], entry, modeTable);
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}
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}
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ReturnValue_t SusAssembly::commandChildren(Mode_t mode, Submode_t submode) {
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ReturnValue_t result = returnvalue::OK;
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refreshHelperModes();
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// Initialize the mode table to ensure all devices are in a defined state
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for (uint8_t idx = 0; idx < NUMBER_SUN_SENSORS; idx++) {
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modeTable[idx].setMode(MODE_OFF);
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modeTable[idx].setSubmode(SUBMODE_NONE);
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}
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if (recoveryState == RecoveryState::RECOVERY_IDLE) {
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result = checkAndHandleHealthStates(mode, submode);
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if (result == NEED_TO_CHANGE_HEALTH) {
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return returnvalue::OK;
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}
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}
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if (recoveryState != RecoveryState::RECOVERY_STARTED) {
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if (mode == DeviceHandlerIF::MODE_NORMAL or mode == MODE_ON) {
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result = handleNormalOrOnModeCmd(mode, submode);
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}
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}
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HybridIterator<ModeListEntry> tableIter(modeTable.begin(), modeTable.end());
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executeTable(tableIter);
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return result;
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}
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ReturnValue_t SusAssembly::handleNormalOrOnModeCmd(Mode_t mode, Submode_t submode) {
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using namespace duallane;
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ReturnValue_t result = returnvalue::OK;
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bool needsSecondStep = false;
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auto cmdSeq = [&](object_id_t objectId, Mode_t devMode, uint8_t tableIdx) {
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if (mode == devMode) {
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modeTable[tableIdx].setMode(mode);
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} else if (mode == DeviceHandlerIF::MODE_NORMAL) {
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if (isUseable(objectId, devMode)) {
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if (devMode == MODE_ON) {
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modeTable[tableIdx].setMode(mode);
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modeTable[tableIdx].setSubmode(SUBMODE_NONE);
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} else {
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modeTable[tableIdx].setMode(MODE_ON);
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modeTable[tableIdx].setSubmode(SUBMODE_NONE);
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if (internalState != STATE_SECOND_STEP) {
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needsSecondStep = true;
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}
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}
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}
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} else if (mode == MODE_ON) {
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if (isUseable(objectId, devMode)) {
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modeTable[tableIdx].setMode(MODE_ON);
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modeTable[tableIdx].setSubmode(SUBMODE_NONE);
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}
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}
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};
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switch (submode) {
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case (A_SIDE): {
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for (uint8_t idx = 0; idx < NUMBER_SUN_SENSORS_ONE_SIDE; idx++) {
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cmdSeq(helper.susIds[idx], helper.susModes[idx], idx);
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// Switch off devices on redundant side
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modeTable[idx + NUMBER_SUN_SENSORS_ONE_SIDE].setMode(MODE_OFF);
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modeTable[idx + NUMBER_SUN_SENSORS_ONE_SIDE].setSubmode(SUBMODE_NONE);
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}
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break;
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}
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case (B_SIDE): {
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for (uint8_t idx = NUMBER_SUN_SENSORS_ONE_SIDE; idx < NUMBER_SUN_SENSORS; idx++) {
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cmdSeq(helper.susIds[idx], helper.susModes[idx], idx);
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// Switch devices on nominal side
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modeTable[idx - NUMBER_SUN_SENSORS_ONE_SIDE].setMode(MODE_OFF);
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modeTable[idx - NUMBER_SUN_SENSORS_ONE_SIDE].setSubmode(SUBMODE_NONE);
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}
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break;
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}
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case (DUAL_MODE): {
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for (uint8_t idx = 0; idx < NUMBER_SUN_SENSORS; idx++) {
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cmdSeq(helper.susIds[idx], helper.susModes[idx], idx);
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}
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break;
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}
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}
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if (needsSecondStep) {
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result = NEED_SECOND_STEP;
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}
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return result;
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}
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ReturnValue_t SusAssembly::checkChildrenStateOn(Mode_t wantedMode, Submode_t wantedSubmode) {
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using namespace duallane;
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refreshHelperModes();
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if (wantedSubmode == A_SIDE) {
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for (uint8_t idx = 0; idx < NUMBER_SUN_SENSORS_ONE_SIDE; idx++) {
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if (helper.susModes[idx] != wantedMode) {
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return NOT_ENOUGH_CHILDREN_IN_CORRECT_STATE;
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}
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}
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return returnvalue::OK;
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} else if (wantedSubmode == B_SIDE) {
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for (uint8_t idx = NUMBER_SUN_SENSORS_ONE_SIDE; idx < NUMBER_SUN_SENSORS; idx++) {
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if (helper.susModes[idx] != wantedMode) {
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return NOT_ENOUGH_CHILDREN_IN_CORRECT_STATE;
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}
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}
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return returnvalue::OK;
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} else {
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// Trigger event if devices are faulty? This is the last fallback mode, returning
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// a failure here would trigger a transition to MODE_OFF unless handleModeTransitionFailed
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// is overriden
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return returnvalue::OK;
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}
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return returnvalue::OK;
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}
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ReturnValue_t SusAssembly::initialize() {
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for (const auto& child : childrenMap) {
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updateChildModeByObjId(child.first, MODE_OFF, 0);
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}
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return AssemblyBase::initialize();
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}
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bool SusAssembly::isUseable(object_id_t object, Mode_t mode) {
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if (healthHelper.healthTable->isFaulty(object)) {
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return false;
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}
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// Check if device is already in target mode
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if (childrenMap[object].mode == mode) {
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return true;
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}
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if (healthHelper.healthTable->isCommandable(object)) {
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return true;
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}
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return false;
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}
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void SusAssembly::refreshHelperModes() {
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for (uint8_t idx = 0; idx < helper.susModes.size(); idx++) {
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helper.susModes[idx] = childrenMap[helper.susIds[idx]].mode;
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}
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}
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ReturnValue_t SusAssembly::checkAndHandleHealthStates(Mode_t deviceMode, Submode_t deviceSubmode) {
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using namespace returnvalue;
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ReturnValue_t status = returnvalue::OK;
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auto overwriteHealthForOneDev = [&](object_id_t dev) {
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HealthState health = healthHelper.healthTable->getHealth(dev);
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if (health == FAULTY or health == PERMANENT_FAULTY) {
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overwriteDeviceHealth(dev, health);
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status = NEED_TO_CHANGE_HEALTH;
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} else if (health == EXTERNAL_CONTROL) {
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modeHelper.setForced(true);
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}
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};
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if (deviceSubmode == duallane::DUAL_MODE) {
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for (uint8_t idx = 0; idx < 12; idx++) {
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overwriteHealthForOneDev(helper.susIds[idx]);
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}
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}
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return status;
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}
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