mirror of https://github.com/FOME-Tech/fome-fw.git
161 lines
4.3 KiB
C++
161 lines
4.3 KiB
C++
/**
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* @file SingleTimerExecutor.cpp
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*
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* This class combines the powers of a 1MHz hardware timer from microsecond_timer.c
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* and pending events queue event_queue.cpp
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*
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* As of version 2.6.x, ChibiOS tick-based kernel is not capable of scheduling events
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* with the level of precision we need, and realistically it should not.
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*
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* http://sourceforge.net/p/rusefi/tickets/24/
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*
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* @date: Apr 18, 2014
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* @author Andrey Belomutskiy, (c) 2012-2014
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*/
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#include "SingleTimerExecutor.h"
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#include "efitime.h"
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#if EFI_PROD_CODE
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#include "microsecond_timer.h"
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#endif
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#if (EFI_SIGNAL_EXECUTOR_ONE_TIMER && EFI_PROD_CODE )|| defined(__DOXYGEN__)
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#include "rfiutil.h"
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static Executor instance;
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extern schfunc_t globalTimerCallback;
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//static int timerIsLate = 0;
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//static uint64_t callbackTime = 0;
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/**
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* these fields are global in order to facilitate debugging
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*/
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static uint64_t nextEventTimeNt = 0;
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static uint64_t hwAlarmTime = 0;
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static void executorCallback(void *arg) {
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(void)arg;
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efiAssertVoid(getRemainingStack(chThdSelf()) > 256, "lowstck#2y");
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// callbackTime = getTimeNowNt();
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// if((callbackTime > nextEventTimeNt) && (callbackTime - nextEventTimeNt > US2NT(5000))) {
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// timerIsLate++;
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// }
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instance.onTimerCallback();
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}
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Executor::Executor() {
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reentrantFlag = false;
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queue.setLateDelay(US2NT(100));
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}
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#define lock() lockAnyContext()
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#define unlock() unlockAnyContext()
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void Executor::schedule2(scheduling_s *scheduling, uint64_t timeUs, schfunc_t callback,
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void *param) {
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// if (delayUs < 0) {
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// firmwareError("Negative delayUs %s: %d", prefix, delayUs);
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// return;
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// }
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// if (delayUs == 0) {
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// callback(param);
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// return;
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// }
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if (!reentrantFlag) {
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// this would guard the queue and disable interrupts
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lock();
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}
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queue.insertTask(scheduling, US2NT(timeUs), callback, param);
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if (!reentrantFlag) {
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doExecute();
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unlock();
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}
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}
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void Executor::schedule(scheduling_s *scheduling, uint64_t nowUs, int delayUs, schfunc_t callback,
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void *param) {
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schedule2(scheduling, nowUs + delayUs, callback, param);
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}
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void Executor::onTimerCallback() {
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lock();
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doExecute();
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unlock();
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}
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/*
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* this private method is executed under lock
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*/
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void Executor::doExecute() {
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/**
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* Let's execute actions we should execute at this point.
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* reentrantFlag takes care of the use case where the actions we are executing are scheduling
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* further invocations
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*/
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reentrantFlag = true;
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bool shouldExecute = true;
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/**
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* in real life it could be that while we executing listeners time passes and it's already time to execute
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* next listeners.
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* TODO: add a counter & figure out a limit of iterations?
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*/
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while (shouldExecute) {
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/**
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* It's worth noting that that the actions might be adding new actions into the queue
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*/
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uint64_t nowNt = getTimeNowNt();
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shouldExecute = queue.executeAll(nowNt);
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}
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if (!isLocked()) {
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firmwareError("Someone has stolen my lock");
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return;
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}
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uint64_t nowNt = getTimeNowNt();
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reentrantFlag = false;
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/**
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* 'executeAll' is potentially invoking heavy callbacks, let's grab fresh time value?
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*/
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/**
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* Let's set up the timer for the next execution
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*/
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nextEventTimeNt = queue.getNextEventTime(nowNt);
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efiAssertVoid(nextEventTimeNt > nowNt, "setTimer constraint");
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if (nextEventTimeNt == EMPTY_QUEUE)
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return; // no pending events in the queue
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hwAlarmTime = NT2US(nextEventTimeNt - nowNt);
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setHardwareUsTimer(hwAlarmTime == 0 ? 1 : hwAlarmTime);
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}
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/**
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* @brief Schedule an event
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*
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* Invokes event callback after the specified amount of time.
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*
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* @param [in, out] scheduling Data structure to keep this event in the collection.
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* @param [in] delayUs the number of microseconds before the output signal immediate output if delay is zero.
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* @param [in] dwell the number of ticks of output duration.
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*/
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void scheduleTask(const char *prefix, scheduling_s *scheduling, int delayUs, schfunc_t callback, void *param) {
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scheduling->name = prefix;
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instance.schedule(scheduling, getTimeNowUs(), delayUs, callback, param);
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}
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void scheduleTask2(const char *prefix, scheduling_s *scheduling, uint64_t time, schfunc_t callback, void *param) {
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scheduling->name = prefix;
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instance.schedule2(scheduling, time, callback, param);
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}
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void initSignalExecutorImpl(void) {
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globalTimerCallback = executorCallback;
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#if EFI_PROD_CODE
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initMicrosecondTimer();
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#endif /* EFI_PROD_CODE */
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}
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#endif
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