/** * @file pwm_generator_logic.h * * @date Mar 2, 2014 * @author Andrey Belomutskiy, (c) 2012-2020 */ #pragma once #include "state_sequence.h" #include "global.h" #include "scheduler.h" #include "efi_gpio.h" #define PERCENT_TO_DUTY(x) (x) * 0.01 #define NAN_FREQUENCY_SLEEP_PERIOD_MS 100 // 99% duty cycle #define FULL_PWM_THRESHOLD 0.99 typedef struct { /** * a copy so that all phases are executed on the same period, even if another thread * would be adjusting PWM parameters */ float periodNt; /** * Iteration counter */ int iteration; /** * Start time of current iteration */ efitick_t startNt; int phaseIndex; } pwm_config_safe_state_s; class PwmConfig; typedef void (pwm_cycle_callback)(PwmConfig *state); typedef void (pwm_gen_callback)(int stateIndex, void *arg); typedef enum { PM_ZERO, PM_NORMAL, PM_FULL } pwm_mode_e; /** * @brief Multi-channel software PWM output configuration */ class PwmConfig { public: PwmConfig(); void *arg = nullptr; void weComplexInit(const char *msg, ExecutorInterface *executor, MultiChannelStateSequence const * seq, pwm_cycle_callback *pwmCycleCallback, pwm_gen_callback *callback); ExecutorInterface *executor; /** * We need to handle zero duty cycle and 100% duty cycle in a special way */ pwm_mode_e mode; bool isStopRequested = false; /** * @param use NAN frequency to pause PWM */ void setFrequency(float frequency); void handleCycleStart(); const char *name; // todo: 'outputPins' should be extracted away from here since technically one can want PWM scheduler without actual pin output OutputPin *outputPins[PWM_PHASE_MAX_WAVE_PER_PWM]; MultiChannelStateSequence const * multiChannelStateSequence = nullptr; efitick_t togglePwmState(); void stop(); int dbgNestingLevel; scheduling_s scheduling; pwm_config_safe_state_s safe; /** * this callback is invoked before each wave generation cycle */ pwm_cycle_callback *pwmCycleCallback; /** * this main callback is invoked when it's time to switch level on any of the output channels */ pwm_gen_callback *stateChangeCallback = nullptr; private: /** * float value of PWM period * PWM generation is not happening while this value is NAN */ float periodNt; // Set if we are very far behind schedule and need to reset back to the beginning of a cycle to find our way bool forceCycleStart = true; }; struct hardware_pwm; struct IPwm { virtual void setSimplePwmDutyCycle(float dutyCycle) = 0; }; class SimplePwm : public PwmConfig, public IPwm { public: SimplePwm(); explicit SimplePwm(const char *name); void setSimplePwmDutyCycle(float dutyCycle) override; MultiChannelStateSequenceWithData<2> seq; hardware_pwm* hardPwm = nullptr; }; /** * default implementation of pwm_gen_callback which simply toggles the pins * */ void applyPinState(int stateIndex, PwmConfig* state) /* pwm_gen_callback */; /** * Start a one-channel software PWM driver. * * This method should be called after scheduling layer is started by initSignalExecutor() */ void startSimplePwm(SimplePwm *state, const char *msg, ExecutorInterface *executor, OutputPin *output, float frequency, float dutyCycle); /** * initialize GPIO pin and start a one-channel software PWM driver. * * This method should be called after scheduling layer is started by initSignalExecutor() */ void startSimplePwmExt(SimplePwm *state, const char *msg, ExecutorInterface *executor, brain_pin_e brainPin, OutputPin *output, float frequency, float dutyCycle); void startSimplePwmHard(SimplePwm *state, const char *msg, ExecutorInterface *executor, brain_pin_e brainPin, OutputPin *output, float frequency, float dutyCycle); void copyPwmParameters(PwmConfig *state, MultiChannelStateSequence const * seq);