fsfw/contrib/fsfw_contrib/etl-20.39.4/examples/FunctionInterruptSimulation/FunctionInterruptSimulation.cpp

150 lines
3.6 KiB
C++

#include <iostream>
#include "etl/function.h"
#include "etl/callback_service.h"
enum VectorId
{
TIM1_CC_IRQ_HANDLER = 42,
TIM2_IRQ_HANDLER = 43,
TIM3_IRQ_HANDLER = 44,
USART1_IRQ_HANDLER = 52,
USART2_IRQ_HANDLER = 53,
VECTOR_ID_END,
VECTOR_ID_OFFSET = TIM1_CC_IRQ_HANDLER,
VECTOR_ID_RANGE = VECTOR_ID_END - VECTOR_ID_OFFSET
};
typedef etl::callback_service<VECTOR_ID_RANGE, VECTOR_ID_OFFSET> InterruptVectors;
// Ensure that the callback service is initialised before use.
InterruptVectors& GetInterruptVectorsInstance()
{
static InterruptVectors interruptVectors;
return interruptVectors;
}
extern "C"
{
InterruptVectors& interruptVectors = GetInterruptVectorsInstance();
// Function called from the timer1 interrupt vector.
void TIM1_CC_IRQHandler()
{
interruptVectors.callback<TIM1_CC_IRQ_HANDLER>();
}
// Function called from the timer2 interrupt vector.
void TIM2_IRQHandler()
{
interruptVectors.callback<TIM2_IRQ_HANDLER>();
}
// Function called from the timer3 interrupt vector.
void TIM3_IRQHandler()
{
interruptVectors.callback<TIM3_IRQ_HANDLER>();
}
// Function called from the usart1 interrupt vector.
void USART1_IRQHandler()
{
interruptVectors.callback<USART1_IRQ_HANDLER>();
}
// Function called from the usart2 interrupt vector.
void USART2_IRQHandler()
{
interruptVectors.callback<USART2_IRQ_HANDLER>();
}
}
//********************************
// Timer driver.
//********************************
class Timer
{
public:
// Handler for interrupts from the timer.
void InterruptHandler(const size_t id)
{
std::cout << "Timer interrupt (member) : ID " << id << "\n";
}
};
//********************************
// Free function timer driver.
//********************************
void FreeTimerInterruptHandler(const size_t id)
{
std::cout << "Timer interrupt (free) : ID " << id << "\n";
}
//********************************
// UART driver.
//********************************
class Uart
{
public:
// Constructor.
Uart(int port_id, int interruptId)
: port_id(port_id),
callback(*this)
{
GetInterruptVectorsInstance().register_callback(interruptId, callback);
}
// Handler for interrupts from the UART.
void InterruptHandler(const size_t id)
{
std::cout << "UART" << port_id << " : ID " << id << "\n";
}
etl::function_mp<Uart, size_t, &Uart::InterruptHandler> callback;
int port_id;
};
void UnhandledInterrupt(const size_t id)
{
std::cout << "Unhandled Interrupt : ID " << id << "\n";
}
// Declare the driver instances.
Timer timer;
Uart uart1(0, USART1_IRQ_HANDLER);
Uart uart2(1, USART2_IRQ_HANDLER);
// Declare a global callback for the timer.
// Uses the most efficient callback type for a class, as everything is known at compile time.
etl::function_imp<Timer, size_t, timer, &Timer::InterruptHandler> timer_member_callback;
// Declare the callbacks for the free functions.
etl::function_fp<size_t, FreeTimerInterruptHandler> timer_free_callback;
etl::function_fp<size_t, UnhandledInterrupt> unhandled_callback;
//********************************
// Test it out.
//********************************
int main()
{
// Setup the callbacks.
InterruptVectors& interruptVectors = GetInterruptVectorsInstance();
interruptVectors.register_callback<TIM1_CC_IRQ_HANDLER>(timer_member_callback);
interruptVectors.register_callback<TIM2_IRQ_HANDLER>(timer_free_callback);
interruptVectors.register_unhandled_callback(unhandled_callback);
// Simulate the interrupts.
TIM1_CC_IRQHandler();
TIM2_IRQHandler();
USART1_IRQHandler();
USART2_IRQHandler();
TIM3_IRQHandler(); // Unhandled!
return 0;
}