/* | |
* FreeRTOS Kernel V10.3.0 | |
* Copyright (C) 2020 Amazon.com, Inc. or its affiliates. All Rights Reserved. | |
* | |
* Permission is hereby granted, free of charge, to any person obtaining a copy of | |
* this software and associated documentation files (the "Software"), to deal in | |
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* the Software, and to permit persons to whom the Software is furnished to do so, | |
* subject to the following conditions: | |
* | |
* The above copyright notice and this permission notice shall be included in all | |
* copies or substantial portions of the Software. | |
* | |
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR | |
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS | |
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* | |
* http://www.FreeRTOS.org | |
* http://aws.amazon.com/freertos | |
* | |
* 1 tab == 4 spaces! | |
*/ | |
/* | |
* NOTE: Currently only timer 1 and timer 2 are used - | |
* | |
* This file initialises two timers as follows: | |
* | |
* Timer 0 and Timer 1 provide the interrupts that are used with the IntQ | |
* standard demo tasks, which test interrupt nesting and using queues from | |
* interrupts. Both these interrupts operate below the maximum syscall | |
* interrupt priority. | |
* | |
* Timer 2 is a much higher frequency timer that tests the nesting of interrupts | |
* that execute above the maximum syscall interrupt priority. | |
* | |
* All the timers can nest with the tick interrupt - creating a maximum | |
* interrupt nesting depth of 4. | |
* | |
* For convenience, the high frequency timer is also used to provide the time | |
* base for the run time stats. | |
*/ | |
/* Scheduler includes. */ | |
#include "FreeRTOS.h" | |
/* Demo includes. */ | |
#include "IntQueueTimer.h" | |
#include "IntQueue.h" | |
/* Xilinx includes. */ | |
#include "xttcps.h" | |
#include "xscugic.h" | |
/* The frequencies at which the first two timers expire are slightly offset to | |
ensure they don't remain synchronised. The frequency of the interrupt that | |
operates above the max syscall interrupt priority is 10 times faster so really | |
hammers the interrupt entry and exit code. */ | |
#define tmrTIMERS_USED 3 | |
#define tmrTIMER_0_FREQUENCY ( 100UL ) | |
#define tmrTIMER_1_FREQUENCY ( 111UL ) | |
#define tmrTIMER_2_FREQUENCY ( 20000UL ) | |
/*-----------------------------------------------------------*/ | |
/* | |
* The single interrupt service routines that is used to service all three | |
* timers. | |
*/ | |
static void prvTimerHandler( void *CallBackRef ); | |
/*-----------------------------------------------------------*/ | |
/* Hardware constants. */ | |
static const BaseType_t xDeviceIDs[ tmrTIMERS_USED ] = { XPAR_XTTCPS_0_DEVICE_ID, XPAR_XTTCPS_1_DEVICE_ID, XPAR_XTTCPS_2_DEVICE_ID }; | |
static const BaseType_t xInterruptIDs[ tmrTIMERS_USED ] = { XPAR_XTTCPS_0_INTR, XPAR_XTTCPS_1_INTR, XPAR_XTTCPS_2_INTR }; | |
/* Timer configuration settings. */ | |
typedef struct | |
{ | |
uint32_t OutputHz; /* Output frequency. */ | |
uint16_t Interval; /* Interval value. */ | |
uint8_t Prescaler; /* Prescaler value. */ | |
uint16_t Options; /* Option settings. */ | |
} TmrCntrSetup; | |
static TmrCntrSetup xTimerSettings[ tmrTIMERS_USED ] = | |
{ | |
{ tmrTIMER_0_FREQUENCY, 0, 0, XTTCPS_OPTION_INTERVAL_MODE | XTTCPS_OPTION_WAVE_DISABLE }, | |
{ tmrTIMER_1_FREQUENCY, 0, 0, XTTCPS_OPTION_INTERVAL_MODE | XTTCPS_OPTION_WAVE_DISABLE }, | |
{ tmrTIMER_2_FREQUENCY, 0, 0, XTTCPS_OPTION_INTERVAL_MODE | XTTCPS_OPTION_WAVE_DISABLE } | |
}; | |
/* Lower priority number means higher logical priority, so | |
configMAX_API_CALL_INTERRUPT_PRIORITY - 1 is above the maximum system call | |
interrupt priority. */ | |
static const UBaseType_t uxInterruptPriorities[ tmrTIMERS_USED ] = | |
{ | |
configMAX_API_CALL_INTERRUPT_PRIORITY + 1, | |
configMAX_API_CALL_INTERRUPT_PRIORITY, | |
configMAX_API_CALL_INTERRUPT_PRIORITY - 1 | |
}; | |
static XTtcPs xTimerInstances[ tmrTIMERS_USED ]; | |
/* Used to provide a means of ensuring the intended interrupt nesting depth is | |
actually being reached. */ | |
extern uint64_t ullPortInterruptNesting; | |
static volatile uint32_t ulMaxRecordedNesting = 1; | |
/* Used to ensure the high frequency timer is running at the expected | |
frequency. */ | |
static volatile uint32_t ulHighFrequencyTimerCounts = 0; | |
/*-----------------------------------------------------------*/ | |
void vInitialiseTimerForIntQueueTest( void ) | |
{ | |
BaseType_t xStatus; | |
TmrCntrSetup *pxTimerSettings; | |
extern XScuGic xInterruptController; | |
BaseType_t xTimer; | |
XTtcPs *pxTimerInstance; | |
XTtcPs_Config *pxTimerConfiguration; | |
const uint8_t ucRisingEdge = 3; | |
/*_RB_ Currently only timer 1 and timer 2 are used. */ | |
for( xTimer = 0; xTimer < ( tmrTIMERS_USED - 1 ); xTimer++ ) | |
{ | |
/* Look up the timer's configuration. */ | |
pxTimerInstance = &( xTimerInstances[ xTimer ] ); | |
pxTimerConfiguration = XTtcPs_LookupConfig( xDeviceIDs[ xTimer ] ); | |
configASSERT( pxTimerConfiguration ); | |
pxTimerSettings = &( xTimerSettings[ xTimer ] ); | |
/* Initialise the device. */ | |
xStatus = XTtcPs_CfgInitialize( pxTimerInstance, pxTimerConfiguration, pxTimerConfiguration->BaseAddress ); | |
if( xStatus != XST_SUCCESS ) | |
{ | |
/* Not sure how to do this before XTtcPs_CfgInitialize is called | |
as pxTimerInstance is set within XTtcPs_CfgInitialize(). */ | |
XTtcPs_Stop( pxTimerInstance ); | |
xStatus = XTtcPs_CfgInitialize( pxTimerInstance, pxTimerConfiguration, pxTimerConfiguration->BaseAddress ); | |
configASSERT( xStatus == XST_SUCCESS ); | |
} | |
/* Set the options. */ | |
XTtcPs_SetOptions( pxTimerInstance, pxTimerSettings->Options ); | |
/* The timer frequency is preset in the pxTimerSettings structure. | |
Derive the values for the other structure members. */ | |
XTtcPs_CalcIntervalFromFreq( pxTimerInstance, pxTimerSettings->OutputHz, &( pxTimerSettings->Interval ), &( pxTimerSettings->Prescaler ) ); | |
/* Set the interval and prescale. */ | |
XTtcPs_SetInterval( pxTimerInstance, pxTimerSettings->Interval ); | |
XTtcPs_SetPrescaler( pxTimerInstance, pxTimerSettings->Prescaler ); | |
/* The priority must be the lowest possible. */ | |
XScuGic_SetPriorityTriggerType( &xInterruptController, xInterruptIDs[ xTimer ], uxInterruptPriorities[ xTimer ] << portPRIORITY_SHIFT, ucRisingEdge ); | |
/* Connect to the interrupt controller. */ | |
xStatus = XScuGic_Connect( &xInterruptController, xInterruptIDs[ xTimer ], ( Xil_InterruptHandler ) prvTimerHandler, ( void * ) pxTimerInstance ); | |
configASSERT( xStatus == XST_SUCCESS); | |
/* Enable the interrupt in the GIC. */ | |
XScuGic_Enable( &xInterruptController, xInterruptIDs[ xTimer ] ); | |
/* Enable the interrupts in the timer. */ | |
XTtcPs_EnableInterrupts( pxTimerInstance, XTTCPS_IXR_INTERVAL_MASK ); | |
/* Start the timer. */ | |
XTtcPs_Start( pxTimerInstance ); | |
} | |
} | |
/*-----------------------------------------------------------*/ | |
static void prvTimerHandler( void *pvCallBackRef ) | |
{ | |
uint32_t ulInterruptStatus; | |
XTtcPs *pxTimer = ( XTtcPs * ) pvCallBackRef; | |
BaseType_t xYieldRequired; | |
/* Read the interrupt status, then write it back to clear the interrupt. */ | |
ulInterruptStatus = XTtcPs_GetInterruptStatus( pxTimer ); | |
XTtcPs_ClearInterruptStatus( pxTimer, ulInterruptStatus ); | |
__asm volatile( "DSB SY" ); | |
__asm volatile( "ISB SY" ); | |
/* Now the interrupt has been cleared, interrupts can be re-enabled. */ | |
portENABLE_INTERRUPTS(); | |
/* Only one interrupt event type is expected. */ | |
configASSERT( ( XTTCPS_IXR_INTERVAL_MASK & ulInterruptStatus ) != 0 ); | |
/* Check the device ID to know which IntQueue demo to call. */ | |
if( pxTimer->Config.DeviceId == xDeviceIDs[ 0 ] ) | |
{ | |
xYieldRequired = xFirstTimerHandler(); | |
} | |
else if( pxTimer->Config.DeviceId == xDeviceIDs[ 1 ] ) | |
{ | |
xYieldRequired = xSecondTimerHandler(); | |
} | |
else | |
{ | |
/* Used to check the timer is running at the expected frequency. */ | |
ulHighFrequencyTimerCounts++; | |
xYieldRequired = pdFALSE; | |
} | |
/* Latch the highest interrupt nesting count detected. */ | |
if( ullPortInterruptNesting > ulMaxRecordedNesting ) | |
{ | |
ulMaxRecordedNesting = ullPortInterruptNesting; | |
} | |
/* If xYieldRequired is not pdFALSE then calling either xFirstTimerHandler() | |
or xSecondTimerHandler() resulted in a task leaving the blocked state and | |
the task that left the blocked state had a priority higher than the currently | |
running task (the task this interrupt interrupted) - so a context switch | |
should be performed so the interrupt returns directly to the higher priority | |
task. xYieldRequired is tested inside the following macro. */ | |
portYIELD_FROM_ISR( xYieldRequired ); | |
} | |