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/*
* FreeRTOS V202212.00
* 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
* the Software without restriction, including without limitation the rights to
* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
* 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
* FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
* COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
* IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*
* https://www.FreeRTOS.org
* https://github.com/FreeRTOS
*
*/
/******************************************************************************
* This project provides two demo applications. A simple blinky style project,
* and a more comprehensive test and demo application. The
* mainCREATE_SIMPLE_BLINKY_DEMO_ONLY setting (defined in this file) is used to
* select between the two. The simply blinky demo is implemented and described
* in main_blinky.c. The more comprehensive test and demo application is
* implemented and described in main_full.c.
*
* This file implements the code that is not demo specific, including the
* hardware setup and standard FreeRTOS hook functions.
*
* When running on the HiFive Rev B hardware:
* When executing correctly the red LED will toggle every three seconds. If
* the red LED toggles every 500ms then one of the self-monitoring test tasks
* discovered a potential issue. If the red led stops toggling then a hardware
* exception occurred or an assert was hit.
*
* ENSURE TO READ THE DOCUMENTATION PAGE FOR THIS PORT AND DEMO APPLICATION ON
* THE http://www.FreeRTOS.org WEB SITE FOR FULL INFORMATION ON USING THIS DEMO
* APPLICATION, AND ITS ASSOCIATE FreeRTOS ARCHITECTURE PORT!
*
*/
/* FreeRTOS kernel includes. */
#include <FreeRTOS.h>
#include <task.h>
/* Standard includes. */
#include <stdio.h>
/* Set mainCREATE_SIMPLE_BLINKY_DEMO_ONLY to one to run the simple blinky demo,
or 0 to run the more comprehensive test and demo application. */
#define mainCREATE_SIMPLE_BLINKY_DEMO_ONLY 0
/* Set to 1 to use direct mode and set to 0 to use vectored mode.
*
* VECTOR MODE=Direct --> all traps into machine mode cause the pc to be set to the
* vector base address (BASE) in the mtvec register.
*
* VECTOR MODE=Vectored --> all synchronous exceptions into machine mode cause the
* pc to be set to the BASE, whereas interrupts cause the pc to be set to the
* address BASE plus four times the interrupt cause number.
*/
#define mainVECTOR_MODE_DIRECT 0
/* UART hardware constants. */
#define mainUART_BASE_ADDRESS ( *( volatile uint32_t * ) 0x20000000UL )
#define mainUART_TX_DATA 0x00
#define mainUART_TX_CTRL 0x08
#define mainUART_RX_CTRL 0x0c
#define mainUART_CLOCK_DIV 0x18
#define mainUART_TX_ENABLE_BIT (1UL << 0UL)
#define mainUART_RX_ENABLE_BIT (1UL << 0UL)
#define mainUART_TX_FULL_BIT (1UL << 31UL)
#define mainUART_REGISTER( offset ) ( ( mainUART_BASE_ADDRESS + offset ) )
#define mainUART_REGISTER_WORD( offset ) ( *( ( uint32_t * ) mainUART_REGISTER( offset ) ) )
/* Hardware LED specifics. */
#define mainRED_LED_PIN ( 1UL << 0x16UL )
#define mainLED_IO_BASE_ADDRESS ( 0x10012000UL )
#define mainRED_LED_INPUT_ENABLE_REG ( * ( uint32_t * ) ( mainLED_IO_BASE_ADDRESS + 4UL ) )
#define mainRED_LED_OUTPUT_ENABLE_REG ( * ( uint32_t * ) ( mainLED_IO_BASE_ADDRESS + 8UL ) )
/* Hardware LED specifics. */
#define mainUART_PINMUX_BASE_ADDRESS ( 0x10012000 )
#define mainUART0_BASE_ADDRESS 0x10013000UL
#define mainUART_CLOCK_RATE 16000000UL
#define mainUART_BAUD_RATE 115200UL
#define mainUART0_TX_DATA_REG ( * ( uint32_t * ) ( mainUART0_BASE_ADDRESS + 0UL ) )
#define mainUART0_TX_DATA_BYTE_REG ( * ( uint8_t * ) ( mainUART0_BASE_ADDRESS + 0UL ) )
#define mainUART0_DIV_REG ( * ( uint32_t * ) ( mainUART0_BASE_ADDRESS + 24UL ) )
#define mainUART0_TXCTRL_REG ( * ( uint32_t * ) ( mainUART0_BASE_ADDRESS + 8UL ) )
#define mainUART0_RXCTRL_REG ( * ( uint32_t * ) ( mainUART0_BASE_ADDRESS + 12UL ) )
#define mainUART0_GPIO_SEL_REG ( * ( uint32_t * ) ( mainUART_PINMUX_BASE_ADDRESS + 60UL ) )
#define mainUART0_GPIO_SEL_EN ( * ( uint32_t * ) ( mainUART_PINMUX_BASE_ADDRESS + 56UL ) )
#define mainUART_TXEN_BIT ( 1UL )
#define mainUART0_PIN ( 0x30000UL )
/* Registers used to initialise the PLIC. */
#define mainPLIC_PENDING_0 ( * ( ( volatile uint32_t * ) 0x0C001000UL ) )
#define mainPLIC_PENDING_1 ( * ( ( volatile uint32_t * ) 0x0C001004UL ) )
#define mainPLIC_ENABLE_0 ( * ( ( volatile uint32_t * ) 0x0C002000UL ) )
#define mainPLIC_ENABLE_1 ( * ( ( volatile uint32_t * ) 0x0C002004UL ) )
/*-----------------------------------------------------------*/
extern void freertos_risc_v_trap_handler( void );
extern void freertos_vector_table( void );
/*
* main_blinky() is used when mainCREATE_SIMPLE_BLINKY_DEMO_ONLY is set to 1.
* main_full() is used when mainCREATE_SIMPLE_BLINKY_DEMO_ONLY is set to 0.
*/
#if mainCREATE_SIMPLE_BLINKY_DEMO_ONLY == 1
extern void main_blinky( void );
#else
extern void main_full( void );
#endif /* #if mainCREATE_SIMPLE_BLINKY_DEMO_ONLY == 1 */
/*
* Prototypes for the standard FreeRTOS callback/hook functions implemented
* within this file. See https://www.freertos.org/a00016.html
*/
void vApplicationMallocFailedHook( void );
void vApplicationIdleHook( void );
void vApplicationStackOverflowHook( TaskHandle_t pxTask, char *pcTaskName );
void vApplicationTickHook( void );
/*
* Setup the hardware to run this demo.
*/
static void prvSetupHardware( void );
/* Simple polling UART send function. */
void vSendString( const char * const pcString );
/* Toggle the red LED. */
void vTogglelED( void );
/*-----------------------------------------------------------*/
int main( void )
{
prvSetupHardware();
/* The mainCREATE_SIMPLE_BLINKY_DEMO_ONLY setting is described at the top
* of this file. */
#if( mainCREATE_SIMPLE_BLINKY_DEMO_ONLY == 1 )
{
main_blinky();
}
#else
{
main_full();
}
#endif
}
/*-----------------------------------------------------------*/
static void prvSetupHardware( void )
{
/* Set all interrupt enable bits to 0. */
mainPLIC_ENABLE_0 = 0UL;
mainPLIC_ENABLE_1 = 0UL;
/* Clear all pending interrupts. */
mainPLIC_PENDING_0 = 0UL;
mainPLIC_PENDING_1 = 0UL;
/* Disable Red LED input. */
mainRED_LED_INPUT_ENABLE_REG &= ~mainRED_LED_PIN;
/* Enable Red LED output. */
mainRED_LED_OUTPUT_ENABLE_REG |= mainRED_LED_PIN;
/* Set UART baud rate. */
mainUART0_DIV_REG = ( mainUART_CLOCK_RATE / mainUART_BAUD_RATE ) - 1;
/* Enable UART Tx. */
mainUART0_TXCTRL_REG |= mainUART_TXEN_BIT;
mainUART0_GPIO_SEL_REG &= mainUART0_PIN;
mainUART0_GPIO_SEL_EN |= mainUART0_PIN;
#if( mainVECTOR_MODE_DIRECT == 1 )
{
__asm__ volatile( "csrw mtvec, %0" :: "r"( freertos_risc_v_trap_handler ) );
}
#else
{
__asm__ volatile( "csrw mtvec, %0" :: "r"( ( uintptr_t )freertos_vector_table | 0x1 ) );
}
#endif
}
/*-----------------------------------------------------------*/
void vToggleLED( void )
{
static uint32_t ulLEDState = 0;
if( ulLEDState == 0 )
{
mainRED_LED_OUTPUT_ENABLE_REG |= mainRED_LED_PIN;
}
else
{
mainRED_LED_OUTPUT_ENABLE_REG &= ~mainRED_LED_PIN;
}
ulLEDState = !ulLEDState;
}
/*-----------------------------------------------------------*/
void vSendString( const char * const pcString )
{
uint32_t ulIndex = 0;
/* Crude polling UART Tx. */
while( pcString[ ulIndex ] != 0x00 )
{
while( ( mainUART0_TX_DATA_REG & mainUART_TX_FULL_BIT ) != 0UL );
mainUART0_TX_DATA_BYTE_REG = pcString[ ulIndex ];
ulIndex++;
}
}
/*-----------------------------------------------------------*/
void vApplicationMallocFailedHook( void )
{
/* vApplicationMallocFailedHook() will only be called if
* configUSE_MALLOC_FAILED_HOOK is set to 1 in FreeRTOSConfig.h. It is a hook
* function that will get called if a call to pvPortMalloc() fails.
* pvPortMalloc() is called internally by the kernel whenever a task, queue,
* timer or semaphore is created. It is also called by various parts of the
* demo application. If heap_1.c or heap_2.c are used, then the size of the
* heap available to pvPortMalloc() is defined by configTOTAL_HEAP_SIZE in
* FreeRTOSConfig.h, and the xPortGetFreeHeapSize() API function can be used
* to query the size of free heap space that remains (although it does not
* provide information on how the remaining heap might be fragmented). */
taskDISABLE_INTERRUPTS();
__asm volatile( "ebreak" );
for( ;; );
}
/*-----------------------------------------------------------*/
void vApplicationIdleHook( void )
{
/* vApplicationIdleHook() will only be called if configUSE_IDLE_HOOK is set
* to 1 in FreeRTOSConfig.h. It will be called on each iteration of the idle
* task. It is essential that code added to this hook function never attempts
* to block in any way (for example, call xQueueReceive() with a block time
* specified, or call vTaskDelay()). If the application makes use of the
* vTaskDelete() API function (as this demo application does) then it is also
* important that vApplicationIdleHook() is permitted to return to its calling
* function, because it is the responsibility of the idle task to clean up
* memory allocated by the kernel to any task that has since been deleted. */
}
/*-----------------------------------------------------------*/
void vApplicationStackOverflowHook( TaskHandle_t pxTask, char *pcTaskName )
{
( void ) pcTaskName;
( void ) pxTask;
/* Run time stack overflow checking is performed if
* configCHECK_FOR_STACK_OVERFLOW is defined to 1 or 2. This hook
* function is called if a stack overflow is detected. */
taskDISABLE_INTERRUPTS();
__asm volatile( "ebreak" );
for( ;; );
}
/*-----------------------------------------------------------*/
void vApplicationTickHook( void )
{
/* The tests in the full demo expect some interaction with interrupts. */
#if( mainCREATE_SIMPLE_BLINKY_DEMO_ONLY != 1 )
{
extern void vFullDemoTickHook( void );
vFullDemoTickHook();
}
#endif
}
/*-----------------------------------------------------------*/
void freertos_risc_v_application_interrupt_handler( uint32_t ulMcause )
{
char pcCause[ 20 ];
/* Not implemented yet! */
sprintf( pcCause, "%u", ulMcause );
configPRINT_STRING( pcCause );
configASSERT( ulMcause == 0 );
}
/*-----------------------------------------------------------*/
void freertos_risc_v_application_exception_handler( uint32_t ulMcause )
{
char pcCause[ 20 ];
/* Not implemented yet! */
sprintf( pcCause, "%u", ulMcause );
configPRINT_STRING( pcCause );
configASSERT( ulMcause == 0 );
}
/*-----------------------------------------------------------*/
void *malloc( size_t xSize )
{
/* The linker script does not define a heap so artificially force an assert()
* if something unexpectedly uses the C library heap. See
* https://www.freertos.org/a00111.html for more information. */
configASSERT( xTaskGetTickCount() == 0x00 );
return NULL;
}
/*-----------------------------------------------------------*/
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