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Style: Revert uncrustify for portable directories (#122)

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* Style: revert uncrustify portable directories

* Style: Uncrustify Some Portable files

Co-authored-by: Alfred Gedeon <gedeonag@amazon.com>
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alfred gedeon 2020-08-17 10:51:02 -07:00 committed by GitHub
parent a6da1cd0ce
commit 86653e2a1f
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273 changed files with 64802 additions and 65931 deletions
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346
portable/RVDS/ARM7_LPC21xx/port.c
View file

@ -34,35 +34,35 @@
#include "task.h"
/* Constants required to setup the initial task context. */
#define portINITIAL_SPSR ( ( StackType_t ) 0x1f ) /* System mode, ARM mode, interrupts enabled. */
#define portTHUMB_MODE_BIT ( ( StackType_t ) 0x20 )
#define portINSTRUCTION_SIZE ( ( StackType_t ) 4 )
#define portNO_CRITICAL_SECTION_NESTING ( ( StackType_t ) 0 )
#define portINITIAL_SPSR ( ( StackType_t ) 0x1f ) /* System mode, ARM mode, interrupts enabled. */
#define portTHUMB_MODE_BIT ( ( StackType_t ) 0x20 )
#define portINSTRUCTION_SIZE ( ( StackType_t ) 4 )
#define portNO_CRITICAL_SECTION_NESTING ( ( StackType_t ) 0 )
/* Constants required to setup the tick ISR. */
#define portENABLE_TIMER ( ( uint8_t ) 0x01 )
#define portPRESCALE_VALUE 0x00
#define portINTERRUPT_ON_MATCH ( ( uint32_t ) 0x01 )
#define portRESET_COUNT_ON_MATCH ( ( uint32_t ) 0x02 )
#define portENABLE_TIMER ( ( uint8_t ) 0x01 )
#define portPRESCALE_VALUE 0x00
#define portINTERRUPT_ON_MATCH ( ( uint32_t ) 0x01 )
#define portRESET_COUNT_ON_MATCH ( ( uint32_t ) 0x02 )
/* Constants required to setup the VIC for the tick ISR. */
#define portTIMER_VIC_CHANNEL ( ( uint32_t ) 0x0004 )
#define portTIMER_VIC_CHANNEL_BIT ( ( uint32_t ) 0x0010 )
#define portTIMER_VIC_ENABLE ( ( uint32_t ) 0x0020 )
#define portTIMER_VIC_CHANNEL ( ( uint32_t ) 0x0004 )
#define portTIMER_VIC_CHANNEL_BIT ( ( uint32_t ) 0x0010 )
#define portTIMER_VIC_ENABLE ( ( uint32_t ) 0x0020 )
/* Constants required to handle interrupts. */
#define portTIMER_MATCH_ISR_BIT ( ( uint8_t ) 0x01 )
#define portCLEAR_VIC_INTERRUPT ( ( uint32_t ) 0 )
#define portTIMER_MATCH_ISR_BIT ( ( uint8_t ) 0x01 )
#define portCLEAR_VIC_INTERRUPT ( ( uint32_t ) 0 )
/*-----------------------------------------------------------*/
/* The code generated by the Keil compiler does not maintain separate
* stack and frame pointers. The portENTER_CRITICAL macro cannot therefore
* use the stack as per other ports. Instead a variable is used to keep
* track of the critical section nesting. This variable has to be stored
* as part of the task context and must be initialised to a non zero value. */
stack and frame pointers. The portENTER_CRITICAL macro cannot therefore
use the stack as per other ports. Instead a variable is used to keep
track of the critical section nesting. This variable has to be stored
as part of the task context and must be initialised to a non zero value. */
#define portNO_CRITICAL_NESTING ( ( uint32_t ) 0 )
#define portNO_CRITICAL_NESTING ( ( uint32_t ) 0 )
volatile uint32_t ulCriticalNesting = 9999UL;
/*-----------------------------------------------------------*/
@ -70,222 +70,222 @@ volatile uint32_t ulCriticalNesting = 9999UL;
/* Setup the timer to generate the tick interrupts. */
static void prvSetupTimerInterrupt( void );
/*
* The scheduler can only be started from ARM mode, so
* vPortStartFirstSTask() is defined in portISR.c.
/*
* The scheduler can only be started from ARM mode, so
* vPortStartFirstSTask() is defined in portISR.c.
*/
extern __asm void vPortStartFirstTask( void );
/*-----------------------------------------------------------*/
/*
* See header file for description.
/*
* See header file for description.
*/
StackType_t * pxPortInitialiseStack( StackType_t * pxTopOfStack,
TaskFunction_t pxCode,
void * pvParameters )
StackType_t *pxPortInitialiseStack( StackType_t *pxTopOfStack, TaskFunction_t pxCode, void *pvParameters )
{
StackType_t * pxOriginalTOS;
StackType_t *pxOriginalTOS;
/* Setup the initial stack of the task. The stack is set exactly as
* expected by the portRESTORE_CONTEXT() macro.
*
* Remember where the top of the (simulated) stack is before we place
* anything on it. */
pxOriginalTOS = pxTopOfStack;
/* Setup the initial stack of the task. The stack is set exactly as
expected by the portRESTORE_CONTEXT() macro.
/* To ensure asserts in tasks.c don't fail, although in this case the assert
* is not really required. */
pxTopOfStack--;
Remember where the top of the (simulated) stack is before we place
anything on it. */
pxOriginalTOS = pxTopOfStack;
/* To ensure asserts in tasks.c don't fail, although in this case the assert
is not really required. */
pxTopOfStack--;
/* First on the stack is the return address - which in this case is the
* start of the task. The offset is added to make the return address appear
* as it would within an IRQ ISR. */
*pxTopOfStack = ( StackType_t ) pxCode + portINSTRUCTION_SIZE;
pxTopOfStack--;
/* First on the stack is the return address - which in this case is the
start of the task. The offset is added to make the return address appear
as it would within an IRQ ISR. */
*pxTopOfStack = ( StackType_t ) pxCode + portINSTRUCTION_SIZE;
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0xaaaaaaaa; /* R14 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) pxOriginalTOS; /* Stack used when task starts goes in R13. */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x12121212; /* R12 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x11111111; /* R11 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x10101010; /* R10 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x09090909; /* R9 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x08080808; /* R8 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x07070707; /* R7 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x06060606; /* R6 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x05050505; /* R5 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x04040404; /* R4 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x03030303; /* R3 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x02020202; /* R2 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x01010101; /* R1 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) pvParameters; /* R0 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0xaaaaaaaa; /* R14 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) pxOriginalTOS; /* Stack used when task starts goes in R13. */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x12121212; /* R12 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x11111111; /* R11 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x10101010; /* R10 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x09090909; /* R9 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x08080808; /* R8 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x07070707; /* R7 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x06060606; /* R6 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x05050505; /* R5 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x04040404; /* R4 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x03030303; /* R3 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x02020202; /* R2 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x01010101; /* R1 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) pvParameters; /* R0 */
pxTopOfStack--;
/* The last thing onto the stack is the status register, which is set for
* system mode, with interrupts enabled. */
*pxTopOfStack = ( StackType_t ) portINITIAL_SPSR;
/* The last thing onto the stack is the status register, which is set for
system mode, with interrupts enabled. */
*pxTopOfStack = ( StackType_t ) portINITIAL_SPSR;
if( ( ( uint32_t ) pxCode & 0x01UL ) != 0x00UL )
{
/* We want the task to start in thumb mode. */
*pxTopOfStack |= portTHUMB_MODE_BIT;
}
if( ( ( uint32_t ) pxCode & 0x01UL ) != 0x00UL )
{
/* We want the task to start in thumb mode. */
*pxTopOfStack |= portTHUMB_MODE_BIT;
}
pxTopOfStack--;
pxTopOfStack--;
/* The code generated by the Keil compiler does not maintain separate
* stack and frame pointers. The portENTER_CRITICAL macro cannot therefore
* use the stack as per other ports. Instead a variable is used to keep
* track of the critical section nesting. This variable has to be stored
* as part of the task context and is initially set to zero. */
*pxTopOfStack = portNO_CRITICAL_SECTION_NESTING;
/* The code generated by the Keil compiler does not maintain separate
stack and frame pointers. The portENTER_CRITICAL macro cannot therefore
use the stack as per other ports. Instead a variable is used to keep
track of the critical section nesting. This variable has to be stored
as part of the task context and is initially set to zero. */
*pxTopOfStack = portNO_CRITICAL_SECTION_NESTING;
return pxTopOfStack;
return pxTopOfStack;
}
/*-----------------------------------------------------------*/
BaseType_t xPortStartScheduler( void )
{
/* Start the timer that generates the tick ISR. */
prvSetupTimerInterrupt();
/* Start the timer that generates the tick ISR. */
prvSetupTimerInterrupt();
/* Start the first task. This is done from portISR.c as ARM mode must be
* used. */
vPortStartFirstTask();
/* Start the first task. This is done from portISR.c as ARM mode must be
used. */
vPortStartFirstTask();
/* Should not get here! */
return 0;
/* Should not get here! */
return 0;
}
/*-----------------------------------------------------------*/
void vPortEndScheduler( void )
{
/* It is unlikely that the ARM port will require this function as there
* is nothing to return to. If this is required - stop the tick ISR then
* return back to main. */
/* It is unlikely that the ARM port will require this function as there
is nothing to return to. If this is required - stop the tick ISR then
return back to main. */
}
/*-----------------------------------------------------------*/
#if configUSE_PREEMPTION == 0
/*
* The cooperative scheduler requires a normal IRQ service routine to
* simply increment the system tick.
*/
void vNonPreemptiveTick( void ) __irq;
void vNonPreemptiveTick( void ) __irq
{
/* Increment the tick count - this may make a delaying task ready
* to run - but a context switch is not performed. */
xTaskIncrementTick();
/*
* The cooperative scheduler requires a normal IRQ service routine to
* simply increment the system tick.
*/
void vNonPreemptiveTick( void ) __irq;
void vNonPreemptiveTick( void ) __irq
{
/* Increment the tick count - this may make a delaying task ready
to run - but a context switch is not performed. */
xTaskIncrementTick();
T0IR = portTIMER_MATCH_ISR_BIT; /* Clear the timer event */
VICVectAddr = portCLEAR_VIC_INTERRUPT; /* Acknowledge the Interrupt */
}
T0IR = portTIMER_MATCH_ISR_BIT; /* Clear the timer event */
VICVectAddr = portCLEAR_VIC_INTERRUPT; /* Acknowledge the Interrupt */
}
#else /* if configUSE_PREEMPTION == 0 */
#else
/*
**************************************************************************
* The preemptive scheduler ISR is written in assembler and can be found
* in the portASM.s file. This will only get used if portUSE_PREEMPTION
* is set to 1 in portmacro.h
**************************************************************************
*/
/*
**************************************************************************
* The preemptive scheduler ISR is written in assembler and can be found
* in the portASM.s file. This will only get used if portUSE_PREEMPTION
* is set to 1 in portmacro.h
**************************************************************************
*/
void vPreemptiveTick( void );
void vPreemptiveTick( void );
#endif /* if configUSE_PREEMPTION == 0 */
#endif
/*-----------------------------------------------------------*/
static void prvSetupTimerInterrupt( void )
{
uint32_t ulCompareMatch;
uint32_t ulCompareMatch;
/* A 1ms tick does not require the use of the timer prescale. This is
* defaulted to zero but can be used if necessary. */
T0PR = portPRESCALE_VALUE;
/* A 1ms tick does not require the use of the timer prescale. This is
defaulted to zero but can be used if necessary. */
T0PR = portPRESCALE_VALUE;
/* Calculate the match value required for our wanted tick rate. */
ulCompareMatch = configCPU_CLOCK_HZ / configTICK_RATE_HZ;
/* Calculate the match value required for our wanted tick rate. */
ulCompareMatch = configCPU_CLOCK_HZ / configTICK_RATE_HZ;
/* Protect against divide by zero. Using an if() statement still results
* in a warning - hence the #if. */
#if portPRESCALE_VALUE != 0
{
ulCompareMatch /= ( portPRESCALE_VALUE + 1 );
}
#endif
/* Protect against divide by zero. Using an if() statement still results
in a warning - hence the #if. */
#if portPRESCALE_VALUE != 0
{
ulCompareMatch /= ( portPRESCALE_VALUE + 1 );
}
#endif
T0MR0 = ulCompareMatch;
T0MR0 = ulCompareMatch;
/* Generate tick with timer 0 compare match. */
T0MCR = portRESET_COUNT_ON_MATCH | portINTERRUPT_ON_MATCH;
/* Generate tick with timer 0 compare match. */
T0MCR = portRESET_COUNT_ON_MATCH | portINTERRUPT_ON_MATCH;
/* Setup the VIC for the timer. */
VICIntSelect &= ~( portTIMER_VIC_CHANNEL_BIT );
VICIntEnable |= portTIMER_VIC_CHANNEL_BIT;
/* Setup the VIC for the timer. */
VICIntSelect &= ~( portTIMER_VIC_CHANNEL_BIT );
VICIntEnable |= portTIMER_VIC_CHANNEL_BIT;
/* The ISR installed depends on whether the preemptive or cooperative
scheduler is being used. */
#if configUSE_PREEMPTION == 1
{
VICVectAddr0 = ( uint32_t ) vPreemptiveTick;
}
#else
{
VICVectAddr0 = ( uint32_t ) vNonPreemptiveTick;
}
#endif
/* The ISR installed depends on whether the preemptive or cooperative
* scheduler is being used. */
#if configUSE_PREEMPTION == 1
{
VICVectAddr0 = ( uint32_t ) vPreemptiveTick;
}
#else
{
VICVectAddr0 = ( uint32_t ) vNonPreemptiveTick;
}
#endif
VICVectCntl0 = portTIMER_VIC_CHANNEL | portTIMER_VIC_ENABLE;
VICVectCntl0 = portTIMER_VIC_CHANNEL | portTIMER_VIC_ENABLE;
/* Start the timer - interrupts are disabled when this function is called
* so it is okay to do this here. */
T0TCR = portENABLE_TIMER;
/* Start the timer - interrupts are disabled when this function is called
so it is okay to do this here. */
T0TCR = portENABLE_TIMER;
}
/*-----------------------------------------------------------*/
void vPortEnterCritical( void )
{
/* Disable interrupts as per portDISABLE_INTERRUPTS(); */
__disable_irq();
/* Disable interrupts as per portDISABLE_INTERRUPTS(); */
__disable_irq();
/* Now interrupts are disabled ulCriticalNesting can be accessed
* directly. Increment ulCriticalNesting to keep a count of how many times
* portENTER_CRITICAL() has been called. */
ulCriticalNesting++;
/* Now interrupts are disabled ulCriticalNesting can be accessed
directly. Increment ulCriticalNesting to keep a count of how many times
portENTER_CRITICAL() has been called. */
ulCriticalNesting++;
}
/*-----------------------------------------------------------*/
void vPortExitCritical( void )
{
if( ulCriticalNesting > portNO_CRITICAL_NESTING )
{
/* Decrement the nesting count as we are leaving a critical section. */
ulCriticalNesting--;
if( ulCriticalNesting > portNO_CRITICAL_NESTING )
{
/* Decrement the nesting count as we are leaving a critical section. */
ulCriticalNesting--;
/* If the nesting level has reached zero then interrupts should be
* re-enabled. */
if( ulCriticalNesting == portNO_CRITICAL_NESTING )
{
/* Enable interrupts as per portEXIT_CRITICAL(). */
__enable_irq();
}
}
/* If the nesting level has reached zero then interrupts should be
re-enabled. */
if( ulCriticalNesting == portNO_CRITICAL_NESTING )
{
/* Enable interrupts as per portEXIT_CRITICAL(). */
__enable_irq();
}
}
}
/*-----------------------------------------------------------*/

121
portable/RVDS/ARM7_LPC21xx/portmacro.h
View file

@ -27,11 +27,11 @@
#ifndef PORTMACRO_H
#define PORTMACRO_H
#define PORTMACRO_H
#ifdef __cplusplus
extern "C" {
#endif
#ifdef __cplusplus
extern "C" {
#endif
/*-----------------------------------------------------------
* Port specific definitions.
@ -44,57 +44,57 @@
*/
/* Type definitions. */
#define portCHAR char
#define portFLOAT float
#define portDOUBLE double
#define portLONG long
#define portSHORT short
#define portSTACK_TYPE uint32_t
#define portBASE_TYPE long
#define portCHAR char
#define portFLOAT float
#define portDOUBLE double
#define portLONG long
#define portSHORT short
#define portSTACK_TYPE uint32_t
#define portBASE_TYPE long
typedef portSTACK_TYPE StackType_t;
typedef long BaseType_t;
typedef unsigned long UBaseType_t;
typedef portSTACK_TYPE StackType_t;
typedef long BaseType_t;
typedef unsigned long UBaseType_t;
#if ( configUSE_16_BIT_TICKS == 1 )
typedef uint16_t TickType_t;
#define portMAX_DELAY ( TickType_t ) 0xffff
#else
typedef uint32_t TickType_t;
#define portMAX_DELAY ( TickType_t ) 0xffffffffUL
#endif
#if( configUSE_16_BIT_TICKS == 1 )
typedef uint16_t TickType_t;
#define portMAX_DELAY ( TickType_t ) 0xffff
#else
typedef uint32_t TickType_t;
#define portMAX_DELAY ( TickType_t ) 0xffffffffUL
#endif
/*-----------------------------------------------------------*/
/* Hardware specifics. */
#define portSTACK_GROWTH ( -1 )
#define portTICK_PERIOD_MS ( ( TickType_t ) 1000 / configTICK_RATE_HZ )
#define portBYTE_ALIGNMENT 8
#define portSTACK_GROWTH ( -1 )
#define portTICK_PERIOD_MS ( ( TickType_t ) 1000 / configTICK_RATE_HZ )
#define portBYTE_ALIGNMENT 8
/*-----------------------------------------------------------*/
/* Task utilities. */
/*-----------------------------------------------------------
* ISR entry and exit macros. These are only required if a task switch
* is required from an ISR.
*----------------------------------------------------------*/
* ISR entry and exit macros. These are only required if a task switch
* is required from an ISR.
*----------------------------------------------------------*/
/* If a switch is required then we just need to call */
/* vTaskSwitchContext() as the context has already been */
/* saved. */
#define portEXIT_SWITCHING_ISR( SwitchRequired ) \
{ \
extern void vTaskSwitchContext( void ); \
\
if( SwitchRequired ) \
{ \
vTaskSwitchContext(); \
} \
} \
#define portEXIT_SWITCHING_ISR(SwitchRequired) \
{ \
extern void vTaskSwitchContext(void); \
\
if(SwitchRequired) \
{ \
vTaskSwitchContext(); \
} \
} \
extern void vPortYield( void );
#define portYIELD() vPortYield()
extern void vPortYield( void );
#define portYIELD() vPortYield()
/* Critical section management. */
@ -107,39 +107,40 @@
* take care of that for us.
*******************************************************************
*/
#define portDISABLE_INTERRUPTS() __disable_irq()
#define portENABLE_INTERRUPTS() __enable_irq()
#define portDISABLE_INTERRUPTS() __disable_irq()
#define portENABLE_INTERRUPTS() __enable_irq()
/*-----------------------------------------------------------
* Critical section control
*
* The code generated by the Keil compiler does not maintain separate
* stack and frame pointers. The portENTER_CRITICAL macro cannot therefore
* use the stack as per other ports. Instead a variable is used to keep
* track of the critical section nesting. This necessitates the use of a
* function in place of the macro.
*----------------------------------------------------------*/
* Critical section control
*
* The code generated by the Keil compiler does not maintain separate
* stack and frame pointers. The portENTER_CRITICAL macro cannot therefore
* use the stack as per other ports. Instead a variable is used to keep
* track of the critical section nesting. This necessitates the use of a
* function in place of the macro.
*----------------------------------------------------------*/
extern void vPortEnterCritical( void );
extern void vPortExitCritical( void );
extern void vPortEnterCritical( void );
extern void vPortExitCritical( void );
#define portENTER_CRITICAL() vPortEnterCritical();
#define portEXIT_CRITICAL() vPortExitCritical();
#define portENTER_CRITICAL() vPortEnterCritical();
#define portEXIT_CRITICAL() vPortExitCritical();
/*-----------------------------------------------------------*/
/* Compiler specifics. */
#define inline
#define register
#define portNOP() __asm{ NOP }
#define inline
#define register
#define portNOP() __asm{ NOP }
/*-----------------------------------------------------------*/
/* Task function macros as described on the FreeRTOS.org WEB site. */
#define portTASK_FUNCTION_PROTO( vFunction, pvParameters ) void vFunction( void * pvParameters )
#define portTASK_FUNCTION( vFunction, pvParameters ) void vFunction( void * pvParameters )
#define portTASK_FUNCTION_PROTO( vFunction, pvParameters ) void vFunction( void *pvParameters )
#define portTASK_FUNCTION( vFunction, pvParameters ) void vFunction( void *pvParameters )
#ifdef __cplusplus
}
#endif
#ifdef __cplusplus
}
#endif
#endif /* PORTMACRO_H */

557
portable/RVDS/ARM_CA9/port.c
View file

@ -33,124 +33,124 @@
#include "task.h"
#ifndef configINTERRUPT_CONTROLLER_BASE_ADDRESS
#error configINTERRUPT_CONTROLLER_BASE_ADDRESS must be defined. See http: /*www.freertos.org/Using-FreeRTOS-on-Cortex-A-Embedded-Processors.html */
#error configINTERRUPT_CONTROLLER_BASE_ADDRESS must be defined. See http://www.freertos.org/Using-FreeRTOS-on-Cortex-A-Embedded-Processors.html
#endif
#ifndef configINTERRUPT_CONTROLLER_CPU_INTERFACE_OFFSET
#error configINTERRUPT_CONTROLLER_CPU_INTERFACE_OFFSET must be defined. See http: /*www.freertos.org/Using-FreeRTOS-on-Cortex-A-Embedded-Processors.html */
#error configINTERRUPT_CONTROLLER_CPU_INTERFACE_OFFSET must be defined. See http://www.freertos.org/Using-FreeRTOS-on-Cortex-A-Embedded-Processors.html
#endif
#ifndef configUNIQUE_INTERRUPT_PRIORITIES
#error configUNIQUE_INTERRUPT_PRIORITIES must be defined. See http: /*www.freertos.org/Using-FreeRTOS-on-Cortex-A-Embedded-Processors.html */
#error configUNIQUE_INTERRUPT_PRIORITIES must be defined. See http://www.freertos.org/Using-FreeRTOS-on-Cortex-A-Embedded-Processors.html
#endif
#ifndef configSETUP_TICK_INTERRUPT
#error configSETUP_TICK_INTERRUPT() must be defined. See http: /*www.freertos.org/Using-FreeRTOS-on-Cortex-A-Embedded-Processors.html */
#error configSETUP_TICK_INTERRUPT() must be defined. See http://www.freertos.org/Using-FreeRTOS-on-Cortex-A-Embedded-Processors.html
#endif /* configSETUP_TICK_INTERRUPT */
#ifndef configMAX_API_CALL_INTERRUPT_PRIORITY
#error configMAX_API_CALL_INTERRUPT_PRIORITY must be defined. See http: /*www.freertos.org/Using-FreeRTOS-on-Cortex-A-Embedded-Processors.html */
#error configMAX_API_CALL_INTERRUPT_PRIORITY must be defined. See http://www.freertos.org/Using-FreeRTOS-on-Cortex-A-Embedded-Processors.html
#endif
#if configMAX_API_CALL_INTERRUPT_PRIORITY == 0
#error configMAX_API_CALL_INTERRUPT_PRIORITY must not be set to 0
#error configMAX_API_CALL_INTERRUPT_PRIORITY must not be set to 0
#endif
#if configMAX_API_CALL_INTERRUPT_PRIORITY > configUNIQUE_INTERRUPT_PRIORITIES
#error configMAX_API_CALL_INTERRUPT_PRIORITY must be less than or equal to configUNIQUE_INTERRUPT_PRIORITIES as the lower the numeric priority value the higher the logical interrupt priority
#error configMAX_API_CALL_INTERRUPT_PRIORITY must be less than or equal to configUNIQUE_INTERRUPT_PRIORITIES as the lower the numeric priority value the higher the logical interrupt priority
#endif
#if configUSE_PORT_OPTIMISED_TASK_SELECTION == 1
/* Check the configuration. */
#if ( configMAX_PRIORITIES > 32 )
#error configUSE_PORT_OPTIMISED_TASK_SELECTION can only be set to 1 when configMAX_PRIORITIES is less than or equal to 32. It is very rare that a system requires more than 10 to 15 difference priorities as tasks that share a priority will time slice.
#endif
/* Check the configuration. */
#if( configMAX_PRIORITIES > 32 )
#error configUSE_PORT_OPTIMISED_TASK_SELECTION can only be set to 1 when configMAX_PRIORITIES is less than or equal to 32. It is very rare that a system requires more than 10 to 15 difference priorities as tasks that share a priority will time slice.
#endif
#endif /* configUSE_PORT_OPTIMISED_TASK_SELECTION */
/* In case security extensions are implemented. */
#if configMAX_API_CALL_INTERRUPT_PRIORITY <= ( configUNIQUE_INTERRUPT_PRIORITIES / 2 )
#error configMAX_API_CALL_INTERRUPT_PRIORITY must be greater than ( configUNIQUE_INTERRUPT_PRIORITIES / 2 )
#error configMAX_API_CALL_INTERRUPT_PRIORITY must be greater than ( configUNIQUE_INTERRUPT_PRIORITIES / 2 )
#endif
#ifndef configCLEAR_TICK_INTERRUPT
#define configCLEAR_TICK_INTERRUPT()
#define configCLEAR_TICK_INTERRUPT()
#endif
/* The number of bits to shift for an interrupt priority is dependent on the
* number of bits implemented by the interrupt controller. */
number of bits implemented by the interrupt controller. */
#if configUNIQUE_INTERRUPT_PRIORITIES == 16
#define portPRIORITY_SHIFT 4
#define portMAX_BINARY_POINT_VALUE 3
#define portPRIORITY_SHIFT 4
#define portMAX_BINARY_POINT_VALUE 3
#elif configUNIQUE_INTERRUPT_PRIORITIES == 32
#define portPRIORITY_SHIFT 3
#define portMAX_BINARY_POINT_VALUE 2
#define portPRIORITY_SHIFT 3
#define portMAX_BINARY_POINT_VALUE 2
#elif configUNIQUE_INTERRUPT_PRIORITIES == 64
#define portPRIORITY_SHIFT 2
#define portMAX_BINARY_POINT_VALUE 1
#define portPRIORITY_SHIFT 2
#define portMAX_BINARY_POINT_VALUE 1
#elif configUNIQUE_INTERRUPT_PRIORITIES == 128
#define portPRIORITY_SHIFT 1
#define portMAX_BINARY_POINT_VALUE 0
#define portPRIORITY_SHIFT 1
#define portMAX_BINARY_POINT_VALUE 0
#elif configUNIQUE_INTERRUPT_PRIORITIES == 256
#define portPRIORITY_SHIFT 0
#define portMAX_BINARY_POINT_VALUE 0
#else /* if configUNIQUE_INTERRUPT_PRIORITIES == 16 */
#error Invalid configUNIQUE_INTERRUPT_PRIORITIES setting. configUNIQUE_INTERRUPT_PRIORITIES must be set to the number of unique priorities implemented by the target hardware
#endif /* if configUNIQUE_INTERRUPT_PRIORITIES == 16 */
#define portPRIORITY_SHIFT 0
#define portMAX_BINARY_POINT_VALUE 0
#else
#error Invalid configUNIQUE_INTERRUPT_PRIORITIES setting. configUNIQUE_INTERRUPT_PRIORITIES must be set to the number of unique priorities implemented by the target hardware
#endif
/* A critical section is exited when the critical section nesting count reaches
* this value. */
#define portNO_CRITICAL_NESTING ( ( uint32_t ) 0 )
this value. */
#define portNO_CRITICAL_NESTING ( ( uint32_t ) 0 )
/* In all GICs 255 can be written to the priority mask register to unmask all
* (but the lowest) interrupt priority. */
#define portUNMASK_VALUE ( 0xFFUL )
(but the lowest) interrupt priority. */
#define portUNMASK_VALUE ( 0xFFUL )
/* Tasks are not created with a floating point context, but can be given a
* floating point context after they have been created. A variable is stored as
* part of the tasks context that holds portNO_FLOATING_POINT_CONTEXT if the task
* does not have an FPU context, or any other value if the task does have an FPU
* context. */
#define portNO_FLOATING_POINT_CONTEXT ( ( StackType_t ) 0 )
floating point context after they have been created. A variable is stored as
part of the tasks context that holds portNO_FLOATING_POINT_CONTEXT if the task
does not have an FPU context, or any other value if the task does have an FPU
context. */
#define portNO_FLOATING_POINT_CONTEXT ( ( StackType_t ) 0 )
/* Interrupt controller access addresses. */
#define portICCPMR_PRIORITY_MASK_OFFSET ( 0x04 )
#define portICCIAR_INTERRUPT_ACKNOWLEDGE_OFFSET ( 0x0C )
#define portICCEOIR_END_OF_INTERRUPT_OFFSET ( 0x10 )
#define portICCBPR_BINARY_POINT_OFFSET ( 0x08 )
#define portICCRPR_RUNNING_PRIORITY_OFFSET ( 0x14 )
#define portINTERRUPT_CONTROLLER_CPU_INTERFACE_ADDRESS ( configINTERRUPT_CONTROLLER_BASE_ADDRESS + configINTERRUPT_CONTROLLER_CPU_INTERFACE_OFFSET )
#define portICCPMR_PRIORITY_MASK_REGISTER ( *( ( volatile uint32_t * ) ( portINTERRUPT_CONTROLLER_CPU_INTERFACE_ADDRESS + portICCPMR_PRIORITY_MASK_OFFSET ) ) )
#define portICCIAR_INTERRUPT_ACKNOWLEDGE_REGISTER_ADDRESS ( portINTERRUPT_CONTROLLER_CPU_INTERFACE_ADDRESS + portICCIAR_INTERRUPT_ACKNOWLEDGE_OFFSET )
#define portICCEOIR_END_OF_INTERRUPT_REGISTER_ADDRESS ( portINTERRUPT_CONTROLLER_CPU_INTERFACE_ADDRESS + portICCEOIR_END_OF_INTERRUPT_OFFSET )
#define portICCPMR_PRIORITY_MASK_REGISTER_ADDRESS ( portINTERRUPT_CONTROLLER_CPU_INTERFACE_ADDRESS + portICCPMR_PRIORITY_MASK_OFFSET )
#define portICCBPR_BINARY_POINT_REGISTER ( *( ( const volatile uint32_t * ) ( portINTERRUPT_CONTROLLER_CPU_INTERFACE_ADDRESS + portICCBPR_BINARY_POINT_OFFSET ) ) )
#define portICCRPR_RUNNING_PRIORITY_REGISTER ( *( ( const volatile uint32_t * ) ( portINTERRUPT_CONTROLLER_CPU_INTERFACE_ADDRESS + portICCRPR_RUNNING_PRIORITY_OFFSET ) ) )
#define portICCPMR_PRIORITY_MASK_OFFSET ( 0x04 )
#define portICCIAR_INTERRUPT_ACKNOWLEDGE_OFFSET ( 0x0C )
#define portICCEOIR_END_OF_INTERRUPT_OFFSET ( 0x10 )
#define portICCBPR_BINARY_POINT_OFFSET ( 0x08 )
#define portICCRPR_RUNNING_PRIORITY_OFFSET ( 0x14 )
#define portINTERRUPT_CONTROLLER_CPU_INTERFACE_ADDRESS ( configINTERRUPT_CONTROLLER_BASE_ADDRESS + configINTERRUPT_CONTROLLER_CPU_INTERFACE_OFFSET )
#define portICCPMR_PRIORITY_MASK_REGISTER ( *( ( volatile uint32_t * ) ( portINTERRUPT_CONTROLLER_CPU_INTERFACE_ADDRESS + portICCPMR_PRIORITY_MASK_OFFSET ) ) )
#define portICCIAR_INTERRUPT_ACKNOWLEDGE_REGISTER_ADDRESS ( portINTERRUPT_CONTROLLER_CPU_INTERFACE_ADDRESS + portICCIAR_INTERRUPT_ACKNOWLEDGE_OFFSET )
#define portICCEOIR_END_OF_INTERRUPT_REGISTER_ADDRESS ( portINTERRUPT_CONTROLLER_CPU_INTERFACE_ADDRESS + portICCEOIR_END_OF_INTERRUPT_OFFSET )
#define portICCPMR_PRIORITY_MASK_REGISTER_ADDRESS ( portINTERRUPT_CONTROLLER_CPU_INTERFACE_ADDRESS + portICCPMR_PRIORITY_MASK_OFFSET )
#define portICCBPR_BINARY_POINT_REGISTER ( *( ( const volatile uint32_t * ) ( portINTERRUPT_CONTROLLER_CPU_INTERFACE_ADDRESS + portICCBPR_BINARY_POINT_OFFSET ) ) )
#define portICCRPR_RUNNING_PRIORITY_REGISTER ( *( ( const volatile uint32_t * ) ( portINTERRUPT_CONTROLLER_CPU_INTERFACE_ADDRESS + portICCRPR_RUNNING_PRIORITY_OFFSET ) ) )
/* Used by portASSERT_IF_INTERRUPT_PRIORITY_INVALID() when ensuring the binary
* point is zero. */
#define portBINARY_POINT_BITS ( ( uint8_t ) 0x03 )
point is zero. */
#define portBINARY_POINT_BITS ( ( uint8_t ) 0x03 )
/* Constants required to setup the initial task context. */
#define portINITIAL_SPSR ( ( StackType_t ) 0x1f ) /* System mode, ARM mode, interrupts enabled. */
#define portTHUMB_MODE_BIT ( ( StackType_t ) 0x20 )
#define portTHUMB_MODE_ADDRESS ( 0x01UL )
#define portINITIAL_SPSR ( ( StackType_t ) 0x1f ) /* System mode, ARM mode, interrupts enabled. */
#define portTHUMB_MODE_BIT ( ( StackType_t ) 0x20 )
#define portTHUMB_MODE_ADDRESS ( 0x01UL )
/* Masks all bits in the APSR other than the mode bits. */
#define portAPSR_MODE_BITS_MASK ( 0x1F )
#define portAPSR_MODE_BITS_MASK ( 0x1F )
/* The value of the mode bits in the APSR when the CPU is executing in user
* mode. */
#define portAPSR_USER_MODE ( 0x10 )
mode. */
#define portAPSR_USER_MODE ( 0x10 )
/* Macro to unmask all interrupt priorities. */
#define portCLEAR_INTERRUPT_MASK() \
{ \
__disable_irq(); \
portICCPMR_PRIORITY_MASK_REGISTER = portUNMASK_VALUE; \
__asm( "DSB \n" \
"ISB \n"); \
__enable_irq(); \
}
#define portCLEAR_INTERRUPT_MASK() \
{ \
__disable_irq(); \
portICCPMR_PRIORITY_MASK_REGISTER = portUNMASK_VALUE; \
__asm( "DSB \n" \
"ISB \n" ); \
__enable_irq(); \
}
/*-----------------------------------------------------------*/
@ -168,29 +168,29 @@ static void prvTaskExitError( void );
/*-----------------------------------------------------------*/
/* A variable is used to keep track of the critical section nesting. This
* variable has to be stored as part of the task context and must be initialised to
* a non zero value to ensure interrupts don't inadvertently become unmasked before
* the scheduler starts. As it is stored as part of the task context it will
* automatically be set to 0 when the first task is started. */
variable has to be stored as part of the task context and must be initialised to
a non zero value to ensure interrupts don't inadvertently become unmasked before
the scheduler starts. As it is stored as part of the task context it will
automatically be set to 0 when the first task is started. */
volatile uint32_t ulCriticalNesting = 9999UL;
/* Used to pass constants into the ASM code. The address at which variables are
* placed is the constant value so indirect loads in the asm code are not
* required. */
placed is the constant value so indirect loads in the asm code are not
required. */
uint32_t ulICCIAR __attribute__( ( at( portICCIAR_INTERRUPT_ACKNOWLEDGE_REGISTER_ADDRESS ) ) );
uint32_t ulICCEOIR __attribute__( ( at( portICCEOIR_END_OF_INTERRUPT_REGISTER_ADDRESS ) ) );
uint32_t ulICCPMR __attribute__( ( at( portICCPMR_PRIORITY_MASK_REGISTER_ADDRESS ) ) );
uint32_t ulAsmAPIPriorityMask __attribute__( ( at( configMAX_API_CALL_INTERRUPT_PRIORITY << portPRIORITY_SHIFT ) ) );
/* Saved as part of the task context. If ulPortTaskHasFPUContext is non-zero then
* a floating point context must be saved and restored for the task. */
a floating point context must be saved and restored for the task. */
uint32_t ulPortTaskHasFPUContext = pdFALSE;
/* Set to 1 to pend a context switch from an ISR. */
uint32_t ulPortYieldRequired = pdFALSE;
/* Counts the interrupt nesting depth. A context switch is only performed if
* if the nesting depth is 0. */
if the nesting depth is 0. */
uint32_t ulPortInterruptNesting = 0UL;
/*-----------------------------------------------------------*/
@ -198,286 +198,283 @@ uint32_t ulPortInterruptNesting = 0UL;
/*
* See header file for description.
*/
StackType_t * pxPortInitialiseStack( StackType_t * pxTopOfStack,
TaskFunction_t pxCode,
void * pvParameters )
StackType_t *pxPortInitialiseStack( StackType_t *pxTopOfStack, TaskFunction_t pxCode, void *pvParameters )
{
/* Setup the initial stack of the task. The stack is set exactly as
* expected by the portRESTORE_CONTEXT() macro.
*
* The fist real value on the stack is the status register, which is set for
* system mode, with interrupts enabled. A few NULLs are added first to ensure
* GDB does not try decoding a non-existent return address. */
*pxTopOfStack = NULL;
pxTopOfStack--;
*pxTopOfStack = NULL;
pxTopOfStack--;
*pxTopOfStack = NULL;
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) portINITIAL_SPSR;
/* Setup the initial stack of the task. The stack is set exactly as
expected by the portRESTORE_CONTEXT() macro.
if( ( ( uint32_t ) pxCode & portTHUMB_MODE_ADDRESS ) != 0x00UL )
{
/* The task will start in THUMB mode. */
*pxTopOfStack |= portTHUMB_MODE_BIT;
}
The fist real value on the stack is the status register, which is set for
system mode, with interrupts enabled. A few NULLs are added first to ensure
GDB does not try decoding a non-existent return address. */
*pxTopOfStack = NULL;
pxTopOfStack--;
*pxTopOfStack = NULL;
pxTopOfStack--;
*pxTopOfStack = NULL;
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) portINITIAL_SPSR;
pxTopOfStack--;
if( ( ( uint32_t ) pxCode & portTHUMB_MODE_ADDRESS ) != 0x00UL )
{
/* The task will start in THUMB mode. */
*pxTopOfStack |= portTHUMB_MODE_BIT;
}
/* Next the return address, which in this case is the start of the task. */
*pxTopOfStack = ( StackType_t ) pxCode;
pxTopOfStack--;
pxTopOfStack--;
/* Next all the registers other than the stack pointer. */
*pxTopOfStack = ( StackType_t ) prvTaskExitError; /* R14 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x12121212; /* R12 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x11111111; /* R11 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x10101010; /* R10 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x09090909; /* R9 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x08080808; /* R8 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x07070707; /* R7 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x06060606; /* R6 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x05050505; /* R5 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x04040404; /* R4 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x03030303; /* R3 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x02020202; /* R2 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x01010101; /* R1 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) pvParameters; /* R0 */
pxTopOfStack--;
/* Next the return address, which in this case is the start of the task. */
*pxTopOfStack = ( StackType_t ) pxCode;
pxTopOfStack--;
/* The task will start with a critical nesting count of 0 as interrupts are
* enabled. */
*pxTopOfStack = portNO_CRITICAL_NESTING;
pxTopOfStack--;
/* Next all the registers other than the stack pointer. */
*pxTopOfStack = ( StackType_t ) prvTaskExitError; /* R14 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x12121212; /* R12 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x11111111; /* R11 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x10101010; /* R10 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x09090909; /* R9 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x08080808; /* R8 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x07070707; /* R7 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x06060606; /* R6 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x05050505; /* R5 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x04040404; /* R4 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x03030303; /* R3 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x02020202; /* R2 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) 0x01010101; /* R1 */
pxTopOfStack--;
*pxTopOfStack = ( StackType_t ) pvParameters; /* R0 */
pxTopOfStack--;
/* The task will start without a floating point context. A task that uses
* the floating point hardware must call vPortTaskUsesFPU() before executing
* any floating point instructions. */
*pxTopOfStack = portNO_FLOATING_POINT_CONTEXT;
/* The task will start with a critical nesting count of 0 as interrupts are
enabled. */
*pxTopOfStack = portNO_CRITICAL_NESTING;
pxTopOfStack--;
return pxTopOfStack;
/* The task will start without a floating point context. A task that uses
the floating point hardware must call vPortTaskUsesFPU() before executing
any floating point instructions. */
*pxTopOfStack = portNO_FLOATING_POINT_CONTEXT;
return pxTopOfStack;
}
/*-----------------------------------------------------------*/
static void prvTaskExitError( void )
{
/* A function that implements a task must not exit or attempt to return to
* its caller as there is nothing to return to. If a task wants to exit it
* should instead call vTaskDelete( NULL ).
*
* Artificially force an assert() to be triggered if configASSERT() is
* defined, then stop here so application writers can catch the error. */
configASSERT( ulPortInterruptNesting == ~0UL );
portDISABLE_INTERRUPTS();
/* A function that implements a task must not exit or attempt to return to
its caller as there is nothing to return to. If a task wants to exit it
should instead call vTaskDelete( NULL ).
for( ; ; )
{
}
Artificially force an assert() to be triggered if configASSERT() is
defined, then stop here so application writers can catch the error. */
configASSERT( ulPortInterruptNesting == ~0UL );
portDISABLE_INTERRUPTS();
for( ;; );
}
/*-----------------------------------------------------------*/
BaseType_t xPortStartScheduler( void )
{
uint32_t ulAPSR;
uint32_t ulAPSR;
/* Only continue if the CPU is not in User mode. The CPU must be in a
* Privileged mode for the scheduler to start. */
__asm( "MRS ulAPSR, APSR" );
ulAPSR &= portAPSR_MODE_BITS_MASK;
configASSERT( ulAPSR != portAPSR_USER_MODE );
/* Only continue if the CPU is not in User mode. The CPU must be in a
Privileged mode for the scheduler to start. */
__asm( "MRS ulAPSR, APSR" );
ulAPSR &= portAPSR_MODE_BITS_MASK;
configASSERT( ulAPSR != portAPSR_USER_MODE );
if( ulAPSR != portAPSR_USER_MODE )
{
/* Only continue if the binary point value is set to its lowest possible
* setting. See the comments in vPortValidateInterruptPriority() below for
* more information. */
configASSERT( ( portICCBPR_BINARY_POINT_REGISTER & portBINARY_POINT_BITS ) <= portMAX_BINARY_POINT_VALUE );
if( ulAPSR != portAPSR_USER_MODE )
{
/* Only continue if the binary point value is set to its lowest possible
setting. See the comments in vPortValidateInterruptPriority() below for
more information. */
configASSERT( ( portICCBPR_BINARY_POINT_REGISTER & portBINARY_POINT_BITS ) <= portMAX_BINARY_POINT_VALUE );
if( ( portICCBPR_BINARY_POINT_REGISTER & portBINARY_POINT_BITS ) <= portMAX_BINARY_POINT_VALUE )
{
/* Start the timer that generates the tick ISR. */
configSETUP_TICK_INTERRUPT();
if( ( portICCBPR_BINARY_POINT_REGISTER & portBINARY_POINT_BITS ) <= portMAX_BINARY_POINT_VALUE )
{
/* Start the timer that generates the tick ISR. */
configSETUP_TICK_INTERRUPT();
__enable_irq();
vPortRestoreTaskContext();
}
}
__enable_irq();
vPortRestoreTaskContext();
}
}
/* Will only get here if vTaskStartScheduler() was called with the CPU in
* a non-privileged mode or the binary point register was not set to its lowest
* possible value. */
return 0;
/* Will only get here if vTaskStartScheduler() was called with the CPU in
a non-privileged mode or the binary point register was not set to its lowest
possible value. */
return 0;
}
/*-----------------------------------------------------------*/
void vPortEndScheduler( void )
{
/* Not implemented in ports where there is nothing to return to.
* Artificially force an assert. */
configASSERT( ulCriticalNesting == 1000UL );
/* Not implemented in ports where there is nothing to return to.
Artificially force an assert. */
configASSERT( ulCriticalNesting == 1000UL );
}
/*-----------------------------------------------------------*/
void vPortEnterCritical( void )
{
/* Disable interrupts as per portDISABLE_INTERRUPTS(); */
ulPortSetInterruptMask();
/* Disable interrupts as per portDISABLE_INTERRUPTS(); */
ulPortSetInterruptMask();
/* Now interrupts are disabled ulCriticalNesting can be accessed
* directly. Increment ulCriticalNesting to keep a count of how many times
* portENTER_CRITICAL() has been called. */
ulCriticalNesting++;
/* Now interrupts are disabled ulCriticalNesting can be accessed
directly. Increment ulCriticalNesting to keep a count of how many times
portENTER_CRITICAL() has been called. */
ulCriticalNesting++;
/* This is not the interrupt safe version of the enter critical function so
* assert() if it is being called from an interrupt context. Only API
* functions that end in "FromISR" can be used in an interrupt. Only assert if
* the critical nesting count is 1 to protect against recursive calls if the
* assert function also uses a critical section. */
if( ulCriticalNesting == 1 )
{
configASSERT( ulPortInterruptNesting == 0 );
}
/* This is not the interrupt safe version of the enter critical function so
assert() if it is being called from an interrupt context. Only API
functions that end in "FromISR" can be used in an interrupt. Only assert if
the critical nesting count is 1 to protect against recursive calls if the
assert function also uses a critical section. */
if( ulCriticalNesting == 1 )
{
configASSERT( ulPortInterruptNesting == 0 );
}
}
/*-----------------------------------------------------------*/
void vPortExitCritical( void )
{
if( ulCriticalNesting > portNO_CRITICAL_NESTING )
{
/* Decrement the nesting count as the critical section is being
* exited. */
ulCriticalNesting--;
if( ulCriticalNesting > portNO_CRITICAL_NESTING )
{
/* Decrement the nesting count as the critical section is being
exited. */
ulCriticalNesting--;
/* If the nesting level has reached zero then all interrupt
* priorities must be re-enabled. */
if( ulCriticalNesting == portNO_CRITICAL_NESTING )
{
/* Critical nesting has reached zero so all interrupt priorities
* should be unmasked. */
portCLEAR_INTERRUPT_MASK();
}
}
/* If the nesting level has reached zero then all interrupt
priorities must be re-enabled. */
if( ulCriticalNesting == portNO_CRITICAL_NESTING )
{
/* Critical nesting has reached zero so all interrupt priorities
should be unmasked. */
portCLEAR_INTERRUPT_MASK();
}
}
}
/*-----------------------------------------------------------*/
void FreeRTOS_Tick_Handler( void )
{
/* Set interrupt mask before altering scheduler structures. The tick
* handler runs at the lowest priority, so interrupts cannot already be masked,
* so there is no need to save and restore the current mask value. */
__disable_irq();
portICCPMR_PRIORITY_MASK_REGISTER = ( uint32_t ) ( configMAX_API_CALL_INTERRUPT_PRIORITY << portPRIORITY_SHIFT );
__asm( "DSB \n"
"ISB \n");
__enable_irq();
/* Set interrupt mask before altering scheduler structures. The tick
handler runs at the lowest priority, so interrupts cannot already be masked,
so there is no need to save and restore the current mask value. */
__disable_irq();
portICCPMR_PRIORITY_MASK_REGISTER = ( uint32_t ) ( configMAX_API_CALL_INTERRUPT_PRIORITY << portPRIORITY_SHIFT );
__asm( "DSB \n"
"ISB \n" );
__enable_irq();
/* Increment the RTOS tick. */
if( xTaskIncrementTick() != pdFALSE )
{
ulPortYieldRequired = pdTRUE;
}
/* Increment the RTOS tick. */
if( xTaskIncrementTick() != pdFALSE )
{
ulPortYieldRequired = pdTRUE;
}
/* Ensure all interrupt priorities are active again. */
portCLEAR_INTERRUPT_MASK();
configCLEAR_TICK_INTERRUPT();
/* Ensure all interrupt priorities are active again. */
portCLEAR_INTERRUPT_MASK();
configCLEAR_TICK_INTERRUPT();
}
/*-----------------------------------------------------------*/
void vPortTaskUsesFPU( void )
{
uint32_t ulInitialFPSCR = 0;
uint32_t ulInitialFPSCR = 0;
/* A task is registering the fact that it needs an FPU context. Set the
* FPU flag (which is saved as part of the task context). */
ulPortTaskHasFPUContext = pdTRUE;
/* A task is registering the fact that it needs an FPU context. Set the
FPU flag (which is saved as part of the task context). */
ulPortTaskHasFPUContext = pdTRUE;
/* Initialise the floating point status register. */
__asm( "FMXR FPSCR, ulInitialFPSCR");
/* Initialise the floating point status register. */
__asm( "FMXR FPSCR, ulInitialFPSCR" );
}
/*-----------------------------------------------------------*/
void vPortClearInterruptMask( uint32_t ulNewMaskValue )
{
if( ulNewMaskValue == pdFALSE )
{
portCLEAR_INTERRUPT_MASK();
}
if( ulNewMaskValue == pdFALSE )
{
portCLEAR_INTERRUPT_MASK();
}
}
/*-----------------------------------------------------------*/
uint32_t ulPortSetInterruptMask( void )
{
uint32_t ulReturn;
uint32_t ulReturn;
__disable_irq();
__disable_irq();
if( portICCPMR_PRIORITY_MASK_REGISTER == ( uint32_t ) ( configMAX_API_CALL_INTERRUPT_PRIORITY << portPRIORITY_SHIFT ) )
{
/* Interrupts were already masked. */
ulReturn = pdTRUE;
}
else
{
ulReturn = pdFALSE;
portICCPMR_PRIORITY_MASK_REGISTER = ( uint32_t ) ( configMAX_API_CALL_INTERRUPT_PRIORITY << portPRIORITY_SHIFT );
__asm( "DSB \n"
"ISB \n" );
}
__enable_irq();
if( portICCPMR_PRIORITY_MASK_REGISTER == ( uint32_t ) ( configMAX_API_CALL_INTERRUPT_PRIORITY << portPRIORITY_SHIFT ) )
{
/* Interrupts were already masked. */
ulReturn = pdTRUE;
}
else
{
ulReturn = pdFALSE;
portICCPMR_PRIORITY_MASK_REGISTER = ( uint32_t ) ( configMAX_API_CALL_INTERRUPT_PRIORITY << portPRIORITY_SHIFT );
__asm( "DSB \n"
"ISB \n");
}
__enable_irq();
return ulReturn;
return ulReturn;
}
/*-----------------------------------------------------------*/
#if ( configASSERT_DEFINED == 1 )
#if( configASSERT_DEFINED == 1 )
void vPortValidateInterruptPriority( void )
{
/* The following assertion will fail if a service routine (ISR) for
* an interrupt that has been assigned a priority above
* configMAX_SYSCALL_INTERRUPT_PRIORITY calls an ISR safe FreeRTOS API
* function. ISR safe FreeRTOS API functions must *only* be called
* from interrupts that have been assigned a priority at or below
* configMAX_SYSCALL_INTERRUPT_PRIORITY.
*
* Numerically low interrupt priority numbers represent logically high
* interrupt priorities, therefore the priority of the interrupt must
* be set to a value equal to or numerically *higher* than
* configMAX_SYSCALL_INTERRUPT_PRIORITY.
*
* FreeRTOS maintains separate thread and ISR API functions to ensure
* interrupt entry is as fast and simple as possible.
*
* The following links provide detailed information:
* http://www.freertos.org/RTOS-Cortex-M3-M4.html
* http://www.freertos.org/FAQHelp.html */
configASSERT( portICCRPR_RUNNING_PRIORITY_REGISTER >= ( configMAX_API_CALL_INTERRUPT_PRIORITY << portPRIORITY_SHIFT ) );
void vPortValidateInterruptPriority( void )
{
/* The following assertion will fail if a service routine (ISR) for
an interrupt that has been assigned a priority above
configMAX_SYSCALL_INTERRUPT_PRIORITY calls an ISR safe FreeRTOS API
function. ISR safe FreeRTOS API functions must *only* be called
from interrupts that have been assigned a priority at or below
configMAX_SYSCALL_INTERRUPT_PRIORITY.
/* Priority grouping: The interrupt controller (GIC) allows the bits
* that define each interrupt's priority to be split between bits that
* define the interrupt's pre-emption priority bits and bits that define
* the interrupt's sub-priority. For simplicity all bits must be defined
* to be pre-emption priority bits. The following assertion will fail if
* this is not the case (if some bits represent a sub-priority).
*
* The priority grouping is configured by the GIC's binary point register
* (ICCBPR). Writting 0 to ICCBPR will ensure it is set to its lowest
* possible value (which may be above 0). */
configASSERT( portICCBPR_BINARY_POINT_REGISTER <= portMAX_BINARY_POINT_VALUE );
}
Numerically low interrupt priority numbers represent logically high
interrupt priorities, therefore the priority of the interrupt must
be set to a value equal to or numerically *higher* than
configMAX_SYSCALL_INTERRUPT_PRIORITY.
FreeRTOS maintains separate thread and ISR API functions to ensure
interrupt entry is as fast and simple as possible.
The following links provide detailed information:
http://www.freertos.org/RTOS-Cortex-M3-M4.html
http://www.freertos.org/FAQHelp.html */
configASSERT( portICCRPR_RUNNING_PRIORITY_REGISTER >= ( configMAX_API_CALL_INTERRUPT_PRIORITY << portPRIORITY_SHIFT ) );
/* Priority grouping: The interrupt controller (GIC) allows the bits
that define each interrupt's priority to be split between bits that
define the interrupt's pre-emption priority bits and bits that define
the interrupt's sub-priority. For simplicity all bits must be defined
to be pre-emption priority bits. The following assertion will fail if
this is not the case (if some bits represent a sub-priority).
The priority grouping is configured by the GIC's binary point register
(ICCBPR). Writting 0 to ICCBPR will ensure it is set to its lowest
possible value (which may be above 0). */
configASSERT( portICCBPR_BINARY_POINT_REGISTER <= portMAX_BINARY_POINT_VALUE );
}
#endif /* configASSERT_DEFINED */

161
portable/RVDS/ARM_CA9/portmacro.h
View file

@ -26,11 +26,11 @@
*/
#ifndef PORTMACRO_H
#define PORTMACRO_H
#define PORTMACRO_H
#ifdef __cplusplus
extern "C" {
#endif
#ifdef __cplusplus
extern "C" {
#endif
/*-----------------------------------------------------------
* Port specific definitions.
@ -43,120 +43,121 @@
*/
/* Type definitions. */
#define portCHAR char
#define portFLOAT float
#define portDOUBLE double
#define portLONG long
#define portSHORT short
#define portSTACK_TYPE uint32_t
#define portBASE_TYPE long
#define portCHAR char
#define portFLOAT float
#define portDOUBLE double
#define portLONG long
#define portSHORT short
#define portSTACK_TYPE uint32_t
#define portBASE_TYPE long
typedef portSTACK_TYPE StackType_t;
typedef long BaseType_t;
typedef unsigned long UBaseType_t;
typedef portSTACK_TYPE StackType_t;
typedef long BaseType_t;
typedef unsigned long UBaseType_t;
#if ( configUSE_16_BIT_TICKS == 1 )
typedef uint16_t TickType_t;
#define portMAX_DELAY ( TickType_t ) 0xffff
#else
typedef uint32_t TickType_t;
#define portMAX_DELAY ( TickType_t ) 0xffffffffUL
#if( configUSE_16_BIT_TICKS == 1 )
typedef uint16_t TickType_t;
#define portMAX_DELAY ( TickType_t ) 0xffff
#else
typedef uint32_t TickType_t;
#define portMAX_DELAY ( TickType_t ) 0xffffffffUL
/* 32-bit tick type on a 32-bit architecture, so reads of the tick count do
* not need to be guarded with a critical section. */
#define portTICK_TYPE_IS_ATOMIC 1
#endif
/* 32-bit tick type on a 32-bit architecture, so reads of the tick count do
not need to be guarded with a critical section. */
#define portTICK_TYPE_IS_ATOMIC 1
#endif
/*-----------------------------------------------------------*/
/* Hardware specifics. */
#define portSTACK_GROWTH ( -1 )
#define portTICK_PERIOD_MS ( ( TickType_t ) 1000 / configTICK_RATE_HZ )
#define portBYTE_ALIGNMENT 8
#define portSTACK_GROWTH ( -1 )
#define portTICK_PERIOD_MS ( ( TickType_t ) 1000 / configTICK_RATE_HZ )
#define portBYTE_ALIGNMENT 8
/*-----------------------------------------------------------*/
/* Task utilities. */
/* Called at the end of an ISR that can cause a context switch. */
#define portEND_SWITCHING_ISR( xSwitchRequired ) \
{ \
extern uint32_t ulPortYieldRequired; \
\
if( xSwitchRequired != pdFALSE ) \
{ \
ulPortYieldRequired = pdTRUE; \
} \
}
#define portEND_SWITCHING_ISR( xSwitchRequired )\
{ \
extern uint32_t ulPortYieldRequired; \
\
if( xSwitchRequired != pdFALSE ) \
{ \
ulPortYieldRequired = pdTRUE; \
} \
}
#define portYIELD_FROM_ISR( x ) portEND_SWITCHING_ISR( x )
#define portYIELD() __asm( "SWI 0" );
#define portYIELD_FROM_ISR( x ) portEND_SWITCHING_ISR( x )
#define portYIELD() __asm( "SWI 0" );
/*-----------------------------------------------------------
* Critical section control
*----------------------------------------------------------*/
* Critical section control
*----------------------------------------------------------*/
extern void vPortEnterCritical( void );
extern void vPortExitCritical( void );
extern uint32_t ulPortSetInterruptMask( void );
extern void vPortClearInterruptMask( uint32_t ulNewMaskValue );
extern void vPortEnterCritical( void );
extern void vPortExitCritical( void );
extern uint32_t ulPortSetInterruptMask( void );
extern void vPortClearInterruptMask( uint32_t ulNewMaskValue );
/* These macros do not globally disable/enable interrupts. They do mask off
* interrupts that have a priority below configMAX_API_CALL_INTERRUPT_PRIORITY. */
#define portENTER_CRITICAL() vPortEnterCritical();
#define portEXIT_CRITICAL() vPortExitCritical();
#define portDISABLE_INTERRUPTS() ulPortSetInterruptMask()
#define portENABLE_INTERRUPTS() vPortClearInterruptMask( 0 )
#define portSET_INTERRUPT_MASK_FROM_ISR() ulPortSetInterruptMask()
#define portCLEAR_INTERRUPT_MASK_FROM_ISR( x ) vPortClearInterruptMask( x )
interrupts that have a priority below configMAX_API_CALL_INTERRUPT_PRIORITY. */
#define portENTER_CRITICAL() vPortEnterCritical();
#define portEXIT_CRITICAL() vPortExitCritical();
#define portDISABLE_INTERRUPTS() ulPortSetInterruptMask()
#define portENABLE_INTERRUPTS() vPortClearInterruptMask( 0 )
#define portSET_INTERRUPT_MASK_FROM_ISR() ulPortSetInterruptMask()
#define portCLEAR_INTERRUPT_MASK_FROM_ISR(x) vPortClearInterruptMask(x)
/*-----------------------------------------------------------*/
/* Task function macros as described on the FreeRTOS.org WEB site. These are
* not required for this port but included in case common demo code that uses these
* macros is used. */
#define portTASK_FUNCTION_PROTO( vFunction, pvParameters ) void vFunction( void * pvParameters )
#define portTASK_FUNCTION( vFunction, pvParameters ) void vFunction( void * pvParameters )
not required for this port but included in case common demo code that uses these
macros is used. */
#define portTASK_FUNCTION_PROTO( vFunction, pvParameters ) void vFunction( void *pvParameters )
#define portTASK_FUNCTION( vFunction, pvParameters ) void vFunction( void *pvParameters )
/* Prototype of the FreeRTOS tick handler. This must be installed as the
* handler for whichever peripheral is used to generate the RTOS tick. */
void FreeRTOS_Tick_Handler( void );
handler for whichever peripheral is used to generate the RTOS tick. */
void FreeRTOS_Tick_Handler( void );
/* Any task that uses the floating point unit MUST call vPortTaskUsesFPU()
* before any floating point instructions are executed. */
void vPortTaskUsesFPU( void );
#define portTASK_USES_FLOATING_POINT() vPortTaskUsesFPU()
before any floating point instructions are executed. */
void vPortTaskUsesFPU( void );
#define portTASK_USES_FLOATING_POINT() vPortTaskUsesFPU()
#define portLOWEST_INTERRUPT_PRIORITY ( ( ( uint32_t ) configUNIQUE_INTERRUPT_PRIORITIES ) - 1UL )
#define portLOWEST_USABLE_INTERRUPT_PRIORITY ( portLOWEST_INTERRUPT_PRIORITY - 1UL )
#define portLOWEST_INTERRUPT_PRIORITY ( ( ( uint32_t ) configUNIQUE_INTERRUPT_PRIORITIES ) - 1UL )
#define portLOWEST_USABLE_INTERRUPT_PRIORITY ( portLOWEST_INTERRUPT_PRIORITY - 1UL )
/* Architecture specific optimisations. */
#ifndef configUSE_PORT_OPTIMISED_TASK_SELECTION
#define configUSE_PORT_OPTIMISED_TASK_SELECTION 1
#endif
#ifndef configUSE_PORT_OPTIMISED_TASK_SELECTION
#define configUSE_PORT_OPTIMISED_TASK_SELECTION 1
#endif
#if configUSE_PORT_OPTIMISED_TASK_SELECTION == 1
#if configUSE_PORT_OPTIMISED_TASK_SELECTION == 1
/* Store/clear the ready priorities in a bit map. */
#define portRECORD_READY_PRIORITY( uxPriority, uxReadyPriorities ) ( uxReadyPriorities ) |= ( 1UL << ( uxPriority ) )
#define portRESET_READY_PRIORITY( uxPriority, uxReadyPriorities ) ( uxReadyPriorities ) &= ~( 1UL << ( uxPriority ) )
/* Store/clear the ready priorities in a bit map. */
#define portRECORD_READY_PRIORITY( uxPriority, uxReadyPriorities ) ( uxReadyPriorities ) |= ( 1UL << ( uxPriority ) )
#define portRESET_READY_PRIORITY( uxPriority, uxReadyPriorities ) ( uxReadyPriorities ) &= ~( 1UL << ( uxPriority ) )
/*-----------------------------------------------------------*/
/*-----------------------------------------------------------*/
#define portGET_HIGHEST_PRIORITY( uxTopPriority, uxReadyPriorities ) uxTopPriority = ( 31 - __clz( uxReadyPriorities ) )
#define portGET_HIGHEST_PRIORITY( uxTopPriority, uxReadyPriorities ) uxTopPriority = ( 31 - __clz( uxReadyPriorities ) )
#endif /* configUSE_PORT_OPTIMISED_TASK_SELECTION */
#endif /* configUSE_PORT_OPTIMISED_TASK_SELECTION */
#ifdef configASSERT
void vPortValidateInterruptPriority( void );
#define portASSERT_IF_INTERRUPT_PRIORITY_INVALID() vPortValidateInterruptPriority()
#endif
#ifdef configASSERT
void vPortValidateInterruptPriority( void );
#define portASSERT_IF_INTERRUPT_PRIORITY_INVALID() vPortValidateInterruptPriority()
#endif
#define portNOP() __nop()
#define portNOP() __nop()
#ifdef __cplusplus
}
#endif
#ifdef __cplusplus
}
#endif
#endif /* PORTMACRO_H */

18
portable/RVDS/ARM_CM0/port.c
View file

@ -177,20 +177,21 @@ __asm void prvPortStartFirstTask( void )
/* The MSP stack is not reset as, unlike on M3/4 parts, there is no vector
* table offset register that can be used to locate the initial stack value.
* Not all M0 parts have the application vector table at address 0. */
/* *INDENT-OFF* */
ldr r3, = pxCurrentTCB /* Obtain location of pxCurrentTCB. */
ldr r1, [ r3 ]
ldr r1, [ r3 ]
ldr r0, [ r1 ] /* The first item in pxCurrentTCB is the task top of stack. */
adds r0, # 32 /* Discard everything up to r0. */
msr psp, r0 /* This is now the new top of stack to use in the task. */
movs r0, # 2 /* Switch to the psp stack. */
msr CONTROL, r0
isb
pop {
pop {
r0 - r5
} /* Pop the registers that are saved automatically. */
mov lr, r5 /* lr is now in r5. */
pop {
pop {
r3
} /* The return address is now in r3. */
pop {
@ -199,7 +200,8 @@ __asm void prvPortStartFirstTask( void )
cpsie i /* The first task has its context and interrupts can be enabled. */
bx r3 /* Finally, jump to the user defined task code. */
ALIGN
ALIGN
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/
@ -289,12 +291,13 @@ __asm void xPortPendSVHandler( void )
extern vTaskSwitchContext
extern pxCurrentTCB
/* *INDENT-OFF* */
PRESERVE8
mrs r0, psp
ldr r3, = pxCurrentTCB /* Get the location of the current TCB. */
ldr r2, [ r3 ]
ldr r2, [ r3 ]
subs r0, # 32 /* Make space for the remaining low registers. */
str r0, [ r2 ] /* Save the new top of stack. */
@ -315,7 +318,7 @@ __asm void xPortPendSVHandler( void )
cpsid i
bl vTaskSwitchContext
cpsie i
pop {
pop {
r2, r3
} /* lr goes in r3. r2 now holds tcb pointer. */
@ -338,7 +341,8 @@ __asm void xPortPendSVHandler( void )
} /* Pop low registers. */
bx r3
ALIGN
ALIGN
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/

26
portable/RVDS/ARM_CM3/port.c
View file

@ -213,10 +213,11 @@ static void prvTaskExitError( void )
__asm void vPortSVCHandler( void )
{
/* *INDENT-OFF* */
PRESERVE8
ldr r3, = pxCurrentTCB /* Restore the context. */
ldr r1, [ r3 ] /* Use pxCurrentTCBConst to get the pxCurrentTCB address. */
ldr r1, [ r3 ] /* Use pxCurrentTCBConst to get the pxCurrentTCB address. */
ldr r0, [ r1 ] /* The first item in pxCurrentTCB is the task top of stack. */
ldmia r0 !, {
r4 - r11
@ -227,16 +228,18 @@ __asm void vPortSVCHandler( void )
msr basepri, r0
orr r14, # 0xd
bx r14
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/
__asm void prvStartFirstTask( void )
{
/* *INDENT-OFF* */
PRESERVE8
/* Use the NVIC offset register to locate the stack. */
ldr r0, = 0xE000ED08
ldr r0, [ r0 ]
ldr r0, [ r0 ]
ldr r0, [ r0 ]
/* Set the msp back to the start of the stack. */
@ -247,9 +250,10 @@ __asm void prvStartFirstTask( void )
dsb
isb
/* Call SVC to start the first task. */
svc 0
svc 0
nop
nop
nop
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/
@ -388,13 +392,14 @@ __asm void xPortPendSVHandler( void )
extern pxCurrentTCB;
extern vTaskSwitchContext;
/* *INDENT-OFF* */
PRESERVE8
mrs r0, psp
isb
ldr r3, = pxCurrentTCB /* Get the location of the current TCB. */
ldr r2, [ r3 ]
ldr r3, =pxCurrentTCB /* Get the location of the current TCB. */
ldr r2, [ r3 ]
stmdb r0 !, {
r4 - r11
@ -404,12 +409,12 @@ __asm void xPortPendSVHandler( void )
stmdb sp !, {
r3, r14
}
mov r0, # configMAX_SYSCALL_INTERRUPT_PRIORITY
mov r0, #configMAX_SYSCALL_INTERRUPT_PRIORITY
msr basepri, r0
dsb
isb
bl vTaskSwitchContext
mov r0, # 0
mov r0, #0
msr basepri, r0
ldmia sp !, {
r3, r14
@ -423,7 +428,8 @@ __asm void xPortPendSVHandler( void )
msr psp, r0
isb
bx r14
nop
nop
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/
@ -651,10 +657,12 @@ void xPortSysTickHandler( void )
__asm uint32_t vPortGetIPSR( void )
{
/* *INDENT-OFF* */
PRESERVE8
mrs r0, ipsr
bx r14
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/

32
portable/RVDS/ARM_CM4F/port.c
View file

@ -240,6 +240,7 @@ static void prvTaskExitError( void )
__asm void vPortSVCHandler( void )
{
/* *INDENT-OFF* */
PRESERVE8
/* Get the location of the current TCB. */
@ -255,16 +256,18 @@ __asm void vPortSVCHandler( void )
mov r0, # 0
msr basepri, r0
bx r14
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/
__asm void prvStartFirstTask( void )
{
/* *INDENT-OFF* */
PRESERVE8
/* Use the NVIC offset register to locate the stack. */
ldr r0, = 0xE000ED08
ldr r0, [ r0 ]
ldr r0, =0xE000ED08
ldr r0, [ r0 ]
ldr r0, [ r0 ]
/* Set the msp back to the start of the stack. */
msr msp, r0
@ -273,7 +276,7 @@ __asm void prvStartFirstTask( void )
* before the scheduler was started - which would otherwise result in the
* unnecessary leaving of space in the SVC stack for lazy saving of FPU
* registers. */
mov r0, # 0
mov r0, #0
msr control, r0
/* Globally enable interrupts. */
cpsie i
@ -281,25 +284,28 @@ __asm void prvStartFirstTask( void )
dsb
isb
/* Call SVC to start the first task. */
svc 0
svc 0
nop
nop
nop
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/
__asm void prvEnableVFP( void )
{
/* *INDENT-OFF* */
PRESERVE8
/* The FPU enable bits are in the CPACR. */
ldr.w r0, = 0xE000ED88
ldr r1, [ r0 ]
ldr.w r0, =0xE000ED88
ldr r1, [ r0 ]
/* Enable CP10 and CP11 coprocessors, then save back. */
orr r1, r1, # ( 0xf << 20 )
str r1, [ r0 ]
bx r14
nop
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/
@ -453,16 +459,17 @@ __asm void xPortPendSVHandler( void )
extern pxCurrentTCB;
extern vTaskSwitchContext;
/* *INDENT-OFF* */
PRESERVE8
mrs r0, psp
isb
/* Get the location of the current TCB. */
ldr r3, = pxCurrentTCB
ldr r2, [ r3 ]
ldr r3, =pxCurrentTCB
ldr r2, [ r3 ]
/* Is the task using the FPU context? If so, push high vfp registers. */
tst r14, # 0x10
tst r14, #0x10
it eq
vstmdbeq r0 !, {
s16 - s31
@ -508,7 +515,7 @@ __asm void xPortPendSVHandler( void )
}
msr psp, r0
isb
isb
#ifdef WORKAROUND_PMU_CM001 /* XMC4000 specific errata */
#if WORKAROUND_PMU_CM001 == 1
push {
@ -522,6 +529,7 @@ __asm void xPortPendSVHandler( void )
#endif
bx r14
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/
@ -749,10 +757,12 @@ void xPortSysTickHandler( void )
__asm uint32_t vPortGetIPSR( void )
{
/* *INDENT-OFF* */
PRESERVE8
mrs r0, ipsr
bx r14
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/

194
portable/RVDS/ARM_CM4_MPU/port.c
View file

@ -310,7 +310,8 @@ __asm void vPortSVCHandler( void )
{
extern prvSVCHandler
PRESERVE8
/* *INDENT-OFF* */
PRESERVE8
/* Assumes psp was in use. */
#ifndef USE_PROCESS_STACK /* Code should not be required if a main() is using the process stack. */
@ -323,52 +324,69 @@ __asm void vPortSVCHandler( void )
#endif
b prvSVCHandler
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/
__asm void prvRestoreContextOfFirstTask( void )
{
/* *INDENT-OFF* */
PRESERVE8
ldr r0, = 0xE000ED08 /* Use the NVIC offset register to locate the stack. */
ldr r0, =0xE000ED08 /* Use the NVIC offset register to locate the stack. */
ldr r0, [ r0 ]
ldr r0, [ r0 ]
msr msp, r0 /* Set the msp back to the start of the stack. */
ldr r3, = pxCurrentTCB /* Restore the context. */
msr msp, r0 /* Set the msp back to the start of the stack. */
ldr r3, =pxCurrentTCB /* Restore the context. */
ldr r1, [ r3 ]
ldr r0, [ r1 ] /* The first item in the TCB is the task top of stack. */
add r1, r1, # 4 /* Move onto the second item in the TCB... */
ldr r0, [ r1 ] /* The first item in the TCB is the task top of stack. */
add r1, r1, #4 /* Move onto the second item in the TCB... */
dmb /* Complete outstanding transfers before disabling MPU. */
ldr r2, = 0xe000ed94 /* MPU_CTRL register. */
ldr r3, [ r2 ] /* Read the value of MPU_CTRL. */
bic r3, r3, # 1 /* r3 = r3 & ~1 i.e. Clear the bit 0 in r3. */
str r3, [ r2 ] /* Disable MPU. */
dmb /* Complete outstanding transfers before disabling MPU. */
ldr r2, =0xe000ed94 /* MPU_CTRL register. */
ldr r3, [ r2 ] /* Read the value of MPU_CTRL. */
bic r3, r3, # 1 /* r3 = r3 & ~1 i.e. Clear the bit 0 in r3. */
str r3, [ r2 ] /* Disable MPU. */
ldr r2, = 0xe000ed9c /* Region Base Address register. */
ldmia r1!, {r4-r11} /* Read 4 sets of MPU registers [MPU Region # 4 - 7]. */
stmia r2, {r4-r11} /* Write 4 sets of MPU registers [MPU Region # 4 - 7]. */
ldr r2, =0xe000ed9c /* Region Base Address register. */
ldmia r1 !, {
r4 - r11
} /* Read 4 sets of MPU registers [MPU Region # 4 - 7]. */
stmia r2, {
r4 - r11
} /* Write 4 sets of MPU registers [MPU Region # 4 - 7]. */
#if ( portTOTAL_NUM_REGIONS == 16 )
ldmia r1!, {r4-r11} /* Read 4 sets of MPU registers [MPU Region # 8 - 11]. */
stmia r2, {r4-r11} /* Write 4 sets of MPU registers. [MPU Region # 8 - 11]. */
ldmia r1!, {r4-r11} /* Read 4 sets of MPU registers [MPU Region # 12 - 15]. */
stmia r2, {r4-r11} /* Write 4 sets of MPU registers. [MPU Region # 12 - 15]. */
#endif /* portTOTAL_NUM_REGIONS == 16. */
#if ( portTOTAL_NUM_REGIONS == 16 )
ldmia r1 !, {
r4 - r11
} /* Read 4 sets of MPU registers [MPU Region # 8 - 11]. */
stmia r2, {
r4 - r11
} /* Write 4 sets of MPU registers. [MPU Region # 8 - 11]. */
ldmia r1 !, {
r4 - r11
} /* Read 4 sets of MPU registers [MPU Region # 12 - 15]. */
stmia r2, {
r4 - r11
} /* Write 4 sets of MPU registers. [MPU Region # 12 - 15]. */
#endif /* portTOTAL_NUM_REGIONS == 16. */
ldr r2, = 0xe000ed94 /* MPU_CTRL register. */
ldr r3, [ r2 ] /* Read the value of MPU_CTRL. */
orr r3, r3, # 1 /* r3 = r3 | 1 i.e. Set the bit 0 in r3. */
str r3, [ r2 ] /* Enable MPU. */
dsb /* Force memory writes before continuing. */
ldr r2, =0xe000ed94 /* MPU_CTRL register. */
ldr r3, [ r2 ] /* Read the value of MPU_CTRL. */
orr r3, r3, #1 /* r3 = r3 | 1 i.e. Set the bit 0 in r3. */
str r3, [ r2 ] /* Enable MPU. */
dsb /* Force memory writes before continuing. */
ldmia r0!, {r3-r11, r14} /* Pop the registers that are not automatically saved on exception entry. */
ldmia r0 !, {
r3 - r11, r14
} /* Pop the registers that are not automatically saved on exception entry. */
msr control, r3
msr psp, r0 /* Restore the task stack pointer. */
mov r0, # 0
msr psp, r0 /* Restore the task stack pointer. */
mov r0, #0
msr basepri, r0
bx r14
nop
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/
@ -476,10 +494,11 @@ BaseType_t xPortStartScheduler( void )
__asm void prvStartFirstTask( void )
{
/* *INDENT-OFF* */
PRESERVE8
/* Use the NVIC offset register to locate the stack. */
ldr r0, = 0xE000ED08
ldr r0, =0xE000ED08
ldr r0, [ r0 ]
ldr r0, [ r0 ]
/* Set the msp back to the start of the stack. */
@ -489,7 +508,7 @@ __asm void prvStartFirstTask( void )
* before the scheduler was started - which would otherwise result in the
* unnecessary leaving of space in the SVC stack for lazy saving of FPU
* registers. */
mov r0, # 0
mov r0, #0
msr control, r0
/* Globally enable interrupts. */
cpsie i
@ -499,6 +518,7 @@ __asm void prvStartFirstTask( void )
svc portSVC_START_SCHEDULER /* System call to start first task. */
nop
nop
/* *INDENT-ON* */
}
void vPortEndScheduler( void )
@ -542,68 +562,94 @@ __asm void xPortPendSVHandler( void )
extern pxCurrentTCB;
extern vTaskSwitchContext;
/* *INDENT-OFF* */
PRESERVE8
mrs r0, psp
ldr r3, = pxCurrentTCB /* Get the location of the current TCB. */
ldr r3, =pxCurrentTCB /* Get the location of the current TCB. */
ldr r2, [ r3 ]
tst r14, # 0x10 /* Is the task using the FPU context? If so, push high vfp registers. */
tst r14, #0x10 /* Is the task using the FPU context? If so, push high vfp registers. */
it eq
vstmdbeq r0!, {s16-s31}
vstmdbeq r0 !, {
s16 - s31
}
mrs r1, control
stmdb r0!, {r1, r4-r11, r14} /* Save the remaining registers. */
str r0, [ r2 ] /* Save the new top of stack into the first member of the TCB. */
stmdb r0 !, {
r1, r4 - r11, r14
} /* Save the remaining registers. */
str r0, [ r2 ] /* Save the new top of stack into the first member of the TCB. */
stmdb sp!, {r0, r3}
stmdb sp !, {
r0, r3
}
mov r0, # configMAX_SYSCALL_INTERRUPT_PRIORITY
msr basepri, r0
dsb
isb
bl vTaskSwitchContext
mov r0, # 0
mov r0, #0
msr basepri, r0
ldmia sp!, {r0, r3}
ldmia sp !, {
r0, r3
}
/* Restore the context. */
ldr r1, [ r3 ]
ldr r0, [ r1 ] /* The first item in the TCB is the task top of stack. */
add r1, r1, # 4 /* Move onto the second item in the TCB... */
ldr r0, [ r1 ] /* The first item in the TCB is the task top of stack. */
add r1, r1, #4 /* Move onto the second item in the TCB... */
dmb /* Complete outstanding transfers before disabling MPU. */
ldr r2, = 0xe000ed94 /* MPU_CTRL register. */
ldr r3, [ r2 ] /* Read the value of MPU_CTRL. */
bic r3, r3, # 1 /* r3 = r3 & ~1 i.e. Clear the bit 0 in r3. */
str r3, [ r2 ] /* Disable MPU. */
dmb /* Complete outstanding transfers before disabling MPU. */
ldr r2, =0xe000ed94 /* MPU_CTRL register. */
ldr r3, [ r2 ] /* Read the value of MPU_CTRL. */
bic r3, r3, #1 /* r3 = r3 & ~1 i.e. Clear the bit 0 in r3. */
str r3, [ r2 ] /* Disable MPU. */
ldr r2, = 0xe000ed9c /* Region Base Address register. */
ldmia r1!, {r4-r11} /* Read 4 sets of MPU registers [MPU Region # 4 - 7]. */
stmia r2, {r4-r11} /* Write 4 sets of MPU registers [MPU Region # 4 - 7]. */
ldr r2, =0xe000ed9c /* Region Base Address register. */
ldmia r1 !, {
r4 - r11
} /* Read 4 sets of MPU registers [MPU Region # 4 - 7]. */
stmia r2, {
r4 - r11
} /* Write 4 sets of MPU registers [MPU Region # 4 - 7]. */
#if ( portTOTAL_NUM_REGIONS == 16 )
ldmia r1!, {r4-r11} /* Read 4 sets of MPU registers [MPU Region # 8 - 11]. */
stmia r2, {r4-r11} /* Write 4 sets of MPU registers. [MPU Region # 8 - 11]. */
ldmia r1!, {r4-r11} /* Read 4 sets of MPU registers [MPU Region # 12 - 15]. */
stmia r2, {r4-r11} /* Write 4 sets of MPU registers. [MPU Region # 12 - 15]. */
#endif /* portTOTAL_NUM_REGIONS == 16. */
#if ( portTOTAL_NUM_REGIONS == 16 )
ldmia r1 !, {
r4 - r11
} /* Read 4 sets of MPU registers [MPU Region # 8 - 11]. */
stmia r2, {
r4 - r11
} /* Write 4 sets of MPU registers. [MPU Region # 8 - 11]. */
ldmia r1 !, {
r4 - r11
} /* Read 4 sets of MPU registers [MPU Region # 12 - 15]. */
stmia r2, {
r4 - r11
} /* Write 4 sets of MPU registers. [MPU Region # 12 - 15]. */
#endif /* portTOTAL_NUM_REGIONS == 16. */
ldr r2, = 0xe000ed94 /* MPU_CTRL register. */
ldr r3, [ r2 ] /* Read the value of MPU_CTRL. */
orr r3, r3, #1 /* r3 = r3 | 1 i.e. Set the bit 0 in r3. */
str r3, [ r2 ] /* Enable MPU. */
dsb /* Force memory writes before continuing. */
ldr r2, =0xe000ed94 /* MPU_CTRL register. */
ldr r3, [ r2 ] /* Read the value of MPU_CTRL. */
orr r3, r3, #1 /* r3 = r3 | 1 i.e. Set the bit 0 in r3. */
str r3, [ r2 ] /* Enable MPU. */
dsb /* Force memory writes before continuing. */
ldmia r0!, {r3-r11, r14} /* Pop the registers that are not automatically saved on exception entry. */
ldmia r0 !, {
r3 - r11, r14
} /* Pop the registers that are not automatically saved on exception entry. */
msr control, r3
tst r14, # 0x10 /* Is the task using the FPU context? If so, pop the high vfp registers too. */
tst r14, #0x10 /* Is the task using the FPU context? If so, pop the high vfp registers too. */
it eq
vldmiaeq r0!, {s16-s31}
vldmiaeq r0 !, {
s16 - s31
}
msr psp, r0
bx r14
nop
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/
@ -642,27 +688,31 @@ __weak void vSetupTimerInterrupt( void )
__asm void vPortSwitchToUserMode( void )
{
/* *INDENT-OFF* */
PRESERVE8
mrs r0, control
orr r0, # 1
orr r0, #1
msr control, r0
bx r14
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/
__asm void vPortEnableVFP( void )
{
/* *INDENT-OFF* */
PRESERVE8
ldr.w r0, = 0xE000ED88 /* The FPU enable bits are in the CPACR. */
ldr.w r0, =0xE000ED88 /* The FPU enable bits are in the CPACR. */
ldr r1, [ r0 ]
orr r1, r1, # ( 0xf << 20 ) /* Enable CP10 and CP11 coprocessors, then save back. */
orr r1, r1, #( 0xf << 20 ) /* Enable CP10 and CP11 coprocessors, then save back. */
str r1, [ r0 ]
bx r14
nop
nop
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/
@ -761,25 +811,29 @@ static uint32_t prvGetMPURegionSizeSetting( uint32_t ulActualSizeInBytes )
__asm BaseType_t xIsPrivileged( void )
{
/* *INDENT-OFF* */
PRESERVE8
mrs r0, control /* r0 = CONTROL. */
tst r0, # 1 /* Perform r0 & 1 (bitwise AND) and update the conditions flag. */
tst r0, #1 /* Perform r0 & 1 (bitwise AND) and update the conditions flag. */
ite ne
movne r0, # 0 /* CONTROL[0]!=0. Return false to indicate that the processor is not privileged. */
moveq r0, # 1 /* CONTROL[0]==0. Return true to indicate that the processor is privileged. */
movne r0, #0 /* CONTROL[0]!=0. Return false to indicate that the processor is not privileged. */
moveq r0, #1 /* CONTROL[0]==0. Return true to indicate that the processor is privileged. */
bx lr /* Return. */
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/
__asm void vResetPrivilege( void )
{
/* *INDENT-OFF* */
PRESERVE8
mrs r0, control /* r0 = CONTROL. */
orrs r0, # 1 /* r0 = r0 | 1. */
orrs r0, #1 /* r0 = r0 | 1. */
msr control, r0 /* CONTROL = r0. */
bx lr /* Return. */
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/
@ -886,10 +940,12 @@ void vPortStoreTaskMPUSettings( xMPU_SETTINGS * xMPUSettings,
__asm uint32_t prvPortGetIPSR( void )
{
/* *INDENT-OFF* */
PRESERVE8
mrs r0, ipsr
bx r14
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/

507
portable/RVDS/ARM_CM4_MPU/portmacro.h
View file

@ -27,11 +27,13 @@
#ifndef PORTMACRO_H
#define PORTMACRO_H
#define PORTMACRO_H
#ifdef __cplusplus
extern "C" {
#endif
/* *INDENT-OFF* */
#ifdef __cplusplus
extern "C" {
#endif
/* *INDENT-ON* */
/*-----------------------------------------------------------
* Port specific definitions.
@ -44,173 +46,174 @@
*/
/* Type definitions. */
#define portCHAR char
#define portFLOAT float
#define portDOUBLE double
#define portLONG long
#define portSHORT short
#define portSTACK_TYPE uint32_t
#define portBASE_TYPE long
#define portCHAR char
#define portFLOAT float
#define portDOUBLE double
#define portLONG long
#define portSHORT short
#define portSTACK_TYPE uint32_t
#define portBASE_TYPE long
typedef portSTACK_TYPE StackType_t;
typedef long BaseType_t;
typedef unsigned long UBaseType_t;
typedef portSTACK_TYPE StackType_t;
typedef long BaseType_t;
typedef unsigned long UBaseType_t;
#if ( configUSE_16_BIT_TICKS == 1 )
typedef uint16_t TickType_t;
#define portMAX_DELAY ( TickType_t ) 0xffff
#else
typedef uint32_t TickType_t;
#define portMAX_DELAY ( TickType_t ) 0xffffffffUL
#if ( configUSE_16_BIT_TICKS == 1 )
typedef uint16_t TickType_t;
#define portMAX_DELAY ( TickType_t ) 0xffff
#else
typedef uint32_t TickType_t;
#define portMAX_DELAY ( TickType_t ) 0xffffffffUL
/* 32-bit tick type on a 32-bit architecture, so reads of the tick count do
* not need to be guarded with a critical section. */
#define portTICK_TYPE_IS_ATOMIC 1
#endif
#define portTICK_TYPE_IS_ATOMIC 1
#endif
/*-----------------------------------------------------------*/
/* MPU specific constants. */
#define portUSING_MPU_WRAPPERS 1
#define portPRIVILEGE_BIT ( 0x80000000UL )
#define portUSING_MPU_WRAPPERS 1
#define portPRIVILEGE_BIT ( 0x80000000UL )
#define portMPU_REGION_READ_WRITE ( 0x03UL << 24UL )
#define portMPU_REGION_PRIVILEGED_READ_ONLY ( 0x05UL << 24UL )
#define portMPU_REGION_READ_ONLY ( 0x06UL << 24UL )
#define portMPU_REGION_PRIVILEGED_READ_WRITE ( 0x01UL << 24UL )
#define portMPU_REGION_PRIVILEGED_READ_WRITE_UNPRIV_READ_ONLY ( 0x02UL << 24UL )
#define portMPU_REGION_CACHEABLE_BUFFERABLE ( 0x07UL << 16UL )
#define portMPU_REGION_EXECUTE_NEVER ( 0x01UL << 28UL )
/* Location of the TEX,S,C,B bits in the MPU Region Attribute and Size
* Register (RASR). */
#define portMPU_RASR_TEX_S_C_B_LOCATION ( 16UL )
#define portMPU_RASR_TEX_S_C_B_MASK ( 0x3FUL )
#define portMPU_REGION_READ_WRITE ( 0x03UL << 24UL )
#define portMPU_REGION_PRIVILEGED_READ_ONLY ( 0x05UL << 24UL )
#define portMPU_REGION_READ_ONLY ( 0x06UL << 24UL )
#define portMPU_REGION_PRIVILEGED_READ_WRITE ( 0x01UL << 24UL )
#define portMPU_REGION_PRIVILEGED_READ_WRITE_UNPRIV_READ_ONLY ( 0x02UL << 24UL )
#define portMPU_REGION_CACHEABLE_BUFFERABLE ( 0x07UL << 16UL )
#define portMPU_REGION_EXECUTE_NEVER ( 0x01UL << 28UL )
/* MPU settings that can be overriden in FreeRTOSConfig.h. */
#ifndef configTOTAL_MPU_REGIONS
/* Define to 8 for backward compatibility. */
#define configTOTAL_MPU_REGIONS ( 8UL )
#endif
/* Location of the TEX,S,C,B bits in the MPU Region Attribute and Size
* Register (RASR). */
#define portMPU_RASR_TEX_S_C_B_LOCATION ( 16UL )
#define portMPU_RASR_TEX_S_C_B_MASK ( 0x3FUL )
/*
* The TEX, Shareable (S), Cacheable (C) and Bufferable (B) bits define the
* memory type, and where necessary the cacheable and shareable properties
* of the memory region.
*
* The TEX, C, and B bits together indicate the memory type of the region,
* and:
* - For Normal memory, the cacheable properties of the region.
* - For Device memory, whether the region is shareable.
*
* For Normal memory regions, the S bit indicates whether the region is
* shareable. For Strongly-ordered and Device memory, the S bit is ignored.
*
* See the following two tables for setting TEX, S, C and B bits for
* unprivileged flash, privileged flash and privileged RAM regions.
*
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| TEX | C | B | Memory type | Description or Normal region cacheability | Shareable? |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 000 | 0 | 0 | Strongly-ordered | Strongly ordered | Shareable |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 000 | 0 | 1 | Device | Shared device | Shareable |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 000 | 1 | 0 | Normal | Outer and inner write-through; no write allocate | S bit |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 000 | 1 | 1 | Normal | Outer and inner write-back; no write allocate | S bit |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 001 | 0 | 0 | Normal | Outer and inner Non-cacheable | S bit |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 001 | 0 | 1 | Reserved | Reserved | Reserved |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 001 | 1 | 0 | IMPLEMENTATION DEFINED | IMPLEMENTATION DEFINED | IMPLEMENTATION DEFINED |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 001 | 1 | 1 | Normal | Outer and inner write-back; write and read allocate | S bit |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 010 | 0 | 0 | Device | Non-shared device | Not shareable |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 010 | 0 | 1 | Reserved | Reserved | Reserved |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 010 | 1 | X | Reserved | Reserved | Reserved |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 011 | X | X | Reserved | Reserved | Reserved |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 1BB | A | A | Normal | Cached memory, with AA and BB indicating the inner and | Reserved |
| | | | | outer cacheability rules that must be exported on the | |
| | | | | bus. See the table below for the cacheability policy | |
| | | | | encoding. memory, BB=Outer policy, AA=Inner policy. | |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
/* MPU settings that can be overriden in FreeRTOSConfig.h. */
#ifndef configTOTAL_MPU_REGIONS
/* Define to 8 for backward compatibility. */
#define configTOTAL_MPU_REGIONS ( 8UL )
#endif
+-----------------------------------------+----------------------------------------+
| AA or BB subfield of {TEX,C,B} encoding | Cacheability policy |
+-----------------------------------------+----------------------------------------+
| 00 | Non-cacheable |
+-----------------------------------------+----------------------------------------+
| 01 | Write-back, write and read allocate |
+-----------------------------------------+----------------------------------------+
| 10 | Write-through, no write allocate |
+-----------------------------------------+----------------------------------------+
| 11 | Write-back, no write allocate |
+-----------------------------------------+----------------------------------------+
*/
/*
* The TEX, Shareable (S), Cacheable (C) and Bufferable (B) bits define the
* memory type, and where necessary the cacheable and shareable properties
* of the memory region.
*
* The TEX, C, and B bits together indicate the memory type of the region,
* and:
* - For Normal memory, the cacheable properties of the region.
* - For Device memory, whether the region is shareable.
*
* For Normal memory regions, the S bit indicates whether the region is
* shareable. For Strongly-ordered and Device memory, the S bit is ignored.
*
* See the following two tables for setting TEX, S, C and B bits for
* unprivileged flash, privileged flash and privileged RAM regions.
*
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| TEX | C | B | Memory type | Description or Normal region cacheability | Shareable? |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 000 | 0 | 0 | Strongly-ordered | Strongly ordered | Shareable |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 000 | 0 | 1 | Device | Shared device | Shareable |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 000 | 1 | 0 | Normal | Outer and inner write-through; no write allocate | S bit |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 000 | 1 | 1 | Normal | Outer and inner write-back; no write allocate | S bit |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 001 | 0 | 0 | Normal | Outer and inner Non-cacheable | S bit |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 001 | 0 | 1 | Reserved | Reserved | Reserved |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 001 | 1 | 0 | IMPLEMENTATION DEFINED | IMPLEMENTATION DEFINED | IMPLEMENTATION DEFINED |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 001 | 1 | 1 | Normal | Outer and inner write-back; write and read allocate | S bit |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 010 | 0 | 0 | Device | Non-shared device | Not shareable |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 010 | 0 | 1 | Reserved | Reserved | Reserved |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 010 | 1 | X | Reserved | Reserved | Reserved |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 011 | X | X | Reserved | Reserved | Reserved |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
| 1BB | A | A | Normal | Cached memory, with AA and BB indicating the inner and | Reserved |
| | | | | outer cacheability rules that must be exported on the | |
| | | | | bus. See the table below for the cacheability policy | |
| | | | | encoding. memory, BB=Outer policy, AA=Inner policy. | |
+-----+---+---+------------------------+--------------------------------------------------------+-------------------------+
|
+-----------------------------------------+----------------------------------------+
| AA or BB subfield of {TEX,C,B} encoding | Cacheability policy |
+-----------------------------------------+----------------------------------------+
| 00 | Non-cacheable |
+-----------------------------------------+----------------------------------------+
| 01 | Write-back, write and read allocate |
+-----------------------------------------+----------------------------------------+
| 10 | Write-through, no write allocate |
+-----------------------------------------+----------------------------------------+
| 11 | Write-back, no write allocate |
+-----------------------------------------+----------------------------------------+
*/
/* TEX, Shareable (S), Cacheable (C) and Bufferable (B) bits for Flash
* region. */
#ifndef configTEX_S_C_B_FLASH
/* Default to TEX=000, S=1, C=1, B=1 for backward compatibility. */
#define configTEX_S_C_B_FLASH ( 0x07UL )
#endif
/* TEX, Shareable (S), Cacheable (C) and Bufferable (B) bits for Flash
* region. */
#ifndef configTEX_S_C_B_FLASH
/* Default to TEX=000, S=1, C=1, B=1 for backward compatibility. */
#define configTEX_S_C_B_FLASH ( 0x07UL )
#endif
/* TEX, Shareable (S), Cacheable (C) and Bufferable (B) bits for SRAM
* region. */
#ifndef configTEX_S_C_B_SRAM
/* Default to TEX=000, S=1, C=1, B=1 for backward compatibility. */
#define configTEX_S_C_B_SRAM ( 0x07UL )
#endif
/* TEX, Shareable (S), Cacheable (C) and Bufferable (B) bits for SRAM
* region. */
#ifndef configTEX_S_C_B_SRAM
/* Default to TEX=000, S=1, C=1, B=1 for backward compatibility. */
#define configTEX_S_C_B_SRAM ( 0x07UL )
#endif
#define portUNPRIVILEGED_FLASH_REGION ( 0UL )
#define portPRIVILEGED_FLASH_REGION ( 1UL )
#define portPRIVILEGED_RAM_REGION ( 2UL )
#define portGENERAL_PERIPHERALS_REGION ( 3UL )
#define portSTACK_REGION ( 4UL )
#define portFIRST_CONFIGURABLE_REGION ( 5UL )
#define portTOTAL_NUM_REGIONS ( configTOTAL_MPU_REGIONS )
#define portNUM_CONFIGURABLE_REGIONS ( portTOTAL_NUM_REGIONS - portFIRST_CONFIGURABLE_REGION )
#define portLAST_CONFIGURABLE_REGION ( portTOTAL_NUM_REGIONS - 1 )
#define portUNPRIVILEGED_FLASH_REGION ( 0UL )
#define portPRIVILEGED_FLASH_REGION ( 1UL )
#define portPRIVILEGED_RAM_REGION ( 2UL )
#define portGENERAL_PERIPHERALS_REGION ( 3UL )
#define portSTACK_REGION ( 4UL )
#define portFIRST_CONFIGURABLE_REGION ( 5UL )
#define portTOTAL_NUM_REGIONS ( configTOTAL_MPU_REGIONS )
#define portNUM_CONFIGURABLE_REGIONS ( portTOTAL_NUM_REGIONS - portFIRST_CONFIGURABLE_REGION )
#define portLAST_CONFIGURABLE_REGION ( portTOTAL_NUM_REGIONS - 1 )
void vPortSwitchToUserMode( void );
#define portSWITCH_TO_USER_MODE() vPortSwitchToUserMode()
void vPortSwitchToUserMode( void );
#define portSWITCH_TO_USER_MODE() vPortSwitchToUserMode()
typedef struct MPU_REGION_REGISTERS
{
uint32_t ulRegionBaseAddress;
uint32_t ulRegionAttribute;
} xMPU_REGION_REGISTERS;
typedef struct MPU_REGION_REGISTERS
{
uint32_t ulRegionBaseAddress;
uint32_t ulRegionAttribute;
} xMPU_REGION_REGISTERS;
/* Plus 1 to create space for the stack region. */
typedef struct MPU_SETTINGS
{
xMPU_REGION_REGISTERS xRegion[ portTOTAL_NUM_REGIONS ];
} xMPU_SETTINGS;
typedef struct MPU_SETTINGS
{
xMPU_REGION_REGISTERS xRegion[ portTOTAL_NUM_REGIONS ];
} xMPU_SETTINGS;
/* Architecture specifics. */
#define portSTACK_GROWTH ( -1 )
#define portTICK_PERIOD_MS ( ( TickType_t ) 1000 / configTICK_RATE_HZ )
#define portBYTE_ALIGNMENT 8
#define portSTACK_GROWTH ( -1 )
#define portTICK_PERIOD_MS ( ( TickType_t ) 1000 / configTICK_RATE_HZ )
#define portBYTE_ALIGNMENT 8
/* Constants used with memory barrier intrinsics. */
#define portSY_FULL_READ_WRITE ( 15 )
#define portSY_FULL_READ_WRITE ( 15 )
/*-----------------------------------------------------------*/
/* SVC numbers for various services. */
#define portSVC_START_SCHEDULER 0
#define portSVC_YIELD 1
#define portSVC_RAISE_PRIVILEGE 2
#define portSVC_START_SCHEDULER 0
#define portSVC_YIELD 1
#define portSVC_RAISE_PRIVILEGE 2
/* Scheduler utilities. */
#define portYIELD() __asm{ SVC portSVC_YIELD }
#define portYIELD_WITHIN_API() \
#define portYIELD() __asm{ SVC portSVC_YIELD }
#define portYIELD_WITHIN_API() \
{ \
/* Set a PendSV to request a context switch. */ \
portNVIC_INT_CTRL_REG = portNVIC_PENDSVSET_BIT; \
@ -222,180 +225,190 @@
}
/*-----------------------------------------------------------*/
#define portNVIC_INT_CTRL_REG ( *( ( volatile uint32_t * ) 0xe000ed04 ) )
#define portNVIC_PENDSVSET_BIT ( 1UL << 28UL )
#define portEND_SWITCHING_ISR( xSwitchRequired ) if( xSwitchRequired ) portNVIC_INT_CTRL_REG = portNVIC_PENDSVSET_BIT
#define portYIELD_FROM_ISR( x ) portEND_SWITCHING_ISR( x )
#define portNVIC_INT_CTRL_REG ( *( ( volatile uint32_t * ) 0xe000ed04 ) )
#define portNVIC_PENDSVSET_BIT ( 1UL << 28UL )
#define portEND_SWITCHING_ISR( xSwitchRequired ) if( xSwitchRequired ) portNVIC_INT_CTRL_REG = portNVIC_PENDSVSET_BIT
#define portYIELD_FROM_ISR( x ) portEND_SWITCHING_ISR( x )
/*-----------------------------------------------------------*/
/* Critical section management. */
extern void vPortEnterCritical( void );
extern void vPortExitCritical( void );
extern void vPortEnterCritical( void );
extern void vPortExitCritical( void );
#define portDISABLE_INTERRUPTS() vPortRaiseBASEPRI()
#define portENABLE_INTERRUPTS() vPortSetBASEPRI( 0 )
#define portENTER_CRITICAL() vPortEnterCritical()
#define portEXIT_CRITICAL() vPortExitCritical()
#define portSET_INTERRUPT_MASK_FROM_ISR() ulPortRaiseBASEPRI()
#define portCLEAR_INTERRUPT_MASK_FROM_ISR( x ) vPortSetBASEPRI( x )
#define portDISABLE_INTERRUPTS() vPortRaiseBASEPRI()
#define portENABLE_INTERRUPTS() vPortSetBASEPRI( 0 )
#define portENTER_CRITICAL() vPortEnterCritical()
#define portEXIT_CRITICAL() vPortExitCritical()
#define portSET_INTERRUPT_MASK_FROM_ISR() ulPortRaiseBASEPRI()
#define portCLEAR_INTERRUPT_MASK_FROM_ISR( x ) vPortSetBASEPRI( x )
/*-----------------------------------------------------------*/
/* Architecture specific optimisations. */
#ifndef configUSE_PORT_OPTIMISED_TASK_SELECTION
#define configUSE_PORT_OPTIMISED_TASK_SELECTION 1
#endif
#ifndef configUSE_PORT_OPTIMISED_TASK_SELECTION
#define configUSE_PORT_OPTIMISED_TASK_SELECTION 1
#endif
#if configUSE_PORT_OPTIMISED_TASK_SELECTION == 1
#if configUSE_PORT_OPTIMISED_TASK_SELECTION == 1
/* Check the configuration. */
#if ( configMAX_PRIORITIES > 32 )
#error configUSE_PORT_OPTIMISED_TASK_SELECTION can only be set to 1 when configMAX_PRIORITIES is less than or equal to 32. It is very rare that a system requires more than 10 to 15 difference priorities as tasks that share a priority will time slice.
#endif
#if ( configMAX_PRIORITIES > 32 )
#error configUSE_PORT_OPTIMISED_TASK_SELECTION can only be set to 1 when configMAX_PRIORITIES is less than or equal to 32. It is very rare that a system requires more than 10 to 15 difference priorities as tasks that share a priority will time slice.
#endif
/* Store/clear the ready priorities in a bit map. */
#define portRECORD_READY_PRIORITY( uxPriority, uxReadyPriorities ) ( uxReadyPriorities ) |= ( 1UL << ( uxPriority ) )
#define portRESET_READY_PRIORITY( uxPriority, uxReadyPriorities ) ( uxReadyPriorities ) &= ~( 1UL << ( uxPriority ) )
#define portRECORD_READY_PRIORITY( uxPriority, uxReadyPriorities ) ( uxReadyPriorities ) |= ( 1UL << ( uxPriority ) )
#define portRESET_READY_PRIORITY( uxPriority, uxReadyPriorities ) ( uxReadyPriorities ) &= ~( 1UL << ( uxPriority ) )
/*-----------------------------------------------------------*/
#define portGET_HIGHEST_PRIORITY( uxTopPriority, uxReadyPriorities ) uxTopPriority = ( 31UL - ( uint32_t ) __clz( ( uxReadyPriorities ) ) )
#define portGET_HIGHEST_PRIORITY( uxTopPriority, uxReadyPriorities ) uxTopPriority = ( 31UL - ( uint32_t ) __clz( ( uxReadyPriorities ) ) )
#endif /* configUSE_PORT_OPTIMISED_TASK_SELECTION */
#endif /* configUSE_PORT_OPTIMISED_TASK_SELECTION */
/*-----------------------------------------------------------*/
/* Task function macros as described on the FreeRTOS.org WEB site. These are
* not necessary for to use this port. They are defined so the common demo files
* (which build with all the ports) will build. */
#define portTASK_FUNCTION_PROTO( vFunction, pvParameters ) void vFunction( void * pvParameters )
#define portTASK_FUNCTION( vFunction, pvParameters ) void vFunction( void * pvParameters )
#define portTASK_FUNCTION_PROTO( vFunction, pvParameters ) void vFunction( void * pvParameters )
#define portTASK_FUNCTION( vFunction, pvParameters ) void vFunction( void * pvParameters )
/*-----------------------------------------------------------*/
#ifdef configASSERT
void vPortValidateInterruptPriority( void );
#define portASSERT_IF_INTERRUPT_PRIORITY_INVALID() vPortValidateInterruptPriority()
#endif
#ifdef configASSERT
void vPortValidateInterruptPriority( void );
#define portASSERT_IF_INTERRUPT_PRIORITY_INVALID() vPortValidateInterruptPriority()
#endif
/* portNOP() is not required by this port. */
#define portNOP()
#define portNOP()
#define portINLINE __inline
#define portINLINE __inline
#ifndef portFORCE_INLINE
#define portFORCE_INLINE __forceinline
#endif
#ifndef portFORCE_INLINE
#define portFORCE_INLINE __forceinline
#endif
/*-----------------------------------------------------------*/
extern BaseType_t xIsPrivileged( void );
extern void vResetPrivilege( void );
extern BaseType_t xIsPrivileged( void );
extern void vResetPrivilege( void );
/**
* @brief Checks whether or not the processor is privileged.
*
* @return 1 if the processor is already privileged, 0 otherwise.
*/
#define portIS_PRIVILEGED() xIsPrivileged()
#define portIS_PRIVILEGED() xIsPrivileged()
/**
* @brief Raise an SVC request to raise privilege.
*/
#define portRAISE_PRIVILEGE() __asm { svc portSVC_RAISE_PRIVILEGE }
#define portRAISE_PRIVILEGE() __asm { svc portSVC_RAISE_PRIVILEGE }
/**
* @brief Lowers the privilege level by setting the bit 0 of the CONTROL
* register.
*/
#define portRESET_PRIVILEGE() vResetPrivilege()
#define portRESET_PRIVILEGE() vResetPrivilege()
/*-----------------------------------------------------------*/
static portFORCE_INLINE void vPortSetBASEPRI( uint32_t ulBASEPRI )
static portFORCE_INLINE void vPortSetBASEPRI( uint32_t ulBASEPRI )
{
__asm
{
__asm
{
/* Barrier instructions are not used as this function is only used to
* lower the BASEPRI value. */
msr basepri, ulBASEPRI
}
/* Barrier instructions are not used as this function is only used to
* lower the BASEPRI value. */
/* *INDENT-OFF* */
msr basepri, ulBASEPRI
/* *INDENT-ON* */
}
}
/*-----------------------------------------------------------*/
static portFORCE_INLINE void vPortRaiseBASEPRI( void )
static portFORCE_INLINE void vPortRaiseBASEPRI( void )
{
uint32_t ulNewBASEPRI = configMAX_SYSCALL_INTERRUPT_PRIORITY;
__asm
{
uint32_t ulNewBASEPRI = configMAX_SYSCALL_INTERRUPT_PRIORITY;
__asm
{
/* Set BASEPRI to the max syscall priority to effect a critical
* section. */
msr basepri, ulNewBASEPRI
dsb
isb
}
/* Set BASEPRI to the max syscall priority to effect a critical
* section. */
/* *INDENT-OFF* */
msr basepri, ulNewBASEPRI
dsb
isb
/* *INDENT-ON* */
}
}
/*-----------------------------------------------------------*/
static portFORCE_INLINE void vPortClearBASEPRIFromISR( void )
static portFORCE_INLINE void vPortClearBASEPRIFromISR( void )
{
__asm
{
__asm
{
/* Set BASEPRI to 0 so no interrupts are masked. This function is only
* used to lower the mask in an interrupt, so memory barriers are not
* used. */
msr basepri, # 0
}
/* Set BASEPRI to 0 so no interrupts are masked. This function is only
* used to lower the mask in an interrupt, so memory barriers are not
* used. */
/* *INDENT-OFF* */
msr basepri, # 0
/* *INDENT-ON* */
}
}
/*-----------------------------------------------------------*/
static portFORCE_INLINE uint32_t ulPortRaiseBASEPRI( void )
static portFORCE_INLINE uint32_t ulPortRaiseBASEPRI( void )
{
uint32_t ulReturn, ulNewBASEPRI = configMAX_SYSCALL_INTERRUPT_PRIORITY;
__asm
{
uint32_t ulReturn, ulNewBASEPRI = configMAX_SYSCALL_INTERRUPT_PRIORITY;
__asm
{
/* Set BASEPRI to the max syscall priority to effect a critical
* section. */
mrs ulReturn, basepri
msr basepri, ulNewBASEPRI
dsb
isb
}
return ulReturn;
/* Set BASEPRI to the max syscall priority to effect a critical
* section. */
/* *INDENT-OFF* */
mrs ulReturn, basepri
msr basepri, ulNewBASEPRI
dsb
isb
/* *INDENT-ON* */
}
return ulReturn;
}
/*-----------------------------------------------------------*/
static portFORCE_INLINE BaseType_t xPortIsInsideInterrupt( void )
static portFORCE_INLINE BaseType_t xPortIsInsideInterrupt( void )
{
uint32_t ulCurrentInterrupt;
BaseType_t xReturn;
/* Obtain the number of the currently executing interrupt. */
__asm
{
uint32_t ulCurrentInterrupt;
BaseType_t xReturn;
/* Obtain the number of the currently executing interrupt. */
__asm
{
mrs ulCurrentInterrupt, ipsr
}
if( ulCurrentInterrupt == 0 )
{
xReturn = pdFALSE;
}
else
{
xReturn = pdTRUE;
}
return xReturn;
mrs ulCurrentInterrupt, ipsr
}
if( ulCurrentInterrupt == 0 )
{
xReturn = pdFALSE;
}
else
{
xReturn = pdTRUE;
}
return xReturn;
}
/*-----------------------------------------------------------*/
#ifndef configENFORCE_SYSTEM_CALLS_FROM_KERNEL_ONLY
#warning "configENFORCE_SYSTEM_CALLS_FROM_KERNEL_ONLY is not defined. We recommend defining it to 1 in FreeRTOSConfig.h for better security. https: /*www.freertos.org/FreeRTOS-V10.3.x.html" */
#define configENFORCE_SYSTEM_CALLS_FROM_KERNEL_ONLY 0
#endif
#ifndef configENFORCE_SYSTEM_CALLS_FROM_KERNEL_ONLY
#warning "configENFORCE_SYSTEM_CALLS_FROM_KERNEL_ONLY is not defined. We recommend defining it to 1 in FreeRTOSConfig.h for better security. https: /*www.freertos.org/FreeRTOS-V10.3.x.html" */
#define configENFORCE_SYSTEM_CALLS_FROM_KERNEL_ONLY 0
#endif
/*-----------------------------------------------------------*/
#ifdef __cplusplus
}
#endif
/* *INDENT-OFF* */
#ifdef __cplusplus
}
#endif
/* *INDENT-ON* */
#endif /* PORTMACRO_H */

44
portable/RVDS/ARM_CM7/r0p1/port.c
View file

@ -236,9 +236,10 @@ __asm void vPortSVCHandler( void )
{
PRESERVE8
/* *INDENT-OFF* */
/* Get the location of the current TCB. */
ldr r3, = pxCurrentTCB
ldr r1, [ r3 ]
ldr r3, =pxCurrentTCB
ldr r1, [ r3 ]
ldr r0, [ r1 ]
/* Pop the core registers. */
ldmia r0 !, {
@ -246,19 +247,21 @@ __asm void vPortSVCHandler( void )
}
msr psp, r0
isb
mov r0, # 0
mov r0, #0
msr basepri, r0
bx r14
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/
__asm void prvStartFirstTask( void )
{
/* *INDENT-OFF* */
PRESERVE8
/* Use the NVIC offset register to locate the stack. */
ldr r0, = 0xE000ED08
ldr r0, [ r0 ]
ldr r0, =0xE000ED08
ldr r0, [ r0 ]
ldr r0, [ r0 ]
/* Set the msp back to the start of the stack. */
msr msp, r0
@ -267,7 +270,7 @@ __asm void prvStartFirstTask( void )
* before the scheduler was started - which would otherwise result in the
* unnecessary leaving of space in the SVC stack for lazy saving of FPU
* registers. */
mov r0, # 0
mov r0, #0
msr control, r0
/* Globally enable interrupts. */
cpsie i
@ -277,23 +280,26 @@ __asm void prvStartFirstTask( void )
/* Call SVC to start the first task. */
svc 0
nop
nop
nop
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/
__asm void prvEnableVFP( void )
{
/* *INDENT-OFF* */
PRESERVE8
/* The FPU enable bits are in the CPACR. */
ldr.w r0, = 0xE000ED88
ldr r1, [ r0 ]
ldr.w r0, =0xE000ED88
ldr r1, [ r0 ]
/* Enable CP10 and CP11 coprocessors, then save back. */
orr r1, r1, # ( 0xf << 20 )
orr r1, r1, #( 0xf << 20 )
str r1, [ r0 ]
bx r14
nop
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/
@ -438,16 +444,17 @@ __asm void xPortPendSVHandler( void )
extern pxCurrentTCB;
extern vTaskSwitchContext;
/* *INDENT-OFF* */
PRESERVE8
mrs r0, psp
isb
/* Get the location of the current TCB. */
ldr r3, = pxCurrentTCB
ldr r2, [ r3 ]
ldr r3, =pxCurrentTCB
ldr r2, [ r3 ]
/* Is the task using the FPU context? If so, push high vfp registers. */
tst r14, # 0x10
tst r14, #0x10
it eq
vstmdbeq r0 !, {
s16 - s31
@ -464,14 +471,14 @@ __asm void xPortPendSVHandler( void )
stmdb sp !, {
r0, r3
}
mov r0, # configMAX_SYSCALL_INTERRUPT_PRIORITY
mov r0, #configMAX_SYSCALL_INTERRUPT_PRIORITY
cpsid i
msr basepri, r0
dsb
isb
cpsie i
bl vTaskSwitchContext
mov r0, # 0
mov r0, #0
msr basepri, r0
ldmia sp !, {
r0, r3
@ -488,14 +495,14 @@ __asm void xPortPendSVHandler( void )
/* Is the task using the FPU context? If so, pop the high vfp registers
* too. */
tst r14, # 0x10
tst r14, #0x10
it eq
vldmiaeq r0 !, {
s16 - s31
}
msr psp, r0
isb
isb
#ifdef WORKAROUND_PMU_CM001 /* XMC4000 specific errata */
#if WORKAROUND_PMU_CM001 == 1
push {
@ -509,6 +516,7 @@ __asm void xPortPendSVHandler( void )
#endif
bx r14
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/
@ -736,10 +744,12 @@ void xPortSysTickHandler( void )
__asm uint32_t vPortGetIPSR( void )
{
/* *INDENT-OFF* */
PRESERVE8
mrs r0, ipsr
bx r14
/* *INDENT-ON* */
}
/*-----------------------------------------------------------*/