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82
portable/GCC/HCS12/port.c
View file

@ -36,8 +36,8 @@
#include <sys/ports_def.h>
/*-----------------------------------------------------------
* Implementation of functions defined in portable.h for the HCS12 port.
*----------------------------------------------------------*/
* Implementation of functions defined in portable.h for the HCS12 port.
*----------------------------------------------------------*/
/*
@ -47,45 +47,45 @@
static void prvSetupTimerInterrupt( void );
/* NOTE: Interrupt service routines must be in non-banked memory - as does the
scheduler startup function. */
#define ATTR_NEAR __attribute__((near))
* scheduler startup function. */
#define ATTR_NEAR __attribute__( ( near ) )
/* Manual context switch function. This is the SWI ISR. */
// __attribute__((interrupt))
/* __attribute__((interrupt)) */
void ATTR_NEAR vPortYield( void );
/* Tick context switch function. This is the timer ISR. */
// __attribute__((interrupt))
/* __attribute__((interrupt)) */
void ATTR_NEAR vPortTickInterrupt( void );
/* Function in non-banked memory which actually switches to first task. */
BaseType_t ATTR_NEAR xStartSchedulerNear( void );
/* Calls to portENTER_CRITICAL() can be nested. When they are nested the
critical section should not be left (i.e. interrupts should not be re-enabled)
until the nesting depth reaches 0. This variable simply tracks the nesting
depth. Each task maintains it's own critical nesting depth variable so
uxCriticalNesting is saved and restored from the task stack during a context
switch. */
volatile UBaseType_t uxCriticalNesting = 0x80; // un-initialized
* critical section should not be left (i.e. interrupts should not be re-enabled)
* until the nesting depth reaches 0. This variable simply tracks the nesting
* depth. Each task maintains it's own critical nesting depth variable so
* uxCriticalNesting is saved and restored from the task stack during a context
* switch. */
volatile UBaseType_t uxCriticalNesting = 0x80; /* un-initialized */
/*-----------------------------------------------------------*/
/*
* 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. In this case the stack as
expected by the HCS12 RTI instruction. */
* expected by the portRESTORE_CONTEXT() macro. In this case the stack as
* expected by the HCS12 RTI instruction. */
/* The address of the task function is placed in the stack byte at a time. */
*pxTopOfStack = ( StackType_t ) *( ((StackType_t *) (&pxCode) ) + 1 );
*--pxTopOfStack = ( StackType_t ) *( ((StackType_t *) (&pxCode) ) + 0 );
*pxTopOfStack = ( StackType_t ) *( ( ( StackType_t * ) ( &pxCode ) ) + 1 );
*--pxTopOfStack = ( StackType_t ) *( ( ( StackType_t * ) ( &pxCode ) ) + 0 );
/* Next are all the registers that form part of the task context. */
@ -98,32 +98,32 @@ StackType_t *pxPortInitialiseStack( StackType_t *pxTopOfStack, TaskFunction_t px
*--pxTopOfStack = ( StackType_t ) 0xcc;
/* A register contains parameter high byte. */
*--pxTopOfStack = ( StackType_t ) *( ((StackType_t *) (&pvParameters) ) + 0 );
*--pxTopOfStack = ( StackType_t ) *( ( ( StackType_t * ) ( &pvParameters ) ) + 0 );
/* B register contains parameter low byte. */
*--pxTopOfStack = ( StackType_t ) *( ((StackType_t *) (&pvParameters) ) + 1 );
*--pxTopOfStack = ( StackType_t ) *( ( ( StackType_t * ) ( &pvParameters ) ) + 1 );
/* CCR: Note that when the task starts interrupts will be enabled since
"I" bit of CCR is cleared */
*--pxTopOfStack = ( StackType_t ) 0x80; // keeps Stop disabled (MCU default)
* "I" bit of CCR is cleared */
*--pxTopOfStack = ( StackType_t ) 0x80; /* keeps Stop disabled (MCU default) */
/* tmp softregs used by GCC. Values right now don't matter. */
__asm("\n\
__asm( "\n\
movw _.frame, 2,-%0 \n\
movw _.tmp, 2,-%0 \n\
movw _.z, 2,-%0 \n\
movw _.xy, 2,-%0 \n\
;movw _.d2, 2,-%0 \n\
;movw _.d1, 2,-%0 \n\
": "=A"(pxTopOfStack) : "0"(pxTopOfStack) );
" : "=A" ( pxTopOfStack ) : "0" ( pxTopOfStack ) );
#ifdef BANKED_MODEL
/* The page of the task. */
*--pxTopOfStack = 0x30; // can only directly start in PPAGE 0x30
*--pxTopOfStack = 0x30; /* can only directly start in PPAGE 0x30 */
#endif
/* The critical nesting depth is initialised with 0 (meaning not in
a critical section). */
* a critical section). */
*--pxTopOfStack = ( StackType_t ) 0x00;
@ -141,21 +141,22 @@ static void prvSetupTimerInterrupt( void )
{
/* Enable hardware RTI timer */
/* Ignores configTICK_RATE_HZ */
RTICTL = 0x50; // 16 MHz xtal: 976.56 Hz, 1024mS
CRGINT |= 0x80; // RTIE
RTICTL = 0x50; /* 16 MHz xtal: 976.56 Hz, 1024mS */
CRGINT |= 0x80; /* RTIE */
}
/*-----------------------------------------------------------*/
BaseType_t xPortStartScheduler( void )
{
/* xPortStartScheduler() does not start the scheduler directly because
the header file containing the xPortStartScheduler() prototype is part
of the common kernel code, and therefore cannot use the CODE_SEG pragma.
Instead it simply calls the locally defined xNearStartScheduler() -
which does use the CODE_SEG pragma. */
* the header file containing the xPortStartScheduler() prototype is part
* of the common kernel code, and therefore cannot use the CODE_SEG pragma.
* Instead it simply calls the locally defined xNearStartScheduler() -
* which does use the CODE_SEG pragma. */
int16_t register d;
__asm ("jmp xStartSchedulerNear ; will never return": "=d"(d));
__asm( "jmp xStartSchedulerNear ; will never return" : "=d" ( d ) );
return d;
}
/*-----------------------------------------------------------*/
@ -163,7 +164,7 @@ BaseType_t xPortStartScheduler( void )
BaseType_t xStartSchedulerNear( void )
{
/* Configure the timer that will generate the RTOS tick. Interrupts are
disabled when this function is called. */
* disabled when this function is called. */
prvSetupTimerInterrupt();
/* Restore the context of the first task. */
@ -187,9 +188,10 @@ BaseType_t xStartSchedulerNear( void )
void vPortYield( void )
{
portISR_HEAD();
/* NOTE: This is the trap routine (swi) although not defined as a trap.
It will fill the stack the same way as an ISR in order to mix preemtion
and cooperative yield. */
* It will fill the stack the same way as an ISR in order to mix preemtion
* and cooperative yield. */
portSAVE_CONTEXT();
vTaskSwitchContext();
@ -224,14 +226,14 @@ void vPortTickInterrupt( void )
}
/* Restore the context of a task - which may be a different task
to that interrupted. */
* to that interrupted. */
portRESTORE_CONTEXT();
}
#else
#else /* if configUSE_PREEMPTION == 1 */
{
xTaskIncrementTick();
}
#endif
#endif /* if configUSE_PREEMPTION == 1 */
portISR_TAIL();
}

163
portable/GCC/HCS12/portmacro.h
View file

@ -47,40 +47,40 @@
*/
/* Type definitions. */
#define portCHAR char
#define portFLOAT float
#define portDOUBLE double
#define portLONG long
#define portSHORT short
#define portSTACK_TYPE uint8_t
#define portBASE_TYPE char
#define portCHAR char
#define portFLOAT float
#define portDOUBLE double
#define portLONG long
#define portSHORT short
#define portSTACK_TYPE uint8_t
#define portBASE_TYPE char
typedef portSTACK_TYPE StackType_t;
typedef signed char BaseType_t;
typedef unsigned char UBaseType_t;
typedef portSTACK_TYPE StackType_t;
typedef signed char BaseType_t;
typedef unsigned char UBaseType_t;
#if( configTICK_TYPE_WIDTH_IN_BITS == TICK_TYPE_WIDTH_16_BITS )
typedef uint16_t TickType_t;
#define portMAX_DELAY ( TickType_t ) 0xffff
#if ( configTICK_TYPE_WIDTH_IN_BITS == TICK_TYPE_WIDTH_16_BITS )
typedef uint16_t TickType_t;
#define portMAX_DELAY ( TickType_t ) 0xffff
#elif ( configTICK_TYPE_WIDTH_IN_BITS == TICK_TYPE_WIDTH_32_BITS )
typedef uint32_t TickType_t;
#define portMAX_DELAY ( TickType_t ) ( 0xFFFFFFFFUL )
typedef uint32_t TickType_t;
#define portMAX_DELAY ( TickType_t ) ( 0xFFFFFFFFUL )
#else
#error configTICK_TYPE_WIDTH_IN_BITS set to unsupported tick type width.
#endif
/*-----------------------------------------------------------*/
/* Hardware specifics. */
#define portBYTE_ALIGNMENT 1
#define portSTACK_GROWTH ( -1 )
#define portTICK_PERIOD_MS ( ( TickType_t ) 1000 / configTICK_RATE_HZ )
#define portYIELD() __asm( "swi" );
#define portBYTE_ALIGNMENT 1
#define portSTACK_GROWTH ( -1 )
#define portTICK_PERIOD_MS ( ( TickType_t ) 1000 / configTICK_RATE_HZ )
#define portYIELD() __asm( "swi" );
/*-----------------------------------------------------------*/
/* Critical section handling. */
#define portENABLE_INTERRUPTS() __asm( "cli" )
#define portDISABLE_INTERRUPTS() __asm( "sei" )
#define portENABLE_INTERRUPTS() __asm( "cli" )
#define portDISABLE_INTERRUPTS() __asm( "sei" )
/*
* Disable interrupts before incrementing the count of critical section nesting.
@ -88,29 +88,29 @@ typedef unsigned char UBaseType_t;
* re-enabled. Once interrupts are disabled the nesting count can be accessed
* directly. Each task maintains its own nesting count.
*/
#define portENTER_CRITICAL() \
{ \
extern volatile UBaseType_t uxCriticalNesting; \
\
portDISABLE_INTERRUPTS(); \
uxCriticalNesting++; \
}
#define portENTER_CRITICAL() \
{ \
extern volatile UBaseType_t uxCriticalNesting; \
\
portDISABLE_INTERRUPTS(); \
uxCriticalNesting++; \
}
/*
* Interrupts are disabled so we can access the nesting count directly. If the
* nesting is found to be 0 (no nesting) then we are leaving the critical
* section and interrupts can be re-enabled.
*/
#define portEXIT_CRITICAL() \
{ \
extern volatile UBaseType_t uxCriticalNesting; \
\
uxCriticalNesting--; \
if( uxCriticalNesting == 0 ) \
{ \
portENABLE_INTERRUPTS(); \
} \
}
#define portEXIT_CRITICAL() \
{ \
extern volatile UBaseType_t uxCriticalNesting; \
\
uxCriticalNesting--; \
if( uxCriticalNesting == 0 ) \
{ \
portENABLE_INTERRUPTS(); \
} \
}
/*-----------------------------------------------------------*/
/* Task utilities. */
@ -126,13 +126,14 @@ typedef unsigned char UBaseType_t;
*/
#ifdef BANKED_MODEL
/*
* Load the stack pointer for the task, then pull the critical nesting
* count and PPAGE register from the stack. The remains of the
* context are restored by the RTI instruction.
*/
#define portRESTORE_CONTEXT() \
{ \
/*
* Load the stack pointer for the task, then pull the critical nesting
* count and PPAGE register from the stack. The remains of the
* context are restored by the RTI instruction.
*/
#define portRESTORE_CONTEXT() \
{ \
__asm( " \n\
.globl pxCurrentTCB ; void * \n\
.globl uxCriticalNesting ; char \n\
@ -142,16 +143,16 @@ typedef unsigned char UBaseType_t;
\n\
movb 1,sp+,uxCriticalNesting \n\
movb 1,sp+,0x30 ; PPAGE \n\
" ); \
" ); \
}
/*
* By the time this macro is called the processor has already stacked the
* registers. Simply stack the nesting count and PPAGE value, then save
* the task stack pointer.
*/
#define portSAVE_CONTEXT() \
{ \
/*
* By the time this macro is called the processor has already stacked the
* registers. Simply stack the nesting count and PPAGE value, then save
* the task stack pointer.
*/
#define portSAVE_CONTEXT() \
{ \
__asm( " \n\
.globl pxCurrentTCB ; void * \n\
.globl uxCriticalNesting ; char \n\
@ -161,17 +162,17 @@ typedef unsigned char UBaseType_t;
\n\
ldx pxCurrentTCB \n\
sts 0,x ; Stack \n\
" ); \
" ); \
}
#else
#else /* ifdef BANKED_MODEL */
/*
* These macros are as per the BANKED versions above, but without saving
* and restoring the PPAGE register.
*/
/*
* These macros are as per the BANKED versions above, but without saving
* and restoring the PPAGE register.
*/
#define portRESTORE_CONTEXT() \
{ \
#define portRESTORE_CONTEXT() \
{ \
__asm( " \n\
.globl pxCurrentTCB ; void * \n\
.globl uxCriticalNesting ; char \n\
@ -180,11 +181,11 @@ typedef unsigned char UBaseType_t;
lds 0,x ; Stack \n\
\n\
movb 1,sp+,uxCriticalNesting \n\
" ); \
" ); \
}
#define portSAVE_CONTEXT() \
{ \
#define portSAVE_CONTEXT() \
{ \
__asm( " \n\
.globl pxCurrentTCB ; void * \n\
.globl uxCriticalNesting ; char \n\
@ -193,29 +194,29 @@ typedef unsigned char UBaseType_t;
\n\
ldx pxCurrentTCB \n\
sts 0,x ; Stack \n\
" ); \
" ); \
}
#endif
#endif /* ifdef BANKED_MODEL */
/*
* Utility macros to save/restore correct software registers for GCC. This is
* useful when GCC does not generate appropriate ISR head/tail code.
*/
#define portISR_HEAD() \
{ \
__asm(" \n\
#define portISR_HEAD() \
{ \
__asm( " \n\
movw _.frame, 2,-sp \n\
movw _.tmp, 2,-sp \n\
movw _.z, 2,-sp \n\
movw _.xy, 2,-sp \n\
;movw _.d2, 2,-sp \n\
;movw _.d1, 2,-sp \n\
"); \
}
" ); \
}
#define portISR_TAIL() \
{ \
__asm(" \n\
#define portISR_TAIL() \
{ \
__asm( " \n\
movw 2,sp+, _.xy \n\
movw 2,sp+, _.z \n\
movw 2,sp+, _.tmp \n\
@ -223,8 +224,8 @@ typedef unsigned char UBaseType_t;
;movw 2,sp+, _.d1 \n\
;movw 2,sp+, _.d2 \n\
rti \n\
"); \
}
" ); \
}
/*
* Utility macro to call macros above in correct order in order to perform a
@ -233,15 +234,15 @@ typedef unsigned char UBaseType_t;
* variables portYIELD() should be used in it's place.
*/
#define portTASK_SWITCH_FROM_ISR() \
portSAVE_CONTEXT(); \
vTaskSwitchContext(); \
#define portTASK_SWITCH_FROM_ISR() \
portSAVE_CONTEXT(); \
vTaskSwitchContext(); \
portRESTORE_CONTEXT();
/* 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 )
/* *INDENT-OFF* */
#ifdef __cplusplus