/* | |
* FreeRTOS Kernel V10.3.1 | |
* Copyright (C) 2020 Amazon.com, Inc. or its affiliates. All Rights Reserved. | |
* | |
* Permission is hereby granted, free of charge, to any person obtaining a copy of | |
* this software and associated documentation files (the "Software"), to deal in | |
* the Software without restriction, including without limitation the rights to | |
* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of | |
* the Software, and to permit persons to whom the Software is furnished to do so, | |
* subject to the following conditions: | |
* | |
* The above copyright notice and this permission notice shall be included in all | |
* copies or substantial portions of the Software. | |
* | |
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR | |
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS | |
* FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR | |
* COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER | |
* IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN | |
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. | |
* | |
* http://www.FreeRTOS.org | |
* http://aws.amazon.com/freertos | |
* | |
* 1 tab == 4 spaces! | |
*/ | |
/*----------------------------------------------------------- | |
* Implementation of functions defined in portable.h for the SH2A port. | |
*----------------------------------------------------------*/ | |
/* Standard C includes. */ | |
#include "limits.h" | |
/* Scheduler includes. */ | |
#include "FreeRTOS.h" | |
#include "task.h" | |
/* Library includes. */ | |
#include "string.h" | |
/* Hardware specifics. */ | |
#include "iodefine.h" | |
/*-----------------------------------------------------------*/ | |
/* Tasks should start with interrupts enabled and in Supervisor mode, therefore | |
PSW is set with U and I set, and PM and IPL clear. */ | |
#define portINITIAL_PSW ( ( StackType_t ) 0x00030000 ) | |
/* The peripheral clock is divided by this value before being supplying the | |
CMT. */ | |
#if ( configUSE_TICKLESS_IDLE == 0 ) | |
/* If tickless idle is not used then the divisor can be fixed. */ | |
#define portCLOCK_DIVISOR 8UL | |
#elif ( configPERIPHERAL_CLOCK_HZ >= 12000000 ) | |
#define portCLOCK_DIVISOR 512UL | |
#elif ( configPERIPHERAL_CLOCK_HZ >= 6000000 ) | |
#define portCLOCK_DIVISOR 128UL | |
#elif ( configPERIPHERAL_CLOCK_HZ >= 1000000 ) | |
#define portCLOCK_DIVISOR 32UL | |
#else | |
#define portCLOCK_DIVISOR 8UL | |
#endif | |
/* These macros allow a critical section to be added around the call to | |
xTaskIncrementTick(), which is only ever called from interrupts at the kernel | |
priority - ie a known priority. Therefore these local macros are a slight | |
optimisation compared to calling the global SET/CLEAR_INTERRUPT_MASK macros, | |
which would require the old IPL to be read first and stored in a local variable. */ | |
#define portDISABLE_INTERRUPTS_FROM_KERNEL_ISR() __asm volatile ( "MVTIPL %0" ::"i"(configMAX_SYSCALL_INTERRUPT_PRIORITY) ) | |
#define portENABLE_INTERRUPTS_FROM_KERNEL_ISR() __asm volatile ( "MVTIPL %0" ::"i"(configKERNEL_INTERRUPT_PRIORITY) ) | |
/* Keys required to lock and unlock access to certain system registers | |
respectively. */ | |
#define portUNLOCK_KEY 0xA50B | |
#define portLOCK_KEY 0xA500 | |
/*-----------------------------------------------------------*/ | |
/* | |
* Function to start the first task executing - written in asm code as direct | |
* access to registers is required. | |
*/ | |
static void prvStartFirstTask( void ) __attribute__((naked)); | |
/* | |
* Software interrupt handler. Performs the actual context switch (saving and | |
* restoring of registers). Written in asm code as direct register access is | |
* required. | |
*/ | |
void vPortSoftwareInterruptISR( void ) __attribute__((naked)); | |
/* | |
* The tick interrupt handler. | |
*/ | |
void vPortTickISR( void ) __attribute__((interrupt)); | |
/* | |
* Sets up the periodic ISR used for the RTOS tick using the CMT. | |
* The application writer can define configSETUP_TICK_INTERRUPT() (in | |
* FreeRTOSConfig.h) such that their own tick interrupt configuration is used | |
* in place of prvSetupTimerInterrupt(). | |
*/ | |
static void prvSetupTimerInterrupt( void ); | |
#ifndef configSETUP_TICK_INTERRUPT | |
/* The user has not provided their own tick interrupt configuration so use | |
the definition in this file (which uses the interval timer). */ | |
#define configSETUP_TICK_INTERRUPT() prvSetupTimerInterrupt() | |
#endif /* configSETUP_TICK_INTERRUPT */ | |
/* | |
* Called after the sleep mode registers have been configured, prvSleep() | |
* executes the pre and post sleep macros, and actually calls the wait | |
* instruction. | |
*/ | |
#if configUSE_TICKLESS_IDLE == 1 | |
static void prvSleep( TickType_t xExpectedIdleTime ); | |
#endif /* configUSE_TICKLESS_IDLE */ | |
/*-----------------------------------------------------------*/ | |
/* Used in the context save and restore code. */ | |
extern void *pxCurrentTCB; | |
/* Calculate how many clock increments make up a single tick period. */ | |
static const uint32_t ulMatchValueForOneTick = ( ( configPERIPHERAL_CLOCK_HZ / portCLOCK_DIVISOR ) / configTICK_RATE_HZ ); | |
#if configUSE_TICKLESS_IDLE == 1 | |
/* Holds the maximum number of ticks that can be suppressed - which is | |
basically how far into the future an interrupt can be generated. Set | |
during initialisation. This is the maximum possible value that the | |
compare match register can hold divided by ulMatchValueForOneTick. */ | |
static const TickType_t xMaximumPossibleSuppressedTicks = USHRT_MAX / ( ( configPERIPHERAL_CLOCK_HZ / portCLOCK_DIVISOR ) / configTICK_RATE_HZ ); | |
/* Flag set from the tick interrupt to allow the sleep processing to know if | |
sleep mode was exited because of a tick interrupt, or an interrupt | |
generated by something else. */ | |
static volatile uint32_t ulTickFlag = pdFALSE; | |
/* The CMT counter is stopped temporarily each time it is re-programmed. | |
The following constant offsets the CMT counter match value by the number of | |
CMT counts that would typically be missed while the counter was stopped to | |
compensate for the lost time. The large difference between the divided CMT | |
clock and the CPU clock means it is likely ulStoppedTimerCompensation will | |
equal zero - and be optimised away. */ | |
static const uint32_t ulStoppedTimerCompensation = 100UL / ( configCPU_CLOCK_HZ / ( configPERIPHERAL_CLOCK_HZ / portCLOCK_DIVISOR ) ); | |
#endif | |
/*-----------------------------------------------------------*/ | |
/* | |
* See header file for description. | |
*/ | |
StackType_t *pxPortInitialiseStack( StackType_t *pxTopOfStack, TaskFunction_t pxCode, void *pvParameters ) | |
{ | |
/* Offset to end up on 8 byte boundary. */ | |
pxTopOfStack--; | |
/* R0 is not included as it is the stack pointer. */ | |
*pxTopOfStack = 0x00; | |
pxTopOfStack--; | |
*pxTopOfStack = 0x00; | |
pxTopOfStack--; | |
*pxTopOfStack = portINITIAL_PSW; | |
pxTopOfStack--; | |
*pxTopOfStack = ( StackType_t ) pxCode; | |
/* When debugging it can be useful if every register is set to a known | |
value. Otherwise code space can be saved by just setting the registers | |
that need to be set. */ | |
#ifdef USE_FULL_REGISTER_INITIALISATION | |
{ | |
pxTopOfStack--; | |
*pxTopOfStack = 0x12345678; /* r15. */ | |
pxTopOfStack--; | |
*pxTopOfStack = 0xaaaabbbb; | |
pxTopOfStack--; | |
*pxTopOfStack = 0xdddddddd; | |
pxTopOfStack--; | |
*pxTopOfStack = 0xcccccccc; | |
pxTopOfStack--; | |
*pxTopOfStack = 0xbbbbbbbb; | |
pxTopOfStack--; | |
*pxTopOfStack = 0xaaaaaaaa; | |
pxTopOfStack--; | |
*pxTopOfStack = 0x99999999; | |
pxTopOfStack--; | |
*pxTopOfStack = 0x88888888; | |
pxTopOfStack--; | |
*pxTopOfStack = 0x77777777; | |
pxTopOfStack--; | |
*pxTopOfStack = 0x66666666; | |
pxTopOfStack--; | |
*pxTopOfStack = 0x55555555; | |
pxTopOfStack--; | |
*pxTopOfStack = 0x44444444; | |
pxTopOfStack--; | |
*pxTopOfStack = 0x33333333; | |
pxTopOfStack--; | |
*pxTopOfStack = 0x22222222; | |
pxTopOfStack--; | |
} | |
#else | |
{ | |
/* Leave space for the registers that will get popped from the stack | |
when the task first starts executing. */ | |
pxTopOfStack -= 15; | |
} | |
#endif | |
*pxTopOfStack = ( StackType_t ) pvParameters; /* R1 */ | |
pxTopOfStack--; | |
*pxTopOfStack = 0x12345678; /* Accumulator. */ | |
pxTopOfStack--; | |
*pxTopOfStack = 0x87654321; /* Accumulator. */ | |
return pxTopOfStack; | |
} | |
/*-----------------------------------------------------------*/ | |
BaseType_t xPortStartScheduler( void ) | |
{ | |
/* Use pxCurrentTCB just so it does not get optimised away. */ | |
if( pxCurrentTCB != NULL ) | |
{ | |
/* Call an application function to set up the timer that will generate | |
the tick interrupt. This way the application can decide which | |
peripheral to use. If tickless mode is used then the default | |
implementation defined in this file (which uses CMT0) should not be | |
overridden. */ | |
configSETUP_TICK_INTERRUPT(); | |
/* Enable the software interrupt. */ | |
_IEN( _ICU_SWINT ) = 1; | |
/* Ensure the software interrupt is clear. */ | |
_IR( _ICU_SWINT ) = 0; | |
/* Ensure the software interrupt is set to the kernel priority. */ | |
_IPR( _ICU_SWINT ) = configKERNEL_INTERRUPT_PRIORITY; | |
/* Start the first task. */ | |
prvStartFirstTask(); | |
} | |
/* Execution should not reach here as the tasks are now running! | |
prvSetupTimerInterrupt() is called here to prevent the compiler outputting | |
a warning about a statically declared function not being referenced in the | |
case that the application writer has provided their own tick interrupt | |
configuration routine (and defined configSETUP_TICK_INTERRUPT() such that | |
their own routine will be called in place of prvSetupTimerInterrupt()). */ | |
prvSetupTimerInterrupt(); | |
/* Should not get here. */ | |
return pdFAIL; | |
} | |
/*-----------------------------------------------------------*/ | |
void vPortEndScheduler( void ) | |
{ | |
/* Not implemented in ports where there is nothing to return to. | |
Artificially force an assert. */ | |
configASSERT( pxCurrentTCB == NULL ); | |
} | |
/*-----------------------------------------------------------*/ | |
static void prvStartFirstTask( void ) | |
{ | |
__asm volatile | |
( | |
/* When starting the scheduler there is nothing that needs moving to the | |
interrupt stack because the function is not called from an interrupt. | |
Just ensure the current stack is the user stack. */ | |
"SETPSW U \n" \ | |
/* Obtain the location of the stack associated with which ever task | |
pxCurrentTCB is currently pointing to. */ | |
"MOV.L #_pxCurrentTCB, R15 \n" \ | |
"MOV.L [R15], R15 \n" \ | |
"MOV.L [R15], R0 \n" \ | |
/* Restore the registers from the stack of the task pointed to by | |
pxCurrentTCB. */ | |
"POP R15 \n" \ | |
/* Accumulator low 32 bits. */ | |
"MVTACLO R15 \n" \ | |
"POP R15 \n" \ | |
/* Accumulator high 32 bits. */ | |
"MVTACHI R15 \n" \ | |
/* R1 to R15 - R0 is not included as it is the SP. */ | |
"POPM R1-R15 \n" \ | |
/* This pops the remaining registers. */ | |
"RTE \n" \ | |
"NOP \n" \ | |
"NOP \n" | |
); | |
} | |
/*-----------------------------------------------------------*/ | |
void vPortSoftwareInterruptISR( void ) | |
{ | |
__asm volatile | |
( | |
/* Re-enable interrupts. */ | |
"SETPSW I \n" \ | |
/* Move the data that was automatically pushed onto the interrupt stack when | |
the interrupt occurred from the interrupt stack to the user stack. | |
R15 is saved before it is clobbered. */ | |
"PUSH.L R15 \n" \ | |
/* Read the user stack pointer. */ | |
"MVFC USP, R15 \n" \ | |
/* Move the address down to the data being moved. */ | |
"SUB #12, R15 \n" \ | |
"MVTC R15, USP \n" \ | |
/* Copy the data across, R15, then PC, then PSW. */ | |
"MOV.L [ R0 ], [ R15 ] \n" \ | |
"MOV.L 4[ R0 ], 4[ R15 ] \n" \ | |
"MOV.L 8[ R0 ], 8[ R15 ] \n" \ | |
/* Move the interrupt stack pointer to its new correct position. */ | |
"ADD #12, R0 \n" \ | |
/* All the rest of the registers are saved directly to the user stack. */ | |
"SETPSW U \n" \ | |
/* Save the rest of the general registers (R15 has been saved already). */ | |
"PUSHM R1-R14 \n" \ | |
/* Save the accumulator. */ | |
"MVFACHI R15 \n" \ | |
"PUSH.L R15 \n" \ | |
/* Middle word. */ | |
"MVFACMI R15 \n" \ | |
/* Shifted left as it is restored to the low order word. */ | |
"SHLL #16, R15 \n" \ | |
"PUSH.L R15 \n" \ | |
/* Save the stack pointer to the TCB. */ | |
"MOV.L #_pxCurrentTCB, R15 \n" \ | |
"MOV.L [ R15 ], R15 \n" \ | |
"MOV.L R0, [ R15 ] \n" \ | |
/* Ensure the interrupt mask is set to the syscall priority while the kernel | |
structures are being accessed. */ | |
"MVTIPL %0 \n" \ | |
/* Select the next task to run. */ | |
"BSR.A _vTaskSwitchContext \n" \ | |
/* Reset the interrupt mask as no more data structure access is required. */ | |
"MVTIPL %1 \n" \ | |
/* Load the stack pointer of the task that is now selected as the Running | |
state task from its TCB. */ | |
"MOV.L #_pxCurrentTCB,R15 \n" \ | |
"MOV.L [ R15 ], R15 \n" \ | |
"MOV.L [ R15 ], R0 \n" \ | |
/* Restore the context of the new task. The PSW (Program Status Word) and | |
PC will be popped by the RTE instruction. */ | |
"POP R15 \n" \ | |
"MVTACLO R15 \n" \ | |
"POP R15 \n" \ | |
"MVTACHI R15 \n" \ | |
"POPM R1-R15 \n" \ | |
"RTE \n" \ | |
"NOP \n" \ | |
"NOP " | |
:: "i"(configMAX_SYSCALL_INTERRUPT_PRIORITY), "i"(configKERNEL_INTERRUPT_PRIORITY) | |
); | |
} | |
/*-----------------------------------------------------------*/ | |
void vPortTickISR( void ) | |
{ | |
/* Re-enabled interrupts. */ | |
__asm volatile( "SETPSW I" ); | |
/* Increment the tick, and perform any processing the new tick value | |
necessitates. Ensure IPL is at the max syscall value first. */ | |
portDISABLE_INTERRUPTS_FROM_KERNEL_ISR(); | |
{ | |
if( xTaskIncrementTick() != pdFALSE ) | |
{ | |
taskYIELD(); | |
} | |
} | |
portENABLE_INTERRUPTS_FROM_KERNEL_ISR(); | |
#if configUSE_TICKLESS_IDLE == 1 | |
{ | |
/* The CPU woke because of a tick. */ | |
ulTickFlag = pdTRUE; | |
/* If this is the first tick since exiting tickless mode then the CMT | |
compare match value needs resetting. */ | |
CMT0.CMCOR = ( uint16_t ) ulMatchValueForOneTick; | |
} | |
#endif | |
} | |
/*-----------------------------------------------------------*/ | |
uint32_t ulPortGetIPL( void ) | |
{ | |
__asm volatile | |
( | |
"MVFC PSW, R1 \n" \ | |
"SHLR #24, R1 \n" \ | |
"RTS " | |
); | |
/* This will never get executed, but keeps the compiler from complaining. */ | |
return 0; | |
} | |
/*-----------------------------------------------------------*/ | |
void vPortSetIPL( uint32_t ulNewIPL ) | |
{ | |
__asm volatile | |
( | |
"PUSH R5 \n" \ | |
"MVFC PSW, R5 \n" \ | |
"SHLL #24, R1 \n" \ | |
"AND #-0F000001H, R5 \n" \ | |
"OR R1, R5 \n" \ | |
"MVTC R5, PSW \n" \ | |
"POP R5 \n" \ | |
"RTS " | |
); | |
} | |
/*-----------------------------------------------------------*/ | |
static void prvSetupTimerInterrupt( void ) | |
{ | |
/* Unlock. */ | |
SYSTEM.PRCR.WORD = portUNLOCK_KEY; | |
/* Enable CMT0. */ | |
MSTP( CMT0 ) = 0; | |
/* Lock again. */ | |
SYSTEM.PRCR.WORD = portLOCK_KEY; | |
/* Interrupt on compare match. */ | |
CMT0.CMCR.BIT.CMIE = 1; | |
/* Set the compare match value. */ | |
CMT0.CMCOR = ( uint16_t ) ulMatchValueForOneTick; | |
/* Divide the PCLK. */ | |
#if portCLOCK_DIVISOR == 512 | |
{ | |
CMT0.CMCR.BIT.CKS = 3; | |
} | |
#elif portCLOCK_DIVISOR == 128 | |
{ | |
CMT0.CMCR.BIT.CKS = 2; | |
} | |
#elif portCLOCK_DIVISOR == 32 | |
{ | |
CMT0.CMCR.BIT.CKS = 1; | |
} | |
#elif portCLOCK_DIVISOR == 8 | |
{ | |
CMT0.CMCR.BIT.CKS = 0; | |
} | |
#else | |
{ | |
#error Invalid portCLOCK_DIVISOR setting | |
} | |
#endif | |
/* Enable the interrupt... */ | |
_IEN( _CMT0_CMI0 ) = 1; | |
/* ...and set its priority to the application defined kernel priority. */ | |
_IPR( _CMT0_CMI0 ) = configKERNEL_INTERRUPT_PRIORITY; | |
/* Start the timer. */ | |
CMT.CMSTR0.BIT.STR0 = 1; | |
} | |
/*-----------------------------------------------------------*/ | |
#if configUSE_TICKLESS_IDLE == 1 | |
static void prvSleep( TickType_t xExpectedIdleTime ) | |
{ | |
/* Allow the application to define some pre-sleep processing. */ | |
configPRE_SLEEP_PROCESSING( xExpectedIdleTime ); | |
/* xExpectedIdleTime being set to 0 by configPRE_SLEEP_PROCESSING() | |
means the application defined code has already executed the WAIT | |
instruction. */ | |
if( xExpectedIdleTime > 0 ) | |
{ | |
__asm volatile( "WAIT" ); | |
} | |
/* Allow the application to define some post sleep processing. */ | |
configPOST_SLEEP_PROCESSING( xExpectedIdleTime ); | |
} | |
#endif /* configUSE_TICKLESS_IDLE */ | |
/*-----------------------------------------------------------*/ | |
#if configUSE_TICKLESS_IDLE == 1 | |
void vPortSuppressTicksAndSleep( TickType_t xExpectedIdleTime ) | |
{ | |
uint32_t ulMatchValue, ulCompleteTickPeriods, ulCurrentCount; | |
eSleepModeStatus eSleepAction; | |
/* THIS FUNCTION IS CALLED WITH THE SCHEDULER SUSPENDED. */ | |
/* Make sure the CMT reload value does not overflow the counter. */ | |
if( xExpectedIdleTime > xMaximumPossibleSuppressedTicks ) | |
{ | |
xExpectedIdleTime = xMaximumPossibleSuppressedTicks; | |
} | |
/* Calculate the reload value required to wait xExpectedIdleTime tick | |
periods. */ | |
ulMatchValue = ulMatchValueForOneTick * xExpectedIdleTime; | |
if( ulMatchValue > ulStoppedTimerCompensation ) | |
{ | |
/* Compensate for the fact that the CMT is going to be stopped | |
momentarily. */ | |
ulMatchValue -= ulStoppedTimerCompensation; | |
} | |
/* Stop the CMT momentarily. The time the CMT is stopped for is | |
accounted for as best it can be, but using the tickless mode will | |
inevitably result in some tiny drift of the time maintained by the | |
kernel with respect to calendar time. */ | |
CMT.CMSTR0.BIT.STR0 = 0; | |
while( CMT.CMSTR0.BIT.STR0 == 1 ) | |
{ | |
/* Nothing to do here. */ | |
} | |
/* Critical section using the global interrupt bit as the i bit is | |
automatically reset by the WAIT instruction. */ | |
__asm volatile( "CLRPSW i" ); | |
/* The tick flag is set to false before sleeping. If it is true when | |
sleep mode is exited then sleep mode was probably exited because the | |
tick was suppressed for the entire xExpectedIdleTime period. */ | |
ulTickFlag = pdFALSE; | |
/* If a context switch is pending then abandon the low power entry as | |
the context switch might have been pended by an external interrupt that | |
requires processing. */ | |
eSleepAction = eTaskConfirmSleepModeStatus(); | |
if( eSleepAction == eAbortSleep ) | |
{ | |
/* Restart tick. */ | |
CMT.CMSTR0.BIT.STR0 = 1; | |
__asm volatile( "SETPSW i" ); | |
} | |
else if( eSleepAction == eNoTasksWaitingTimeout ) | |
{ | |
/* Protection off. */ | |
SYSTEM.PRCR.WORD = portUNLOCK_KEY; | |
/* Ready for software standby with all clocks stopped. */ | |
SYSTEM.SBYCR.BIT.SSBY = 1; | |
/* Protection on. */ | |
SYSTEM.PRCR.WORD = portLOCK_KEY; | |
/* Sleep until something happens. Calling prvSleep() will | |
automatically reset the i bit in the PSW. */ | |
prvSleep( xExpectedIdleTime ); | |
/* Restart the CMT. */ | |
CMT.CMSTR0.BIT.STR0 = 1; | |
} | |
else | |
{ | |
/* Protection off. */ | |
SYSTEM.PRCR.WORD = portUNLOCK_KEY; | |
/* Ready for deep sleep mode. */ | |
SYSTEM.MSTPCRC.BIT.DSLPE = 1; | |
SYSTEM.MSTPCRA.BIT.MSTPA28 = 1; | |
SYSTEM.SBYCR.BIT.SSBY = 0; | |
/* Protection on. */ | |
SYSTEM.PRCR.WORD = portLOCK_KEY; | |
/* Adjust the match value to take into account that the current | |
time slice is already partially complete. */ | |
ulMatchValue -= ( uint32_t ) CMT0.CMCNT; | |
CMT0.CMCOR = ( uint16_t ) ulMatchValue; | |
/* Restart the CMT to count up to the new match value. */ | |
CMT0.CMCNT = 0; | |
CMT.CMSTR0.BIT.STR0 = 1; | |
/* Sleep until something happens. Calling prvSleep() will | |
automatically reset the i bit in the PSW. */ | |
prvSleep( xExpectedIdleTime ); | |
/* Stop CMT. Again, the time the SysTick is stopped for is | |
accounted for as best it can be, but using the tickless mode will | |
inevitably result in some tiny drift of the time maintained by the | |
kernel with respect to calendar time. */ | |
CMT.CMSTR0.BIT.STR0 = 0; | |
while( CMT.CMSTR0.BIT.STR0 == 1 ) | |
{ | |
/* Nothing to do here. */ | |
} | |
ulCurrentCount = ( uint32_t ) CMT0.CMCNT; | |
if( ulTickFlag != pdFALSE ) | |
{ | |
/* The tick interrupt has already executed, although because | |
this function is called with the scheduler suspended the actual | |
tick processing will not occur until after this function has | |
exited. Reset the match value with whatever remains of this | |
tick period. */ | |
ulMatchValue = ulMatchValueForOneTick - ulCurrentCount; | |
CMT0.CMCOR = ( uint16_t ) ulMatchValue; | |
/* The tick interrupt handler will already have pended the tick | |
processing in the kernel. As the pending tick will be | |
processed as soon as this function exits, the tick value | |
maintained by the tick is stepped forward by one less than the | |
time spent sleeping. The actual stepping of the tick appears | |
later in this function. */ | |
ulCompleteTickPeriods = xExpectedIdleTime - 1UL; | |
} | |
else | |
{ | |
/* Something other than the tick interrupt ended the sleep. | |
How many complete tick periods passed while the processor was | |
sleeping? */ | |
ulCompleteTickPeriods = ulCurrentCount / ulMatchValueForOneTick; | |
/* The match value is set to whatever fraction of a single tick | |
period remains. */ | |
ulMatchValue = ulCurrentCount - ( ulCompleteTickPeriods * ulMatchValueForOneTick ); | |
CMT0.CMCOR = ( uint16_t ) ulMatchValue; | |
} | |
/* Restart the CMT so it runs up to the match value. The match value | |
will get set to the value required to generate exactly one tick period | |
the next time the CMT interrupt executes. */ | |
CMT0.CMCNT = 0; | |
CMT.CMSTR0.BIT.STR0 = 1; | |
/* Wind the tick forward by the number of tick periods that the CPU | |
remained in a low power state. */ | |
vTaskStepTick( ulCompleteTickPeriods ); | |
} | |
} | |
#endif /* configUSE_TICKLESS_IDLE */ | |