esp-idf/components/freertos/port.c

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/*
FreeRTOS V8.2.0 - Copyright (C) 2015 Real Time Engineers Ltd.
All rights reserved
VISIT http://www.FreeRTOS.org TO ENSURE YOU ARE USING THE LATEST VERSION.
This file is part of the FreeRTOS distribution.
FreeRTOS is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License (version 2) as published by the
Free Software Foundation >>!AND MODIFIED BY!<< the FreeRTOS exception.
***************************************************************************
>>! NOTE: The modification to the GPL is included to allow you to !<<
>>! distribute a combined work that includes FreeRTOS without being !<<
>>! obliged to provide the source code for proprietary components !<<
>>! outside of the FreeRTOS kernel. !<<
***************************************************************************
FreeRTOS is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. Full license text is available on the following
link: http://www.freertos.org/a00114.html
***************************************************************************
* *
* FreeRTOS provides completely free yet professionally developed, *
* robust, strictly quality controlled, supported, and cross *
* platform software that is more than just the market leader, it *
* is the industry's de facto standard. *
* *
* Help yourself get started quickly while simultaneously helping *
* to support the FreeRTOS project by purchasing a FreeRTOS *
* tutorial book, reference manual, or both: *
* http://www.FreeRTOS.org/Documentation *
* *
***************************************************************************
http://www.FreeRTOS.org/FAQHelp.html - Having a problem? Start by reading
the FAQ page "My application does not run, what could be wrong?". Have you
defined configASSERT()?
http://www.FreeRTOS.org/support - In return for receiving this top quality
embedded software for free we request you assist our global community by
participating in the support forum.
http://www.FreeRTOS.org/training - Investing in training allows your team to
be as productive as possible as early as possible. Now you can receive
FreeRTOS training directly from Richard Barry, CEO of Real Time Engineers
Ltd, and the world's leading authority on the world's leading RTOS.
http://www.FreeRTOS.org/plus - A selection of FreeRTOS ecosystem products,
including FreeRTOS+Trace - an indispensable productivity tool, a DOS
compatible FAT file system, and our tiny thread aware UDP/IP stack.
http://www.FreeRTOS.org/labs - Where new FreeRTOS products go to incubate.
Come and try FreeRTOS+TCP, our new open source TCP/IP stack for FreeRTOS.
http://www.OpenRTOS.com - Real Time Engineers ltd. license FreeRTOS to High
Integrity Systems ltd. to sell under the OpenRTOS brand. Low cost OpenRTOS
licenses offer ticketed support, indemnification and commercial middleware.
http://www.SafeRTOS.com - High Integrity Systems also provide a safety
engineered and independently SIL3 certified version for use in safety and
mission critical applications that require provable dependability.
1 tab == 4 spaces!
*/
/*******************************************************************************
// Copyright (c) 2003-2015 Cadence Design Systems, Inc.
//
// 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.
--------------------------------------------------------------------------------
*/
#include <stdlib.h>
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#include <string.h>
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#include <xtensa/config/core.h>
#include "xtensa_rtos.h"
#include "soc/cpu.h"
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#include "FreeRTOS.h"
#include "task.h"
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#include "esp_debug_helpers.h"
#include "esp_heap_caps.h"
#include "esp_private/crosscore_int.h"
#include "esp_intr_alloc.h"
#include "esp_log.h"
#include "sdkconfig.h"
components/esp_common: added esp_macros.h that aims to hold useful macros esp_common/esp_compiler: renamed esp_macros file to a more specific one esp_common/esp_compiler: removed CONTAINER_OF macro, it was a duplicate components/freertos: placed likely macros around port and critical sections component/freertos: placed likely macros on lists module components/freertos: placed unlikely macros inside of assertion points, they likely wont fail components/freertos: added likely macros on queue modules FreeRTOS queues are one of most hot code path, because to queues itself tend to be used a lot by the applications, besides that, queues are the basic primitive to form both mutexes and semaphores, The focus here is to place likely macros inside lowest level send and receive routines, since they're common from all kobjects: semaphores, queues, mutexes and FR internals (like timer queue) components/lwip: placed likely/unlikey on net-interfaces code components/fatfs: added unlikely macros on disk drivers code components/spiffs: added unlikely macros on low level fs driver components/freertos: added likely/unlikely macros on timers and ticker freertos/event_group: placed likely/unlikely macros on hot event group code paths components/sdmmc: placed likely / unlikely macros on lower level path of sdmmc components/bt: placed unlikely macros around bt HCI functions calling components/lwip: added likely/unlikely macros on OS port code section components/freertos: fix code style on tick handler
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#include "esp_compiler.h"
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/* Defined in portasm.h */
extern void _frxt_tick_timer_init(void);
/* Defined in xtensa_context.S */
extern void _xt_coproc_init(void);
#if CONFIG_FREERTOS_CORETIMER_0
#define SYSTICK_INTR_ID (ETS_INTERNAL_TIMER0_INTR_SOURCE+ETS_INTERNAL_INTR_SOURCE_OFF)
#endif
#if CONFIG_FREERTOS_CORETIMER_1
#define SYSTICK_INTR_ID (ETS_INTERNAL_TIMER1_INTR_SOURCE+ETS_INTERNAL_INTR_SOURCE_OFF)
#endif
_Static_assert(tskNO_AFFINITY == CONFIG_FREERTOS_NO_AFFINITY, "incorrect tskNO_AFFINITY value");
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/*-----------------------------------------------------------*/
unsigned port_xSchedulerRunning[portNUM_PROCESSORS] = {0}; // Duplicate of inaccessible xSchedulerRunning; needed at startup to avoid counting nesting
unsigned port_interruptNesting[portNUM_PROCESSORS] = {0}; // Interrupt nesting level. Increased/decreased in portasm.c, _frxt_int_enter/_frxt_int_exit
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/*-----------------------------------------------------------*/
// User exception dispatcher when exiting
void _xt_user_exit(void);
#if CONFIG_FREERTOS_TASK_FUNCTION_WRAPPER
// Wrapper to allow task functions to return (increases stack overhead by 16 bytes)
static void vPortTaskWrapper(TaskFunction_t pxCode, void *pvParameters)
{
pxCode(pvParameters);
//FreeRTOS tasks should not return. Log the task name and abort.
char * pcTaskName = pcTaskGetTaskName(NULL);
ESP_LOGE("FreeRTOS", "FreeRTOS Task \"%s\" should not return, Aborting now!", pcTaskName);
abort();
}
#endif
/*
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* Stack initialization
*/
#if portUSING_MPU_WRAPPERS
StackType_t *pxPortInitialiseStack( StackType_t *pxTopOfStack, TaskFunction_t pxCode, void *pvParameters, BaseType_t xRunPrivileged )
#else
StackType_t *pxPortInitialiseStack( StackType_t *pxTopOfStack, TaskFunction_t pxCode, void *pvParameters )
#endif
{
StackType_t *sp, *tp;
XtExcFrame *frame;
#if XCHAL_CP_NUM > 0
uint32_t *p;
#endif
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uint32_t *threadptr;
void *task_thread_local_start;
extern int _thread_local_start, _thread_local_end, _rodata_start;
// TODO: check that TLS area fits the stack
uint32_t thread_local_sz = (uint8_t *)&_thread_local_end - (uint8_t *)&_thread_local_start;
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thread_local_sz = ALIGNUP(0x10, thread_local_sz);
/* Initialize task's stack so that we have the following structure at the top:
----LOW ADDRESSES ----------------------------------------HIGH ADDRESSES----------
task stack | interrupt stack frame | thread local vars | co-processor save area |
----------------------------------------------------------------------------------
| |
SP pxTopOfStack
All parts are aligned to 16 byte boundary. */
sp = (StackType_t *) (((UBaseType_t)(pxTopOfStack + 1) - XT_CP_SIZE - thread_local_sz - XT_STK_FRMSZ) & ~0xf);
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/* Clear the entire frame (do not use memset() because we don't depend on C library) */
for (tp = sp; tp <= pxTopOfStack; ++tp)
*tp = 0;
frame = (XtExcFrame *) sp;
/* Explicitly initialize certain saved registers */
#if CONFIG_FREERTOS_TASK_FUNCTION_WRAPPER
frame->pc = (UBaseType_t) vPortTaskWrapper; /* task wrapper */
#else
frame->pc = (UBaseType_t) pxCode; /* task entrypoint */
#endif
frame->a0 = 0; /* to terminate GDB backtrace */
frame->a1 = (UBaseType_t) sp + XT_STK_FRMSZ; /* physical top of stack frame */
frame->exit = (UBaseType_t) _xt_user_exit; /* user exception exit dispatcher */
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/* Set initial PS to int level 0, EXCM disabled ('rfe' will enable), user mode. */
/* Also set entry point argument parameter. */
#ifdef __XTENSA_CALL0_ABI__
#if CONFIG_FREERTOS_TASK_FUNCTION_WRAPPER
frame->a2 = (UBaseType_t) pxCode;
frame->a3 = (UBaseType_t) pvParameters;
#else
frame->a2 = (UBaseType_t) pvParameters;
#endif
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frame->ps = PS_UM | PS_EXCM;
#else
/* + for windowed ABI also set WOE and CALLINC (pretend task was 'call4'd). */
#if CONFIG_FREERTOS_TASK_FUNCTION_WRAPPER
frame->a6 = (UBaseType_t) pxCode;
frame->a7 = (UBaseType_t) pvParameters;
#else
frame->a6 = (UBaseType_t) pvParameters;
#endif
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frame->ps = PS_UM | PS_EXCM | PS_WOE | PS_CALLINC(1);
#endif
#ifdef XT_USE_SWPRI
/* Set the initial virtual priority mask value to all 1's. */
frame->vpri = 0xFFFFFFFF;
#endif
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/* Init threadptr reg and TLS vars */
task_thread_local_start = (void *)(((uint32_t)pxTopOfStack - XT_CP_SIZE - thread_local_sz) & ~0xf);
memcpy(task_thread_local_start, &_thread_local_start, thread_local_sz);
threadptr = (uint32_t *)(sp + XT_STK_EXTRA);
/* shift threadptr by the offset of _thread_local_start from DROM start;
need to take into account extra 16 bytes offset */
*threadptr = (uint32_t)task_thread_local_start - ((uint32_t)&_thread_local_start - (uint32_t)&_rodata_start) - 0x10;
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#if XCHAL_CP_NUM > 0
/* Init the coprocessor save area (see xtensa_context.h) */
/* No access to TCB here, so derive indirectly. Stack growth is top to bottom.
* //p = (uint32_t *) xMPUSettings->coproc_area;
*/
p = (uint32_t *)(((uint32_t) pxTopOfStack - XT_CP_SIZE) & ~0xf);
p[0] = 0;
p[1] = 0;
p[2] = (((uint32_t) p) + 12 + XCHAL_TOTAL_SA_ALIGN - 1) & -XCHAL_TOTAL_SA_ALIGN;
#endif
return sp;
}
/*-----------------------------------------------------------*/
void vPortEndScheduler( void )
{
/* It is unlikely that the Xtensa port will get stopped. If required simply
disable the tick interrupt here. */
}
/*-----------------------------------------------------------*/
BaseType_t xPortStartScheduler( void )
{
// Interrupts are disabled at this point and stack contains PS with enabled interrupts when task context is restored
#if XCHAL_CP_NUM > 0
/* Initialize co-processor management for tasks. Leave CPENABLE alone. */
_xt_coproc_init();
#endif
/* Init the tick divisor value */
_xt_tick_divisor_init();
/* Setup the hardware to generate the tick. */
_frxt_tick_timer_init();
port_xSchedulerRunning[xPortGetCoreID()] = 1;
// Cannot be directly called from C; never returns
__asm__ volatile ("call0 _frxt_dispatch\n");
/* Should not get here. */
return pdTRUE;
}
/*-----------------------------------------------------------*/
BaseType_t xPortSysTickHandler( void )
{
BaseType_t ret;
portbenchmarkIntLatency();
traceISR_ENTER(SYSTICK_INTR_ID);
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ret = xTaskIncrementTick();
if( ret != pdFALSE )
{
portYIELD_FROM_ISR();
} else {
traceISR_EXIT();
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}
return ret;
}
void vPortYieldOtherCore( BaseType_t coreid ) {
esp_crosscore_int_send_yield( coreid );
}
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/*-----------------------------------------------------------*/
/*
* Used to set coprocessor area in stack. Current hack is to reuse MPU pointer for coprocessor area.
*/
#if portUSING_MPU_WRAPPERS
void vPortStoreTaskMPUSettings( xMPU_SETTINGS *xMPUSettings, const struct xMEMORY_REGION * const xRegions, StackType_t *pxBottomOfStack, uint32_t usStackDepth )
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{
#if XCHAL_CP_NUM > 0
xMPUSettings->coproc_area = (StackType_t*)((((uint32_t)(pxBottomOfStack + usStackDepth - 1)) - XT_CP_SIZE ) & ~0xf);
/* NOTE: we cannot initialize the coprocessor save area here because FreeRTOS is going to
* clear the stack area after we return. This is done in pxPortInitialiseStack().
*/
#endif
}
void vPortReleaseTaskMPUSettings( xMPU_SETTINGS *xMPUSettings )
{
/* If task has live floating point registers somewhere, release them */
_xt_coproc_release( xMPUSettings->coproc_area );
}
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#endif
/*
* Returns true if the current core is in ISR context; low prio ISR, med prio ISR or timer tick ISR. High prio ISRs
* aren't detected here, but they normally cannot call C code, so that should not be an issue anyway.
*/
BaseType_t xPortInIsrContext(void)
{
unsigned int irqStatus;
BaseType_t ret;
irqStatus=portENTER_CRITICAL_NESTED();
ret=(port_interruptNesting[xPortGetCoreID()] != 0);
portEXIT_CRITICAL_NESTED(irqStatus);
return ret;
}
/*
* This function will be called in High prio ISRs. Returns true if the current core was in ISR context
* before calling into high prio ISR context.
*/
BaseType_t IRAM_ATTR xPortInterruptedFromISRContext(void)
{
return (port_interruptNesting[xPortGetCoreID()] != 0);
}
void vPortAssertIfInISR(void)
{
configASSERT(xPortInIsrContext());
}
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/*
* For kernel use: Initialize a per-CPU mux. Mux will be initialized unlocked.
*/
void vPortCPUInitializeMutex(portMUX_TYPE *mux) {
#ifdef CONFIG_FREERTOS_PORTMUX_DEBUG
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ets_printf("Initializing mux %p\n", mux);
mux->lastLockedFn="(never locked)";
mux->lastLockedLine=-1;
#endif
mux->owner=portMUX_FREE_VAL;
mux->count=0;
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}
#include "portmux_impl.h"
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/*
* For kernel use: Acquire a per-CPU mux. Spinlocks, so don't hold on to these muxes for too long.
*/
#ifdef CONFIG_FREERTOS_PORTMUX_DEBUG
void vPortCPUAcquireMutex(portMUX_TYPE *mux, const char *fnName, int line) {
unsigned int irqStatus = portENTER_CRITICAL_NESTED();
vPortCPUAcquireMutexIntsDisabled(mux, portMUX_NO_TIMEOUT, fnName, line);
portEXIT_CRITICAL_NESTED(irqStatus);
}
bool vPortCPUAcquireMutexTimeout(portMUX_TYPE *mux, int timeout_cycles, const char *fnName, int line) {
unsigned int irqStatus = portENTER_CRITICAL_NESTED();
bool result = vPortCPUAcquireMutexIntsDisabled(mux, timeout_cycles, fnName, line);
portEXIT_CRITICAL_NESTED(irqStatus);
return result;
}
#else
void vPortCPUAcquireMutex(portMUX_TYPE *mux) {
unsigned int irqStatus = portENTER_CRITICAL_NESTED();
vPortCPUAcquireMutexIntsDisabled(mux, portMUX_NO_TIMEOUT);
portEXIT_CRITICAL_NESTED(irqStatus);
}
bool vPortCPUAcquireMutexTimeout(portMUX_TYPE *mux, int timeout_cycles) {
unsigned int irqStatus = portENTER_CRITICAL_NESTED();
bool result = vPortCPUAcquireMutexIntsDisabled(mux, timeout_cycles);
portEXIT_CRITICAL_NESTED(irqStatus);
return result;
}
#endif
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/*
* For kernel use: Release a per-CPU mux
*
* Mux must be already locked by this core
*/
#ifdef CONFIG_FREERTOS_PORTMUX_DEBUG
void vPortCPUReleaseMutex(portMUX_TYPE *mux, const char *fnName, int line) {
unsigned int irqStatus = portENTER_CRITICAL_NESTED();
vPortCPUReleaseMutexIntsDisabled(mux, fnName, line);
portEXIT_CRITICAL_NESTED(irqStatus);
}
#else
void vPortCPUReleaseMutex(portMUX_TYPE *mux) {
unsigned int irqStatus = portENTER_CRITICAL_NESTED();
vPortCPUReleaseMutexIntsDisabled(mux);
portEXIT_CRITICAL_NESTED(irqStatus);
}
#endif
void vPortSetStackWatchpoint( void* pxStackStart ) {
//Set watchpoint 1 to watch the last 32 bytes of the stack.
//Unfortunately, the Xtensa watchpoints can't set a watchpoint on a random [base - base+n] region because
//the size works by masking off the lowest address bits. For that reason, we futz a bit and watch the lowest 32
//bytes of the stack we can actually watch. In general, this can cause the watchpoint to be triggered at most
//28 bytes early. The value 32 is chosen because it's larger than the stack canary, which in FreeRTOS is 20 bytes.
//This way, we make sure we trigger before/when the stack canary is corrupted, not after.
int addr=(int)pxStackStart;
addr=(addr+31)&(~31);
esp_set_watchpoint(1, (char*)addr, 32, ESP_WATCHPOINT_STORE);
}
#if defined(CONFIG_SPIRAM)
/*
* Compare & set (S32C1) does not work in external RAM. Instead, this routine uses a mux (in internal memory) to fake it.
*/
static portMUX_TYPE extram_mux = portMUX_INITIALIZER_UNLOCKED;
void uxPortCompareSetExtram(volatile uint32_t *addr, uint32_t compare, uint32_t *set) {
uint32_t prev;
uint32_t oldlevel = portENTER_CRITICAL_NESTED();
#ifdef CONFIG_FREERTOS_PORTMUX_DEBUG
vPortCPUAcquireMutexIntsDisabled(&extram_mux, portMUX_NO_TIMEOUT, __FUNCTION__, __LINE__);
#else
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vPortCPUAcquireMutexIntsDisabled(&extram_mux, portMUX_NO_TIMEOUT);
#endif
prev=*addr;
if (prev==compare) {
*addr=*set;
}
*set=prev;
#ifdef CONFIG_FREERTOS_PORTMUX_DEBUG
vPortCPUReleaseMutexIntsDisabled(&extram_mux, __FUNCTION__, __LINE__);
#else
vPortCPUReleaseMutexIntsDisabled(&extram_mux);
#endif
portEXIT_CRITICAL_NESTED(oldlevel);
}
#endif //defined(CONFIG_SPIRAM)
uint32_t xPortGetTickRateHz(void) {
return (uint32_t)configTICK_RATE_HZ;
}