esp-idf/components/lwip/port/esp32/freertos/sys_arch.c

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/*
* Copyright (c) 2001-2003 Swedish Institute of Computer Science.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without modification,
* are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT
* SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT
* OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
* IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY
* OF SUCH DAMAGE.
*
* This file is part of the lwIP TCP/IP stack.
*
* Author: Adam Dunkels <adam@sics.se>
*
*/
/* lwIP includes. */
#include <pthread.h>
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#include "lwip/debug.h"
#include "lwip/def.h"
#include "lwip/sys.h"
#include "lwip/mem.h"
#include "arch/sys_arch.h"
#include "lwip/stats.h"
#include "esp_log.h"
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/* This is the number of threads that can be started with sys_thread_new() */
#define SYS_THREAD_MAX 4
#define TAG "lwip_arch"
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static sys_mutex_t g_lwip_protect_mutex = NULL;
static pthread_key_t sys_thread_sem_key;
static void sys_thread_sem_free(void* data);
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#if !LWIP_COMPAT_MUTEX
/** Create a new mutex
* @param mutex pointer to the mutex to create
* @return a new mutex */
err_t
sys_mutex_new(sys_mutex_t *pxMutex)
{
err_t xReturn = ERR_MEM;
*pxMutex = xSemaphoreCreateMutex();
if (*pxMutex != NULL) {
xReturn = ERR_OK;
}
LWIP_DEBUGF(ESP_THREAD_SAFE_DEBUG, ("sys_mutex_new: m=%p\n", *pxMutex));
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return xReturn;
}
/** Lock a mutex
* @param mutex the mutex to lock */
void ESP_IRAM_ATTR
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sys_mutex_lock(sys_mutex_t *pxMutex)
{
while (xSemaphoreTake(*pxMutex, portMAX_DELAY) != pdPASS);
}
err_t
sys_mutex_trylock(sys_mutex_t *pxMutex)
{
if (xSemaphoreTake(*pxMutex, 0) == pdPASS) return 0;
else return -1;
}
/** Unlock a mutex
* @param mutex the mutex to unlock */
void ESP_IRAM_ATTR
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sys_mutex_unlock(sys_mutex_t *pxMutex)
{
xSemaphoreGive(*pxMutex);
}
/** Delete a semaphore
* @param mutex the mutex to delete */
void
sys_mutex_free(sys_mutex_t *pxMutex)
{
LWIP_DEBUGF(ESP_THREAD_SAFE_DEBUG, ("sys_mutex_free: m=%p\n", *pxMutex));
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vQueueDelete(*pxMutex);
}
#endif
/*-----------------------------------------------------------------------------------*/
// Creates and returns a new semaphore. The "count" argument specifies
// the initial state of the semaphore. TBD finish and test
err_t
sys_sem_new(sys_sem_t *sem, u8_t count)
{
err_t xReturn = ERR_MEM;
vSemaphoreCreateBinary(*sem);
if ((*sem) != NULL) {
if (count == 0) { // Means it can't be taken
xSemaphoreTake(*sem, 1);
}
xReturn = ERR_OK;
} else {
; // TBD need assert
}
return xReturn;
}
/*-----------------------------------------------------------------------------------*/
// Signals a semaphore
void ESP_IRAM_ATTR
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sys_sem_signal(sys_sem_t *sem)
{
xSemaphoreGive(*sem);
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}
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/*-----------------------------------------------------------------------------------*/
// Signals a semaphore (from ISR)
int sys_sem_signal_isr(sys_sem_t *sem)
{
BaseType_t woken = pdFALSE;
xSemaphoreGiveFromISR(*sem, &woken);
return woken == pdTRUE;
}
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/*-----------------------------------------------------------------------------------*/
/*
Blocks the thread while waiting for the semaphore to be
signaled. If the "timeout" argument is non-zero, the thread should
only be blocked for the specified time (measured in
milliseconds).
If the timeout argument is non-zero, the return value is the number of
milliseconds spent waiting for the semaphore to be signaled. If the
semaphore wasn't signaled within the specified time, the return value is
SYS_ARCH_TIMEOUT. If the thread didn't have to wait for the semaphore
(i.e., it was already signaled), the function may return zero.
Notice that lwIP implements a function with a similar name,
sys_sem_wait(), that uses the sys_arch_sem_wait() function.
*/
u32_t ESP_IRAM_ATTR
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sys_arch_sem_wait(sys_sem_t *sem, u32_t timeout)
{
portTickType StartTime, EndTime, Elapsed;
unsigned long ulReturn;
StartTime = xTaskGetTickCount();
if (timeout != 0) {
if (xSemaphoreTake(*sem, timeout / portTICK_PERIOD_MS) == pdTRUE) {
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EndTime = xTaskGetTickCount();
Elapsed = (EndTime - StartTime) * portTICK_PERIOD_MS;
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if (Elapsed == 0) {
Elapsed = 1;
}
ulReturn = Elapsed;
} else {
ulReturn = SYS_ARCH_TIMEOUT;
}
} else { // must block without a timeout
while (xSemaphoreTake(*sem, portMAX_DELAY) != pdTRUE);
EndTime = xTaskGetTickCount();
Elapsed = (EndTime - StartTime) * portTICK_PERIOD_MS;
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if (Elapsed == 0) {
Elapsed = 1;
}
ulReturn = Elapsed;
}
return ulReturn ; // return time blocked
}
/*-----------------------------------------------------------------------------------*/
// Deallocates a semaphore
void
sys_sem_free(sys_sem_t *sem)
{
vSemaphoreDelete(*sem);
}
/*-----------------------------------------------------------------------------------*/
// Creates an empty mailbox.
err_t
sys_mbox_new(sys_mbox_t *mbox, int size)
{
*mbox = mem_malloc(sizeof(struct sys_mbox_s));
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if (*mbox == NULL){
LWIP_DEBUGF(ESP_THREAD_SAFE_DEBUG, ("fail to new *mbox\n"));
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return ERR_MEM;
}
(*mbox)->os_mbox = xQueueCreate(size, sizeof(void *));
if ((*mbox)->os_mbox == NULL) {
LWIP_DEBUGF(ESP_THREAD_SAFE_DEBUG, ("fail to new *mbox->os_mbox\n"));
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free(*mbox);
return ERR_MEM;
}
#if ESP_THREAD_SAFE
(*mbox)->owner = NULL;
#endif
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LWIP_DEBUGF(ESP_THREAD_SAFE_DEBUG, ("new *mbox ok mbox=%p os_mbox=%p\n", *mbox, (*mbox)->os_mbox));
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return ERR_OK;
}
/*-----------------------------------------------------------------------------------*/
// Posts the "msg" to the mailbox.
void ESP_IRAM_ATTR
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sys_mbox_post(sys_mbox_t *mbox, void *msg)
{
while (xQueueSendToBack((*mbox)->os_mbox, &msg, portMAX_DELAY) != pdTRUE);
}
/*-----------------------------------------------------------------------------------*/
err_t ESP_IRAM_ATTR
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sys_mbox_trypost(sys_mbox_t *mbox, void *msg)
{
err_t xReturn;
if (xQueueSend((*mbox)->os_mbox, &msg, (portTickType)0) == pdPASS) {
xReturn = ERR_OK;
} else {
LWIP_DEBUGF(ESP_THREAD_SAFE_DEBUG, ("trypost mbox=%p fail\n", (*mbox)->os_mbox));
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xReturn = ERR_MEM;
}
return xReturn;
}
/*-----------------------------------------------------------------------------------*/
/*
Blocks the thread until a message arrives in the mailbox, but does
not block the thread longer than "timeout" milliseconds (similar to
the sys_arch_sem_wait() function). The "msg" argument is a result
parameter that is set by the function (i.e., by doing "*msg =
ptr"). The "msg" parameter maybe NULL to indicate that the message
should be dropped.
The return values are the same as for the sys_arch_sem_wait() function:
Number of milliseconds spent waiting or SYS_ARCH_TIMEOUT if there was a
timeout.
Note that a function with a similar name, sys_mbox_fetch(), is
implemented by lwIP.
*/
u32_t ESP_IRAM_ATTR
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sys_arch_mbox_fetch(sys_mbox_t *mbox, void **msg, u32_t timeout)
{
void *dummyptr;
portTickType StartTime, EndTime, Elapsed;
unsigned long ulReturn;
StartTime = xTaskGetTickCount();
if (msg == NULL) {
msg = &dummyptr;
}
if (*mbox == NULL){
*msg = NULL;
return -1;
}
if (timeout == 0) {
timeout = portMAX_DELAY;
} else {
timeout = timeout / portTICK_PERIOD_MS;
}
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*msg = NULL;
if (pdTRUE == xQueueReceive((*mbox)->os_mbox, &(*msg), timeout)) {
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EndTime = xTaskGetTickCount();
Elapsed = (EndTime - StartTime) * portTICK_PERIOD_MS;
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if (Elapsed == 0) {
Elapsed = 1;
}
ulReturn = Elapsed;
} else { // timed out blocking for message
ulReturn = SYS_ARCH_TIMEOUT;
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}
return ulReturn ; // return time blocked TBD test
}
/*-----------------------------------------------------------------------------------*/
u32_t
sys_arch_mbox_tryfetch(sys_mbox_t *mbox, void **msg)
{
void *pvDummy;
unsigned long ulReturn;
if (msg == NULL) {
msg = &pvDummy;
}
if (pdTRUE == xQueueReceive((*mbox)->os_mbox, &(*msg), 0)) {
ulReturn = ERR_OK;
} else {
ulReturn = SYS_MBOX_EMPTY;
}
return ulReturn;
}
/*-----------------------------------------------------------------------------------*/
void
sys_mbox_set_owner(sys_mbox_t *mbox, void* owner)
{
if (mbox && *mbox) {
(*mbox)->owner = owner;
LWIP_DEBUGF(ESP_THREAD_SAFE_DEBUG, ("set mbox=%p owner=%p", *mbox, owner));
}
}
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/*
Deallocates a mailbox. If there are messages still present in the
mailbox when the mailbox is deallocated, it is an indication of a
programming error in lwIP and the developer should be notified.
*/
void
sys_mbox_free(sys_mbox_t *mbox)
{
if ( (NULL == mbox) || (NULL == *mbox) ) {
return;
}
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vQueueDelete((*mbox)->os_mbox);
free(*mbox);
*mbox = NULL;
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}
/*-----------------------------------------------------------------------------------*/
/*
Starts a new thread with priority "prio" that will begin its execution in the
function "thread()". The "arg" argument will be passed as an argument to the
thread() function. The id of the new thread is returned. Both the id and
the priority are system dependent.
*/
sys_thread_t
sys_thread_new(const char *name, lwip_thread_fn thread, void *arg, int stacksize, int prio)
{
xTaskHandle created_task;
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portBASE_TYPE result;
result = xTaskCreatePinnedToCore(thread, name, stacksize, arg, prio, &created_task,
CONFIG_LWIP_TCPIP_TASK_AFFINITY);
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if (result != pdPASS) {
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return NULL;
}
return created_task;
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}
/*-----------------------------------------------------------------------------------*/
// Initialize sys arch
void
sys_init(void)
{
if (ERR_OK != sys_mutex_new(&g_lwip_protect_mutex)) {
ESP_LOGE(TAG, "sys_init: failed to init lwip protect mutex\n");
}
// Create the pthreads key for the per-thread semaphore storage
pthread_key_create(&sys_thread_sem_key, sys_thread_sem_free);
esp_vfs_lwip_sockets_register();
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}
/*-----------------------------------------------------------------------------------*/
u32_t
sys_jiffies(void)
{
return xTaskGetTickCount();
}
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/*-----------------------------------------------------------------------------------*/
u32_t
sys_now(void)
{
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return (xTaskGetTickCount()*portTICK_PERIOD_MS);
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}
/*
This optional function does a "fast" critical region protection and returns
the previous protection level. This function is only called during very short
critical regions. An embedded system which supports ISR-based drivers might
want to implement this function by disabling interrupts. Task-based systems
might want to implement this by using a mutex or disabling tasking. This
function should support recursive calls from the same task or interrupt. In
other words, sys_arch_protect() could be called while already protected. In
that case the return value indicates that it is already protected.
sys_arch_protect() is only required if your port is supporting an operating
system.
*/
sys_prot_t
sys_arch_protect(void)
{
sys_mutex_lock(&g_lwip_protect_mutex);
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return (sys_prot_t) 1;
}
/*-----------------------------------------------------------------------------------*/
/*
This optional function does a "fast" set of critical region protection to the
value specified by pval. See the documentation for sys_arch_protect() for
more information. This function is only required if your port is supporting
an operating system.
*/
void
sys_arch_unprotect(sys_prot_t pval)
{
sys_mutex_unlock(&g_lwip_protect_mutex);
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}
/*
* get per thread semphore
*/
sys_sem_t* sys_thread_sem_get(void)
{
sys_sem_t *sem = pthread_getspecific(sys_thread_sem_key);
if (!sem) {
sem = sys_thread_sem_init();
}
LWIP_DEBUGF(ESP_THREAD_SAFE_DEBUG, ("sem_get s=%p\n", sem));
return sem;
}
static void sys_thread_sem_free(void* data) // destructor for TLS semaphore
{
sys_sem_t *sem = (sys_sem_t*)(data);
if (sem && *sem){
LWIP_DEBUGF(ESP_THREAD_SAFE_DEBUG, ("sem del, sem=%p\n", *sem));
vSemaphoreDelete(*sem);
}
if (sem) {
LWIP_DEBUGF(ESP_THREAD_SAFE_DEBUG, ("sem pointer del, sem_p=%p\n", sem));
free(sem);
}
}
sys_sem_t* sys_thread_sem_init(void)
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{
sys_sem_t *sem = (sys_sem_t*)mem_malloc(sizeof(sys_sem_t*));
if (!sem){
ESP_LOGE(TAG, "thread_sem_init: out of memory");
return 0;
}
*sem = xSemaphoreCreateBinary();
if (!(*sem)){
free(sem);
ESP_LOGE(TAG, "thread_sem_init: out of memory");
return 0;
}
pthread_setspecific(sys_thread_sem_key, sem);
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return sem;
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}
void sys_thread_sem_deinit(void)
{
sys_sem_t *sem = pthread_getspecific(sys_thread_sem_key);
if (sem != NULL) {
sys_thread_sem_free(sem);
pthread_setspecific(sys_thread_sem_key, NULL);
}
}
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void sys_delay_ms(uint32_t ms)
{
vTaskDelay(ms / portTICK_PERIOD_MS);
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}