145 lines
3.8 KiB
C
145 lines
3.8 KiB
C
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/**
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This file encapsulates the SDK-based task handling for the NodeMCU Lua firmware.
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*/
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#include "task/task.h"
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#include "mem.h"
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#include <stdlib.h>
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#include <string.h>
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#include "freertos/queue.h"
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#include "freertos/semphr.h"
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#define TASK_HANDLE_MONIKER 0x68680000
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#define TASK_HANDLE_MASK 0xFFF80000
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#define TASK_HANDLE_UNMASK (~TASK_HANDLE_MASK)
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#define TASK_HANDLE_ALLOCATION_BRICK 4 // must be a power of 2
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#define TASK_DEFAULT_QUEUE_LEN 8
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#define CHECK(p,v,msg) if (!(p)) { NODE_DBG ( msg ); return (v); }
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#ifndef NODE_DBG
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# define NODE_DBG(...) do{}while(0)
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#endif
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typedef struct
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{
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task_handle_t sig;
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task_param_t par;
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} task_event_t;
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/*
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* Private arrays to hold the 3 event task queues and the dispatch callbacks
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*/
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static xQueueHandle task_Q[TASK_PRIORITY_COUNT];
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/* Rather than using a QueueSet (which requires queues to be empty when created)
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* we use a binary semaphore to unblock the pump whenever something is posted */
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static xSemaphoreHandle pending;
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static task_callback_t *task_func;
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static int task_count;
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/*
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* Initialise the task handle callback for a given priority. This doesn't need
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* to be called explicitly as the get_id function will call this lazily.
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*/
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bool task_init_handler(task_prio_t priority, uint8 qlen) {
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if (priority >= TASK_PRIORITY_COUNT)
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return false;
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if (task_Q[priority] == NULL)
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{
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task_Q[priority] = xQueueCreate (qlen, sizeof (task_event_t));
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return task_Q[priority] != NULL;
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}
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else
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return false;
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}
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task_handle_t task_get_id(task_callback_t t) {
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/* Initialise any uninitialised Qs with the default Q len */
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for (task_prio_t p = TASK_PRIORITY_LOW; p != TASK_PRIORITY_COUNT; ++p)
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{
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if (!task_Q[p]) {
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CHECK(task_init_handler( p, TASK_DEFAULT_QUEUE_LEN ), 0, "Task initialisation failed");
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}
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}
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if ( (task_count & (TASK_HANDLE_ALLOCATION_BRICK - 1)) == 0 ) {
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/* With a brick size of 4 this branch is taken at 0, 4, 8 ... and the new size is +4 */
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task_func =(task_callback_t *)realloc(
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task_func,
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sizeof(task_callback_t)*(task_count+TASK_HANDLE_ALLOCATION_BRICK));
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CHECK(task_func, 0 , "Malloc failure in task_get_id");
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memset (task_func+task_count, 0, sizeof(task_callback_t)*TASK_HANDLE_ALLOCATION_BRICK);
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}
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task_func[task_count] = t;
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return TASK_HANDLE_MONIKER | task_count++;
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}
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bool task_post (task_prio_t priority, task_handle_t handle, task_param_t param)
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{
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if (priority >= TASK_PRIORITY_COUNT ||
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!task_Q[priority] ||
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(handle & TASK_HANDLE_MASK) != TASK_HANDLE_MONIKER)
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return false;
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task_event_t ev = { handle, param };
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bool res = pdPASS == xQueueSendToBackFromISR (task_Q[priority], &ev, NULL);
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if (pending) /* only need to raise semaphore if it's been initialised */
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xSemaphoreGiveFromISR (pending, NULL);
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return res;
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}
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static bool next_event (task_event_t *ev, task_prio_t *prio)
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{
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for (task_prio_t pr = TASK_PRIORITY_COUNT; pr != TASK_PRIORITY_LOW; --pr)
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{
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task_prio_t p = pr -1;
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if (task_Q[p] && xQueueReceive (task_Q[p], ev, 0) == pdTRUE)
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{
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*prio = p;
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return true;
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}
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}
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return false; // no events queued
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}
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static void dispatch (task_event_t *e, uint8_t prio) {
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task_handle_t handle = e->sig;
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if ( (handle & TASK_HANDLE_MASK) == TASK_HANDLE_MONIKER) {
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uint16_t entry = (handle & TASK_HANDLE_UNMASK);
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if ( task_func && entry < task_count ){
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/* call the registered task handler with the specified parameter and priority */
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task_func[entry](e->par, prio);
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return;
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}
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}
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/* Invalid signals are ignored */
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NODE_DBG ( "Invalid signal issued: %08x", handle);
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}
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void task_pump_messages (void)
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{
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vSemaphoreCreateBinary (pending);
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for (;;)
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{
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task_event_t ev;
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task_prio_t prio;
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if (next_event (&ev, &prio))
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dispatch (&ev, prio);
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else
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xSemaphoreTake (pending, portMAX_DELAY);
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}
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}
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