// // Created by MightyPork on 2017/12/22. // #include #include "platform.h" #include "comm/messages.h" #include "task_msg.h" volatile uint32_t msgQueHighWaterMark = 0; static void que_safe_post(struct rx_sched_combined_que_item *slot) { uint32_t count = 0; assert_param(slot != NULL); if (inIRQ()) { BaseType_t xHigherPriorityTaskWoken = pdFALSE; assert_param(pdPASS == xQueueSendFromISR(queMsgJobHandle, slot, &xHigherPriorityTaskWoken)); portYIELD_FROM_ISR(xHigherPriorityTaskWoken); #if USE_STACK_MONITOR count = (uint32_t) uxQueueMessagesWaitingFromISR(queMsgJobHandle); #endif } else { assert_param(pdPASS == xQueueSend(queMsgJobHandle, slot, MSG_QUE_POST_TIMEOUT)); #if USE_STACK_MONITOR count = (uint32_t) uxQueueMessagesWaiting(queMsgJobHandle); #endif } #if USE_STACK_MONITOR msgQueHighWaterMark = MAX(msgQueHighWaterMark, count); #endif } /** * Schedule a function for later execution in the jobs thread * * @param callback - the callback function */ void scheduleJob(Job *job) { assert_param(job->cb != NULL); struct rx_sched_combined_que_item slot = { .is_job = true, .job = *job, // copy content of the struct }; que_safe_post(&slot); } /** * Process data received from TinyFrame. * The queue holds received messages or parts of messages, * copied there by the USB thread. * * Since this is a separate thread that handles TF input and runs the listeners, * TF functions (send, respond) can be called immediately without the need for an * intermediate queued job. */ void TaskMsgJob(const void *argument) { dbg("> Job+Msg queue task started!"); struct rx_sched_combined_que_item slot; while (1) { xQueueReceive(queMsgJobHandle, &slot, osWaitForever); if (slot.is_job) { assert_param(slot.job.cb != NULL); slot.job.cb(&slot.job); } else { assert_param(slot.msg.len > 0 && slot.msg.len <= MSG_QUE_SLOT_SIZE); // check the len is within bounds TF_Accept(comm, slot.msg.data, slot.msg.len); } #if USE_STACK_MONITOR uint32_t count; count = (uint32_t) uxQueueMessagesWaiting(queMsgJobHandle)+1; msgQueHighWaterMark = MAX(msgQueHighWaterMark, count); #endif } } void rxQuePostMsg(uint8_t *buf, uint32_t len) { assert_param(buf != NULL); assert_param(len != 0); static struct rx_sched_combined_que_item slot; do { // Post the data chunk on the RX queue to be handled asynchronously. slot.is_job = false; slot.msg.len = len > MSG_QUE_SLOT_SIZE ? MSG_QUE_SLOT_SIZE : len; memcpy(slot.msg.data, buf, slot.msg.len); que_safe_post(&slot); len -= slot.msg.len; buf += slot.msg.len; } while (len > 0); }