/* * Copyright (c) 2016 Wind River Systems, Inc. * * SPDX-License-Identifier: Apache-2.0 */ /** * @brief Mailboxes. */ #include #include #include #include #include #include #include #include #include #include #if (CONFIG_NUM_MBOX_ASYNC_MSGS > 0) /* asynchronous message descriptor type */ struct k_mbox_async { struct _thread_base thread; /* dummy thread object */ struct k_mbox_msg tx_msg; /* transmit message descriptor */ }; /* stack of unused asynchronous message descriptors */ K_STACK_DEFINE(async_msg_free, CONFIG_NUM_MBOX_ASYNC_MSGS); /* allocate an asynchronous message descriptor */ static inline void mbox_async_alloc(struct k_mbox_async **async) { (void)k_stack_pop(&async_msg_free, (stack_data_t *)async, K_FOREVER); } /* free an asynchronous message descriptor */ static inline void mbox_async_free(struct k_mbox_async *async) { k_stack_push(&async_msg_free, (stack_data_t)async); } #endif /* CONFIG_NUM_MBOX_ASYNC_MSGS > 0 */ #ifdef CONFIG_OBJECT_TRACING struct k_mbox *_trace_list_k_mbox; #endif /* CONFIG_OBJECT_TRACING */ #if (CONFIG_NUM_MBOX_ASYNC_MSGS > 0) || \ defined(CONFIG_OBJECT_TRACING) /* * Do run-time initialization of mailbox object subsystem. */ static int init_mbox_module(struct device *dev) { ARG_UNUSED(dev); /* array of asynchronous message descriptors */ static struct k_mbox_async __noinit async_msg[CONFIG_NUM_MBOX_ASYNC_MSGS]; #if (CONFIG_NUM_MBOX_ASYNC_MSGS > 0) /* * Create pool of asynchronous message descriptors. * * A dummy thread requires minimal initialization, since it never gets * to execute. The _THREAD_DUMMY flag is sufficient to distinguish a * dummy thread from a real one. The threads are *not* added to the * kernel's list of known threads. * * Once initialized, the address of each descriptor is added to a stack * that governs access to them. */ int i; for (i = 0; i < CONFIG_NUM_MBOX_ASYNC_MSGS; i++) { z_init_thread_base(&async_msg[i].thread, 0, _THREAD_DUMMY, 0); k_stack_push(&async_msg_free, (stack_data_t)&async_msg[i]); } #endif /* CONFIG_NUM_MBOX_ASYNC_MSGS > 0 */ /* Complete initialization of statically defined mailboxes. */ #ifdef CONFIG_OBJECT_TRACING Z_STRUCT_SECTION_FOREACH(k_mbox, mbox) { SYS_TRACING_OBJ_INIT(k_mbox, mbox); } #endif /* CONFIG_OBJECT_TRACING */ return 0; } SYS_INIT(init_mbox_module, PRE_KERNEL_1, CONFIG_KERNEL_INIT_PRIORITY_OBJECTS); #endif /* CONFIG_NUM_MBOX_ASYNC_MSGS or CONFIG_OBJECT_TRACING */ void k_mbox_init(struct k_mbox *mbox_ptr) { z_waitq_init(&mbox_ptr->tx_msg_queue); z_waitq_init(&mbox_ptr->rx_msg_queue); mbox_ptr->lock = (struct k_spinlock) {}; SYS_TRACING_OBJ_INIT(k_mbox, mbox_ptr); } /** * @brief Check compatibility of sender's and receiver's message descriptors. * * Compares sender's and receiver's message descriptors to see if they are * compatible. If so, the descriptor fields are updated to reflect that a * match has occurred. * * @param tx_msg Pointer to transmit message descriptor. * @param rx_msg Pointer to receive message descriptor. * * @return 0 if successfully matched, otherwise -1. */ static int mbox_message_match(struct k_mbox_msg *tx_msg, struct k_mbox_msg *rx_msg) { uint32_t temp_info; if (((tx_msg->tx_target_thread == (k_tid_t)K_ANY) || (tx_msg->tx_target_thread == rx_msg->tx_target_thread)) && ((rx_msg->rx_source_thread == (k_tid_t)K_ANY) || (rx_msg->rx_source_thread == tx_msg->rx_source_thread))) { /* update thread identifier fields for both descriptors */ rx_msg->rx_source_thread = tx_msg->rx_source_thread; tx_msg->tx_target_thread = rx_msg->tx_target_thread; /* update application info fields for both descriptors */ temp_info = rx_msg->info; rx_msg->info = tx_msg->info; tx_msg->info = temp_info; /* update data size field for receiver only */ if (rx_msg->size > tx_msg->size) { rx_msg->size = tx_msg->size; } /* update data location fields for receiver only */ rx_msg->tx_data = tx_msg->tx_data; rx_msg->tx_block = tx_msg->tx_block; if (rx_msg->tx_data != NULL) { rx_msg->tx_block.data = NULL; } else if (rx_msg->tx_block.data != NULL) { rx_msg->tx_data = rx_msg->tx_block.data; } else { /* no data */ } /* update syncing thread field for receiver only */ rx_msg->_syncing_thread = tx_msg->_syncing_thread; return 0; } return -1; } /** * @brief Dispose of received message. * * Releases any memory pool block still associated with the message, * then notifies the sender that message processing is complete. * * @param rx_msg Pointer to receive message descriptor. * * @return N/A */ static void mbox_message_dispose(struct k_mbox_msg *rx_msg) { struct k_thread *sending_thread; struct k_mbox_msg *tx_msg; /* do nothing if message was disposed of when it was received */ if (rx_msg->_syncing_thread == NULL) { return; } /* release sender's memory pool block */ if (rx_msg->tx_block.data != NULL) { k_mem_pool_free(&rx_msg->tx_block); rx_msg->tx_block.data = NULL; } /* recover sender info */ sending_thread = rx_msg->_syncing_thread; rx_msg->_syncing_thread = NULL; tx_msg = (struct k_mbox_msg *)sending_thread->base.swap_data; /* update data size field for sender */ tx_msg->size = rx_msg->size; #if (CONFIG_NUM_MBOX_ASYNC_MSGS > 0) /* * asynchronous send: free asynchronous message descriptor + * dummy thread pair, then give semaphore (if needed) */ if ((sending_thread->base.thread_state & _THREAD_DUMMY) != 0U) { struct k_sem *async_sem = tx_msg->_async_sem; mbox_async_free((struct k_mbox_async *)sending_thread); if (async_sem != NULL) { k_sem_give(async_sem); } return; } #endif /* synchronous send: wake up sending thread */ arch_thread_return_value_set(sending_thread, 0); z_mark_thread_as_not_pending(sending_thread); z_ready_thread(sending_thread); z_reschedule_unlocked(); } /** * @brief Send a mailbox message. * * Helper routine that handles both synchronous and asynchronous sends. * * @param mbox Pointer to the mailbox object. * @param tx_msg Pointer to transmit message descriptor. * @param timeout Maximum time (milliseconds) to wait for the message to be * received (although not necessarily completely processed). * Use K_NO_WAIT to return immediately, or K_FOREVER to wait as long * as necessary. * * @return 0 if successful, -ENOMSG if failed immediately, -EAGAIN if timed out */ static int mbox_message_put(struct k_mbox *mbox, struct k_mbox_msg *tx_msg, k_timeout_t timeout) { struct k_thread *sending_thread; struct k_thread *receiving_thread; struct k_mbox_msg *rx_msg; k_spinlock_key_t key; /* save sender id so it can be used during message matching */ tx_msg->rx_source_thread = _current; /* finish readying sending thread (actual or dummy) for send */ sending_thread = tx_msg->_syncing_thread; sending_thread->base.swap_data = tx_msg; /* search mailbox's rx queue for a compatible receiver */ key = k_spin_lock(&mbox->lock); _WAIT_Q_FOR_EACH(&mbox->rx_msg_queue, receiving_thread) { rx_msg = (struct k_mbox_msg *)receiving_thread->base.swap_data; if (mbox_message_match(tx_msg, rx_msg) == 0) { /* take receiver out of rx queue */ z_unpend_thread(receiving_thread); /* ready receiver for execution */ arch_thread_return_value_set(receiving_thread, 0); z_ready_thread(receiving_thread); #if (CONFIG_NUM_MBOX_ASYNC_MSGS > 0) /* * asynchronous send: swap out current thread * if receiver has priority, otherwise let it continue * * note: dummy sending thread sits (unqueued) * until the receiver consumes the message */ if ((sending_thread->base.thread_state & _THREAD_DUMMY) != 0U) { z_reschedule(&mbox->lock, key); return 0; } #endif /* * synchronous send: pend current thread (unqueued) * until the receiver consumes the message */ return z_pend_curr(&mbox->lock, key, NULL, K_FOREVER); } } /* didn't find a matching receiver: don't wait for one */ if (K_TIMEOUT_EQ(timeout, K_NO_WAIT)) { k_spin_unlock(&mbox->lock, key); return -ENOMSG; } #if (CONFIG_NUM_MBOX_ASYNC_MSGS > 0) /* asynchronous send: dummy thread waits on tx queue for receiver */ if ((sending_thread->base.thread_state & _THREAD_DUMMY) != 0U) { z_pend_thread(sending_thread, &mbox->tx_msg_queue, K_FOREVER); k_spin_unlock(&mbox->lock, key); return 0; } #endif /* synchronous send: sender waits on tx queue for receiver or timeout */ return z_pend_curr(&mbox->lock, key, &mbox->tx_msg_queue, timeout); } int k_mbox_put(struct k_mbox *mbox, struct k_mbox_msg *tx_msg, k_timeout_t timeout) { /* configure things for a synchronous send, then send the message */ tx_msg->_syncing_thread = _current; return mbox_message_put(mbox, tx_msg, timeout); } #if (CONFIG_NUM_MBOX_ASYNC_MSGS > 0) void k_mbox_async_put(struct k_mbox *mbox, struct k_mbox_msg *tx_msg, struct k_sem *sem) { struct k_mbox_async *async; /* * allocate an asynchronous message descriptor, configure both parts, * then send the message asynchronously */ mbox_async_alloc(&async); async->thread.prio = _current->base.prio; async->tx_msg = *tx_msg; async->tx_msg._syncing_thread = (struct k_thread *)&async->thread; async->tx_msg._async_sem = sem; (void)mbox_message_put(mbox, &async->tx_msg, K_FOREVER); } #endif void k_mbox_data_get(struct k_mbox_msg *rx_msg, void *buffer) { /* handle case where data is to be discarded */ if (buffer == NULL) { rx_msg->size = 0; mbox_message_dispose(rx_msg); return; } /* copy message data to buffer, then dispose of message */ if ((rx_msg->tx_data != NULL) && (rx_msg->size > 0)) { (void)memcpy(buffer, rx_msg->tx_data, rx_msg->size); } mbox_message_dispose(rx_msg); } int k_mbox_data_block_get(struct k_mbox_msg *rx_msg, struct k_mem_pool *pool, struct k_mem_block *block, k_timeout_t timeout) { int result; /* handle case where data is to be discarded */ if (pool == NULL) { rx_msg->size = 0; mbox_message_dispose(rx_msg); return 0; } /* handle case where data is already in a memory pool block */ if (rx_msg->tx_block.data != NULL) { /* give ownership of the block to receiver */ *block = rx_msg->tx_block; rx_msg->tx_block.data = NULL; /* now dispose of message */ mbox_message_dispose(rx_msg); return 0; } /* allocate memory pool block (even when message size is 0!) */ result = k_mem_pool_alloc(pool, block, rx_msg->size, timeout); if (result != 0) { return result; } /* retrieve non-block data into new block, then dispose of message */ k_mbox_data_get(rx_msg, block->data); return 0; } /** * @brief Handle immediate consumption of received mailbox message data. * * Checks to see if received message data should be kept for later retrieval, * or if the data should consumed immediately and the message disposed of. * * The data is consumed immediately in either of the following cases: * 1) The receiver requested immediate retrieval by suppling a buffer * to receive the data. * 2) There is no data to be retrieved. (i.e. Data size is 0 bytes.) * * @param rx_msg Pointer to receive message descriptor. * @param buffer Pointer to buffer to receive data. * * @return 0 */ static int mbox_message_data_check(struct k_mbox_msg *rx_msg, void *buffer) { if (buffer != NULL) { /* retrieve data now, then dispose of message */ k_mbox_data_get(rx_msg, buffer); } else if (rx_msg->size == 0) { /* there is no data to get, so just dispose of message */ mbox_message_dispose(rx_msg); } else { /* keep message around for later data retrieval */ } return 0; } int k_mbox_get(struct k_mbox *mbox, struct k_mbox_msg *rx_msg, void *buffer, k_timeout_t timeout) { struct k_thread *sending_thread; struct k_mbox_msg *tx_msg; k_spinlock_key_t key; int result; /* save receiver id so it can be used during message matching */ rx_msg->tx_target_thread = _current; /* search mailbox's tx queue for a compatible sender */ key = k_spin_lock(&mbox->lock); _WAIT_Q_FOR_EACH(&mbox->tx_msg_queue, sending_thread) { tx_msg = (struct k_mbox_msg *)sending_thread->base.swap_data; if (mbox_message_match(tx_msg, rx_msg) == 0) { /* take sender out of mailbox's tx queue */ z_unpend_thread(sending_thread); k_spin_unlock(&mbox->lock, key); /* consume message data immediately, if needed */ return mbox_message_data_check(rx_msg, buffer); } } /* didn't find a matching sender */ if (K_TIMEOUT_EQ(timeout, K_NO_WAIT)) { /* don't wait for a matching sender to appear */ k_spin_unlock(&mbox->lock, key); return -ENOMSG; } /* wait until a matching sender appears or a timeout occurs */ _current->base.swap_data = rx_msg; result = z_pend_curr(&mbox->lock, key, &mbox->rx_msg_queue, timeout); /* consume message data immediately, if needed */ if (result == 0) { result = mbox_message_data_check(rx_msg, buffer); } return result; }