/* * Copyright (c) 2018-2019 Nordic Semiconductor ASA * * SPDX-License-Identifier: Apache-2.0 */ /** * Memory FIFO permitting enqueue at tail (last) and dequeue from head (first). * * Implemented as a circular queue over buffers. Buffers lie contiguously in * the backing storage. * * Enqueuing is a 2 step procedure: Alloc and commit. We say an allocated * buffer yet to be committed, exists in a limbo state - until committed. * It is only safe to write to a buffer while it is in limbo. * * Invariant: last-index refers to the buffer that is safe to write while in * limbo-state. Outside limbo state, last-index refers one buffer ahead of what * has been enqueued. * * There are essentially two APIs, distinguished by the buffer-type: * API 1 Value-type : MFIFO_DEFINE(name1, sizeof(struct foo), cnt1); * API 2 Pointer-type : MFIFO_DEFINE(name2, sizeof(void *), cnt2); * * Enqueuing is performed differently between APIs: * | Allocate | Commit * ------+------------------------+---------------------- * API 1 | MFIFO_ENQUEUE_GET | MFIFO_ENQUEUE * API 2 | MFIFO_ENQUEUE_IDX_GET | MFIFO_BY_IDX_ENQUEUE * * TODO: Reduce size: All functions except mfifo_enqueue should not be inline */ /** * @brief Define a Memory FIFO implemented as a circular queue. * @details API 1 and 2. * Contains one-more buffer than needed. * * TODO: We can avoid string-concat macros below by setting type in * MFIFO_DEFINE struct or use a typedef. Yes the size of field 'm' may be * different, but it is trailing and sizeof is not applied here, so it can * be a flexible array member. */ #define MFIFO_DEFINE(name, sz, cnt) \ struct { \ /* TODO: const, optimise RAM use */ \ /* TODO: Separate s,n,f,l out into common struct */ \ uint8_t const s; /* Stride between elements */ \ uint8_t const n; /* Number of buffers */ \ uint8_t f; /* First. Read index */ \ uint8_t l; /* Last. Write index */ \ uint8_t MALIGN(4) m[MROUND(sz) * ((cnt) + 1)]; \ } mfifo_##name = { \ .n = ((cnt) + 1), \ .s = MROUND(sz), \ .f = 0, \ .l = 0, \ } /** * @brief Initialize an MFIFO to be empty * @details API 1 and 2. An MFIFO is empty if first == last */ #define MFIFO_INIT(name) \ mfifo_##name.f = mfifo_##name.l = 0 /** * @brief Non-destructive: Allocate buffer from the queue's tail, by index * @details API 2. Used internally by API 1. * Note that enqueue is split in 2 parts, allocation and commit: * 1. Allocation: Buffer allocation from tail. May fail. * 2. Commit: If allocation was successful, the enqueue can be committed. * Committing can not fail, as only allocation can fail. * Allocation is non-destructive as operations are performed on index copies, * however the buffer remains in a state of limbo until committed. * Note: The limbo state opens up a potential race where successive * un-committed allocations returns the same buffer index. * * @param idx[out] Index of newly allocated buffer * @return True if buffer could be allocated; otherwise false */ static inline bool mfifo_enqueue_idx_get(uint8_t count, uint8_t first, uint8_t last, uint8_t *idx) { /* Non-destructive: Advance write-index modulo 'count' */ last = last + 1; if (last == count) { last = 0U; } /* Is queue full? * We want to maintain the invariant of emptiness defined by * first == last, but we just advanced a copy of the write-index before * and may have wrapped. So if first == last the queue is full and we * can not continue */ if (last == first) { return false; /* Queue is full */ } *idx = last; /* Emit the allocated buffer's index */ return true; /* Successfully allocated new buffer */ } /** * @brief Non-destructive: Allocate buffer from named queue * @details API 2. * @param i[out] Index of newly allocated buffer * @return True if buffer could be allocated; otherwise false */ #define MFIFO_ENQUEUE_IDX_GET(name, i) \ mfifo_enqueue_idx_get(mfifo_##name.n, mfifo_##name.f, \ mfifo_##name.l, (i)) /** * @brief Commit a previously allocated buffer (=void-ptr) * @details API 2 */ static inline void mfifo_by_idx_enqueue(uint8_t *fifo, uint8_t size, uint8_t idx, void *mem, uint8_t *last) { /* API 2: fifo is array of void-ptrs */ void **p = (void **)(fifo + (*last) * size); /* buffer preceding idx */ *p = mem; /* store the payload which for API 2 is only a void-ptr */ *last = idx; /* Commit: Update write index */ } /** * @brief Commit a previously allocated buffer (=void-ptr) * @details API 2 */ #define MFIFO_BY_IDX_ENQUEUE(name, i, mem) \ mfifo_by_idx_enqueue(mfifo_##name.m, mfifo_##name.s, (i), \ (mem), &mfifo_##name.l) /** * @brief Non-destructive: Allocate buffer from named queue * @details API 1. * The allocated buffer exists in limbo until committed. * To commit the enqueue process, mfifo_enqueue() must be called afterwards * @return Index of newly allocated buffer; only valid if mem != NULL */ static inline uint8_t mfifo_enqueue_get(uint8_t *fifo, uint8_t size, uint8_t count, uint8_t first, uint8_t last, void **mem) { uint8_t idx; /* Attempt to allocate new buffer (idx) */ if (!mfifo_enqueue_idx_get(count, first, last, &idx)) { /* Buffer could not be allocated */ *mem = NULL; /* Signal the failure */ return 0; /* DontCare */ } /* We keep idx as the always-one-free, so we return preceding * buffer (last). Recall that last has not been updated, * so idx != last */ *mem = (void *)(fifo + last * size); /* preceding buffer */ return idx; } /** * @brief Non-destructive: Allocate buffer from named queue * @details API 1. * The allocated buffer exists in limbo until committed. * To commit the enqueue process, MFIFO_ENQUEUE() must be called afterwards * @param mem[out] Pointer to newly allocated buffer; NULL if allocation failed * @return Index to the buffer one-ahead of allocated buffer */ #define MFIFO_ENQUEUE_GET(name, mem) \ mfifo_enqueue_get(mfifo_##name.m, mfifo_##name.s, \ mfifo_##name.n, mfifo_##name.f, \ mfifo_##name.l, (mem)) /** * @brief Atomically commit a previously allocated buffer * @details API 1. * Destructive update: Update the queue, bringing the allocated buffer out of * limbo state -- thus completing its enqueue. * Can not fail. * The buffer must have been allocated using mfifo_enqueue_idx_get() or * mfifo_enqueue_get(). * * @param idx[in] Index one-ahead of previously allocated buffer * @param last[out] Write-index */ static inline void mfifo_enqueue(uint8_t idx, uint8_t *last) { *last = idx; /* Commit: Update write index */ } /** * @brief Atomically commit a previously allocated buffer * @details API 1 * The buffer should have been allocated using MFIFO_ENQUEUE_GET * @param idx[in] Index one-ahead of previously allocated buffer */ #define MFIFO_ENQUEUE(name, idx) \ mfifo_enqueue((idx), &mfifo_##name.l) /** * @brief Number of available buffers * @details API 1 and 2 * Empty if first == last */ static inline uint8_t mfifo_avail_count_get(uint8_t count, uint8_t first, uint8_t last) { if (last >= first) { return last - first; } else { return count - first + last; } } /** * @brief Number of available buffers * @details API 1 and 2 */ #define MFIFO_AVAIL_COUNT_GET(name) \ mfifo_avail_count_get(mfifo_##name.n, mfifo_##name.f, \ mfifo_##name.l) /** * @brief Non-destructive peek * @details API 1 */ static inline void *mfifo_dequeue_get(uint8_t *fifo, uint8_t size, uint8_t first, uint8_t last) { if (first == last) { return NULL; } /* API 1: fifo is array of some value type */ return (void *)(fifo + first * size); } /** * @details API 1 */ #define MFIFO_DEQUEUE_GET(name) \ mfifo_dequeue_get(mfifo_##name.m, mfifo_##name.s, \ mfifo_##name.f, mfifo_##name.l) /** * @brief Non-destructive: Peek at head (oldest) buffer * @details API 2 */ static inline void *mfifo_dequeue_peek(uint8_t *fifo, uint8_t size, uint8_t first, uint8_t last) { if (first == last) { return NULL; /* Queue is empty */ } /* API 2: fifo is array of void-ptrs */ return *((void **)(fifo + first * size)); } /** * @brief Non-destructive: Peek at head (oldest) buffer * @details API 2 */ #define MFIFO_DEQUEUE_PEEK(name) \ mfifo_dequeue_peek(mfifo_##name.m, mfifo_##name.s, \ mfifo_##name.f, mfifo_##name.l) static inline void *mfifo_dequeue_iter_get(uint8_t *fifo, uint8_t size, uint8_t count, uint8_t first, uint8_t last, uint8_t *idx) { void *p; uint8_t i; if (*idx >= count) { *idx = first; } if (*idx == last) { return NULL; } i = *idx + 1; if (i == count) { i = 0U; } p = (void *)(fifo + (*idx) * size); *idx = i; return p; } #define MFIFO_DEQUEUE_ITER_GET(name, idx) \ mfifo_dequeue_iter_get(mfifo_##name.m, mfifo_##name.s, \ mfifo_##name.n, mfifo_##name.f, \ mfifo_##name.l, (idx)) /** * @brief Dequeue head-buffer from queue of buffers * * @param fifo[in] Contigous memory holding the circular queue * @param size[in] Size of each buffer in circular queue * @param count[in] Number of buffers in circular queue * @param last[in] Tail index, Span: [0 .. count-1] * @param first[in,out] Head index, Span: [0 .. count-1]. Will be updated * @return Head buffer; or NULL if queue was empty */ static inline void *mfifo_dequeue(uint8_t *fifo, uint8_t size, uint8_t count, uint8_t last, uint8_t *first) { uint8_t _first = *first; /* Copy read-index */ void *mem; /* Queue is empty if first == last */ if (_first == last) { return NULL; } /* Obtain address of head buffer. * API 2: fifo is array of void-ptrs */ mem = *((void **)(fifo + _first * size)); /* Circular buffer increment read-index modulo 'count' */ _first += 1U; if (_first == count) { _first = 0U; } *first = _first; /* Write back read-index */ return mem; } /** * @brief Dequeue head-buffer from named queue of buffers * * @param name[in] Name-fragment of circular queue * @return Head buffer; or NULL if queue was empty */ #define MFIFO_DEQUEUE(name) \ mfifo_dequeue(mfifo_##name.m, mfifo_##name.s, \ mfifo_##name.n, mfifo_##name.l, \ &mfifo_##name.f)