162 lines
4.4 KiB
ReStructuredText
162 lines
4.4 KiB
ReStructuredText
.. _fifos_v2:
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Fifos
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#####
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A :dfn:`fifo` is a kernel object that implements a traditional
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first in, first out (FIFO) queue, allowing threads and ISRs
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to add and remove data items of any size.
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.. contents::
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:local:
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:depth: 2
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Concepts
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********
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Any number of fifos can be defined. Each fifo is referenced
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by its memory address.
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A fifo has the following key properties:
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* A **queue** of data items that have been added but not yet removed.
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The queue is implemented as a simple linked list.
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A fifo must be initialized before it can be used. This sets its queue to empty.
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Fifo data items must be aligned on a 4-byte boundary, as the kernel reserves
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the first 32 bits of an item for use as a pointer to the next data item in
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the queue. Consequently, a data item that holds N bytes of application data
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requires N+4 bytes of memory.
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A data item may be **added** to a fifo by a thread or an ISR.
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The item is given directly to a waiting thread, if one exists;
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otherwise the item is added to the fifo's queue.
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There is no limit to the number of items that may be queued.
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A data item may be **removed** from a fifo by a thread. If the fifo's queue
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is empty a thread may choose to wait for a data item to be given.
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Any number of threads may wait on an empty fifo simultaneously.
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When a data item is added, it is given to the highest priority thread
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that has waited longest.
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.. note::
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The kernel does allow an ISR to remove an item from a fifo, however
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the ISR must not attempt to wait if the fifo is empty.
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If desired, **multiple data items** can be added to a fifo in a single operation
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if they are chained together into a singly-linked list. This capability can be
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useful if multiple writers are adding sets of related data items to the fifo,
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as it ensures the data items in each set are not interleaved with other data
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items. Adding multiple data items to a fifo is also more efficient than adding
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them one at a time, and can be used to guarantee that anyone who removes
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the first data item in a set will be able to remove the remaining data items
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without waiting.
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Implementation
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**************
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Defining a Fifo
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===============
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A fifo is defined using a variable of type :c:type:`struct k_fifo`.
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It must then be initialized by calling :cpp:func:`k_fifo_init()`.
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The following code defines and initializes an empty fifo.
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.. code-block:: c
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struct k_fifo my_fifo;
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k_fifo_init(&my_fifo);
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Alternatively, an empty fifo can be defined and initialized at compile time
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by calling :c:macro:`K_FIFO_DEFINE`.
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The following code has the same effect as the code segment above.
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.. code-block:: c
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K_FIFO_DEFINE(my_fifo);
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Writing to a Fifo
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=================
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A data item is added to a fifo by calling :cpp:func:`k_fifo_put()`.
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The following code builds on the example above, and uses the fifo
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to send data to one or more consumer threads.
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.. code-block:: c
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struct data_item_t {
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void *fifo_reserved; /* 1st word reserved for use by fifo */
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...
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};
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struct data_item_t tx_data;
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void producer_thread(int unused1, int unused2, int unused3)
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{
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while (1) {
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/* create data item to send */
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tx_data = ...
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/* send data to consumers */
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k_fifo_put(&my_fifo, &tx_data);
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...
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}
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}
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Additionally, a singly-linked list of data items can be added to a fifo
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by calling :cpp:func:`k_fifo_put_list()` or :cpp:func:`k_fifo_put_slist()`.
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Reading from a Fifo
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===================
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A data item is removed from a fifo by calling :cpp:func:`k_fifo_get()`.
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The following code builds on the example above, and uses the fifo
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to obtain data items from a producer thread,
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which are then processed in some manner.
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.. code-block:: c
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void consumer_thread(int unused1, int unused2, int unused3)
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{
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struct data_item_t *rx_data;
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while (1) {
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rx_data = k_fifo_get(&my_fifo, K_FOREVER);
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/* process fifo data item */
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...
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}
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}
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Suggested Uses
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**************
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Use a fifo to asynchronously transfer data items of arbitrary size
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in a "first in, first out" manner.
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Configuration Options
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*********************
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Related configuration options:
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* None.
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APIs
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****
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The following fifo APIs are provided by :file:`kernel.h`:
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* :c:macro:`K_FIFO_DEFINE`
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* :cpp:func:`k_fifo_init()`
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* :cpp:func:`k_fifo_put()`
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* :cpp:func:`k_fifo_put_list()`
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* :cpp:func:`k_fifo_put_slist()`
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* :cpp:func:`k_fifo_get()`
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