| .. _ring_buffers_v2: |
| |
| Ring Buffers |
| ############ |
| |
| A :dfn:`ring buffer` is a circular buffer, whose contents are stored in |
| first-in-first-out order. |
| |
| For circumstances where an application needs to implement asynchronous |
| "streaming" copying of data, Zephyr provides a ``struct ring_buf`` |
| abstraction to manage copies of such data in and out of a shared |
| buffer of memory. |
| |
| Two content data modes are supported: |
| |
| * **Byte mode**: raw bytes can be enqueued and dequeued. |
| |
| * **Data item mode**: Multiple 32-bit word data items with metadata |
| can be enqueued and dequeued from the ring buffer in |
| chunks of up to 1020 bytes. Each data item also has two |
| associated metadata values: a type identifier and a 16-bit |
| integer value, both of which are application-specific. |
| |
| While the underlying data structure is the same, it is not |
| legal to mix these two modes on a single ring buffer instance. A ring |
| buffer initialized with a byte count must be used only with the |
| "bytes" API, one initialized with a word count must use the "items" |
| calls. |
| |
| |
| .. contents:: |
| :local: |
| :depth: 2 |
| |
| Concepts |
| ******** |
| |
| Any number of ring buffers can be defined (limited only by available RAM). Each |
| ring buffer is referenced by its memory address. |
| |
| A ring buffer has the following key properties: |
| |
| * A **data buffer** of bytes or 32-bit words. The data buffer contains the raw |
| bytes or 32-bit words that have been added to the ring buffer but not yet |
| removed. |
| |
| * A **data buffer size**, measured in bytes or 32-bit words. This governs |
| the maximum amount of data (including possible metadata values) the ring |
| buffer can hold. |
| |
| A ring buffer must be initialized before it can be used. This sets its |
| data buffer to empty. |
| |
| A ``struct ring_buf`` may be placed anywhere in user-accessible |
| memory, and must be initialized with :c:func:`ring_buf_init` or |
| :c:func:`ring_buf_item_init` before use. This must be provided a region |
| of user-controlled memory for use as the buffer itself. Note carefully that the units of the size of the |
| buffer passed change (either bytes or words) depending on how the ring |
| buffer will be used later. Macros for combining these steps in a |
| single static declaration exist for convenience. |
| :c:macro:`RING_BUF_DECLARE` will declare and statically initialize a ring |
| buffer with a specified byte count, where |
| :c:macro:`RING_BUF_ITEM_DECLARE` will declare and statically |
| initialize a buffer with a given count of 32 bit words. |
| :c:macro:`RING_BUF_ITEM_SIZEOF` will compute the size in 32-bit words |
| corresponding to a type or an expression. Note: rounds up if the size is |
| not a multiple of 32 bits. |
| |
| "Bytes" data may be copied into the ring buffer using |
| :c:func:`ring_buf_put`, passing a data pointer and byte count. These |
| bytes will be copied into the buffer in order, as many as will fit in |
| the allocated buffer. The total number of bytes copied (which may be |
| fewer than provided) will be returned. Likewise :c:func:`ring_buf_get` |
| will copy bytes out of the ring buffer in the order that they were |
| written, into a user-provided buffer, returning the number of bytes |
| that were transferred. |
| |
| To avoid multiply-copied-data situations, a "claim" API exists for |
| byte mode. :c:func:`ring_buf_put_claim` takes a byte size value from the |
| user and returns a pointer to memory internal to the ring buffer that |
| can be used to receive those bytes, along with a size of the |
| contiguous internal region (which may be smaller than requested). The |
| user can then copy data into that region at a later time without |
| assembling all the bytes in a single region first. When complete, |
| :c:func:`ring_buf_put_finish` can be used to signal the buffer that the |
| transfer is complete, passing the number of bytes actually |
| transferred. At this point a new transfer can be initiated. |
| Similarly, :c:func:`ring_buf_get_claim` returns a pointer to internal ring |
| buffer data from which the user can read without making a verbatim |
| copy, and :c:func:`ring_buf_get_finish` signals the buffer with how many |
| bytes have been consumed and allows for a new transfer to begin. |
| |
| "Items" mode works similarly to bytes mode, except that all transfers |
| are in units of 32 bit words and all memory is assumed to be aligned |
| on 32 bit boundaries. The write and read operations are |
| :c:func:`ring_buf_item_put` and :c:func:`ring_buf_item_get`, and work |
| otherwise identically to the bytes mode APIs. There no "claim" API |
| provided for items mode. One important difference is that unlike |
| :c:func:`ring_buf_put`, :c:func:`ring_buf_item_put` will not do a partial |
| transfer; it will return an error in the case where the provided data |
| does not fit in its entirety. |
| |
| The user can manage the capacity of a ring buffer without modifying it |
| using either :c:func:`ring_buf_space_get` or :c:func:`ring_buf_item_space_get` |
| which returns the number of free bytes or free 32-bit item words respectively, |
| or by testing the :c:func:`ring_buf_is_empty` predicate. |
| |
| Finally, a :c:func:`ring_buf_reset` call exists to immediately empty a |
| ring buffer, discarding the tracking of any bytes or items already |
| written to the buffer. It does not modify the memory contents of the |
| buffer itself, however. |
| |
| |
| Byte mode |
| ========= |
| |
| A **byte mode** ring buffer instance is declared using |
| :c:macro:`RING_BUF_DECLARE()` and accessed using: |
| :c:func:`ring_buf_put_claim`, :c:func:`ring_buf_put_finish`, |
| :c:func:`ring_buf_get_claim`, :c:func:`ring_buf_get_finish`, |
| :c:func:`ring_buf_put` and :c:func:`ring_buf_get`. |
| |
| Data can be copied into the ring buffer (see |
| :c:func:`ring_buf_put`) or ring buffer memory can be used |
| directly by the user. In the latter case, the operation is split into three stages: |
| |
| 1. allocating the buffer (:c:func:`ring_buf_put_claim`) when |
| user requests the destination location where data can be written. |
| #. writing the data by the user (e.g. buffer written by DMA). |
| #. indicating the amount of data written to the provided buffer |
| (:c:func:`ring_buf_put_finish`). The amount |
| can be less than or equal to the allocated amount. |
| |
| Data can be retrieved from a ring buffer through copying |
| (see :c:func:`ring_buf_get`) or accessed directly by address. In the latter |
| case, the operation is split into three stages: |
| |
| 1. retrieving source location with valid data written to a ring buffer |
| (see :c:func:`ring_buf_get_claim`). |
| #. processing data |
| #. freeing processed data (see :c:func:`ring_buf_get_finish`). |
| The amount freed can be less than or equal or to the retrieved amount. |
| |
| Data item mode |
| ============== |
| |
| A **data item mode** ring buffer instance is declared using |
| :c:macro:`RING_BUF_ITEM_DECLARE()` and accessed using |
| :c:func:`ring_buf_item_put` and :c:func:`ring_buf_item_get`. |
| |
| A ring buffer **data item** is an array of 32-bit words from 0 to 1020 bytes |
| in length. When a data item is **enqueued** (:c:func:`ring_buf_item_put`) |
| its contents are copied to the data buffer, along with its associated metadata |
| values (which occupy one additional 32-bit word). If the ring buffer has |
| insufficient space to hold the new data item the enqueue operation fails. |
| |
| A data item is **dequeued** (:c:func:`ring_buf_item_get`) from a ring |
| buffer by removing the oldest enqueued item. The contents of the dequeued data |
| item, as well as its two metadata values, are copied to areas supplied by the |
| retriever. If the ring buffer is empty, or if the data array supplied by the |
| retriever is not large enough to hold the data item's data, the dequeue |
| operation fails. |
| |
| Concurrency |
| =========== |
| |
| The ring buffer APIs do not provide any concurrency control. |
| Depending on usage (particularly with respect to number of concurrent |
| readers/writers) applications may need to protect the ring buffer with |
| mutexes and/or use semaphores to notify consumers that there is data to |
| read. |
| |
| For the trivial case of one producer and one consumer, concurrency |
| control shouldn't be needed. |
| |
| Internal Operation |
| ================== |
| |
| Data streamed through a ring buffer is always written to the next byte |
| within the buffer, wrapping around to the first element after reaching |
| the end, thus the "ring" structure. Internally, the ``struct |
| ring_buf`` contains its own buffer pointer and its size, and also a |
| set of "head" and "tail" indices representing where the next read and write |
| operations may occur. |
| |
| This boundary is invisible to the user using the normal put/get APIs, |
| but becomes a barrier to the "claim" API, because obviously no |
| contiguous region can be returned that crosses the end of the buffer. |
| This can be surprising to application code, and produce performance |
| artifacts when transfers need to happen close to the end of the |
| buffer, as the number of calls to claim/finish needs to double for such |
| transfers. |
| |
| |
| Implementation |
| ************** |
| |
| Defining a Ring Buffer |
| ====================== |
| |
| A ring buffer is defined using a variable of type :c:struct:`ring_buf`. |
| It must then be initialized by calling :c:func:`ring_buf_init` or |
| :c:func:`ring_buf_item_init`. |
| |
| The following code defines and initializes an empty **data item mode** ring |
| buffer (which is part of a larger data structure). The ring buffer's data buffer |
| is capable of holding 64 words of data and metadata information. |
| |
| .. code-block:: c |
| |
| #define MY_RING_BUF_WORDS 64 |
| |
| struct my_struct { |
| struct ring_buf rb; |
| uint32_t buffer[MY_RING_BUF_WORDS]; |
| ... |
| }; |
| struct my_struct ms; |
| |
| void init_my_struct { |
| ring_buf_item_init(&ms.rb, MY_RING_BUF_WORDS, ms.buffer); |
| ... |
| } |
| |
| Alternatively, a ring buffer can be defined and initialized at compile time |
| using one of two macros at file scope. Each macro defines both the ring |
| buffer itself and its data buffer. |
| |
| The following code defines a **data item mode** ring buffer: |
| |
| .. code-block:: c |
| |
| #define MY_RING_BUF_WORDS 93 |
| RING_BUF_ITEM_DECLARE(my_ring_buf, MY_RING_BUF_WORDS); |
| |
| The following code defines a ring buffer intended to be used for raw bytes: |
| |
| .. code-block:: c |
| |
| #define MY_RING_BUF_BYTES 93 |
| RING_BUF_DECLARE(my_ring_buf, MY_RING_BUF_BYTES); |
| |
| Enqueuing Data |
| ============== |
| |
| Bytes are copied to a **byte mode** ring buffer by calling |
| :c:func:`ring_buf_put`. |
| |
| .. code-block:: c |
| |
| uint8_t my_data[MY_RING_BUF_BYTES]; |
| uint32_t ret; |
| |
| ret = ring_buf_put(&ring_buf, my_data, MY_RING_BUF_BYTES); |
| if (ret != MY_RING_BUF_BYTES) { |
| /* not enough room, partial copy. */ |
| ... |
| } |
| |
| Data can be added to a **byte mode** ring buffer by directly accessing the |
| ring buffer's memory. For example: |
| |
| .. code-block:: c |
| |
| uint32_t size; |
| uint32_t rx_size; |
| uint8_t *data; |
| int err; |
| |
| /* Allocate buffer within a ring buffer memory. */ |
| size = ring_buf_put_claim(&ring_buf, &data, MY_RING_BUF_BYTES); |
| |
| /* Work directly on a ring buffer memory. */ |
| rx_size = uart_rx(data, size); |
| |
| /* Indicate amount of valid data. rx_size can be equal or less than size. */ |
| err = ring_buf_put_finish(&ring_buf, rx_size); |
| if (err != 0) { |
| /* This shouldn't happen unless rx_size > size */ |
| ... |
| } |
| |
| A data item is added to a ring buffer by calling |
| :c:func:`ring_buf_item_put`. |
| |
| .. code-block:: c |
| |
| uint32_t data[MY_DATA_WORDS]; |
| int ret; |
| |
| ret = ring_buf_item_put(&ring_buf, TYPE_FOO, 0, data, MY_DATA_WORDS); |
| if (ret == -EMSGSIZE) { |
| /* not enough room for the data item */ |
| ... |
| } |
| |
| If the data item requires only the type or application-specific integer value |
| (i.e. it has no data array), a size of 0 and data pointer of :c:macro:`NULL` |
| can be specified. |
| |
| .. code-block:: c |
| |
| int ret; |
| |
| ret = ring_buf_item_put(&ring_buf, TYPE_BAR, 17, NULL, 0); |
| if (ret == -EMSGSIZE) { |
| /* not enough room for the data item */ |
| ... |
| } |
| |
| Retrieving Data |
| =============== |
| |
| Data bytes are copied out from a **byte mode** ring buffer by calling |
| :c:func:`ring_buf_get`. For example: |
| |
| .. code-block:: c |
| |
| uint8_t my_data[MY_DATA_BYTES]; |
| size_t ret; |
| |
| ret = ring_buf_get(&ring_buf, my_data, sizeof(my_data)); |
| if (ret != sizeof(my_data)) { |
| /* Fewer bytes copied. */ |
| } else { |
| /* Requested amount of bytes retrieved. */ |
| ... |
| } |
| |
| Data can be retrieved from a **byte mode** ring buffer by direct |
| operations on the ring buffer's memory. For example: |
| |
| .. code-block:: c |
| |
| uint32_t size; |
| uint32_t proc_size; |
| uint8_t *data; |
| int err; |
| |
| /* Get buffer within a ring buffer memory. */ |
| size = ring_buf_get_claim(&ring_buf, &data, MY_RING_BUF_BYTES); |
| |
| /* Work directly on a ring buffer memory. */ |
| proc_size = process(data, size); |
| |
| /* Indicate amount of data that can be freed. proc_size can be equal or less |
| * than size. |
| */ |
| err = ring_buf_get_finish(&ring_buf, proc_size); |
| if (err != 0) { |
| /* proc_size exceeds amount of valid data in a ring buffer. */ |
| ... |
| } |
| |
| A data item is removed from a ring buffer by calling |
| :c:func:`ring_buf_item_get`. |
| |
| .. code-block:: c |
| |
| uint32_t my_data[MY_DATA_WORDS]; |
| uint16_t my_type; |
| uint8_t my_value; |
| uint8_t my_size; |
| int ret; |
| |
| my_size = MY_DATA_WORDS; |
| ret = ring_buf_item_get(&ring_buf, &my_type, &my_value, my_data, &my_size); |
| if (ret == -EMSGSIZE) { |
| printk("Buffer is too small, need %d uint32_t\n", my_size); |
| } else if (ret == -EAGAIN) { |
| printk("Ring buffer is empty\n"); |
| } else { |
| printk("Got item of type %u value &u of size %u dwords\n", |
| my_type, my_value, my_size); |
| ... |
| } |
| |
| Configuration Options |
| ********************* |
| |
| Related configuration options: |
| |
| * :kconfig:option:`CONFIG_RING_BUFFER`: Enable ring buffer. |
| |
| API Reference |
| ************* |
| |
| The following ring buffer APIs are provided by :zephyr_file:`include/zephyr/sys/ring_buffer.h`: |
| |
| .. doxygengroup:: ring_buffer_apis |