zephyr/doc/reference/kernel/data_passing/pipes.rst

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.. _pipes_v2:
Pipes
#####
A :dfn:`pipe` is a kernel object that allows a thread to send a byte stream
to another thread. Pipes can be used to transfer chunks of data in whole
or in part, and either synchronously or asynchronously.
.. contents::
:local:
:depth: 2
Concepts
********
The pipe can be configured with a ring buffer which holds data that has been
sent but not yet received; alternatively, the pipe may have no ring buffer.
Any number of pipes can be defined (limited only by available RAM). Each pipe is
referenced by its memory address.
A pipe has the following key property:
* A **size** that indicates the size of the pipe's ring buffer. Note that a
size of zero defines a pipe with no ring buffer.
A pipe must be initialized before it can be used. The pipe is initially empty.
Data can be synchronously **sent** either in whole or in part to a pipe by a
thread. If the specified minimum number of bytes can not be immediately
satisfied, then the operation will either fail immediately or attempt to send
as many bytes as possible and then pend in the hope that the send can be
completed later. Accepted data is either copied to the pipe's ring buffer
or directly to the waiting reader(s).
Data can be asynchronously **sent** in whole using a memory block to a pipe by
a thread. Once the pipe has accepted all the bytes in the memory block, it will
free the memory block and may give a semaphore if one was specified.
Data can be synchronously **received** from a pipe by a thread. If the specified
minimum number of bytes can not be immediately satisfied, then the operation
will either fail immediately or attempt to receive as many bytes as possible
and then pend in the hope that the receive can be completed later. Accepted
data is either copied from the pipe's ring buffer or directly from the
waiting sender(s).
.. note::
The kernel does NOT allow for an ISR to send or receive data to/from a
pipe even if it does not attempt to wait for space/data.
Implementation
**************
A pipe is defined using a variable of type :c:struct:`k_pipe` and an
optional character buffer of type ``unsigned char``. It must then be
initialized by calling :c:func:`k_pipe_init`.
The following code defines and initializes an empty pipe that has a ring
buffer capable of holding 100 bytes and is aligned to a 4-byte boundary.
.. code-block:: c
unsigned char __aligned(4) my_ring_buffer[100];
struct k_pipe my_pipe;
k_pipe_init(&my_pipe, my_ring_buffer, sizeof(my_ring_buffer));
Alternatively, a pipe can be defined and initialized at compile time by
calling :c:macro:`K_PIPE_DEFINE`.
The following code has the same effect as the code segment above. Observe
that that macro defines both the pipe and its ring buffer.
.. code-block:: c
K_PIPE_DEFINE(my_pipe, 100, 4);
Writing to a Pipe
=================
Data is added to a pipe by calling :c:func:`k_pipe_put`.
The following code builds on the example above, and uses the pipe to pass
data from a producing thread to one or more consuming threads. If the pipe's
ring buffer fills up because the consumers can't keep up, the producing thread
waits for a specified amount of time.
.. code-block:: c
struct message_header {
...
};
void producer_thread(void)
{
unsigned char *data;
size_t total_size;
size_t bytes_written;
int rc;
...
while (1) {
/* Craft message to send in the pipe */
data = ...;
total_size = ...;
/* send data to the consumers */
rc = k_pipe_put(&my_pipe, data, total_size, &bytes_written,
sizeof(struct message_header), K_NO_WAIT);
if (rc < 0) {
/* Incomplete message header sent */
...
} else if (bytes_written < total_size) {
/* Some of the data was sent */
...
} else {
/* All data sent */
...
}
}
}
Reading from a Pipe
===================
Data is read from the pipe by calling :c:func:`k_pipe_get`.
The following code builds on the example above, and uses the pipe to
process data items generated by one or more producing threads.
.. code-block:: c
void consumer_thread(void)
{
unsigned char buffer[120];
size_t bytes_read;
struct message_header *header = (struct message_header *)buffer;
while (1) {
rc = k_pipe_get(&my_pipe, buffer, sizeof(buffer), &bytes_read,
sizeof(header), K_MSEC(100));
if ((rc < 0) || (bytes_read < sizeof (header))) {
/* Incomplete message header received */
...
} else if (header->num_data_bytes + sizeof(header) > bytes_read) {
/* Only some data was received */
...
} else {
/* All data was received */
...
}
}
}
Suggested uses
**************
Use a pipe to send streams of data between threads.
.. note::
A pipe can be used to transfer long streams of data if desired. However
it is often preferable to send pointers to large data items to avoid
copying the data.
Configuration Options
*********************
Related configuration options:
* :kconfig:`CONFIG_NUM_PIPE_ASYNC_MSGS`
API Reference
*************
.. doxygengroup:: pipe_apis