Zephyr API Documentation 4.0.0-rc2
A Scalable Open Source RTOS
Loading...
Searching...
No Matches
IPC service APIs

IPC Service API . More...

Data Structures

struct  ipc_service_cb
 Event callback structure. More...
 
struct  ipc_ept
 Endpoint instance. More...
 
struct  ipc_ept_cfg
 Endpoint configuration structure. More...
 

Functions

int ipc_service_open_instance (const struct device *instance)
 Open an instance.
 
int ipc_service_close_instance (const struct device *instance)
 Close an instance.
 
int ipc_service_register_endpoint (const struct device *instance, struct ipc_ept *ept, const struct ipc_ept_cfg *cfg)
 Register IPC endpoint onto an instance.
 
int ipc_service_deregister_endpoint (struct ipc_ept *ept)
 Deregister an IPC endpoint from its instance.
 
int ipc_service_send (struct ipc_ept *ept, const void *data, size_t len)
 Send data using given IPC endpoint.
 
int ipc_service_get_tx_buffer_size (struct ipc_ept *ept)
 Get the TX buffer size.
 
int ipc_service_get_tx_buffer (struct ipc_ept *ept, void **data, uint32_t *size, k_timeout_t wait)
 Get an empty TX buffer to be sent using ipc_service_send_nocopy.
 
int ipc_service_drop_tx_buffer (struct ipc_ept *ept, const void *data)
 Drop and release a TX buffer.
 
int ipc_service_send_nocopy (struct ipc_ept *ept, const void *data, size_t len)
 Send data in a TX buffer reserved by ipc_service_get_tx_buffer using the given IPC endpoint.
 
int ipc_service_hold_rx_buffer (struct ipc_ept *ept, void *data)
 Holds the RX buffer for usage outside the receive callback.
 
int ipc_service_release_rx_buffer (struct ipc_ept *ept, void *data)
 Release the RX buffer for future reuse.
 

Detailed Description

IPC Service API .

Function Documentation

◆ ipc_service_close_instance()

int ipc_service_close_instance ( const struct device * instance)

#include <zephyr/ipc/ipc_service.h>

Close an instance.

Function to be used to close an instance. All bounded endpoints must be deregistered using ipc_service_deregister_endpoint before this is called.

Parameters
[in]instanceInstance to close.
Return values
-EINVALwhen instance configuration is invalid.
-EIOwhen no backend is registered.
-EALREADYwhen the instance is not already opened.
-EBUSYwhen an endpoint exists that hasn't been deregistered
0on success or when not implemented on the backend (not needed).
othererrno codes depending on the implementation of the backend.

◆ ipc_service_deregister_endpoint()

int ipc_service_deregister_endpoint ( struct ipc_ept * ept)

#include <zephyr/ipc/ipc_service.h>

Deregister an IPC endpoint from its instance.

Deregisters an IPC endpoint from its instance.

The same function deregisters endpoints for both host and remote devices.

Parameters
[in]eptEndpoint object.
Return values
-EIOwhen no backend is registered.
-EINVALwhen instance, endpoint or configuration is invalid.
-ENOENTwhen the endpoint is not registered with the instance.
-EBUSYwhen the instance is busy.
0on success.
othererrno codes depending on the implementation of the backend.

◆ ipc_service_drop_tx_buffer()

int ipc_service_drop_tx_buffer ( struct ipc_ept * ept,
const void * data )

#include <zephyr/ipc/ipc_service.h>

Drop and release a TX buffer.

Drop and release a TX buffer. It is possible to drop only TX buffers obtained by using ipc_service_get_tx_buffer.

Parameters
[in]eptRegistered endpoint by ipc_service_register_endpoint.
[in]dataPointer to the TX buffer.
Return values
-EIOwhen no backend is registered or send hook is missing from backend.
-EINVALwhen instance or endpoint is invalid.
-ENOENTwhen the endpoint is not registered with the instance.
-ENOTSUPwhen this is not supported by backend.
-EALREADYwhen the buffer was already dropped.
-ENXIOwhen the buffer was not obtained using ipc_service_get_tx_buffer
0on success.
othererrno codes depending on the implementation of the backend.

◆ ipc_service_get_tx_buffer()

int ipc_service_get_tx_buffer ( struct ipc_ept * ept,
void ** data,
uint32_t * size,
k_timeout_t wait )

#include <zephyr/ipc/ipc_service.h>

Get an empty TX buffer to be sent using ipc_service_send_nocopy.

This function can be called to get an empty TX buffer so that the application can directly put its data into the sending buffer without copy from an application buffer.

It is the application responsibility to correctly fill the allocated TX buffer with data and passing correct parameters to ipc_service_send_nocopy function to perform data no-copy-send mechanism.

The size parameter can be used to request a buffer with a certain size:

  • if the size can be accommodated the function returns no errors and the buffer is allocated
  • if the requested size is too big, the function returns -ENOMEM and the the buffer is not allocated.
  • if the requested size is '0' the buffer is allocated with the maximum allowed size.

In all the cases on return the size parameter contains the maximum size for the returned buffer.

When the function returns no errors, the buffer is intended as allocated and it is released under two conditions: (1) when sending the buffer using ipc_service_send_nocopy (and in this case the buffer is automatically released by the backend), (2) when using ipc_service_drop_tx_buffer on a buffer not sent.

Parameters
[in]eptRegistered endpoint by ipc_service_register_endpoint.
[out]dataPointer to the empty TX buffer.
[in,out]sizePointer to store the requested TX buffer size. If the function returns -ENOMEM, this parameter returns the maximum allowed size.
[in]waitTimeout waiting for an available TX buffer.
Return values
-EIOwhen no backend is registered or send hook is missing from backend.
-EINVALwhen instance or endpoint is invalid.
-ENOENTwhen the endpoint is not registered with the instance.
-ENOTSUPwhen the operation or the timeout is not supported by backend.
-ENOBUFSwhen there are no TX buffers available.
-EALREADYwhen a buffer was already claimed and not yet released.
-ENOMEMwhen the requested size is too big (and the size parameter contains the maximum allowed size).
0on success.
othererrno codes depending on the implementation of the backend.

◆ ipc_service_get_tx_buffer_size()

int ipc_service_get_tx_buffer_size ( struct ipc_ept * ept)

#include <zephyr/ipc/ipc_service.h>

Get the TX buffer size.

Get the maximal size of a buffer which can be obtained by ipc_service_get_tx_buffer

Parameters
[in]eptRegistered endpoint by ipc_service_register_endpoint.
Return values
-EIOwhen no backend is registered or send hook is missing from backend.
-EINVALwhen instance or endpoint is invalid.
-ENOENTwhen the endpoint is not registered with the instance.
-ENOTSUPwhen the operation is not supported by backend.
sizeTX buffer size on success.
othererrno codes depending on the implementation of the backend.

◆ ipc_service_hold_rx_buffer()

int ipc_service_hold_rx_buffer ( struct ipc_ept * ept,
void * data )

#include <zephyr/ipc/ipc_service.h>

Holds the RX buffer for usage outside the receive callback.

Calling this function prevents the receive buffer from being released back to the pool of shmem buffers. This function can be called in the receive callback when the user does not want to copy the message out in the callback itself.

After the message is processed, the application must release the buffer using the ipc_service_release_rx_buffer function.

Parameters
[in]eptRegistered endpoint by ipc_service_register_endpoint.
[in]dataPointer to the RX buffer to hold.
Return values
-EIOwhen no backend is registered or release hook is missing from backend.
-EINVALwhen instance or endpoint is invalid.
-ENOENTwhen the endpoint is not registered with the instance.
-EALREADYwhen the buffer data has been hold already.
-ENOTSUPwhen this is not supported by backend.
0on success.
othererrno codes depending on the implementation of the backend.

◆ ipc_service_open_instance()

int ipc_service_open_instance ( const struct device * instance)

#include <zephyr/ipc/ipc_service.h>

Open an instance.

Function to be used to open an instance before being able to register a new endpoint on it.

Parameters
[in]instanceInstance to open.
Return values
-EINVALwhen instance configuration is invalid.
-EIOwhen no backend is registered.
-EALREADYwhen the instance is already opened (or being opened).
0on success or when not implemented on the backend (not needed).
othererrno codes depending on the implementation of the backend.

◆ ipc_service_register_endpoint()

int ipc_service_register_endpoint ( const struct device * instance,
struct ipc_ept * ept,
const struct ipc_ept_cfg * cfg )

#include <zephyr/ipc/ipc_service.h>

Register IPC endpoint onto an instance.

Registers IPC endpoint onto an instance to enable communication with a remote device.

The same function registers endpoints for both host and remote devices.

Parameters
[in]instanceInstance to register the endpoint onto.
[in]eptEndpoint object.
[in]cfgEndpoint configuration.
Note
Keep the variable pointed by cfg alive when endpoint is in use.
Return values
-EIOwhen no backend is registered.
-EINVALwhen instance, endpoint or configuration is invalid.
-EBUSYwhen the instance is busy.
0on success.
othererrno codes depending on the implementation of the backend.

◆ ipc_service_release_rx_buffer()

int ipc_service_release_rx_buffer ( struct ipc_ept * ept,
void * data )

#include <zephyr/ipc/ipc_service.h>

Release the RX buffer for future reuse.

When supported by the backend, this function can be called after the received message has been processed and the buffer can be marked as reusable again.

It is possible to release only RX buffers on which ipc_service_hold_rx_buffer was previously used.

Parameters
[in]eptRegistered endpoint by ipc_service_register_endpoint.
[in]dataPointer to the RX buffer to release.
Return values
-EIOwhen no backend is registered or release hook is missing from backend.
-EINVALwhen instance or endpoint is invalid.
-ENOENTwhen the endpoint is not registered with the instance.
-EALREADYwhen the buffer data has been already released.
-ENOTSUPwhen this is not supported by backend.
-ENXIOwhen the buffer was not hold before using ipc_service_hold_rx_buffer
0on success.
othererrno codes depending on the implementation of the backend.

◆ ipc_service_send()

int ipc_service_send ( struct ipc_ept * ept,
const void * data,
size_t len )

#include <zephyr/ipc/ipc_service.h>

Send data using given IPC endpoint.

Parameters
[in]eptRegistered endpoint by ipc_service_register_endpoint.
[in]dataPointer to the buffer to send.
[in]lenNumber of bytes to send.
Return values
-EIOwhen no backend is registered or send hook is missing from backend.
-EINVALwhen instance or endpoint is invalid.
-ENOENTwhen the endpoint is not registered with the instance.
-EBADMSGwhen the data is invalid (i.e. invalid data format, invalid length, ...)
-EBUSYwhen the instance is busy.
-ENOMEMwhen no memory / buffers are available.
bytesnumber of bytes sent.
othererrno codes depending on the implementation of the backend.

◆ ipc_service_send_nocopy()

int ipc_service_send_nocopy ( struct ipc_ept * ept,
const void * data,
size_t len )

#include <zephyr/ipc/ipc_service.h>

Send data in a TX buffer reserved by ipc_service_get_tx_buffer using the given IPC endpoint.

This is equivalent to ipc_service_send but in this case the TX buffer has been obtained by using ipc_service_get_tx_buffer.

The application has to take the responsibility for getting the TX buffer using ipc_service_get_tx_buffer and filling the TX buffer with the data.

After the ipc_service_send_nocopy function is issued the TX buffer is no more owned by the sending task and must not be touched anymore unless the function fails and returns an error.

If this function returns an error, ipc_service_drop_tx_buffer can be used to drop the TX buffer.

Parameters
[in]eptRegistered endpoint by ipc_service_register_endpoint.
[in]dataPointer to the buffer to send obtained by ipc_service_get_tx_buffer.
[in]lenNumber of bytes to send.
Return values
-EIOwhen no backend is registered or send hook is missing from backend.
-EINVALwhen instance or endpoint is invalid.
-ENOENTwhen the endpoint is not registered with the instance.
-EBADMSGwhen the data is invalid (i.e. invalid data format, invalid length, ...)
-EBUSYwhen the instance is busy.
bytesnumber of bytes sent.
othererrno codes depending on the implementation of the backend.