include/drivers/ipm.h - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /**
  * @file
  *
  * @brief Generic low-level inter-processor mailbox communication API.
  */

 /*
  * Copyright (c) 2015 Intel Corporation
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 #ifndef ZEPHYR_INCLUDE_DRIVERS_IPM_H_
 #define ZEPHYR_INCLUDE_DRIVERS_IPM_H_

 /**
  * @brief IPM Interface
  * @defgroup ipm_interface IPM Interface
  * @ingroup io_interfaces
  * @{
  */

 #include <kernel.h>
 #include <device.h>

 #ifdef __cplusplus
 extern "C" {
 #endif

 /**
  * @typedef ipm_callback_t
  * @brief Callback API for incoming IPM messages
  *
  * These callbacks execute in interrupt context. Therefore, use only
  * interrupt-safe APIS. Registration of callbacks is done via
  * @a ipm_register_callback
  *
  * @param ipmdev Driver instance
  * @param user_data Pointer to some private data provided at registration
  *        time.
  * @param id Message type identifier.
  * @param data Message data pointer. The correct amount of data to read out
  *        must be inferred using the message id/upper level protocol.
  */
 typedef void (*ipm_callback_t)(const struct device *ipmdev, void *user_data,
 			       uint32_t id, volatile void *data);

 /**
  * @typedef ipm_send_t
  * @brief Callback API to send IPM messages
  *
  * See @a ipm_send() for argument definitions.
  */
 typedef int (*ipm_send_t)(const struct device *ipmdev, int wait, uint32_t id,
 			  const void *data, int size);
 /**
  * @typedef ipm_max_data_size_get_t
  * @brief Callback API to get maximum data size
  *
  * See @a ipm_max_data_size_get() for argument definitions.
  */
 typedef int (*ipm_max_data_size_get_t)(const struct device *ipmdev);

 /**
  * @typedef ipm_max_id_val_get_t
  * @brief Callback API to get the ID's maximum value
  *
  * See @a ipm_max_id_val_get() for argument definitions.
  */
 typedef uint32_t (*ipm_max_id_val_get_t)(const struct device *ipmdev);

 /**
  * @typedef ipm_register_callback_t
  * @brief Callback API upon registration
  *
  * See @a ipm_register_callback() for argument definitions.
  */
 typedef void (*ipm_register_callback_t)(const struct device *port,
 					ipm_callback_t cb,
 					void *user_data);

 /**
  * @typedef ipm_set_enabled_t
  * @brief Callback API upon enablement of interrupts
  *
  * See @a ipm_set_enabled() for argument definitions.
  */
 typedef int (*ipm_set_enabled_t)(const struct device *ipmdev, int enable);

 __subsystem struct ipm_driver_api {
 	ipm_send_t send;
 	ipm_register_callback_t register_callback;
 	ipm_max_data_size_get_t max_data_size_get;
 	ipm_max_id_val_get_t max_id_val_get;
 	ipm_set_enabled_t set_enabled;
 };

 /**
  * @brief Try to send a message over the IPM device.
  *
  * A message is considered consumed once the remote interrupt handler
  * finishes. If there is deferred processing on the remote side,
  * or if outgoing messages must be queued and wait on an
  * event/semaphore, a high-level driver can implement that.
  *
  * There are constraints on how much data can be sent or the maximum value
  * of id. Use the @a ipm_max_data_size_get and @a ipm_max_id_val_get routines
  * to determine them.
  *
  * The @a size parameter is used only on the sending side to determine
  * the amount of data to put in the message registers. It is not passed along
  * to the receiving side. The upper-level protocol dictates the amount of
  * data read back.
  *
  * @param ipmdev Driver instance
  * @param wait If nonzero, busy-wait for remote to consume the message. The
  *	       message is considered consumed once the remote interrupt handler
  *	       finishes. If there is deferred processing on the remote side,
  *	       or you would like to queue outgoing messages and wait on an
  *	       event/semaphore, you can implement that in a high-level driver
  * @param id Message identifier. Values are constrained by
  *        @a ipm_max_data_size_get since many boards only allow for a
  *        subset of bits in a 32-bit register to store the ID.
  * @param data Pointer to the data sent in the message.
  * @param size Size of the data.
  *
  * @retval -EBUSY    If the remote hasn't yet read the last data sent.
  * @retval -EMSGSIZE If the supplied data size is unsupported by the driver.
  * @retval -EINVAL   If there was a bad parameter, such as: too-large id value.
  *                   or the device isn't an outbound IPM channel.
  * @retval 0         On success.
  */
 __syscall int ipm_send(const struct device *ipmdev, int wait, uint32_t id,
 		       const void *data, int size);

 static inline int z_impl_ipm_send(const struct device *ipmdev, int wait,
 				  uint32_t id,
 				  const void *data, int size)
 {
 	const struct ipm_driver_api *api =
 		(const struct ipm_driver_api *)ipmdev->api;

 	return api->send(ipmdev, wait, id, data, size);
 }

 /**
  * @brief Register a callback function for incoming messages.
  *
  * @param ipmdev Driver instance pointer.
  * @param cb Callback function to execute on incoming message interrupts.
  * @param user_data Application-specific data pointer which will be passed
  *        to the callback function when executed.
  */
 static inline void ipm_register_callback(const struct device *ipmdev,
 					 ipm_callback_t cb, void *user_data)
 {
 	const struct ipm_driver_api *api =
 		(const struct ipm_driver_api *)ipmdev->api;

 	api->register_callback(ipmdev, cb, user_data);
 }

 /**
  * @brief Return the maximum number of bytes possible in an outbound message.
  *
  * IPM implementations vary on the amount of data that can be sent in a
  * single message since the data payload is typically stored in registers.
  *
  * @param ipmdev Driver instance pointer.
  *
  * @return Maximum possible size of a message in bytes.
  */
 __syscall int ipm_max_data_size_get(const struct device *ipmdev);

 static inline int z_impl_ipm_max_data_size_get(const struct device *ipmdev)
 {
 	const struct ipm_driver_api *api =
 		(const struct ipm_driver_api *)ipmdev->api;

 	return api->max_data_size_get(ipmdev);
 }


 /**
  * @brief Return the maximum id value possible in an outbound message.
  *
  * Many IPM implementations store the message's ID in a register with
  * some bits reserved for other uses.
  *
  * @param ipmdev Driver instance pointer.
  *
  * @return Maximum possible value of a message ID.
  */
 __syscall uint32_t ipm_max_id_val_get(const struct device *ipmdev);

 static inline uint32_t z_impl_ipm_max_id_val_get(const struct device *ipmdev)
 {
 	const struct ipm_driver_api *api =
 		(const struct ipm_driver_api *)ipmdev->api;

 	return api->max_id_val_get(ipmdev);
 }

 /**
  * @brief Enable interrupts and callbacks for inbound channels.
  *
  * @param ipmdev Driver instance pointer.
  * @param enable Set to 0 to disable and to nonzero to enable.
  *
  * @retval 0       On success.
  * @retval -EINVAL If it isn't an inbound channel.
  */
 __syscall int ipm_set_enabled(const struct device *ipmdev, int enable);

 static inline int z_impl_ipm_set_enabled(const struct device *ipmdev,
 					 int enable)
 {
 	const struct ipm_driver_api *api =
 		(const struct ipm_driver_api *)ipmdev->api;

 	return api->set_enabled(ipmdev, enable);
 }

 #ifdef __cplusplus
 }
 #endif

 /**
  * @}
  */

 #include <syscalls/ipm.h>

 #endif /* ZEPHYR_INCLUDE_DRIVERS_IPM_H_ */
	/**
	* @file
	*
	* @brief Generic low-level inter-processor mailbox communication API.
	*/

	/*
	* Copyright (c) 2015 Intel Corporation
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	#ifndef ZEPHYR_INCLUDE_DRIVERS_IPM_H_
	#define ZEPHYR_INCLUDE_DRIVERS_IPM_H_

	/**
	* @brief IPM Interface
	* @defgroup ipm_interface IPM Interface
	* @ingroup io_interfaces
	* @{
	*/

	#include <kernel.h>
	#include <device.h>

	#ifdef __cplusplus
	extern "C" {
	#endif

	/**
	* @typedef ipm_callback_t
	* @brief Callback API for incoming IPM messages
	*
	* These callbacks execute in interrupt context. Therefore, use only
	* interrupt-safe APIS. Registration of callbacks is done via
	* @a ipm_register_callback
	*
	* @param ipmdev Driver instance
	* @param user_data Pointer to some private data provided at registration
	* time.
	* @param id Message type identifier.
	* @param data Message data pointer. The correct amount of data to read out
	* must be inferred using the message id/upper level protocol.
	*/
	typedef void (ipm_callback_t)(const struct device ipmdev, void *user_data,
	uint32_t id, volatile void *data);

	/**
	* @typedef ipm_send_t
	* @brief Callback API to send IPM messages
	*
	* See @a ipm_send() for argument definitions.
	*/
	typedef int (ipm_send_t)(const struct device ipmdev, int wait, uint32_t id,
	const void *data, int size);
	/**
	* @typedef ipm_max_data_size_get_t
	* @brief Callback API to get maximum data size
	*
	* See @a ipm_max_data_size_get() for argument definitions.
	*/
	typedef int (ipm_max_data_size_get_t)(const struct device ipmdev);

	/**
	* @typedef ipm_max_id_val_get_t
	* @brief Callback API to get the ID's maximum value
	*
	* See @a ipm_max_id_val_get() for argument definitions.
	*/
	typedef uint32_t (ipm_max_id_val_get_t)(const struct device ipmdev);

	/**
	* @typedef ipm_register_callback_t
	* @brief Callback API upon registration
	*
	* See @a ipm_register_callback() for argument definitions.
	*/
	typedef void (ipm_register_callback_t)(const struct device port,
	ipm_callback_t cb,
	void *user_data);

	/**
	* @typedef ipm_set_enabled_t
	* @brief Callback API upon enablement of interrupts
	*
	* See @a ipm_set_enabled() for argument definitions.
	*/
	typedef int (ipm_set_enabled_t)(const struct device ipmdev, int enable);

	__subsystem struct ipm_driver_api {
	ipm_send_t send;
	ipm_register_callback_t register_callback;
	ipm_max_data_size_get_t max_data_size_get;
	ipm_max_id_val_get_t max_id_val_get;
	ipm_set_enabled_t set_enabled;
	};

	/**
	* @brief Try to send a message over the IPM device.
	*
	* A message is considered consumed once the remote interrupt handler
	* finishes. If there is deferred processing on the remote side,
	* or if outgoing messages must be queued and wait on an
	* event/semaphore, a high-level driver can implement that.
	*
	* There are constraints on how much data can be sent or the maximum value
	* of id. Use the @a ipm_max_data_size_get and @a ipm_max_id_val_get routines
	* to determine them.
	*
	* The @a size parameter is used only on the sending side to determine
	* the amount of data to put in the message registers. It is not passed along
	* to the receiving side. The upper-level protocol dictates the amount of
	* data read back.
	*
	* @param ipmdev Driver instance
	* @param wait If nonzero, busy-wait for remote to consume the message. The
	* message is considered consumed once the remote interrupt handler
	* finishes. If there is deferred processing on the remote side,
	* or you would like to queue outgoing messages and wait on an
	* event/semaphore, you can implement that in a high-level driver
	* @param id Message identifier. Values are constrained by
	* @a ipm_max_data_size_get since many boards only allow for a
	* subset of bits in a 32-bit register to store the ID.
	* @param data Pointer to the data sent in the message.
	* @param size Size of the data.
	*
	* @retval -EBUSY If the remote hasn't yet read the last data sent.
	* @retval -EMSGSIZE If the supplied data size is unsupported by the driver.
	* @retval -EINVAL If there was a bad parameter, such as: too-large id value.
	* or the device isn't an outbound IPM channel.
	* @retval 0 On success.
	*/
	__syscall int ipm_send(const struct device *ipmdev, int wait, uint32_t id,
	const void *data, int size);

	static inline int z_impl_ipm_send(const struct device *ipmdev, int wait,
	uint32_t id,
	const void *data, int size)
	{
	const struct ipm_driver_api *api =
	(const struct ipm_driver_api *)ipmdev->api;

	return api->send(ipmdev, wait, id, data, size);
	}

	/**
	* @brief Register a callback function for incoming messages.
	*
	* @param ipmdev Driver instance pointer.
	* @param cb Callback function to execute on incoming message interrupts.
	* @param user_data Application-specific data pointer which will be passed
	* to the callback function when executed.
	*/
	static inline void ipm_register_callback(const struct device *ipmdev,
	ipm_callback_t cb, void *user_data)
	{
	const struct ipm_driver_api *api =
	(const struct ipm_driver_api *)ipmdev->api;

	api->register_callback(ipmdev, cb, user_data);
	}

	/**
	* @brief Return the maximum number of bytes possible in an outbound message.
	*
	* IPM implementations vary on the amount of data that can be sent in a
	* single message since the data payload is typically stored in registers.
	*
	* @param ipmdev Driver instance pointer.
	*
	* @return Maximum possible size of a message in bytes.
	*/
	__syscall int ipm_max_data_size_get(const struct device *ipmdev);

	static inline int z_impl_ipm_max_data_size_get(const struct device *ipmdev)
	{
	const struct ipm_driver_api *api =
	(const struct ipm_driver_api *)ipmdev->api;

	return api->max_data_size_get(ipmdev);
	}


	/**
	* @brief Return the maximum id value possible in an outbound message.
	*
	* Many IPM implementations store the message's ID in a register with
	* some bits reserved for other uses.
	*
	* @param ipmdev Driver instance pointer.
	*
	* @return Maximum possible value of a message ID.
	*/
	__syscall uint32_t ipm_max_id_val_get(const struct device *ipmdev);

	static inline uint32_t z_impl_ipm_max_id_val_get(const struct device *ipmdev)
	{
	const struct ipm_driver_api *api =
	(const struct ipm_driver_api *)ipmdev->api;

	return api->max_id_val_get(ipmdev);
	}

	/**
	* @brief Enable interrupts and callbacks for inbound channels.
	*
	* @param ipmdev Driver instance pointer.
	* @param enable Set to 0 to disable and to nonzero to enable.
	*
	* @retval 0 On success.
	* @retval -EINVAL If it isn't an inbound channel.
	*/
	__syscall int ipm_set_enabled(const struct device *ipmdev, int enable);

	static inline int z_impl_ipm_set_enabled(const struct device *ipmdev,
	int enable)
	{
	const struct ipm_driver_api *api =
	(const struct ipm_driver_api *)ipmdev->api;

	return api->set_enabled(ipmdev, enable);
	}

	#ifdef __cplusplus
	}
	#endif

	/**
	* @}
	*/

	#include <syscalls/ipm.h>

	#endif /* ZEPHYR_INCLUDE_DRIVERS_IPM_H_ */