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

 /**
  * @file
  *
  * @brief Public APIs for the CAN drivers.
  */

 /*
  * Copyright (c) 2018 Alexander Wachter
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 #ifndef ZEPHYR_INCLUDE_CAN_H_
 #define ZEPHYR_INCLUDE_CAN_H_

 /**
  * @brief CAN Interface
  * @defgroup can_interface CAN Interface
  * @ingroup io_interfaces
  * @{
  */

 #include <zephyr/types.h>
 #include <device.h>
 #include <string.h>

 #ifdef __cplusplus
 extern "C" {
 #endif

 #define CAN_EX_ID      (1 << 31)
 #define CAN_MAX_STD_ID (0x7FF)
 #define CAN_STD_ID_MASK CAN_MAX_STD_ID
 #define CAN_EXT_ID_MASK (0x1FFFFFFF)
 #define CAN_MAX_DLC    (8)
 #define CAN_MAX_DLEN    8

 /* CAN_TX_* are the error flags from tx_callback and send.*/
 /** send successfully */
 #define CAN_TX_OK       (0)
 /** general send error */
 #define CAN_TX_ERR      (-2)
 /** bus arbitration lost during sending */
 #define CAN_TX_ARB_LOST (-3)
 /** controller is in bus off state */
 #define CAN_TX_BUS_OFF  (-4)
 /** unexpected error */
 #define CAN_TX_UNKNOWN  (-5)

 /** attach_* failed because there is no unused filter left*/
 #define CAN_NO_FREE_FILTER (-1)

 /** operation timed out*/
 #define CAN_TIMEOUT (-1)

 /**
  * @brief Statically define and initialize a can message queue.
  *
  * The message queue's ring buffer contains space for @a size messages.
  *
  * @param name Name of the message queue.
  * @param size Number of can messages.
  */
 #define CAN_DEFINE_MSGQ(name, size) \
 	K_MSGQ_DEFINE(name, sizeof(struct zcan_frame), size, 4)

 /**
  * @brief can_ide enum
  * Define if the message has a standard (11bit) or extended (29bit)
  * identifier
  */
 enum can_ide {
 	CAN_STANDARD_IDENTIFIER,
 	CAN_EXTENDED_IDENTIFIER
 };

 /**
  * @brief can_rtr enum
  * Define if the message is a data or remote frame
  */
 enum can_rtr {
 	CAN_DATAFRAME,
 	CAN_REMOTEREQUEST
 };

 /**
  * @brief can_mode enum
  * Defines the mode of the can controller
  */
 enum can_mode {
 	/*Normal mode*/
 	CAN_NORMAL_MODE,
 	/*Controller is not allowed to send dominant bits*/
 	CAN_SILENT_MODE,
 	/*Controller is in loopback mode (receive own messages)*/
 	CAN_LOOPBACK_MODE,
 	/*Combination of loopback and silent*/
 	CAN_SILENT_LOOPBACK_MODE
 };

 /*
  * Controller Area Network Identifier structure for Linux compatibility.
  *
  * The fields in this type are:
  *
  * bit 0-28	: CAN identifier (11/29 bit)
  * bit 29	: error message frame flag (0 = data frame, 1 = error message)
  * bit 30	: remote transmission request flag (1 = rtr frame)
  * bit 31	: frame format flag (0 = standard 11 bit, 1 = extended 29 bit)
  */
 typedef u32_t canid_t;

 /**
  * @brief CAN frame structure that is compatible with Linux. This is mainly
  * used by Socket CAN code.
  *
  * @details Used to pass CAN messages from userspace to the socket CAN and vice
  * versa.
  */
 struct can_frame {
 	/** 32 bit CAN_ID + EFF/RTR/ERR flags */
 	canid_t can_id;

 	/** The length of the message */
 	u8_t can_dlc;

 	/** @cond INTERNAL_HIDDEN */
 	u8_t pad;   /* padding */
 	u8_t res0;  /* reserved / padding */
 	u8_t res1;  /* reserved / padding */
 	/** @endcond */

 	/** The message data */
 	u8_t data[CAN_MAX_DLEN];
 };

 /**
  * @brief CAN filter that is compatible with Linux. This is mainly used by
  * Socket CAN code.
  *
  * @details A filter matches, when "received_can_id & mask == can_id & mask"
  */
 struct can_filter {
 	canid_t can_id;
 	canid_t can_mask;
 };

 /**
  * @brief CAN message structure
  *
  * Used to pass can messages from userspace to the driver and
  * from driver to userspace
  *
  */
 struct zcan_frame {
 	/** Indicates the identifier type (standard or extended)
 	 * use can_ide enum for assignment
 	 */
 	u32_t id_type : 1;
 	/** Set the message to a transmission request instead of data frame
 	 * use can_rtr enum for assignment
 	 */
 	u32_t rtr     : 1;
 	/** Message identifier*/
 	union {
 		u32_t std_id  : 11;
 		u32_t ext_id  : 29;
 	};
 	/** The length of the message (max. 8) in byte */
 	u8_t dlc;
 	/** The message data*/
 	union {
 		u8_t data[8];
 		u32_t data_32[2];
 	};
 } __packed;

 /**
  * @brief CAN filter structure
  *
  * Used to pass can identifier filter information to the driver.
  * rtr_mask and *_id_mask are used to mask bits of the rtr and id fields.
  * If the mask bit is 0, the value of the corresponding bit in the id or rtr
  * field don't care for the filter matching.
  *
  */
 struct zcan_filter {
 	/** Indicates the identifier type (standard or extended)
 	 * use can_ide enum for assignment
 	 */
 	u32_t id_type      : 1;
 	/** target state of the rtr bit */
 	u32_t rtr          : 1;
 	/** target state of the identifier */
 	union {
 		u32_t std_id   : 11;
 		u32_t ext_id   : 29;
 	};
 	/** rtr bit mask */
 	u32_t rtr_mask     : 1;
 	/** identifier mask*/
 	union {
 		u32_t std_id_mask  : 11;
 		u32_t ext_id_mask  : 29;
 	};
 } __packed;

 /**
  * @typedef can_tx_callback_t
  * @brief Define the application callback handler function signature
  *
  * @param error_flags status of the performed send operation
  */
 typedef void (*can_tx_callback_t)(u32_t error_flags);

 /**
  * @typedef can_rx_callback_t
  * @brief Define the application callback handler function signature
  *        for receiving.
  *
  * @param received message
  */
 typedef void (*can_rx_callback_t)(struct zcan_frame *msg);

 typedef int (*can_configure_t)(struct device *dev, enum can_mode mode,
 				u32_t bitrate);

 typedef int (*can_send_t)(struct device *dev, const struct zcan_frame *msg,
 			  s32_t timeout, can_tx_callback_t callback_isr);


 typedef int (*can_attach_msgq_t)(struct device *dev, struct k_msgq *msg_q,
 				 const struct zcan_filter *filter);

 typedef int (*can_attach_isr_t)(struct device *dev, can_rx_callback_t isr,
 				const struct zcan_filter *filter);

 typedef void (*can_detach_t)(struct device *dev, int filter_id);

 struct can_driver_api {
 	can_configure_t configure;
 	can_send_t send;
 	can_attach_isr_t attach_isr;
 	can_attach_msgq_t attach_msgq;
 	can_detach_t detach;
 };

 /**
  * @brief Perform data transfer to CAN bus.
  *
  * This routine provides a generic interface to perform data transfer
  * to the can bus. Use can_write() for simple write.
  * *
  * @param dev          Pointer to the device structure for the driver instance.
  * @param msg          Message to transfer.
  * @param timeout      Waiting for empty tx mailbox timeout in ms or K_FOREVER.
  * @param callback_isr Is called when message was sent or a transmission error
  *                     occurred. If NULL, this function is blocking until
  *                     message is sent. This must be NULL if called from user
  *                     mode.
  *
  * @retval 0 If successful.
  * @retval CAN_TX_* on failure.
  */
 __syscall int can_send(struct device *dev, const struct zcan_frame *msg,
 		       s32_t timeout, can_tx_callback_t callback_isr);

 static inline int z_impl_can_send(struct device *dev,
 				 const struct zcan_frame *msg,
 				 s32_t timeout, can_tx_callback_t callback_isr)
 {
 	const struct can_driver_api *api =
 		(const struct can_driver_api *)dev->driver_api;

 	return api->send(dev, msg, timeout, callback_isr);
 }

 /*
  * Derived can APIs -- all implemented in terms of can_send()
  */

 /**
  * @brief Write a set amount of data to the can bus.
  *
  * This routine writes a set amount of data synchronously.
  *
  * @param dev  Pointer to the device structure for the driver instance.
  * @param data Data to send.
  * @param length Number of bytes to write (max. 8).
  * @param id  Identifier of the can message.
  * @param rtr Send remote transmission request or data frame
  * @param timeout Waiting for empty tx mailbox timeout in ms or K_FOREVER
  *
  * @retval 0 If successful.
  * @retval -EIO General input / output error.
  * @retval -EINVAL if length > 8.
  */
 static inline int can_write(struct device *dev, const u8_t *data, u8_t length,
 			    u32_t id, enum can_rtr rtr, s32_t timeout)
 {
 	struct zcan_frame msg;

 	if (length > 8) {
 		return -EINVAL;
 	}

 	if (id > CAN_MAX_STD_ID) {
 		msg.id_type = CAN_EXTENDED_IDENTIFIER;
 		msg.ext_id = id & CAN_EXT_ID_MASK;
 	} else {
 		msg.id_type = CAN_STANDARD_IDENTIFIER;
 		msg.std_id = id;
 	}

 	msg.dlc = length;
 	msg.rtr = rtr;
 	memcpy(msg.data, data, length);

 	return can_send(dev, &msg, timeout, NULL);
 }

 /**
  * @brief Attach a message queue to a single or group of identifiers.
  *
  * This routine attaches a message queue to identifiers specified by
  * a filter. Whenever the filter matches, the message is pushed to the queue
  * If a message passes more than one filter the priority of the match
  * is hardware dependent.
  * A message queue can be attached to more than one filter.
  * The message queue must me initialized before, and the caller must have
  * appropriate permissions on it.
  *
  * @param dev    Pointer to the device structure for the driver instance.
  * @param msg_q  Pointer to the already initialized message queue.
  * @param filter Pointer to a zcan_filter structure defining the id
  *               filtering.
  *
  * @retval filter id on success.
  * @retval CAN_NO_FREE_FILTER if there is no filter left.
  */
 __syscall int can_attach_msgq(struct device *dev, struct k_msgq *msg_q,
 			      const struct zcan_filter *filter);

 static inline int z_impl_can_attach_msgq(struct device *dev,
 					struct k_msgq *msg_q,
 					const struct zcan_filter *filter)
 {
 	const struct can_driver_api *api =
 		(const struct can_driver_api *)dev->driver_api;

 	return api->attach_msgq(dev, msg_q, filter);
 }

 /**
  * @brief Attach an isr callback function to a single or group of identifiers.
  *
  * This routine attaches an isr callback to identifiers specified by
  * a filter. Whenever the filter matches, the callback function is called
  * with isr context.
  * If a message passes more than one filter the priority of the match
  * is hardware dependent.
  * A callback function can be attached to more than one filter.
  * *
  * @param dev    Pointer to the device structure for the driver instance.
  * @param isr    Callback function pointer.
  * @param filter Pointer to a zcan_filter structure defining the id
  *               filtering.
  *
  * @retval filter id on success.
  * @retval CAN_NO_FREE_FILTER if there is no filter left.
  */
 static inline int can_attach_isr(struct device *dev,
 				       can_rx_callback_t isr,
 				       const struct zcan_filter *filter)
 {
 	const struct can_driver_api *api =
 		(const struct can_driver_api *)dev->driver_api;

 	return api->attach_isr(dev, isr, filter);
 }

 /**
  * @brief Detach an isr or message queue from the identifier filtering.
  *
  * This routine detaches an isr callback  or message queue from the identifier
  * filtering.
  * *
  * @param dev       Pointer to the device structure for the driver instance.
  * @param filter_id filter id returned by can_attach_isr or can_attach_msgq.
  *
  * @retval none
  */
 __syscall void can_detach(struct device *dev, int filter_id);

 static inline void z_impl_can_detach(struct device *dev, int filter_id)
 {
 	const struct can_driver_api *api =
 		(const struct can_driver_api *)dev->driver_api;

 	return api->detach(dev, filter_id);
 }

 /**
  * @brief Configure operation of a host controller.
  *
  * @param dev Pointer to the device structure for the driver instance.
  * @param mode Operation mode
  * @param bitrate bus-speed in Baud/s
  *
  * @retval 0 If successful.
  * @retval -EIO General input / output error, failed to configure device.
  */
 __syscall int can_configure(struct device *dev, enum can_mode mode,
 			    u32_t bitrate);

 static inline int z_impl_can_configure(struct device *dev, enum can_mode mode,
 				      u32_t bitrate)
 {
 	const struct can_driver_api *api =
 		(const struct can_driver_api *)dev->driver_api;

 	return api->configure(dev, mode, bitrate);
 }

 /**
  * @brief Converter that translates between can_frame and zcan_frame structs.
  *
  * @param frame Pointer to can_frame struct.
  * @param zframe Pointer to zcan_frame struct.
  */
 static inline void can_copy_frame_to_zframe(const struct can_frame *frame,
 					    struct zcan_frame *zframe)
 {
 	zframe->id_type = (frame->can_id & BIT(31)) >> 31;
 	zframe->rtr = (frame->can_id & BIT(30)) >> 30;
 	zframe->ext_id = frame->can_id & BIT_MASK(29);
 	zframe->dlc = frame->can_dlc;
 	memcpy(zframe->data, frame->data, sizeof(zframe->data));
 }

 /**
  * @brief Converter that translates between zcan_frame and can_frame structs.
  *
  * @param zframe Pointer to zcan_frame struct.
  * @param frame Pointer to can_frame struct.
  */
 static inline void can_copy_zframe_to_frame(const struct zcan_frame *zframe,
 					    struct can_frame *frame)
 {
 	frame->can_id = (zframe->id_type << 31) | (zframe->rtr << 30) |
 		zframe->ext_id;
 	frame->can_dlc = zframe->dlc;
 	memcpy(frame->data, zframe->data, sizeof(frame->data));
 }

 /**
  * @brief Converter that translates between can_filter and zcan_frame_filter
  * structs.
  *
  * @param filter Pointer to can_filter struct.
  * @param zfilter Pointer to zcan_frame_filter struct.
  */
 static inline
 void can_copy_filter_to_zfilter(const struct can_filter *filter,
 				struct zcan_filter *zfilter)
 {
 	zfilter->id_type = (filter->can_id & BIT(31)) >> 31;
 	zfilter->rtr = (filter->can_id & BIT(30)) >> 30;
 	zfilter->ext_id = filter->can_id & BIT_MASK(29);
 	zfilter->rtr_mask = (filter->can_mask & BIT(30)) >> 30;
 	zfilter->ext_id_mask = filter->can_mask & BIT_MASK(29);
 }

 /**
  * @brief Converter that translates between zcan_filter and can_filter
  * structs.
  *
  * @param zfilter Pointer to zcan_filter struct.
  * @param filter Pointer to can_filter struct.
  */
 static inline
 void can_copy_zfilter_to_filter(const struct zcan_filter *zfilter,
 				struct can_filter *filter)
 {
 	filter->can_id = (zfilter->id_type << 31) |
 		(zfilter->rtr << 30) | zfilter->ext_id;
 	filter->can_mask = (zfilter->rtr_mask << 30) |
 		(zfilter->id_type << 31) | zfilter->ext_id_mask;
 }

 #ifdef __cplusplus
 }
 #endif
 /**
  * @}
  */
 #include <syscalls/can.h>

 #endif /* ZEPHYR_INCLUDE_CAN_H_ */
	/**
	* @file
	*
	* @brief Public APIs for the CAN drivers.
	*/

	/*
	* Copyright (c) 2018 Alexander Wachter
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	#ifndef ZEPHYR_INCLUDE_CAN_H_
	#define ZEPHYR_INCLUDE_CAN_H_

	/**
	* @brief CAN Interface
	* @defgroup can_interface CAN Interface
	* @ingroup io_interfaces
	* @{
	*/

	#include <zephyr/types.h>
	#include <device.h>
	#include <string.h>

	#ifdef __cplusplus
	extern "C" {
	#endif

	#define CAN_EX_ID (1 << 31)
	#define CAN_MAX_STD_ID (0x7FF)
	#define CAN_STD_ID_MASK CAN_MAX_STD_ID
	#define CAN_EXT_ID_MASK (0x1FFFFFFF)
	#define CAN_MAX_DLC (8)
	#define CAN_MAX_DLEN 8

	/* CAN_TX_* are the error flags from tx_callback and send.*/
	/** send successfully */
	#define CAN_TX_OK (0)
	/** general send error */
	#define CAN_TX_ERR (-2)
	/** bus arbitration lost during sending */
	#define CAN_TX_ARB_LOST (-3)
	/** controller is in bus off state */
	#define CAN_TX_BUS_OFF (-4)
	/** unexpected error */
	#define CAN_TX_UNKNOWN (-5)

	/** attach_* failed because there is no unused filter left*/
	#define CAN_NO_FREE_FILTER (-1)

	/** operation timed out*/
	#define CAN_TIMEOUT (-1)

	/**
	* @brief Statically define and initialize a can message queue.
	*
	* The message queue's ring buffer contains space for @a size messages.
	*
	* @param name Name of the message queue.
	* @param size Number of can messages.
	*/
	#define CAN_DEFINE_MSGQ(name, size) \
	K_MSGQ_DEFINE(name, sizeof(struct zcan_frame), size, 4)

	/**
	* @brief can_ide enum
	* Define if the message has a standard (11bit) or extended (29bit)
	* identifier
	*/
	enum can_ide {
	CAN_STANDARD_IDENTIFIER,
	CAN_EXTENDED_IDENTIFIER
	};

	/**
	* @brief can_rtr enum
	* Define if the message is a data or remote frame
	*/
	enum can_rtr {
	CAN_DATAFRAME,
	CAN_REMOTEREQUEST
	};

	/**
	* @brief can_mode enum
	* Defines the mode of the can controller
	*/
	enum can_mode {
	/Normal mode/
	CAN_NORMAL_MODE,
	/Controller is not allowed to send dominant bits/
	CAN_SILENT_MODE,
	/Controller is in loopback mode (receive own messages)/
	CAN_LOOPBACK_MODE,
	/Combination of loopback and silent/
	CAN_SILENT_LOOPBACK_MODE
	};

	/*
	* Controller Area Network Identifier structure for Linux compatibility.
	*
	* The fields in this type are:
	*
	* bit 0-28 : CAN identifier (11/29 bit)
	* bit 29 : error message frame flag (0 = data frame, 1 = error message)
	* bit 30 : remote transmission request flag (1 = rtr frame)
	* bit 31 : frame format flag (0 = standard 11 bit, 1 = extended 29 bit)
	*/
	typedef u32_t canid_t;

	/**
	* @brief CAN frame structure that is compatible with Linux. This is mainly
	* used by Socket CAN code.
	*
	* @details Used to pass CAN messages from userspace to the socket CAN and vice
	* versa.
	*/
	struct can_frame {
	/** 32 bit CAN_ID + EFF/RTR/ERR flags */
	canid_t can_id;

	/** The length of the message */
	u8_t can_dlc;

	/** @cond INTERNAL_HIDDEN */
	u8_t pad; /* padding */
	u8_t res0; /* reserved / padding */
	u8_t res1; /* reserved / padding */
	/** @endcond */

	/** The message data */
	u8_t data[CAN_MAX_DLEN];
	};

	/**
	* @brief CAN filter that is compatible with Linux. This is mainly used by
	* Socket CAN code.
	*
	* @details A filter matches, when "received_can_id & mask == can_id & mask"
	*/
	struct can_filter {
	canid_t can_id;
	canid_t can_mask;
	};

	/**
	* @brief CAN message structure
	*
	* Used to pass can messages from userspace to the driver and
	* from driver to userspace
	*
	*/
	struct zcan_frame {
	/** Indicates the identifier type (standard or extended)
	* use can_ide enum for assignment
	*/
	u32_t id_type : 1;
	/** Set the message to a transmission request instead of data frame
	* use can_rtr enum for assignment
	*/
	u32_t rtr : 1;
	/** Message identifier*/
	union {
	u32_t std_id : 11;
	u32_t ext_id : 29;
	};
	/** The length of the message (max. 8) in byte */
	u8_t dlc;
	/** The message data*/
	union {
	u8_t data[8];
	u32_t data_32[2];
	};
	} __packed;

	/**
	* @brief CAN filter structure
	*
	* Used to pass can identifier filter information to the driver.
	* rtr_mask and *_id_mask are used to mask bits of the rtr and id fields.
	* If the mask bit is 0, the value of the corresponding bit in the id or rtr
	* field don't care for the filter matching.
	*
	*/
	struct zcan_filter {
	/** Indicates the identifier type (standard or extended)
	* use can_ide enum for assignment
	*/
	u32_t id_type : 1;
	/** target state of the rtr bit */
	u32_t rtr : 1;
	/** target state of the identifier */
	union {
	u32_t std_id : 11;
	u32_t ext_id : 29;
	};
	/** rtr bit mask */
	u32_t rtr_mask : 1;
	/** identifier mask*/
	union {
	u32_t std_id_mask : 11;
	u32_t ext_id_mask : 29;
	};
	} __packed;

	/**
	* @typedef can_tx_callback_t
	* @brief Define the application callback handler function signature
	*
	* @param error_flags status of the performed send operation
	*/
	typedef void (*can_tx_callback_t)(u32_t error_flags);

	/**
	* @typedef can_rx_callback_t
	* @brief Define the application callback handler function signature
	* for receiving.
	*
	* @param received message
	*/
	typedef void (can_rx_callback_t)(struct zcan_frame msg);

	typedef int (can_configure_t)(struct device dev, enum can_mode mode,
	u32_t bitrate);

	typedef int (can_send_t)(struct device dev, const struct zcan_frame *msg,
	s32_t timeout, can_tx_callback_t callback_isr);


	typedef int (can_attach_msgq_t)(struct device dev, struct k_msgq *msg_q,
	const struct zcan_filter *filter);

	typedef int (can_attach_isr_t)(struct device dev, can_rx_callback_t isr,
	const struct zcan_filter *filter);

	typedef void (can_detach_t)(struct device dev, int filter_id);

	struct can_driver_api {
	can_configure_t configure;
	can_send_t send;
	can_attach_isr_t attach_isr;
	can_attach_msgq_t attach_msgq;
	can_detach_t detach;
	};

	/**
	* @brief Perform data transfer to CAN bus.
	*
	* This routine provides a generic interface to perform data transfer
	* to the can bus. Use can_write() for simple write.
	* *
	* @param dev Pointer to the device structure for the driver instance.
	* @param msg Message to transfer.
	* @param timeout Waiting for empty tx mailbox timeout in ms or K_FOREVER.
	* @param callback_isr Is called when message was sent or a transmission error
	* occurred. If NULL, this function is blocking until
	* message is sent. This must be NULL if called from user
	* mode.
	*
	* @retval 0 If successful.
	* @retval CAN_TX_* on failure.
	*/
	__syscall int can_send(struct device dev, const struct zcan_frame msg,
	s32_t timeout, can_tx_callback_t callback_isr);

	static inline int z_impl_can_send(struct device *dev,
	const struct zcan_frame *msg,
	s32_t timeout, can_tx_callback_t callback_isr)
	{
	const struct can_driver_api *api =
	(const struct can_driver_api *)dev->driver_api;

	return api->send(dev, msg, timeout, callback_isr);
	}

	/*
	* Derived can APIs -- all implemented in terms of can_send()
	*/

	/**
	* @brief Write a set amount of data to the can bus.
	*
	* This routine writes a set amount of data synchronously.
	*
	* @param dev Pointer to the device structure for the driver instance.
	* @param data Data to send.
	* @param length Number of bytes to write (max. 8).
	* @param id Identifier of the can message.
	* @param rtr Send remote transmission request or data frame
	* @param timeout Waiting for empty tx mailbox timeout in ms or K_FOREVER
	*
	* @retval 0 If successful.
	* @retval -EIO General input / output error.
	* @retval -EINVAL if length > 8.
	*/
	static inline int can_write(struct device dev, const u8_t data, u8_t length,
	u32_t id, enum can_rtr rtr, s32_t timeout)
	{
	struct zcan_frame msg;

	if (length > 8) {
	return -EINVAL;
	}

	if (id > CAN_MAX_STD_ID) {
	msg.id_type = CAN_EXTENDED_IDENTIFIER;
	msg.ext_id = id & CAN_EXT_ID_MASK;
	} else {
	msg.id_type = CAN_STANDARD_IDENTIFIER;
	msg.std_id = id;
	}

	msg.dlc = length;
	msg.rtr = rtr;
	memcpy(msg.data, data, length);

	return can_send(dev, &msg, timeout, NULL);
	}

	/**
	* @brief Attach a message queue to a single or group of identifiers.
	*
	* This routine attaches a message queue to identifiers specified by
	* a filter. Whenever the filter matches, the message is pushed to the queue
	* If a message passes more than one filter the priority of the match
	* is hardware dependent.
	* A message queue can be attached to more than one filter.
	* The message queue must me initialized before, and the caller must have
	* appropriate permissions on it.
	*
	* @param dev Pointer to the device structure for the driver instance.
	* @param msg_q Pointer to the already initialized message queue.
	* @param filter Pointer to a zcan_filter structure defining the id
	* filtering.
	*
	* @retval filter id on success.
	* @retval CAN_NO_FREE_FILTER if there is no filter left.
	*/
	__syscall int can_attach_msgq(struct device dev, struct k_msgq msg_q,
	const struct zcan_filter *filter);

	static inline int z_impl_can_attach_msgq(struct device *dev,
	struct k_msgq *msg_q,
	const struct zcan_filter *filter)
	{
	const struct can_driver_api *api =
	(const struct can_driver_api *)dev->driver_api;

	return api->attach_msgq(dev, msg_q, filter);
	}

	/**
	* @brief Attach an isr callback function to a single or group of identifiers.
	*
	* This routine attaches an isr callback to identifiers specified by
	* a filter. Whenever the filter matches, the callback function is called
	* with isr context.
	* If a message passes more than one filter the priority of the match
	* is hardware dependent.
	* A callback function can be attached to more than one filter.
	* *
	* @param dev Pointer to the device structure for the driver instance.
	* @param isr Callback function pointer.
	* @param filter Pointer to a zcan_filter structure defining the id
	* filtering.
	*
	* @retval filter id on success.
	* @retval CAN_NO_FREE_FILTER if there is no filter left.
	*/
	static inline int can_attach_isr(struct device *dev,
	can_rx_callback_t isr,
	const struct zcan_filter *filter)
	{
	const struct can_driver_api *api =
	(const struct can_driver_api *)dev->driver_api;

	return api->attach_isr(dev, isr, filter);
	}

	/**
	* @brief Detach an isr or message queue from the identifier filtering.
	*
	* This routine detaches an isr callback or message queue from the identifier
	* filtering.
	* *
	* @param dev Pointer to the device structure for the driver instance.
	* @param filter_id filter id returned by can_attach_isr or can_attach_msgq.
	*
	* @retval none
	*/
	__syscall void can_detach(struct device *dev, int filter_id);

	static inline void z_impl_can_detach(struct device *dev, int filter_id)
	{
	const struct can_driver_api *api =
	(const struct can_driver_api *)dev->driver_api;

	return api->detach(dev, filter_id);
	}

	/**
	* @brief Configure operation of a host controller.
	*
	* @param dev Pointer to the device structure for the driver instance.
	* @param mode Operation mode
	* @param bitrate bus-speed in Baud/s
	*
	* @retval 0 If successful.
	* @retval -EIO General input / output error, failed to configure device.
	*/
	__syscall int can_configure(struct device *dev, enum can_mode mode,
	u32_t bitrate);

	static inline int z_impl_can_configure(struct device *dev, enum can_mode mode,
	u32_t bitrate)
	{
	const struct can_driver_api *api =
	(const struct can_driver_api *)dev->driver_api;

	return api->configure(dev, mode, bitrate);
	}

	/**
	* @brief Converter that translates between can_frame and zcan_frame structs.
	*
	* @param frame Pointer to can_frame struct.
	* @param zframe Pointer to zcan_frame struct.
	*/
	static inline void can_copy_frame_to_zframe(const struct can_frame *frame,
	struct zcan_frame *zframe)
	{
	zframe->id_type = (frame->can_id & BIT(31)) >> 31;
	zframe->rtr = (frame->can_id & BIT(30)) >> 30;
	zframe->ext_id = frame->can_id & BIT_MASK(29);
	zframe->dlc = frame->can_dlc;
	memcpy(zframe->data, frame->data, sizeof(zframe->data));
	}

	/**
	* @brief Converter that translates between zcan_frame and can_frame structs.
	*
	* @param zframe Pointer to zcan_frame struct.
	* @param frame Pointer to can_frame struct.
	*/
	static inline void can_copy_zframe_to_frame(const struct zcan_frame *zframe,
	struct can_frame *frame)
	{
	frame->can_id = (zframe->id_type << 31) \| (zframe->rtr << 30) \|
	zframe->ext_id;
	frame->can_dlc = zframe->dlc;
	memcpy(frame->data, zframe->data, sizeof(frame->data));
	}

	/**
	* @brief Converter that translates between can_filter and zcan_frame_filter
	* structs.
	*
	* @param filter Pointer to can_filter struct.
	* @param zfilter Pointer to zcan_frame_filter struct.
	*/
	static inline
	void can_copy_filter_to_zfilter(const struct can_filter *filter,
	struct zcan_filter *zfilter)
	{
	zfilter->id_type = (filter->can_id & BIT(31)) >> 31;
	zfilter->rtr = (filter->can_id & BIT(30)) >> 30;
	zfilter->ext_id = filter->can_id & BIT_MASK(29);
	zfilter->rtr_mask = (filter->can_mask & BIT(30)) >> 30;
	zfilter->ext_id_mask = filter->can_mask & BIT_MASK(29);
	}

	/**
	* @brief Converter that translates between zcan_filter and can_filter
	* structs.
	*
	* @param zfilter Pointer to zcan_filter struct.
	* @param filter Pointer to can_filter struct.
	*/
	static inline
	void can_copy_zfilter_to_filter(const struct zcan_filter *zfilter,
	struct can_filter *filter)
	{
	filter->can_id = (zfilter->id_type << 31) \|
	(zfilter->rtr << 30) \| zfilter->ext_id;
	filter->can_mask = (zfilter->rtr_mask << 30) \|
	(zfilter->id_type << 31) \| zfilter->ext_id_mask;
	}

	#ifdef __cplusplus
	}
	#endif
	/**
	* @}
	*/
	#include <syscalls/can.h>

	#endif /* ZEPHYR_INCLUDE_CAN_H_ */