drivers/staging/vc04_services/interface/vchi/vchi.h - hafnium/third_party/linux - Git at Google

 /* SPDX-License-Identifier: GPL-2.0 OR BSD-3-Clause */
 /* Copyright (c) 2010-2012 Broadcom. All rights reserved. */

 #ifndef VCHI_H_
 #define VCHI_H_

 #include "interface/vchi/vchi_cfg.h"
 #include "interface/vchi/vchi_common.h"

 /******************************************************************************
  Global defs
  *****************************************************************************/

 #define VCHI_BULK_ROUND_UP(x)     ((((unsigned long)(x))+VCHI_BULK_ALIGN-1) & ~(VCHI_BULK_ALIGN-1))
 #define VCHI_BULK_ROUND_DOWN(x)   (((unsigned long)(x)) & ~(VCHI_BULK_ALIGN-1))
 #define VCHI_BULK_ALIGN_NBYTES(x) (VCHI_BULK_ALIGNED(x) ? 0 : (VCHI_BULK_ALIGN - ((unsigned long)(x) & (VCHI_BULK_ALIGN-1))))

 #ifdef USE_VCHIQ_ARM
 #define VCHI_BULK_ALIGNED(x)      1
 #else
 #define VCHI_BULK_ALIGNED(x)      (((unsigned long)(x) & (VCHI_BULK_ALIGN-1)) == 0)
 #endif

 struct vchi_version {
 	uint32_t version;
 	uint32_t version_min;
 };
 #define VCHI_VERSION(v_) { v_, v_ }
 #define VCHI_VERSION_EX(v_, m_) { v_, m_ }

 // Macros to manipulate 'FOURCC' values
 #define MAKE_FOURCC(x) ((int32_t)((x[0] << 24) | (x[1] << 16) | (x[2] << 8) | x[3]))

 // Opaque service information
 struct opaque_vchi_service_t;

 // Descriptor for a held message. Allocated by client, initialised by vchi_msg_hold,
 // vchi_msg_iter_hold or vchi_msg_iter_hold_next. Fields are for internal VCHI use only.
 struct vchi_held_msg {
 	struct opaque_vchi_service_t *service;
 	void *message;
 };

 // structure used to provide the information needed to open a server or a client
 struct service_creation {
 	struct vchi_version version;
 	int32_t service_id;
 	VCHI_CALLBACK_T callback;
 	void *callback_param;
 };

 // Opaque handle for a VCHI instance
 typedef struct opaque_vchi_instance_handle_t *VCHI_INSTANCE_T;

 // Opaque handle for a server or client
 typedef struct opaque_vchi_service_handle_t *VCHI_SERVICE_HANDLE_T;

 /******************************************************************************
  Global funcs - implementation is specific to which side you are on (local / remote)
  *****************************************************************************/

 #ifdef __cplusplus
 extern "C" {
 #endif

 // Routine used to initialise the vchi on both local + remote connections
 extern int32_t vchi_initialise(VCHI_INSTANCE_T *instance_handle);

 extern int32_t vchi_exit(void);

 extern int32_t vchi_connect(VCHI_INSTANCE_T instance_handle);

 //When this is called, ensure that all services have no data pending.
 //Bulk transfers can remain 'queued'
 extern int32_t vchi_disconnect(VCHI_INSTANCE_T instance_handle);

 // helper functions
 extern void *vchi_allocate_buffer(VCHI_SERVICE_HANDLE_T handle, uint32_t *length);
 extern void vchi_free_buffer(VCHI_SERVICE_HANDLE_T handle, void *address);
 extern uint32_t vchi_current_time(VCHI_INSTANCE_T instance_handle);

 /******************************************************************************
  Global service API
  *****************************************************************************/
 // Routine to destroy a service
 extern int32_t vchi_service_destroy(const VCHI_SERVICE_HANDLE_T handle);

 // Routine to open a named service
 extern int32_t vchi_service_open(VCHI_INSTANCE_T instance_handle,
 				 struct service_creation *setup,
 				 VCHI_SERVICE_HANDLE_T *handle);

 extern int32_t vchi_get_peer_version(const VCHI_SERVICE_HANDLE_T handle,
 				     short *peer_version);

 // Routine to close a named service
 extern int32_t vchi_service_close(const VCHI_SERVICE_HANDLE_T handle);

 // Routine to increment ref count on a named service
 extern int32_t vchi_service_use(const VCHI_SERVICE_HANDLE_T handle);

 // Routine to decrement ref count on a named service
 extern int32_t vchi_service_release(const VCHI_SERVICE_HANDLE_T handle);

 // Routine to set a control option for a named service
 extern int32_t vchi_service_set_option(const VCHI_SERVICE_HANDLE_T handle,
 					VCHI_SERVICE_OPTION_T option,
 					int value);

 /* Routine to send a message from kernel memory across a service */
 extern int
 vchi_queue_kernel_message(VCHI_SERVICE_HANDLE_T handle,
 			  void *data,
 			  unsigned int size);

 /* Routine to send a message from user memory across a service */
 extern int
 vchi_queue_user_message(VCHI_SERVICE_HANDLE_T handle,
 			void __user *data,
 			unsigned int size);

 // Routine to receive a msg from a service
 // Dequeue is equivalent to hold, copy into client buffer, release
 extern int32_t vchi_msg_dequeue(VCHI_SERVICE_HANDLE_T handle,
 				void *data,
 				uint32_t max_data_size_to_read,
 				uint32_t *actual_msg_size,
 				VCHI_FLAGS_T flags);

 // Routine to look at a message in place.
 // The message is not dequeued, so a subsequent call to peek or dequeue
 // will return the same message.
 extern int32_t vchi_msg_peek(VCHI_SERVICE_HANDLE_T handle,
 			     void **data,
 			     uint32_t *msg_size,
 			     VCHI_FLAGS_T flags);

 // Routine to remove a message after it has been read in place with peek
 // The first message on the queue is dequeued.
 extern int32_t vchi_msg_remove(VCHI_SERVICE_HANDLE_T handle);

 // Routine to look at a message in place.
 // The message is dequeued, so the caller is left holding it; the descriptor is
 // filled in and must be released when the user has finished with the message.
 extern int32_t vchi_msg_hold(VCHI_SERVICE_HANDLE_T handle,
 			     void **data,        // } may be NULL, as info can be
 			     uint32_t *msg_size, // } obtained from HELD_MSG_T
 			     VCHI_FLAGS_T flags,
 			     struct vchi_held_msg *message_descriptor);

 // Initialise an iterator to look through messages in place
 extern int32_t vchi_msg_look_ahead(VCHI_SERVICE_HANDLE_T handle,
 				   struct vchi_msg_iter *iter,
 				   VCHI_FLAGS_T flags);

 /******************************************************************************
  Global service support API - operations on held messages and message iterators
  *****************************************************************************/

 // Routine to get the address of a held message
 extern void *vchi_held_msg_ptr(const struct vchi_held_msg *message);

 // Routine to get the size of a held message
 extern int32_t vchi_held_msg_size(const struct vchi_held_msg *message);

 // Routine to get the transmit timestamp as written into the header by the peer
 extern uint32_t vchi_held_msg_tx_timestamp(const struct vchi_held_msg *message);

 // Routine to get the reception timestamp, written as we parsed the header
 extern uint32_t vchi_held_msg_rx_timestamp(const struct vchi_held_msg *message);

 // Routine to release a held message after it has been processed
 extern int32_t vchi_held_msg_release(struct vchi_held_msg *message);

 // Indicates whether the iterator has a next message.
 extern int32_t vchi_msg_iter_has_next(const struct vchi_msg_iter *iter);

 // Return the pointer and length for the next message and advance the iterator.
 extern int32_t vchi_msg_iter_next(struct vchi_msg_iter *iter,
 				  void **data,
 				  uint32_t *msg_size);

 // Remove the last message returned by vchi_msg_iter_next.
 // Can only be called once after each call to vchi_msg_iter_next.
 extern int32_t vchi_msg_iter_remove(struct vchi_msg_iter *iter);

 // Hold the last message returned by vchi_msg_iter_next.
 // Can only be called once after each call to vchi_msg_iter_next.
 extern int32_t vchi_msg_iter_hold(struct vchi_msg_iter *iter,
 				  struct vchi_held_msg *message);

 // Return information for the next message, and hold it, advancing the iterator.
 extern int32_t vchi_msg_iter_hold_next(struct vchi_msg_iter *iter,
 				       void **data,        // } may be NULL
 				       uint32_t *msg_size, // }
 				       struct vchi_held_msg *message);

 /******************************************************************************
  Global bulk API
  *****************************************************************************/

 // Routine to prepare interface for a transfer from the other side
 extern int32_t vchi_bulk_queue_receive(VCHI_SERVICE_HANDLE_T handle,
 				       void *data_dst,
 				       uint32_t data_size,
 				       VCHI_FLAGS_T flags,
 				       void *transfer_handle);

 // Prepare interface for a transfer from the other side into relocatable memory.
 int32_t vchi_bulk_queue_receive_reloc(const VCHI_SERVICE_HANDLE_T handle,
 				      uint32_t offset,
 				      uint32_t data_size,
 				      const VCHI_FLAGS_T flags,
 				      void * const bulk_handle);

 // Routine to queue up data ready for transfer to the other (once they have signalled they are ready)
 extern int32_t vchi_bulk_queue_transmit(VCHI_SERVICE_HANDLE_T handle,
 					const void *data_src,
 					uint32_t data_size,
 					VCHI_FLAGS_T flags,
 					void *transfer_handle);

 /******************************************************************************
  Configuration plumbing
  *****************************************************************************/

 #ifdef __cplusplus
 }
 #endif

 extern int32_t vchi_bulk_queue_transmit_reloc(VCHI_SERVICE_HANDLE_T handle,
 					      uint32_t offset,
 					      uint32_t data_size,
 					      VCHI_FLAGS_T flags,
 					      void *transfer_handle);
 #endif /* VCHI_H_ */

 /****************************** End of file **********************************/
	/* SPDX-License-Identifier: GPL-2.0 OR BSD-3-Clause */
	/* Copyright (c) 2010-2012 Broadcom. All rights reserved. */

	#ifndef VCHI_H_
	#define VCHI_H_

	#include "interface/vchi/vchi_cfg.h"
	#include "interface/vchi/vchi_common.h"

	/******************************************************************************
	Global defs
	*****************************************************************************/

	#define VCHI_BULK_ROUND_UP(x) ((((unsigned long)(x))+VCHI_BULK_ALIGN-1) & ~(VCHI_BULK_ALIGN-1))
	#define VCHI_BULK_ROUND_DOWN(x) (((unsigned long)(x)) & ~(VCHI_BULK_ALIGN-1))
	#define VCHI_BULK_ALIGN_NBYTES(x) (VCHI_BULK_ALIGNED(x) ? 0 : (VCHI_BULK_ALIGN - ((unsigned long)(x) & (VCHI_BULK_ALIGN-1))))

	#ifdef USE_VCHIQ_ARM
	#define VCHI_BULK_ALIGNED(x) 1
	#else
	#define VCHI_BULK_ALIGNED(x) (((unsigned long)(x) & (VCHI_BULK_ALIGN-1)) == 0)
	#endif

	struct vchi_version {
	uint32_t version;
	uint32_t version_min;
	};
	#define VCHI_VERSION(v_) { v_, v_ }
	#define VCHI_VERSION_EX(v_, m_) { v_, m_ }

	// Macros to manipulate 'FOURCC' values
	#define MAKE_FOURCC(x) ((int32_t)((x[0] << 24) \| (x[1] << 16) \| (x[2] << 8) \| x[3]))

	// Opaque service information
	struct opaque_vchi_service_t;

	// Descriptor for a held message. Allocated by client, initialised by vchi_msg_hold,
	// vchi_msg_iter_hold or vchi_msg_iter_hold_next. Fields are for internal VCHI use only.
	struct vchi_held_msg {
	struct opaque_vchi_service_t *service;
	void *message;
	};

	// structure used to provide the information needed to open a server or a client
	struct service_creation {
	struct vchi_version version;
	int32_t service_id;
	VCHI_CALLBACK_T callback;
	void *callback_param;
	};

	// Opaque handle for a VCHI instance
	typedef struct opaque_vchi_instance_handle_t *VCHI_INSTANCE_T;

	// Opaque handle for a server or client
	typedef struct opaque_vchi_service_handle_t *VCHI_SERVICE_HANDLE_T;

	/******************************************************************************
	Global funcs - implementation is specific to which side you are on (local / remote)
	*****************************************************************************/

	#ifdef __cplusplus
	extern "C" {
	#endif

	// Routine used to initialise the vchi on both local + remote connections
	extern int32_t vchi_initialise(VCHI_INSTANCE_T *instance_handle);

	extern int32_t vchi_exit(void);

	extern int32_t vchi_connect(VCHI_INSTANCE_T instance_handle);

	//When this is called, ensure that all services have no data pending.
	//Bulk transfers can remain 'queued'
	extern int32_t vchi_disconnect(VCHI_INSTANCE_T instance_handle);

	// helper functions
	extern void vchi_allocate_buffer(VCHI_SERVICE_HANDLE_T handle, uint32_t length);
	extern void vchi_free_buffer(VCHI_SERVICE_HANDLE_T handle, void *address);
	extern uint32_t vchi_current_time(VCHI_INSTANCE_T instance_handle);

	/******************************************************************************
	Global service API
	*****************************************************************************/
	// Routine to destroy a service
	extern int32_t vchi_service_destroy(const VCHI_SERVICE_HANDLE_T handle);

	// Routine to open a named service
	extern int32_t vchi_service_open(VCHI_INSTANCE_T instance_handle,
	struct service_creation *setup,
	VCHI_SERVICE_HANDLE_T *handle);

	extern int32_t vchi_get_peer_version(const VCHI_SERVICE_HANDLE_T handle,
	short *peer_version);

	// Routine to close a named service
	extern int32_t vchi_service_close(const VCHI_SERVICE_HANDLE_T handle);

	// Routine to increment ref count on a named service
	extern int32_t vchi_service_use(const VCHI_SERVICE_HANDLE_T handle);

	// Routine to decrement ref count on a named service
	extern int32_t vchi_service_release(const VCHI_SERVICE_HANDLE_T handle);

	// Routine to set a control option for a named service
	extern int32_t vchi_service_set_option(const VCHI_SERVICE_HANDLE_T handle,
	VCHI_SERVICE_OPTION_T option,
	int value);

	/* Routine to send a message from kernel memory across a service */
	extern int
	vchi_queue_kernel_message(VCHI_SERVICE_HANDLE_T handle,
	void *data,
	unsigned int size);

	/* Routine to send a message from user memory across a service */
	extern int
	vchi_queue_user_message(VCHI_SERVICE_HANDLE_T handle,
	void __user *data,
	unsigned int size);

	// Routine to receive a msg from a service
	// Dequeue is equivalent to hold, copy into client buffer, release
	extern int32_t vchi_msg_dequeue(VCHI_SERVICE_HANDLE_T handle,
	void *data,
	uint32_t max_data_size_to_read,
	uint32_t *actual_msg_size,
	VCHI_FLAGS_T flags);

	// Routine to look at a message in place.
	// The message is not dequeued, so a subsequent call to peek or dequeue
	// will return the same message.
	extern int32_t vchi_msg_peek(VCHI_SERVICE_HANDLE_T handle,
	void **data,
	uint32_t *msg_size,
	VCHI_FLAGS_T flags);

	// Routine to remove a message after it has been read in place with peek
	// The first message on the queue is dequeued.
	extern int32_t vchi_msg_remove(VCHI_SERVICE_HANDLE_T handle);

	// Routine to look at a message in place.
	// The message is dequeued, so the caller is left holding it; the descriptor is
	// filled in and must be released when the user has finished with the message.
	extern int32_t vchi_msg_hold(VCHI_SERVICE_HANDLE_T handle,
	void **data, // } may be NULL, as info can be
	uint32_t *msg_size, // } obtained from HELD_MSG_T
	VCHI_FLAGS_T flags,
	struct vchi_held_msg *message_descriptor);

	// Initialise an iterator to look through messages in place
	extern int32_t vchi_msg_look_ahead(VCHI_SERVICE_HANDLE_T handle,
	struct vchi_msg_iter *iter,
	VCHI_FLAGS_T flags);

	/******************************************************************************
	Global service support API - operations on held messages and message iterators
	*****************************************************************************/

	// Routine to get the address of a held message
	extern void vchi_held_msg_ptr(const struct vchi_held_msg message);

	// Routine to get the size of a held message
	extern int32_t vchi_held_msg_size(const struct vchi_held_msg *message);

	// Routine to get the transmit timestamp as written into the header by the peer
	extern uint32_t vchi_held_msg_tx_timestamp(const struct vchi_held_msg *message);

	// Routine to get the reception timestamp, written as we parsed the header
	extern uint32_t vchi_held_msg_rx_timestamp(const struct vchi_held_msg *message);

	// Routine to release a held message after it has been processed
	extern int32_t vchi_held_msg_release(struct vchi_held_msg *message);

	// Indicates whether the iterator has a next message.
	extern int32_t vchi_msg_iter_has_next(const struct vchi_msg_iter *iter);

	// Return the pointer and length for the next message and advance the iterator.
	extern int32_t vchi_msg_iter_next(struct vchi_msg_iter *iter,
	void **data,
	uint32_t *msg_size);

	// Remove the last message returned by vchi_msg_iter_next.
	// Can only be called once after each call to vchi_msg_iter_next.
	extern int32_t vchi_msg_iter_remove(struct vchi_msg_iter *iter);

	// Hold the last message returned by vchi_msg_iter_next.
	// Can only be called once after each call to vchi_msg_iter_next.
	extern int32_t vchi_msg_iter_hold(struct vchi_msg_iter *iter,
	struct vchi_held_msg *message);

	// Return information for the next message, and hold it, advancing the iterator.
	extern int32_t vchi_msg_iter_hold_next(struct vchi_msg_iter *iter,
	void **data, // } may be NULL
	uint32_t *msg_size, // }
	struct vchi_held_msg *message);

	/******************************************************************************
	Global bulk API
	*****************************************************************************/

	// Routine to prepare interface for a transfer from the other side
	extern int32_t vchi_bulk_queue_receive(VCHI_SERVICE_HANDLE_T handle,
	void *data_dst,
	uint32_t data_size,
	VCHI_FLAGS_T flags,
	void *transfer_handle);

	// Prepare interface for a transfer from the other side into relocatable memory.
	int32_t vchi_bulk_queue_receive_reloc(const VCHI_SERVICE_HANDLE_T handle,
	uint32_t offset,
	uint32_t data_size,
	const VCHI_FLAGS_T flags,
	void * const bulk_handle);

	// Routine to queue up data ready for transfer to the other (once they have signalled they are ready)
	extern int32_t vchi_bulk_queue_transmit(VCHI_SERVICE_HANDLE_T handle,
	const void *data_src,
	uint32_t data_size,
	VCHI_FLAGS_T flags,
	void *transfer_handle);

	/******************************************************************************
	Configuration plumbing
	*****************************************************************************/

	#ifdef __cplusplus
	}
	#endif

	extern int32_t vchi_bulk_queue_transmit_reloc(VCHI_SERVICE_HANDLE_T handle,
	uint32_t offset,
	uint32_t data_size,
	VCHI_FLAGS_T flags,
	void *transfer_handle);
	#endif /* VCHI_H_ */

	/**************************** End of file ********************************/