plat/imx/common/include/sci/sci_rpc.h - imx-atf - Git at Google

 /*
  * Copyright (C) 2016 Freescale Semiconductor, Inc.
  * Copyright 2017-2019 NXP
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */

 /*!
  * Header file for the RPC implementation.
  */

 #ifndef SC_RPC_H
 #define SC_RPC_H

 /* Includes */

 #include <sci/sci_types.h>
 #include <sci/sci_ipc.h>
 #include <stdbool.h>

 /* Defines */

 #define SC_RPC_VERSION          1U

 #define SC_RPC_MAX_MSG          8U

 #define RPC_VER(MESG)           ((MESG)->version)
 #define RPC_SIZE(MESG)          ((MESG)->size)
 #define RPC_SVC(MESG)           ((MESG)->svc)
 #define RPC_FUNC(MESG)          ((MESG)->func)
 #define RPC_R8(MESG)            ((MESG)->func)
 #define RPC_I32(MESG, IDX)      ((MESG)->DATA.i32[(IDX) / 4U])
 #define RPC_I16(MESG, IDX)      ((MESG)->DATA.i16[(IDX) / 2U])
 #define RPC_I8(MESG, IDX)       ((MESG)->DATA.i8[(IDX)])
 #define RPC_U32(MESG, IDX)      ((MESG)->DATA.u32[(IDX) / 4U])
 #define RPC_U16(MESG, IDX)      ((MESG)->DATA.u16[(IDX) / 2U])
 #define RPC_U8(MESG, IDX)       ((MESG)->DATA.u8[(IDX)])

 #define SC_RPC_SVC_UNKNOWN      0U
 #define SC_RPC_SVC_RETURN       1U
 #define SC_RPC_SVC_PM           2U
 #define SC_RPC_SVC_RM           3U
 #define SC_RPC_SVC_TIMER        5U
 #define SC_RPC_SVC_PAD          6U
 #define SC_RPC_SVC_MISC         7U
 #define SC_RPC_SVC_IRQ          8U
 #define SC_RPC_SVC_SECO         9U
 #define SC_RPC_SVC_ABORT        10U

 #define SC_RPC_ASYNC_STATE_RD_START      0U
 #define SC_RPC_ASYNC_STATE_RD_ACTIVE     1U
 #define SC_RPC_ASYNC_STATE_RD_DONE       2U
 #define SC_RPC_ASYNC_STATE_WR_START      3U
 #define SC_RPC_ASYNC_STATE_WR_ACTIVE     4U
 #define SC_RPC_ASYNC_STATE_WR_DONE       5U

 #define SC_RPC_MU_GIR_SVC       0x1U
 #define SC_RPC_MU_GIR_WAKE      0x2U
 #define SC_RPC_MU_GIR_BOOT      0x4U
 #define SC_RPC_MU_GIR_DBG       0x8U

 #define I8(X)       ((int8_t) (X))
 #define I16(X)      ((int16_t) (X))
 #define I32(X)      ((int32_t) (X))
 #define I64(X)      ((int64_t) (X))
 #define U8(X)       ((uint8_t) (X))
 #define U16(X)      ((uint16_t) (X))
 #define U32(X)      ((uint32_t) (X))
 #define U64(X)      ((uint64_t) (X))

 #define PTR_I8(X)   ((int8_t *) (X))
 #define PTR_I16(X)  ((int16_t *) (X))
 #define PTR_I32(X)  ((int32_t *) (X))
 #define PTR_I64(X)  ((int64_t *) (X))
 #define PTR_U8(X)   ((uint8_t *) (X))
 #define PTR_U16(X)  ((uint16_t *) (X))
 #define PTR_U32(X)  ((uint32_t *) (X))
 #define PTR_U64(X)  ((uint64_t *) (X))

 #define U2B(X)      (((X) != 0U) ? SC_TRUE : SC_FALSE)
 #define U2B32(X)    (((X) != 0UL) ? SC_TRUE : SC_FALSE)
 #define B2U8(X)     (((X) != SC_FALSE) ? U8(0x01U) : U8(0x00U))
 #define B2U16(X)    (((X) != SC_FALSE) ? U16(0x01U) : U16(0x00U))
 #define B2U32(X)    (((X) != SC_FALSE) ? U32(0x01U) : U32(0x00U))

 /* Types */

 typedef uint8_t sc_rpc_svc_t;

 typedef struct {
 	uint8_t version;
 	uint8_t size;
 	uint8_t svc;
 	uint8_t func;
 	union {
 		int32_t i32[(SC_RPC_MAX_MSG - 1U)];
 		int16_t i16[(SC_RPC_MAX_MSG - 1U) * 2U];
 		int8_t i8[(SC_RPC_MAX_MSG - 1U) * 4U];
 		uint32_t u32[(SC_RPC_MAX_MSG - 1U)];
 		uint16_t u16[(SC_RPC_MAX_MSG - 1U) * 2U];
 		uint8_t u8[(SC_RPC_MAX_MSG - 1U) * 4U];
 	} DATA;
 } sc_rpc_msg_t;

 typedef uint8_t sc_rpc_async_state_t;

 typedef struct {
 	sc_rpc_async_state_t state;
 	uint8_t wordIdx;
 	sc_rpc_msg_t msg;
 	uint32_t timeStamp;
 } sc_rpc_async_msg_t;

 /* Functions */

 /*!
  * This is an internal function to send an RPC message over an IPC
  * channel. It is called by client-side SCFW API function shims.
  *
  * @param[in]     ipc         IPC handle
  * @param[in,out] msg         handle to a message
  * @param[in]     no_resp     response flag
  *
  * If \a no_resp is SC_FALSE then this function waits for a response
  * and returns the result in \a msg.
  */
 void sc_call_rpc(sc_ipc_t ipc, sc_rpc_msg_t *msg, sc_bool_t no_resp);

 /*!
  * This is an internal function to dispath an RPC call that has
  * arrived via IPC over an MU. It is called by server-side SCFW.
  *
  * @param[in]     mu          MU message arrived on
  * @param[in,out] msg         handle to a message
  *
  * The function result is returned in \a msg.
  */
 void sc_rpc_dispatch(sc_rsrc_t mu, sc_rpc_msg_t *msg);

 /*!
  * This function translates an RPC message and forwards on to the
  * normal RPC API.  It is used only by hypervisors.
  *
  * @param[in]     ipc         IPC handle
  * @param[in,out] msg         handle to a message
  *
  * This function decodes a message, calls macros to translate the
  * resources, pads, addresses, partitions, memory regions, etc. and
  * then forwards on to the hypervisors SCFW API.Return results are
  * translated back abd placed back into the message to be returned
  * to the original API.
  */
 void sc_rpc_xlate(sc_ipc_t ipc, sc_rpc_msg_t *msg);

 #endif /* SC_RPC_H */
	/*
	* Copyright (C) 2016 Freescale Semiconductor, Inc.
	* Copyright 2017-2019 NXP
	*
	* SPDX-License-Identifier: BSD-3-Clause
	*/

	/*!
	* Header file for the RPC implementation.
	*/

	#ifndef SC_RPC_H
	#define SC_RPC_H

	/* Includes */

	#include <sci/sci_types.h>
	#include <sci/sci_ipc.h>
	#include <stdbool.h>

	/* Defines */

	#define SC_RPC_VERSION 1U

	#define SC_RPC_MAX_MSG 8U

	#define RPC_VER(MESG) ((MESG)->version)
	#define RPC_SIZE(MESG) ((MESG)->size)
	#define RPC_SVC(MESG) ((MESG)->svc)
	#define RPC_FUNC(MESG) ((MESG)->func)
	#define RPC_R8(MESG) ((MESG)->func)
	#define RPC_I32(MESG, IDX) ((MESG)->DATA.i32[(IDX) / 4U])
	#define RPC_I16(MESG, IDX) ((MESG)->DATA.i16[(IDX) / 2U])
	#define RPC_I8(MESG, IDX) ((MESG)->DATA.i8[(IDX)])
	#define RPC_U32(MESG, IDX) ((MESG)->DATA.u32[(IDX) / 4U])
	#define RPC_U16(MESG, IDX) ((MESG)->DATA.u16[(IDX) / 2U])
	#define RPC_U8(MESG, IDX) ((MESG)->DATA.u8[(IDX)])

	#define SC_RPC_SVC_UNKNOWN 0U
	#define SC_RPC_SVC_RETURN 1U
	#define SC_RPC_SVC_PM 2U
	#define SC_RPC_SVC_RM 3U
	#define SC_RPC_SVC_TIMER 5U
	#define SC_RPC_SVC_PAD 6U
	#define SC_RPC_SVC_MISC 7U
	#define SC_RPC_SVC_IRQ 8U
	#define SC_RPC_SVC_SECO 9U
	#define SC_RPC_SVC_ABORT 10U

	#define SC_RPC_ASYNC_STATE_RD_START 0U
	#define SC_RPC_ASYNC_STATE_RD_ACTIVE 1U
	#define SC_RPC_ASYNC_STATE_RD_DONE 2U
	#define SC_RPC_ASYNC_STATE_WR_START 3U
	#define SC_RPC_ASYNC_STATE_WR_ACTIVE 4U
	#define SC_RPC_ASYNC_STATE_WR_DONE 5U

	#define SC_RPC_MU_GIR_SVC 0x1U
	#define SC_RPC_MU_GIR_WAKE 0x2U
	#define SC_RPC_MU_GIR_BOOT 0x4U
	#define SC_RPC_MU_GIR_DBG 0x8U

	#define I8(X) ((int8_t) (X))
	#define I16(X) ((int16_t) (X))
	#define I32(X) ((int32_t) (X))
	#define I64(X) ((int64_t) (X))
	#define U8(X) ((uint8_t) (X))
	#define U16(X) ((uint16_t) (X))
	#define U32(X) ((uint32_t) (X))
	#define U64(X) ((uint64_t) (X))

	#define PTR_I8(X) ((int8_t *) (X))
	#define PTR_I16(X) ((int16_t *) (X))
	#define PTR_I32(X) ((int32_t *) (X))
	#define PTR_I64(X) ((int64_t *) (X))
	#define PTR_U8(X) ((uint8_t *) (X))
	#define PTR_U16(X) ((uint16_t *) (X))
	#define PTR_U32(X) ((uint32_t *) (X))
	#define PTR_U64(X) ((uint64_t *) (X))

	#define U2B(X) (((X) != 0U) ? SC_TRUE : SC_FALSE)
	#define U2B32(X) (((X) != 0UL) ? SC_TRUE : SC_FALSE)
	#define B2U8(X) (((X) != SC_FALSE) ? U8(0x01U) : U8(0x00U))
	#define B2U16(X) (((X) != SC_FALSE) ? U16(0x01U) : U16(0x00U))
	#define B2U32(X) (((X) != SC_FALSE) ? U32(0x01U) : U32(0x00U))

	/* Types */

	typedef uint8_t sc_rpc_svc_t;

	typedef struct {
	uint8_t version;
	uint8_t size;
	uint8_t svc;
	uint8_t func;
	union {
	int32_t i32[(SC_RPC_MAX_MSG - 1U)];
	int16_t i16[(SC_RPC_MAX_MSG - 1U) * 2U];
	int8_t i8[(SC_RPC_MAX_MSG - 1U) * 4U];
	uint32_t u32[(SC_RPC_MAX_MSG - 1U)];
	uint16_t u16[(SC_RPC_MAX_MSG - 1U) * 2U];
	uint8_t u8[(SC_RPC_MAX_MSG - 1U) * 4U];
	} DATA;
	} sc_rpc_msg_t;

	typedef uint8_t sc_rpc_async_state_t;

	typedef struct {
	sc_rpc_async_state_t state;
	uint8_t wordIdx;
	sc_rpc_msg_t msg;
	uint32_t timeStamp;
	} sc_rpc_async_msg_t;

	/* Functions */

	/*!
	* This is an internal function to send an RPC message over an IPC
	* channel. It is called by client-side SCFW API function shims.
	*
	* @param[in] ipc IPC handle
	* @param[in,out] msg handle to a message
	* @param[in] no_resp response flag
	*
	* If \a no_resp is SC_FALSE then this function waits for a response
	* and returns the result in \a msg.
	*/
	void sc_call_rpc(sc_ipc_t ipc, sc_rpc_msg_t *msg, sc_bool_t no_resp);

	/*!
	* This is an internal function to dispath an RPC call that has
	* arrived via IPC over an MU. It is called by server-side SCFW.
	*
	* @param[in] mu MU message arrived on
	* @param[in,out] msg handle to a message
	*
	* The function result is returned in \a msg.
	*/
	void sc_rpc_dispatch(sc_rsrc_t mu, sc_rpc_msg_t *msg);

	/*!
	* This function translates an RPC message and forwards on to the
	* normal RPC API. It is used only by hypervisors.
	*
	* @param[in] ipc IPC handle
	* @param[in,out] msg handle to a message
	*
	* This function decodes a message, calls macros to translate the
	* resources, pads, addresses, partitions, memory regions, etc. and
	* then forwards on to the hypervisors SCFW API.Return results are
	* translated back abd placed back into the message to be returned
	* to the original API.
	*/
	void sc_rpc_xlate(sc_ipc_t ipc, sc_rpc_msg_t *msg);

	#endif /* SC_RPC_H */