sound/soc/fsl/fsl_dsp_proxy.h - linux-imx - Git at Google

 /* SPDX-License-Identifier: (GPL-2.0+ OR MIT) */
 /*
  * DSP proxy header - commands/responses from DSP driver to DSP ramework
  *
  * Copyright 2018 NXP
  * Copyright (c) 2017 Cadence Design Systems, Inc.
  */

 #ifndef __FSL_DSP_PROXY_H
 #define __FSL_DSP_PROXY_H

 #include <linux/wait.h>
 #include <linux/device.h>
 #include <linux/workqueue.h>
 #include <linux/spinlock.h>
 #include <linux/compiler.h>
 #include <linux/dma-mapping.h>
 #include <linux/platform_data/dma-imx.h>
 #include <linux/mx8_mu.h>
 #include <linux/interrupt.h>

 #include "fsl_dsp_pool.h"
 #define XF_CFG_MESSAGE_POOL_SIZE        256

 struct xf_client;

 /*******************************************************************************
  * Local proxy data
  ******************************************************************************/

 struct xf_message;
 struct xf_handle;
 typedef void (*xf_response_cb)(struct xf_handle *h, struct xf_message *msg);

 /* ...execution message */
 struct xf_message {
 	/* ...pointer to next message in a list */
 	struct xf_message   *next;

 	/* ...session-id */
 	u32                 id;

 	/* ...operation code */
 	u32                 opcode;

 	/* ...length of data buffer */
 	u32                 length;

 	/* ...translated data pointer */
 	void               *buffer;

 	/* ...return message status */
 	u32                ret;
 };

 /* ...message queue */
 struct xf_msg_queue {
 	/* ...pointer to list head */
 	struct xf_message   *head;

 	/* ...pointer to list tail */
 	struct xf_message   *tail;
 };

 struct xf_proxy_message {
 	/* ...session ID */
 	u32 session_id;

 	/* ...proxy API command/response code */
 	u32 opcode;

 	/* ...length of attached buffer */
 	u32 length;

 	/* ...physical address of message buffer */
 	u32 address;

 	/* ...return message status */
 	u32 ret;
 };
 /**********************************************************************/

 enum icm_action_t {
 	ICM_CORE_READY = 1,
 	ICM_CORE_INIT,
 	ICM_CORE_EXIT,
 };

 /* ...adjust IPC client of message going from user-space */
 #define XF_MSG_AP_FROM_USER(id, client) (((id) & ~(0xF << 2)) | (client << 2))


 #define __XF_PORT_SPEC(core, id, port)  ((core) | ((id) << 2) | ((port) << 8))
 #define __XF_PORT_SPEC2(id, port)       ((id) | ((port) << 8))


 /* ...wipe out IPC client from message going to user-space */
 #define XF_MSG_AP_TO_USER(id)   ((id) & ~(0xF << 18))
 #define __XF_AP_PROXY(core)     ((core) | 0x8000)
 #define __XF_DSP_PROXY(core)    ((core) | 0x8000)

 /* ...message id contains source and destination ports specification */
 #define __XF_MSG_ID(src, dst)   (((src) & 0xFFFF) | (((dst) & 0xFFFF) << 16))
 #define XF_MSG_SRC(id)          (((id) >> 0) & 0xFFFF)
 #define XF_MSG_SRC_CORE(id)     (((id) >> 0) & 0x3)
 #define XF_MSG_SRC_CLIENT(id)   (((id) >> 2) & 0x3F)
 #define XF_MSG_DST_CLIENT(id)   (((id) >> 18) & 0x3F)

 /* ...special treatment of AP-proxy destination field */
 #define XF_AP_IPC_CLIENT(id)            (((id) >> 18) & 0xF)
 #define XF_AP_CLIENT(id)                (((id) >> 22) & 0x1FF)
 #define __XF_AP_PROXY(core)             ((core) | 0x8000)
 #define __XF_DSP_PROXY(core)            ((core) | 0x8000)
 #define __XF_AP_CLIENT(core, client)    ((core) | ((client) << 6) | 0x8000)

 /* ...opcode composition with command/response data tags */
 #define __XF_OPCODE(c, r, op)   (((c) << 31) | ((r) << 30) | ((op) & 0x3F))

 /* ...shared buffer allocation */
 #define XF_ALLOC                        __XF_OPCODE(0, 0, 4)

 /* ...shared buffer freeing */
 #define XF_FREE                         __XF_OPCODE(0, 0, 5)

 /* ...resume component operation */
 #define XF_RESUME                       __XF_OPCODE(0, 0, 14)

 /* ...resume component operation */
 #define XF_SUSPEND                      __XF_OPCODE(0, 0, 15)


 /*******************************************************************************
  * Ring buffer support
  ******************************************************************************/
 /* ...cache-line size on DSP */
 #define XF_PROXY_ALIGNMENT              64

 /* ...total length of shared memory queue (for commands and responses) */
 #define XF_PROXY_MESSAGE_QUEUE_LENGTH   (1 << 6)

 /* ...index mask */
 #define XF_PROXY_MESSAGE_QUEUE_MASK     0x3F

 /* ...ring-buffer index */
 #define __XF_QUEUE_IDX(idx, counter)    \
 		(((idx) & XF_PROXY_MESSAGE_QUEUE_MASK) | ((counter) << 16))

 /* ...retrieve ring-buffer index */
 #define XF_QUEUE_IDX(idx)               \
 		((idx) & XF_PROXY_MESSAGE_QUEUE_MASK)

 /* ...increment ring-buffer index */
 #define XF_QUEUE_ADVANCE_IDX(idx)       \
 		(((idx) + 0x10001) & (0xFFFF0000 | XF_PROXY_MESSAGE_QUEUE_MASK))

 /* ...test if ring buffer is empty */
 #define XF_QUEUE_EMPTY(read, write)     \
 		((read) == (write))

 /* ...test if ring buffer is full */
 #define XF_QUEUE_FULL(read, write)      \
 		((write) == (read) + (XF_PROXY_MESSAGE_QUEUE_LENGTH << 16))

 /* ...basic cache operations */
 #define XF_PROXY_INVALIDATE(addr, len)  { }

 #define XF_PROXY_FLUSH(addr, len)       { }

 /* ...data managed by host CPU (remote) - in case of shunt it is a IPC layer */
 struct xf_proxy_host_data {
 	/* ...command queue */
 	struct xf_proxy_message command[XF_PROXY_MESSAGE_QUEUE_LENGTH];

 	/* ...writing index into command queue */
 	u32                 cmd_write_idx;

 	/* ...reading index for response queue */
 	u32                 rsp_read_idx;

 	/* ...indicate command queue is valid or not */
 	u32                 cmd_invalid;
 };

 /* ...data managed by DSP (local) */
 struct xf_proxy_dsp_data {
 	/* ...response queue */
 	struct xf_proxy_message response[XF_PROXY_MESSAGE_QUEUE_LENGTH];

 	/* ...writing index into response queue */
 	u32                 rsp_write_idx;

 	/* ...reading index for command queue */
 	u32                 cmd_read_idx;

 	/* ...indicate response queue is valid or not */
 	u32                 rsp_invalid;
 };

 /* ...shared memory data */
 struct xf_shmem_data {
 	/* ...ingoing data (maintained by DSP (local side)) */
 	struct xf_proxy_host_data    local;

 	/* ...outgoing data (maintained by host CPU (remote side)) */
 	struct xf_proxy_dsp_data   remote;

 };

 /* ...shared memory data accessor */
 #define XF_SHMEM_DATA(proxy)                \
 		((proxy)->ipc.shmem)

 /* ...atomic reading */
 #define __XF_PROXY_READ_ATOMIC(var)         \
 	({ XF_PROXY_INVALIDATE(&(var), sizeof(var));  \
 	 *(u32 *)&(var); })

 /* ...atomic writing */
 #define __XF_PROXY_WRITE_ATOMIC(var, value) \
 	({*(u32 *)&(var) = (value);    \
 	 XF_PROXY_FLUSH(&(var), sizeof(var));   \
 	 (value); })

 /* ...accessors */
 #define XF_PROXY_READ(proxy, field)          \
 		__XF_PROXY_READ_##field(XF_SHMEM_DATA(proxy))

 #define XF_PROXY_WRITE(proxy, field, v)      \
 		__XF_PROXY_WRITE_##field(XF_SHMEM_DATA(proxy), (v))

 /* ...individual fields reading */
 #define __XF_PROXY_READ_cmd_write_idx(shmem)        \
 		__XF_PROXY_READ_ATOMIC(shmem->local.cmd_write_idx)

 #define __XF_PROXY_READ_cmd_read_idx(shmem)         \
 		shmem->remote.cmd_read_idx

 #define __XF_PROXY_READ_cmd_invalid(shmem)            \
 		__XF_PROXY_READ_ATOMIC(shmem->local.cmd_invalid)

 #define __XF_PROXY_READ_rsp_write_idx(shmem)        \
 		__XF_PROXY_READ_ATOMIC(shmem->remote.rsp_write_idx)

 #define __XF_PROXY_READ_rsp_read_idx(shmem)         \
 		shmem->local.rsp_read_idx

 #define __XF_PROXY_READ_rsp_invalid(shmem)            \
 		__XF_PROXY_READ_ATOMIC(shmem->remote.rsp_invalid)

 /* ...individual fields writings */
 #define __XF_PROXY_WRITE_cmd_write_idx(shmem, v)    \
 		__XF_PROXY_WRITE_ATOMIC(shmem->local.cmd_write_idx, v)

 #define __XF_PROXY_WRITE_cmd_read_idx(shmem, v)     \
 		__XF_PROXY_WRITE_ATOMIC(shmem->remote.cmd_read_idx, v)

 #define __XF_PROXY_WRITE_cmd_invalid(shmem, v)     \
 		__XF_PROXY_WRITE_ATOMIC(shmem->local.cmd_invalid, v)

 #define __XF_PROXY_WRITE_rsp_read_idx(shmem, v)     \
 		__XF_PROXY_WRITE_ATOMIC(shmem->local.rsp_read_idx, v)

 #define __XF_PROXY_WRITE_rsp_write_idx(shmem, v)    \
 		__XF_PROXY_WRITE_ATOMIC(shmem->remote.rsp_write_idx, v)

 #define __XF_PROXY_WRITE_rsp_invalid(shmem, v)     \
 		__XF_PROXY_WRITE_ATOMIC(shmem->remote.rsp_invalid, v)

 /* ...command buffer accessor */
 #define XF_PROXY_COMMAND(proxy, idx)                \
 		(&XF_SHMEM_DATA(proxy)->local.command[(idx)])

 /* ...response buffer accessor */
 #define XF_PROXY_RESPONSE(proxy, idx)               \
 		(&XF_SHMEM_DATA(proxy)->remote.response[(idx)])

 /*******************************************************************************
  * Local proxy data
  ******************************************************************************/

 struct xf_proxy_ipc_data {
 	/* ...shared memory data pointer */
 	struct xf_shmem_data __iomem     *shmem;

 	/* ...core identifier */
 	u32                     core;

 	/* ...IPC registers memory */
 	void __iomem           *regs;
 };

 /* ...proxy data */
 struct xf_proxy {
 	/* ...IPC layer data */
 	struct xf_proxy_ipc_data ipc;

 	/* ...shared memory status change processing item */
 	struct work_struct      work;

 	struct completion	cmd_complete;
 	int			is_ready;
 	int			is_active;

 	/* ...internal lock */
 	spinlock_t              lock;

 	/* ...busy queue (for clients waiting ON NOTIFIcation) */
 	wait_queue_head_t       busy;

 	/* ...waiting queue for synchronous proxy operations */
 	wait_queue_head_t       wait;

 	/* ...submitted commands queue */
 	struct xf_msg_queue     command;

 	/* ...pending responses queue */
 	struct xf_msg_queue     response;

 	/* ...global message pool */
 	struct xf_message       pool[XF_CFG_MESSAGE_POOL_SIZE];

 	/* ...pointer to first free message in the pool */
 	struct xf_message       *free;

         /* ...auxiliary buffer pool for clients */
 	struct xf_pool          *aux;
 };

 union icm_header_t {
 	struct {
 		u32 msg:6;
 		u32 sub_msg:6;      // sub_msg will have ICM_MSG
 		u32 rsvd:3;     /* reserved */
 		u32 intr:1;     /* intr = 1 when sending msg. */
 		u32 size:15;    /* =size in bytes (excluding header) */
 		u32 ack:1;      /* response message when ack=1 */
 	};
 	u32 allbits;
 };

 struct dsp_ext_msg {
 	u32	phys;
 	u32	size;
 };

 struct dsp_mem_msg {
 	u32 ext_msg_phys;
 	u32 ext_msg_size;
 	u32 scratch_phys;
 	u32 scratch_size;
 	u32 dsp_config_phys;
 	u32 dsp_config_size;
 	u32 dsp_board_type;
 };

 static inline void xf_lock_init(spinlock_t *lock)
 {
 	spin_lock_init(lock);
 }

 static inline void xf_lock(spinlock_t *lock)
 {
 	spin_lock(lock);
 }

 static inline void xf_unlock(spinlock_t *lock)
 {
 	spin_unlock(lock);
 }

 /* ...init proxy */
 int xf_proxy_init(struct xf_proxy *proxy);

 /* ...send message to proxy */
 int xf_cmd_send(struct xf_proxy *proxy,
 				u32 id,
 				u32 opcode,
 				void *buffer,
 				u32 length);

 /* ...get message from proxy */
 struct xf_message *xf_cmd_recv(struct xf_proxy *proxy,
 					wait_queue_head_t *wq,
 					struct xf_msg_queue *queue,
 					int wait);

 struct xf_message*
 xf_cmd_recv_timeout(struct xf_proxy *proxy, wait_queue_head_t *wq,
 		    struct xf_msg_queue *queue, int wait);

 struct xf_message*
 xf_cmd_send_recv(struct xf_proxy *proxy, u32 id, u32 opcode,
 		 void *buffer, u32 length);

 struct xf_message*
 xf_cmd_send_recv_wq(struct xf_proxy *proxy, u32 id, u32 opcode, void *buffer,
 		    u32 length, wait_queue_head_t *wq,
 		    struct xf_msg_queue *queue);

 struct xf_message*
 xf_cmd_send_recv_complete(struct xf_client *client, struct xf_proxy *proxy,
 			  u32 id, u32 opcode, void *buffer, u32 length,
 			  struct work_struct *work,
 			  struct completion *completion);

 /* ...mu interrupt handle */
 irqreturn_t fsl_dsp_mu_isr(int irq, void *dev_id);

 /* ...initialize client pending message queue */
 void xf_msg_queue_init(struct xf_msg_queue *queue);

 /* ...return current queue state */
 struct xf_message *xf_msg_queue_head(struct xf_msg_queue *queue);

 /* ...return the message back to a pool */
 void xf_msg_free(struct xf_proxy *proxy, struct xf_message *m);

 /* ...release all pending messages */
 void xf_msg_free_all(struct xf_proxy *proxy, struct xf_msg_queue *queue);

 /* ...wait mu interrupt */
 long icm_ack_wait(struct xf_proxy *proxy, u32 msg);

 /* ...shared memory translation - kernel virtual address to shared address */
 u32 xf_proxy_b2a(struct xf_proxy *proxy, void *b);

 /* ...shared memory translation - shared address to kernel virtual address */
 void *xf_proxy_a2b(struct xf_proxy *proxy, u32 address);

 int xf_cmd_send_suspend(struct xf_proxy *proxy);
 int xf_cmd_send_resume(struct xf_proxy *proxy);

 int xf_cmd_alloc(struct xf_proxy *proxy, void **buffer, u32 length);
 int xf_cmd_free(struct xf_proxy *proxy, void *buffer, u32 length);

 int xf_open(struct xf_client *client, struct xf_proxy *proxy,
 	    struct xf_handle *handle, const char *id, u32 core,
 	    xf_response_cb response);

 int xf_close(struct xf_client *client, struct xf_handle *handle);


 /*******************************************************************************
  * Opcode composition
  ******************************************************************************/

 /* ...opcode composition with command/response data tags */
 #define __XF_OPCODE(c, r, op)   (((c) << 31) | ((r) << 30) | ((op) & 0x3F))

 /* ...accessors */
 #define XF_OPCODE_CDATA(opcode)         ((opcode) & (1 << 31))
 #define XF_OPCODE_RDATA(opcode)         ((opcode) & (1 << 30))
 #define XF_OPCODE_TYPE(opcode)          ((opcode) & (0x3F))

 /*******************************************************************************
  * Opcode types
  ******************************************************************************/

 /* ...unregister client */
 #define XF_UNREGISTER                   __XF_OPCODE(0, 0, 0)

 /* ...register client at proxy */
 #define XF_REGISTER                     __XF_OPCODE(1, 0, 1)

 /* ...port routing command */
 #define XF_ROUTE                        __XF_OPCODE(1, 0, 2)

 /* ...port unrouting command */
 #define XF_UNROUTE                      __XF_OPCODE(1, 0, 3)

 /* ...shared buffer allocation */
 #define XF_ALLOC                        __XF_OPCODE(0, 0, 4)

 /* ...shared buffer freeing */
 #define XF_FREE                         __XF_OPCODE(0, 0, 5)

 /* ...set component parameters */
 #define XF_SET_PARAM                    __XF_OPCODE(1, 0, 6)

 /* ...get component parameters */
 #define XF_GET_PARAM                    __XF_OPCODE(1, 1, 7)

 /* ...input buffer reception */
 #define XF_EMPTY_THIS_BUFFER            __XF_OPCODE(1, 0, 8)

 /* ...output buffer reception */
 #define XF_FILL_THIS_BUFFER             __XF_OPCODE(0, 1, 9)

 /* ...flush specific port */
 #define XF_FLUSH                        __XF_OPCODE(0, 0, 10)

 /* ...start component operation */
 #define XF_START                        __XF_OPCODE(0, 0, 11)

 /* ...stop component operation */
 #define XF_STOP                         __XF_OPCODE(0, 0, 12)

 /* ...pause component operation */
 #define XF_PAUSE                        __XF_OPCODE(0, 0, 13)

 /* ...resume component operation */
 #define XF_RESUME                       __XF_OPCODE(0, 0, 14)

 /* ...resume component operation */
 #define XF_SUSPEND                      __XF_OPCODE(0, 0, 15)

 /* ...load lib for component operation */
 #define XF_LOAD_LIB                     __XF_OPCODE(0, 0, 16)

 /* ...unload lib for component operation */
 #define XF_UNLOAD_LIB                   __XF_OPCODE(0, 0, 17)

 /* ...component output eos operation */
 #define XF_OUTPUT_EOS                   __XF_OPCODE(0, 0, 18)

 /* ...total amount of supported decoder commands */
 #define __XF_OP_NUM                     19

 #endif
	/* SPDX-License-Identifier: (GPL-2.0+ OR MIT) */
	/*
	* DSP proxy header - commands/responses from DSP driver to DSP ramework
	*
	* Copyright 2018 NXP
	* Copyright (c) 2017 Cadence Design Systems, Inc.
	*/

	#ifndef __FSL_DSP_PROXY_H
	#define __FSL_DSP_PROXY_H

	#include <linux/wait.h>
	#include <linux/device.h>
	#include <linux/workqueue.h>
	#include <linux/spinlock.h>
	#include <linux/compiler.h>
	#include <linux/dma-mapping.h>
	#include <linux/platform_data/dma-imx.h>
	#include <linux/mx8_mu.h>
	#include <linux/interrupt.h>

	#include "fsl_dsp_pool.h"
	#define XF_CFG_MESSAGE_POOL_SIZE 256

	struct xf_client;

	/*******************************************************************************
	* Local proxy data
	******************************************************************************/

	struct xf_message;
	struct xf_handle;
	typedef void (xf_response_cb)(struct xf_handle h, struct xf_message *msg);

	/* ...execution message */
	struct xf_message {
	/* ...pointer to next message in a list */
	struct xf_message *next;

	/* ...session-id */
	u32 id;

	/* ...operation code */
	u32 opcode;

	/* ...length of data buffer */
	u32 length;

	/* ...translated data pointer */
	void *buffer;

	/* ...return message status */
	u32 ret;
	};

	/* ...message queue */
	struct xf_msg_queue {
	/* ...pointer to list head */
	struct xf_message *head;

	/* ...pointer to list tail */
	struct xf_message *tail;
	};

	struct xf_proxy_message {
	/* ...session ID */
	u32 session_id;

	/* ...proxy API command/response code */
	u32 opcode;

	/* ...length of attached buffer */
	u32 length;

	/* ...physical address of message buffer */
	u32 address;

	/* ...return message status */
	u32 ret;
	};
	/**********************************************************************/

	enum icm_action_t {
	ICM_CORE_READY = 1,
	ICM_CORE_INIT,
	ICM_CORE_EXIT,
	};

	/* ...adjust IPC client of message going from user-space */
	#define XF_MSG_AP_FROM_USER(id, client) (((id) & ~(0xF << 2)) \| (client << 2))


	#define __XF_PORT_SPEC(core, id, port) ((core) \| ((id) << 2) \| ((port) << 8))
	#define __XF_PORT_SPEC2(id, port) ((id) \| ((port) << 8))


	/* ...wipe out IPC client from message going to user-space */
	#define XF_MSG_AP_TO_USER(id) ((id) & ~(0xF << 18))
	#define __XF_AP_PROXY(core) ((core) \| 0x8000)
	#define __XF_DSP_PROXY(core) ((core) \| 0x8000)

	/* ...message id contains source and destination ports specification */
	#define __XF_MSG_ID(src, dst) (((src) & 0xFFFF) \| (((dst) & 0xFFFF) << 16))
	#define XF_MSG_SRC(id) (((id) >> 0) & 0xFFFF)
	#define XF_MSG_SRC_CORE(id) (((id) >> 0) & 0x3)
	#define XF_MSG_SRC_CLIENT(id) (((id) >> 2) & 0x3F)
	#define XF_MSG_DST_CLIENT(id) (((id) >> 18) & 0x3F)

	/* ...special treatment of AP-proxy destination field */
	#define XF_AP_IPC_CLIENT(id) (((id) >> 18) & 0xF)
	#define XF_AP_CLIENT(id) (((id) >> 22) & 0x1FF)
	#define __XF_AP_PROXY(core) ((core) \| 0x8000)
	#define __XF_DSP_PROXY(core) ((core) \| 0x8000)
	#define __XF_AP_CLIENT(core, client) ((core) \| ((client) << 6) \| 0x8000)

	/* ...opcode composition with command/response data tags */
	#define __XF_OPCODE(c, r, op) (((c) << 31) \| ((r) << 30) \| ((op) & 0x3F))

	/* ...shared buffer allocation */
	#define XF_ALLOC __XF_OPCODE(0, 0, 4)

	/* ...shared buffer freeing */
	#define XF_FREE __XF_OPCODE(0, 0, 5)

	/* ...resume component operation */
	#define XF_RESUME __XF_OPCODE(0, 0, 14)

	/* ...resume component operation */
	#define XF_SUSPEND __XF_OPCODE(0, 0, 15)


	/*******************************************************************************
	* Ring buffer support
	******************************************************************************/
	/* ...cache-line size on DSP */
	#define XF_PROXY_ALIGNMENT 64

	/* ...total length of shared memory queue (for commands and responses) */
	#define XF_PROXY_MESSAGE_QUEUE_LENGTH (1 << 6)

	/* ...index mask */
	#define XF_PROXY_MESSAGE_QUEUE_MASK 0x3F

	/* ...ring-buffer index */
	#define __XF_QUEUE_IDX(idx, counter) \
	(((idx) & XF_PROXY_MESSAGE_QUEUE_MASK) \| ((counter) << 16))

	/* ...retrieve ring-buffer index */
	#define XF_QUEUE_IDX(idx) \
	((idx) & XF_PROXY_MESSAGE_QUEUE_MASK)

	/* ...increment ring-buffer index */
	#define XF_QUEUE_ADVANCE_IDX(idx) \
	(((idx) + 0x10001) & (0xFFFF0000 \| XF_PROXY_MESSAGE_QUEUE_MASK))

	/* ...test if ring buffer is empty */
	#define XF_QUEUE_EMPTY(read, write) \
	((read) == (write))

	/* ...test if ring buffer is full */
	#define XF_QUEUE_FULL(read, write) \
	((write) == (read) + (XF_PROXY_MESSAGE_QUEUE_LENGTH << 16))

	/* ...basic cache operations */
	#define XF_PROXY_INVALIDATE(addr, len) { }

	#define XF_PROXY_FLUSH(addr, len) { }

	/* ...data managed by host CPU (remote) - in case of shunt it is a IPC layer */
	struct xf_proxy_host_data {
	/* ...command queue */
	struct xf_proxy_message command[XF_PROXY_MESSAGE_QUEUE_LENGTH];

	/* ...writing index into command queue */
	u32 cmd_write_idx;

	/* ...reading index for response queue */
	u32 rsp_read_idx;

	/* ...indicate command queue is valid or not */
	u32 cmd_invalid;
	};

	/* ...data managed by DSP (local) */
	struct xf_proxy_dsp_data {
	/* ...response queue */
	struct xf_proxy_message response[XF_PROXY_MESSAGE_QUEUE_LENGTH];

	/* ...writing index into response queue */
	u32 rsp_write_idx;

	/* ...reading index for command queue */
	u32 cmd_read_idx;

	/* ...indicate response queue is valid or not */
	u32 rsp_invalid;
	};

	/* ...shared memory data */
	struct xf_shmem_data {
	/* ...ingoing data (maintained by DSP (local side)) */
	struct xf_proxy_host_data local;

	/* ...outgoing data (maintained by host CPU (remote side)) */
	struct xf_proxy_dsp_data remote;

	};

	/* ...shared memory data accessor */
	#define XF_SHMEM_DATA(proxy) \
	((proxy)->ipc.shmem)

	/* ...atomic reading */
	#define __XF_PROXY_READ_ATOMIC(var) \
	({ XF_PROXY_INVALIDATE(&(var), sizeof(var)); \
	(u32 )&(var); })

	/* ...atomic writing */
	#define __XF_PROXY_WRITE_ATOMIC(var, value) \
	({(u32 )&(var) = (value); \
	XF_PROXY_FLUSH(&(var), sizeof(var)); \
	(value); })

	/* ...accessors */
	#define XF_PROXY_READ(proxy, field) \
	__XF_PROXY_READ_##field(XF_SHMEM_DATA(proxy))

	#define XF_PROXY_WRITE(proxy, field, v) \
	__XF_PROXY_WRITE_##field(XF_SHMEM_DATA(proxy), (v))

	/* ...individual fields reading */
	#define __XF_PROXY_READ_cmd_write_idx(shmem) \
	__XF_PROXY_READ_ATOMIC(shmem->local.cmd_write_idx)

	#define __XF_PROXY_READ_cmd_read_idx(shmem) \
	shmem->remote.cmd_read_idx

	#define __XF_PROXY_READ_cmd_invalid(shmem) \
	__XF_PROXY_READ_ATOMIC(shmem->local.cmd_invalid)

	#define __XF_PROXY_READ_rsp_write_idx(shmem) \
	__XF_PROXY_READ_ATOMIC(shmem->remote.rsp_write_idx)

	#define __XF_PROXY_READ_rsp_read_idx(shmem) \
	shmem->local.rsp_read_idx

	#define __XF_PROXY_READ_rsp_invalid(shmem) \
	__XF_PROXY_READ_ATOMIC(shmem->remote.rsp_invalid)

	/* ...individual fields writings */
	#define __XF_PROXY_WRITE_cmd_write_idx(shmem, v) \
	__XF_PROXY_WRITE_ATOMIC(shmem->local.cmd_write_idx, v)

	#define __XF_PROXY_WRITE_cmd_read_idx(shmem, v) \
	__XF_PROXY_WRITE_ATOMIC(shmem->remote.cmd_read_idx, v)

	#define __XF_PROXY_WRITE_cmd_invalid(shmem, v) \
	__XF_PROXY_WRITE_ATOMIC(shmem->local.cmd_invalid, v)

	#define __XF_PROXY_WRITE_rsp_read_idx(shmem, v) \
	__XF_PROXY_WRITE_ATOMIC(shmem->local.rsp_read_idx, v)

	#define __XF_PROXY_WRITE_rsp_write_idx(shmem, v) \
	__XF_PROXY_WRITE_ATOMIC(shmem->remote.rsp_write_idx, v)

	#define __XF_PROXY_WRITE_rsp_invalid(shmem, v) \
	__XF_PROXY_WRITE_ATOMIC(shmem->remote.rsp_invalid, v)

	/* ...command buffer accessor */
	#define XF_PROXY_COMMAND(proxy, idx) \
	(&XF_SHMEM_DATA(proxy)->local.command[(idx)])

	/* ...response buffer accessor */
	#define XF_PROXY_RESPONSE(proxy, idx) \
	(&XF_SHMEM_DATA(proxy)->remote.response[(idx)])

	/*******************************************************************************
	* Local proxy data
	******************************************************************************/

	struct xf_proxy_ipc_data {
	/* ...shared memory data pointer */
	struct xf_shmem_data __iomem *shmem;

	/* ...core identifier */
	u32 core;

	/* ...IPC registers memory */
	void __iomem *regs;
	};

	/* ...proxy data */
	struct xf_proxy {
	/* ...IPC layer data */
	struct xf_proxy_ipc_data ipc;

	/* ...shared memory status change processing item */
	struct work_struct work;

	struct completion cmd_complete;
	int is_ready;
	int is_active;

	/* ...internal lock */
	spinlock_t lock;

	/* ...busy queue (for clients waiting ON NOTIFIcation) */
	wait_queue_head_t busy;

	/* ...waiting queue for synchronous proxy operations */
	wait_queue_head_t wait;

	/* ...submitted commands queue */
	struct xf_msg_queue command;

	/* ...pending responses queue */
	struct xf_msg_queue response;

	/* ...global message pool */
	struct xf_message pool[XF_CFG_MESSAGE_POOL_SIZE];

	/* ...pointer to first free message in the pool */
	struct xf_message *free;

	/* ...auxiliary buffer pool for clients */
	struct xf_pool *aux;
	};

	union icm_header_t {
	struct {
	u32 msg:6;
	u32 sub_msg:6; // sub_msg will have ICM_MSG
	u32 rsvd:3; /* reserved */
	u32 intr:1; /* intr = 1 when sending msg. */
	u32 size:15; /* =size in bytes (excluding header) */
	u32 ack:1; /* response message when ack=1 */
	};
	u32 allbits;
	};

	struct dsp_ext_msg {
	u32 phys;
	u32 size;
	};

	struct dsp_mem_msg {
	u32 ext_msg_phys;
	u32 ext_msg_size;
	u32 scratch_phys;
	u32 scratch_size;
	u32 dsp_config_phys;
	u32 dsp_config_size;
	u32 dsp_board_type;
	};

	static inline void xf_lock_init(spinlock_t *lock)
	{
	spin_lock_init(lock);
	}

	static inline void xf_lock(spinlock_t *lock)
	{
	spin_lock(lock);
	}

	static inline void xf_unlock(spinlock_t *lock)
	{
	spin_unlock(lock);
	}

	/* ...init proxy */
	int xf_proxy_init(struct xf_proxy *proxy);

	/* ...send message to proxy */
	int xf_cmd_send(struct xf_proxy *proxy,
	u32 id,
	u32 opcode,
	void *buffer,
	u32 length);

	/* ...get message from proxy */
	struct xf_message xf_cmd_recv(struct xf_proxy proxy,
	wait_queue_head_t *wq,
	struct xf_msg_queue *queue,
	int wait);

	struct xf_message*
	xf_cmd_recv_timeout(struct xf_proxy proxy, wait_queue_head_t wq,
	struct xf_msg_queue *queue, int wait);

	struct xf_message*
	xf_cmd_send_recv(struct xf_proxy *proxy, u32 id, u32 opcode,
	void *buffer, u32 length);

	struct xf_message*
	xf_cmd_send_recv_wq(struct xf_proxy proxy, u32 id, u32 opcode, void buffer,
	u32 length, wait_queue_head_t *wq,
	struct xf_msg_queue *queue);

	struct xf_message*
	xf_cmd_send_recv_complete(struct xf_client client, struct xf_proxy proxy,
	u32 id, u32 opcode, void *buffer, u32 length,
	struct work_struct *work,
	struct completion *completion);

	/* ...mu interrupt handle */
	irqreturn_t fsl_dsp_mu_isr(int irq, void *dev_id);

	/* ...initialize client pending message queue */
	void xf_msg_queue_init(struct xf_msg_queue *queue);

	/* ...return current queue state */
	struct xf_message xf_msg_queue_head(struct xf_msg_queue queue);

	/* ...return the message back to a pool */
	void xf_msg_free(struct xf_proxy proxy, struct xf_message m);

	/* ...release all pending messages */
	void xf_msg_free_all(struct xf_proxy proxy, struct xf_msg_queue queue);

	/* ...wait mu interrupt */
	long icm_ack_wait(struct xf_proxy *proxy, u32 msg);

	/* ...shared memory translation - kernel virtual address to shared address */
	u32 xf_proxy_b2a(struct xf_proxy proxy, void b);

	/* ...shared memory translation - shared address to kernel virtual address */
	void xf_proxy_a2b(struct xf_proxy proxy, u32 address);

	int xf_cmd_send_suspend(struct xf_proxy *proxy);
	int xf_cmd_send_resume(struct xf_proxy *proxy);

	int xf_cmd_alloc(struct xf_proxy proxy, void *buffer, u32 length);
	int xf_cmd_free(struct xf_proxy proxy, void buffer, u32 length);

	int xf_open(struct xf_client client, struct xf_proxy proxy,
	struct xf_handle handle, const char id, u32 core,
	xf_response_cb response);

	int xf_close(struct xf_client client, struct xf_handle handle);



	/*******************************************************************************
	* Opcode composition
	******************************************************************************/

	/* ...opcode composition with command/response data tags */
	#define __XF_OPCODE(c, r, op) (((c) << 31) \| ((r) << 30) \| ((op) & 0x3F))

	/* ...accessors */
	#define XF_OPCODE_CDATA(opcode) ((opcode) & (1 << 31))
	#define XF_OPCODE_RDATA(opcode) ((opcode) & (1 << 30))
	#define XF_OPCODE_TYPE(opcode) ((opcode) & (0x3F))

	/*******************************************************************************
	* Opcode types
	******************************************************************************/

	/* ...unregister client */
	#define XF_UNREGISTER __XF_OPCODE(0, 0, 0)

	/* ...register client at proxy */
	#define XF_REGISTER __XF_OPCODE(1, 0, 1)

	/* ...port routing command */
	#define XF_ROUTE __XF_OPCODE(1, 0, 2)

	/* ...port unrouting command */
	#define XF_UNROUTE __XF_OPCODE(1, 0, 3)

	/* ...shared buffer allocation */
	#define XF_ALLOC __XF_OPCODE(0, 0, 4)

	/* ...shared buffer freeing */
	#define XF_FREE __XF_OPCODE(0, 0, 5)

	/* ...set component parameters */
	#define XF_SET_PARAM __XF_OPCODE(1, 0, 6)

	/* ...get component parameters */
	#define XF_GET_PARAM __XF_OPCODE(1, 1, 7)

	/* ...input buffer reception */
	#define XF_EMPTY_THIS_BUFFER __XF_OPCODE(1, 0, 8)

	/* ...output buffer reception */
	#define XF_FILL_THIS_BUFFER __XF_OPCODE(0, 1, 9)

	/* ...flush specific port */
	#define XF_FLUSH __XF_OPCODE(0, 0, 10)

	/* ...start component operation */
	#define XF_START __XF_OPCODE(0, 0, 11)

	/* ...stop component operation */
	#define XF_STOP __XF_OPCODE(0, 0, 12)

	/* ...pause component operation */
	#define XF_PAUSE __XF_OPCODE(0, 0, 13)

	/* ...resume component operation */
	#define XF_RESUME __XF_OPCODE(0, 0, 14)

	/* ...resume component operation */
	#define XF_SUSPEND __XF_OPCODE(0, 0, 15)

	/* ...load lib for component operation */
	#define XF_LOAD_LIB __XF_OPCODE(0, 0, 16)

	/* ...unload lib for component operation */
	#define XF_UNLOAD_LIB __XF_OPCODE(0, 0, 17)

	/* ...component output eos operation */
	#define XF_OUTPUT_EOS __XF_OPCODE(0, 0, 18)

	/* ...total amount of supported decoder commands */
	#define __XF_OP_NUM 19

	#endif