drivers/net/ethernet/netronome/nfp/nfpcore/nfp_cpp.h - hafnium/third_party/linux - Git at Google

 /* SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause) */
 /* Copyright (C) 2015-2018 Netronome Systems, Inc. */

 /*
  * nfp_cpp.h
  * Interface for low-level NFP CPP access.
  * Authors: Jason McMullan <jason.mcmullan@netronome.com>
  *          Rolf Neugebauer <rolf.neugebauer@netronome.com>
  */
 #ifndef __NFP_CPP_H__
 #define __NFP_CPP_H__

 #include <linux/ctype.h>
 #include <linux/types.h>
 #include <linux/sizes.h>

 #ifndef NFP_SUBSYS
 #define NFP_SUBSYS "nfp"
 #endif

 #define nfp_err(cpp, fmt, args...) \
 	dev_err(nfp_cpp_device(cpp)->parent, NFP_SUBSYS ": " fmt, ## args)
 #define nfp_warn(cpp, fmt, args...) \
 	dev_warn(nfp_cpp_device(cpp)->parent, NFP_SUBSYS ": " fmt, ## args)
 #define nfp_info(cpp, fmt, args...) \
 	dev_info(nfp_cpp_device(cpp)->parent, NFP_SUBSYS ": " fmt, ## args)
 #define nfp_dbg(cpp, fmt, args...) \
 	dev_dbg(nfp_cpp_device(cpp)->parent, NFP_SUBSYS ": " fmt, ## args)
 #define nfp_printk(level, cpp, fmt, args...) \
 	dev_printk(level, nfp_cpp_device(cpp)->parent,	\
 		   NFP_SUBSYS ": " fmt,	## args)

 #define PCI_64BIT_BAR_COUNT             3

 /* NFP hardware vendor/device ids.
  */
 #define PCI_DEVICE_ID_NETRONOME_NFP3800	0x3800

 #define NFP_CPP_NUM_TARGETS             16
 /* Max size of area it should be safe to request */
 #define NFP_CPP_SAFE_AREA_SIZE		SZ_2M

 /* NFP_MUTEX_WAIT_* are timeouts in seconds when waiting for a mutex */
 #define NFP_MUTEX_WAIT_FIRST_WARN	15
 #define NFP_MUTEX_WAIT_NEXT_WARN	5
 #define NFP_MUTEX_WAIT_ERROR		60

 struct device;

 struct nfp_cpp_area;
 struct nfp_cpp;
 struct resource;

 /* Wildcard indicating a CPP read or write action
  *
  * The action used will be either read or write depending on whether a
  * read or write instruction/call is performed on the NFP_CPP_ID.  It
  * is recomended that the RW action is used even if all actions to be
  * performed on a NFP_CPP_ID are known to be only reads or writes.
  * Doing so will in many cases save NFP CPP internal software
  * resources.
  */
 #define NFP_CPP_ACTION_RW               32

 #define NFP_CPP_TARGET_ID_MASK          0x1f

 #define NFP_CPP_ATOMIC_RD(target, island) \
 	NFP_CPP_ISLAND_ID((target), 3, 0, (island))
 #define NFP_CPP_ATOMIC_WR(target, island) \
 	NFP_CPP_ISLAND_ID((target), 4, 0, (island))

 /**
  * NFP_CPP_ID() - pack target, token, and action into a CPP ID.
  * @target:     NFP CPP target id
  * @action:     NFP CPP action id
  * @token:      NFP CPP token id
  *
  * Create a 32-bit CPP identifier representing the access to be made.
  * These identifiers are used as parameters to other NFP CPP
  * functions.  Some CPP devices may allow wildcard identifiers to be
  * specified.
  *
  * Return:      NFP CPP ID
  */
 #define NFP_CPP_ID(target, action, token)			 \
 	((((target) & 0x7f) << 24) | (((token)  & 0xff) << 16) | \
 	 (((action) & 0xff) <<  8))

 /**
  * NFP_CPP_ISLAND_ID() - pack target, token, action, and island into a CPP ID.
  * @target:     NFP CPP target id
  * @action:     NFP CPP action id
  * @token:      NFP CPP token id
  * @island:     NFP CPP island id
  *
  * Create a 32-bit CPP identifier representing the access to be made.
  * These identifiers are used as parameters to other NFP CPP
  * functions.  Some CPP devices may allow wildcard identifiers to be
  * specified.
  *
  * Return:      NFP CPP ID
  */
 #define NFP_CPP_ISLAND_ID(target, action, token, island)	 \
 	((((target) & 0x7f) << 24) | (((token)  & 0xff) << 16) | \
 	 (((action) & 0xff) <<  8) | (((island) & 0xff) << 0))

 /**
  * NFP_CPP_ID_TARGET_of() - Return the NFP CPP target of a NFP CPP ID
  * @id:         NFP CPP ID
  *
  * Return:      NFP CPP target
  */
 static inline u8 NFP_CPP_ID_TARGET_of(u32 id)
 {
 	return (id >> 24) & NFP_CPP_TARGET_ID_MASK;
 }

 /**
  * NFP_CPP_ID_TOKEN_of() - Return the NFP CPP token of a NFP CPP ID
  * @id:         NFP CPP ID
  * Return:      NFP CPP token
  */
 static inline u8 NFP_CPP_ID_TOKEN_of(u32 id)
 {
 	return (id >> 16) & 0xff;
 }

 /**
  * NFP_CPP_ID_ACTION_of() - Return the NFP CPP action of a NFP CPP ID
  * @id:         NFP CPP ID
  *
  * Return:      NFP CPP action
  */
 static inline u8 NFP_CPP_ID_ACTION_of(u32 id)
 {
 	return (id >> 8) & 0xff;
 }

 /**
  * NFP_CPP_ID_ISLAND_of() - Return the NFP CPP island of a NFP CPP ID
  * @id: NFP CPP ID
  *
  * Return:      NFP CPP island
  */
 static inline u8 NFP_CPP_ID_ISLAND_of(u32 id)
 {
 	return (id >> 0) & 0xff;
 }

 /* NFP Interface types - logical interface for this CPP connection
  * 4 bits are reserved for interface type.
  */
 #define NFP_CPP_INTERFACE_TYPE_INVALID      0x0
 #define NFP_CPP_INTERFACE_TYPE_PCI          0x1
 #define NFP_CPP_INTERFACE_TYPE_ARM          0x2
 #define NFP_CPP_INTERFACE_TYPE_RPC          0x3
 #define NFP_CPP_INTERFACE_TYPE_ILA          0x4

 /**
  * NFP_CPP_INTERFACE() - Construct a 16-bit NFP Interface ID
  * @type:       NFP Interface Type
  * @unit:       Unit identifier for the interface type
  * @channel:    Channel identifier for the interface unit
  *
  * Interface IDs consists of 4 bits of interface type,
  * 4 bits of unit identifier, and 8 bits of channel identifier.
  *
  * The NFP Interface ID is used in the implementation of
  * NFP CPP API mutexes, which use the MU Atomic CompareAndWrite
  * operation - hence the limit to 16 bits to be able to
  * use the NFP Interface ID as a lock owner.
  *
  * Return:      Interface ID
  */
 #define NFP_CPP_INTERFACE(type, unit, channel)	\
 	((((type) & 0xf) << 12) |		\
 	 (((unit) & 0xf) <<  8) |		\
 	 (((channel) & 0xff) << 0))

 /**
  * NFP_CPP_INTERFACE_TYPE_of() - Get the interface type
  * @interface:  NFP Interface ID
  * Return:      NFP Interface ID's type
  */
 #define NFP_CPP_INTERFACE_TYPE_of(interface)   (((interface) >> 12) & 0xf)

 /**
  * NFP_CPP_INTERFACE_UNIT_of() - Get the interface unit
  * @interface:  NFP Interface ID
  * Return:      NFP Interface ID's unit
  */
 #define NFP_CPP_INTERFACE_UNIT_of(interface)   (((interface) >>  8) & 0xf)

 /**
  * NFP_CPP_INTERFACE_CHANNEL_of() - Get the interface channel
  * @interface:  NFP Interface ID
  * Return:      NFP Interface ID's channel
  */
 #define NFP_CPP_INTERFACE_CHANNEL_of(interface)   (((interface) >>  0) & 0xff)

 /* Implemented in nfp_cppcore.c */
 void nfp_cpp_free(struct nfp_cpp *cpp);
 u32 nfp_cpp_model(struct nfp_cpp *cpp);
 u16 nfp_cpp_interface(struct nfp_cpp *cpp);
 int nfp_cpp_serial(struct nfp_cpp *cpp, const u8 **serial);
 unsigned int nfp_cpp_mu_locality_lsb(struct nfp_cpp *cpp);

 struct nfp_cpp_area *nfp_cpp_area_alloc_with_name(struct nfp_cpp *cpp,
 						  u32 cpp_id,
 						  const char *name,
 						  unsigned long long address,
 						  unsigned long size);
 struct nfp_cpp_area *nfp_cpp_area_alloc(struct nfp_cpp *cpp, u32 cpp_id,
 					unsigned long long address,
 					unsigned long size);
 struct nfp_cpp_area *
 nfp_cpp_area_alloc_acquire(struct nfp_cpp *cpp, const char *name, u32 cpp_id,
 			   unsigned long long address, unsigned long size);
 void nfp_cpp_area_free(struct nfp_cpp_area *area);
 int nfp_cpp_area_acquire(struct nfp_cpp_area *area);
 int nfp_cpp_area_acquire_nonblocking(struct nfp_cpp_area *area);
 void nfp_cpp_area_release(struct nfp_cpp_area *area);
 void nfp_cpp_area_release_free(struct nfp_cpp_area *area);
 int nfp_cpp_area_read(struct nfp_cpp_area *area, unsigned long offset,
 		      void *buffer, size_t length);
 int nfp_cpp_area_write(struct nfp_cpp_area *area, unsigned long offset,
 		       const void *buffer, size_t length);
 size_t nfp_cpp_area_size(struct nfp_cpp_area *area);
 const char *nfp_cpp_area_name(struct nfp_cpp_area *cpp_area);
 void *nfp_cpp_area_priv(struct nfp_cpp_area *cpp_area);
 struct nfp_cpp *nfp_cpp_area_cpp(struct nfp_cpp_area *cpp_area);
 struct resource *nfp_cpp_area_resource(struct nfp_cpp_area *area);
 phys_addr_t nfp_cpp_area_phys(struct nfp_cpp_area *area);
 void __iomem *nfp_cpp_area_iomem(struct nfp_cpp_area *area);

 int nfp_cpp_area_readl(struct nfp_cpp_area *area, unsigned long offset,
 		       u32 *value);
 int nfp_cpp_area_writel(struct nfp_cpp_area *area, unsigned long offset,
 			u32 value);
 int nfp_cpp_area_readq(struct nfp_cpp_area *area, unsigned long offset,
 		       u64 *value);
 int nfp_cpp_area_writeq(struct nfp_cpp_area *area, unsigned long offset,
 			u64 value);
 int nfp_cpp_area_fill(struct nfp_cpp_area *area, unsigned long offset,
 		      u32 value, size_t length);

 int nfp_xpb_readl(struct nfp_cpp *cpp, u32 xpb_tgt, u32 *value);
 int nfp_xpb_writel(struct nfp_cpp *cpp, u32 xpb_tgt, u32 value);
 int nfp_xpb_writelm(struct nfp_cpp *cpp, u32 xpb_tgt, u32 mask, u32 value);

 /* Implemented in nfp_cpplib.c */
 int nfp_cpp_read(struct nfp_cpp *cpp, u32 cpp_id,
 		 unsigned long long address, void *kernel_vaddr, size_t length);
 int nfp_cpp_write(struct nfp_cpp *cpp, u32 cpp_id,
 		  unsigned long long address, const void *kernel_vaddr,
 		  size_t length);
 int nfp_cpp_readl(struct nfp_cpp *cpp, u32 cpp_id,
 		  unsigned long long address, u32 *value);
 int nfp_cpp_writel(struct nfp_cpp *cpp, u32 cpp_id,
 		   unsigned long long address, u32 value);
 int nfp_cpp_readq(struct nfp_cpp *cpp, u32 cpp_id,
 		  unsigned long long address, u64 *value);
 int nfp_cpp_writeq(struct nfp_cpp *cpp, u32 cpp_id,
 		   unsigned long long address, u64 value);

 u8 __iomem *
 nfp_cpp_map_area(struct nfp_cpp *cpp, const char *name, u32 cpp_id, u64 addr,
 		 unsigned long size, struct nfp_cpp_area **area);

 struct nfp_cpp_mutex;

 int nfp_cpp_mutex_init(struct nfp_cpp *cpp, int target,
 		       unsigned long long address, u32 key_id);
 struct nfp_cpp_mutex *nfp_cpp_mutex_alloc(struct nfp_cpp *cpp, int target,
 					  unsigned long long address,
 					  u32 key_id);
 void nfp_cpp_mutex_free(struct nfp_cpp_mutex *mutex);
 int nfp_cpp_mutex_lock(struct nfp_cpp_mutex *mutex);
 int nfp_cpp_mutex_unlock(struct nfp_cpp_mutex *mutex);
 int nfp_cpp_mutex_trylock(struct nfp_cpp_mutex *mutex);
 int nfp_cpp_mutex_reclaim(struct nfp_cpp *cpp, int target,
 			  unsigned long long address);

 /**
  * nfp_cppcore_pcie_unit() - Get PCI Unit of a CPP handle
  * @cpp:	CPP handle
  *
  * Return: PCI unit for the NFP CPP handle
  */
 static inline u8 nfp_cppcore_pcie_unit(struct nfp_cpp *cpp)
 {
 	return NFP_CPP_INTERFACE_UNIT_of(nfp_cpp_interface(cpp));
 }

 struct nfp_cpp_explicit;

 struct nfp_cpp_explicit_command {
 	u32 cpp_id;
 	u16 data_ref;
 	u8  data_master;
 	u8  len;
 	u8  byte_mask;
 	u8  signal_master;
 	u8  signal_ref;
 	u8  posted;
 	u8  siga;
 	u8  sigb;
 	s8   siga_mode;
 	s8   sigb_mode;
 };

 #define NFP_SERIAL_LEN		6

 /**
  * struct nfp_cpp_operations - NFP CPP operations structure
  * @area_priv_size:     Size of the nfp_cpp_area private data
  * @owner:              Owner module
  * @init:               Initialize the NFP CPP bus
  * @free:               Free the bus
  * @read_serial:	Read serial number to memory provided
  * @get_interface:	Return CPP interface
  * @area_init:          Initialize a new NFP CPP area (not serialized)
  * @area_cleanup:       Clean up a NFP CPP area (not serialized)
  * @area_acquire:       Acquire the NFP CPP area (serialized)
  * @area_release:       Release area (serialized)
  * @area_resource:      Get resource range of area (not serialized)
  * @area_phys:          Get physical address of area (not serialized)
  * @area_iomem:         Get iomem of area (not serialized)
  * @area_read:          Perform a read from a NFP CPP area (serialized)
  * @area_write:         Perform a write to a NFP CPP area (serialized)
  * @explicit_priv_size: Size of an explicit's private area
  * @explicit_acquire:   Acquire an explicit area
  * @explicit_release:   Release an explicit area
  * @explicit_put:       Write data to send
  * @explicit_get:       Read data received
  * @explicit_do:        Perform the transaction
  */
 struct nfp_cpp_operations {
 	size_t area_priv_size;
 	struct module *owner;

 	int (*init)(struct nfp_cpp *cpp);
 	void (*free)(struct nfp_cpp *cpp);

 	int (*read_serial)(struct device *dev, u8 *serial);
 	int (*get_interface)(struct device *dev);

 	int (*area_init)(struct nfp_cpp_area *area,
 			 u32 dest, unsigned long long address,
 			 unsigned long size);
 	void (*area_cleanup)(struct nfp_cpp_area *area);
 	int (*area_acquire)(struct nfp_cpp_area *area);
 	void (*area_release)(struct nfp_cpp_area *area);
 	struct resource *(*area_resource)(struct nfp_cpp_area *area);
 	phys_addr_t (*area_phys)(struct nfp_cpp_area *area);
 	void __iomem *(*area_iomem)(struct nfp_cpp_area *area);
 	int (*area_read)(struct nfp_cpp_area *area, void *kernel_vaddr,
 			 unsigned long offset, unsigned int length);
 	int (*area_write)(struct nfp_cpp_area *area, const void *kernel_vaddr,
 			  unsigned long offset, unsigned int length);

 	size_t explicit_priv_size;
 	int (*explicit_acquire)(struct nfp_cpp_explicit *expl);
 	void (*explicit_release)(struct nfp_cpp_explicit *expl);
 	int (*explicit_put)(struct nfp_cpp_explicit *expl,
 			    const void *buff, size_t len);
 	int (*explicit_get)(struct nfp_cpp_explicit *expl,
 			    void *buff, size_t len);
 	int (*explicit_do)(struct nfp_cpp_explicit *expl,
 			   const struct nfp_cpp_explicit_command *cmd,
 			   u64 address);
 };

 struct nfp_cpp *
 nfp_cpp_from_operations(const struct nfp_cpp_operations *ops,
 			struct device *parent, void *priv);
 void *nfp_cpp_priv(struct nfp_cpp *priv);

 int nfp_cpp_area_cache_add(struct nfp_cpp *cpp, size_t size);

 /* The following section contains extensions to the
  * NFP CPP API, to be used in a Linux kernel-space context.
  */

 /* Use this channel ID for multiple virtual channel interfaces
  * (ie ARM and PCIe) when setting up the interface field.
  */
 #define NFP_CPP_INTERFACE_CHANNEL_PEROPENER	255
 struct device *nfp_cpp_device(struct nfp_cpp *cpp);

 /* Return code masks for nfp_cpp_explicit_do()
  */
 #define NFP_SIGNAL_MASK_A	BIT(0)	/* Signal A fired */
 #define NFP_SIGNAL_MASK_B	BIT(1)	/* Signal B fired */

 enum nfp_cpp_explicit_signal_mode {
 	NFP_SIGNAL_NONE = 0,
 	NFP_SIGNAL_PUSH = 1,
 	NFP_SIGNAL_PUSH_OPTIONAL = -1,
 	NFP_SIGNAL_PULL = 2,
 	NFP_SIGNAL_PULL_OPTIONAL = -2,
 };

 struct nfp_cpp_explicit *nfp_cpp_explicit_acquire(struct nfp_cpp *cpp);
 int nfp_cpp_explicit_set_target(struct nfp_cpp_explicit *expl, u32 cpp_id,
 				u8 len, u8 mask);
 int nfp_cpp_explicit_set_data(struct nfp_cpp_explicit *expl,
 			      u8 data_master, u16 data_ref);
 int nfp_cpp_explicit_set_signal(struct nfp_cpp_explicit *expl,
 				u8 signal_master, u8 signal_ref);
 int nfp_cpp_explicit_set_posted(struct nfp_cpp_explicit *expl, int posted,
 				u8 siga,
 				enum nfp_cpp_explicit_signal_mode siga_mode,
 				u8 sigb,
 				enum nfp_cpp_explicit_signal_mode sigb_mode);
 int nfp_cpp_explicit_put(struct nfp_cpp_explicit *expl,
 			 const void *buff, size_t len);
 int nfp_cpp_explicit_do(struct nfp_cpp_explicit *expl, u64 address);
 int nfp_cpp_explicit_get(struct nfp_cpp_explicit *expl, void *buff, size_t len);
 void nfp_cpp_explicit_release(struct nfp_cpp_explicit *expl);
 struct nfp_cpp *nfp_cpp_explicit_cpp(struct nfp_cpp_explicit *expl);
 void *nfp_cpp_explicit_priv(struct nfp_cpp_explicit *cpp_explicit);

 /* Implemented in nfp_cpplib.c */

 int nfp_cpp_model_autodetect(struct nfp_cpp *cpp, u32 *model);

 int nfp_cpp_explicit_read(struct nfp_cpp *cpp, u32 cpp_id,
 			  u64 addr, void *buff, size_t len,
 			  int width_read);

 int nfp_cpp_explicit_write(struct nfp_cpp *cpp, u32 cpp_id,
 			   u64 addr, const void *buff, size_t len,
 			   int width_write);

 #endif /* !__NFP_CPP_H__ */
	/* SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause) */
	/* Copyright (C) 2015-2018 Netronome Systems, Inc. */

	/*
	* nfp_cpp.h
	* Interface for low-level NFP CPP access.
	* Authors: Jason McMullan <jason.mcmullan@netronome.com>
	* Rolf Neugebauer <rolf.neugebauer@netronome.com>
	*/
	#ifndef __NFP_CPP_H__
	#define __NFP_CPP_H__

	#include <linux/ctype.h>
	#include <linux/types.h>
	#include <linux/sizes.h>

	#ifndef NFP_SUBSYS
	#define NFP_SUBSYS "nfp"
	#endif

	#define nfp_err(cpp, fmt, args...) \
	dev_err(nfp_cpp_device(cpp)->parent, NFP_SUBSYS ": " fmt, ## args)
	#define nfp_warn(cpp, fmt, args...) \
	dev_warn(nfp_cpp_device(cpp)->parent, NFP_SUBSYS ": " fmt, ## args)
	#define nfp_info(cpp, fmt, args...) \
	dev_info(nfp_cpp_device(cpp)->parent, NFP_SUBSYS ": " fmt, ## args)
	#define nfp_dbg(cpp, fmt, args...) \
	dev_dbg(nfp_cpp_device(cpp)->parent, NFP_SUBSYS ": " fmt, ## args)
	#define nfp_printk(level, cpp, fmt, args...) \
	dev_printk(level, nfp_cpp_device(cpp)->parent, \
	NFP_SUBSYS ": " fmt, ## args)

	#define PCI_64BIT_BAR_COUNT 3

	/* NFP hardware vendor/device ids.
	*/
	#define PCI_DEVICE_ID_NETRONOME_NFP3800 0x3800

	#define NFP_CPP_NUM_TARGETS 16
	/* Max size of area it should be safe to request */
	#define NFP_CPP_SAFE_AREA_SIZE SZ_2M

	/* NFP_MUTEX_WAIT_* are timeouts in seconds when waiting for a mutex */
	#define NFP_MUTEX_WAIT_FIRST_WARN 15
	#define NFP_MUTEX_WAIT_NEXT_WARN 5
	#define NFP_MUTEX_WAIT_ERROR 60

	struct device;

	struct nfp_cpp_area;
	struct nfp_cpp;
	struct resource;

	/* Wildcard indicating a CPP read or write action
	*
	* The action used will be either read or write depending on whether a
	* read or write instruction/call is performed on the NFP_CPP_ID. It
	* is recomended that the RW action is used even if all actions to be
	* performed on a NFP_CPP_ID are known to be only reads or writes.
	* Doing so will in many cases save NFP CPP internal software
	* resources.
	*/
	#define NFP_CPP_ACTION_RW 32

	#define NFP_CPP_TARGET_ID_MASK 0x1f

	#define NFP_CPP_ATOMIC_RD(target, island) \
	NFP_CPP_ISLAND_ID((target), 3, 0, (island))
	#define NFP_CPP_ATOMIC_WR(target, island) \
	NFP_CPP_ISLAND_ID((target), 4, 0, (island))

	/**
	* NFP_CPP_ID() - pack target, token, and action into a CPP ID.
	* @target: NFP CPP target id
	* @action: NFP CPP action id
	* @token: NFP CPP token id
	*
	* Create a 32-bit CPP identifier representing the access to be made.
	* These identifiers are used as parameters to other NFP CPP
	* functions. Some CPP devices may allow wildcard identifiers to be
	* specified.
	*
	* Return: NFP CPP ID
	*/
	#define NFP_CPP_ID(target, action, token) \
	((((target) & 0x7f) << 24) \| (((token) & 0xff) << 16) \| \
	(((action) & 0xff) << 8))

	/**
	* NFP_CPP_ISLAND_ID() - pack target, token, action, and island into a CPP ID.
	* @target: NFP CPP target id
	* @action: NFP CPP action id
	* @token: NFP CPP token id
	* @island: NFP CPP island id
	*
	* Create a 32-bit CPP identifier representing the access to be made.
	* These identifiers are used as parameters to other NFP CPP
	* functions. Some CPP devices may allow wildcard identifiers to be
	* specified.
	*
	* Return: NFP CPP ID
	*/
	#define NFP_CPP_ISLAND_ID(target, action, token, island) \
	((((target) & 0x7f) << 24) \| (((token) & 0xff) << 16) \| \
	(((action) & 0xff) << 8) \| (((island) & 0xff) << 0))

	/**
	* NFP_CPP_ID_TARGET_of() - Return the NFP CPP target of a NFP CPP ID
	* @id: NFP CPP ID
	*
	* Return: NFP CPP target
	*/
	static inline u8 NFP_CPP_ID_TARGET_of(u32 id)
	{
	return (id >> 24) & NFP_CPP_TARGET_ID_MASK;
	}

	/**
	* NFP_CPP_ID_TOKEN_of() - Return the NFP CPP token of a NFP CPP ID
	* @id: NFP CPP ID
	* Return: NFP CPP token
	*/
	static inline u8 NFP_CPP_ID_TOKEN_of(u32 id)
	{
	return (id >> 16) & 0xff;
	}

	/**
	* NFP_CPP_ID_ACTION_of() - Return the NFP CPP action of a NFP CPP ID
	* @id: NFP CPP ID
	*
	* Return: NFP CPP action
	*/
	static inline u8 NFP_CPP_ID_ACTION_of(u32 id)
	{
	return (id >> 8) & 0xff;
	}

	/**
	* NFP_CPP_ID_ISLAND_of() - Return the NFP CPP island of a NFP CPP ID
	* @id: NFP CPP ID
	*
	* Return: NFP CPP island
	*/
	static inline u8 NFP_CPP_ID_ISLAND_of(u32 id)
	{
	return (id >> 0) & 0xff;
	}

	/* NFP Interface types - logical interface for this CPP connection
	* 4 bits are reserved for interface type.
	*/
	#define NFP_CPP_INTERFACE_TYPE_INVALID 0x0
	#define NFP_CPP_INTERFACE_TYPE_PCI 0x1
	#define NFP_CPP_INTERFACE_TYPE_ARM 0x2
	#define NFP_CPP_INTERFACE_TYPE_RPC 0x3
	#define NFP_CPP_INTERFACE_TYPE_ILA 0x4

	/**
	* NFP_CPP_INTERFACE() - Construct a 16-bit NFP Interface ID
	* @type: NFP Interface Type
	* @unit: Unit identifier for the interface type
	* @channel: Channel identifier for the interface unit
	*
	* Interface IDs consists of 4 bits of interface type,
	* 4 bits of unit identifier, and 8 bits of channel identifier.
	*
	* The NFP Interface ID is used in the implementation of
	* NFP CPP API mutexes, which use the MU Atomic CompareAndWrite
	* operation - hence the limit to 16 bits to be able to
	* use the NFP Interface ID as a lock owner.
	*
	* Return: Interface ID
	*/
	#define NFP_CPP_INTERFACE(type, unit, channel) \
	((((type) & 0xf) << 12) \| \
	(((unit) & 0xf) << 8) \| \
	(((channel) & 0xff) << 0))

	/**
	* NFP_CPP_INTERFACE_TYPE_of() - Get the interface type
	* @interface: NFP Interface ID
	* Return: NFP Interface ID's type
	*/
	#define NFP_CPP_INTERFACE_TYPE_of(interface) (((interface) >> 12) & 0xf)

	/**
	* NFP_CPP_INTERFACE_UNIT_of() - Get the interface unit
	* @interface: NFP Interface ID
	* Return: NFP Interface ID's unit
	*/
	#define NFP_CPP_INTERFACE_UNIT_of(interface) (((interface) >> 8) & 0xf)

	/**
	* NFP_CPP_INTERFACE_CHANNEL_of() - Get the interface channel
	* @interface: NFP Interface ID
	* Return: NFP Interface ID's channel
	*/
	#define NFP_CPP_INTERFACE_CHANNEL_of(interface) (((interface) >> 0) & 0xff)

	/* Implemented in nfp_cppcore.c */
	void nfp_cpp_free(struct nfp_cpp *cpp);
	u32 nfp_cpp_model(struct nfp_cpp *cpp);
	u16 nfp_cpp_interface(struct nfp_cpp *cpp);
	int nfp_cpp_serial(struct nfp_cpp cpp, const u8 *serial);
	unsigned int nfp_cpp_mu_locality_lsb(struct nfp_cpp *cpp);

	struct nfp_cpp_area nfp_cpp_area_alloc_with_name(struct nfp_cpp cpp,
	u32 cpp_id,
	const char *name,
	unsigned long long address,
	unsigned long size);
	struct nfp_cpp_area nfp_cpp_area_alloc(struct nfp_cpp cpp, u32 cpp_id,
	unsigned long long address,
	unsigned long size);
	struct nfp_cpp_area *
	nfp_cpp_area_alloc_acquire(struct nfp_cpp cpp, const char name, u32 cpp_id,
	unsigned long long address, unsigned long size);
	void nfp_cpp_area_free(struct nfp_cpp_area *area);
	int nfp_cpp_area_acquire(struct nfp_cpp_area *area);
	int nfp_cpp_area_acquire_nonblocking(struct nfp_cpp_area *area);
	void nfp_cpp_area_release(struct nfp_cpp_area *area);
	void nfp_cpp_area_release_free(struct nfp_cpp_area *area);
	int nfp_cpp_area_read(struct nfp_cpp_area *area, unsigned long offset,
	void *buffer, size_t length);
	int nfp_cpp_area_write(struct nfp_cpp_area *area, unsigned long offset,
	const void *buffer, size_t length);
	size_t nfp_cpp_area_size(struct nfp_cpp_area *area);
	const char nfp_cpp_area_name(struct nfp_cpp_area cpp_area);
	void nfp_cpp_area_priv(struct nfp_cpp_area cpp_area);
	struct nfp_cpp nfp_cpp_area_cpp(struct nfp_cpp_area cpp_area);
	struct resource nfp_cpp_area_resource(struct nfp_cpp_area area);
	phys_addr_t nfp_cpp_area_phys(struct nfp_cpp_area *area);
	void __iomem nfp_cpp_area_iomem(struct nfp_cpp_area area);

	int nfp_cpp_area_readl(struct nfp_cpp_area *area, unsigned long offset,
	u32 *value);
	int nfp_cpp_area_writel(struct nfp_cpp_area *area, unsigned long offset,
	u32 value);
	int nfp_cpp_area_readq(struct nfp_cpp_area *area, unsigned long offset,
	u64 *value);
	int nfp_cpp_area_writeq(struct nfp_cpp_area *area, unsigned long offset,
	u64 value);
	int nfp_cpp_area_fill(struct nfp_cpp_area *area, unsigned long offset,
	u32 value, size_t length);

	int nfp_xpb_readl(struct nfp_cpp cpp, u32 xpb_tgt, u32 value);
	int nfp_xpb_writel(struct nfp_cpp *cpp, u32 xpb_tgt, u32 value);
	int nfp_xpb_writelm(struct nfp_cpp *cpp, u32 xpb_tgt, u32 mask, u32 value);

	/* Implemented in nfp_cpplib.c */
	int nfp_cpp_read(struct nfp_cpp *cpp, u32 cpp_id,
	unsigned long long address, void *kernel_vaddr, size_t length);
	int nfp_cpp_write(struct nfp_cpp *cpp, u32 cpp_id,
	unsigned long long address, const void *kernel_vaddr,
	size_t length);
	int nfp_cpp_readl(struct nfp_cpp *cpp, u32 cpp_id,
	unsigned long long address, u32 *value);
	int nfp_cpp_writel(struct nfp_cpp *cpp, u32 cpp_id,
	unsigned long long address, u32 value);
	int nfp_cpp_readq(struct nfp_cpp *cpp, u32 cpp_id,
	unsigned long long address, u64 *value);
	int nfp_cpp_writeq(struct nfp_cpp *cpp, u32 cpp_id,
	unsigned long long address, u64 value);

	u8 __iomem *
	nfp_cpp_map_area(struct nfp_cpp cpp, const char name, u32 cpp_id, u64 addr,
	unsigned long size, struct nfp_cpp_area **area);

	struct nfp_cpp_mutex;

	int nfp_cpp_mutex_init(struct nfp_cpp *cpp, int target,
	unsigned long long address, u32 key_id);
	struct nfp_cpp_mutex nfp_cpp_mutex_alloc(struct nfp_cpp cpp, int target,
	unsigned long long address,
	u32 key_id);
	void nfp_cpp_mutex_free(struct nfp_cpp_mutex *mutex);
	int nfp_cpp_mutex_lock(struct nfp_cpp_mutex *mutex);
	int nfp_cpp_mutex_unlock(struct nfp_cpp_mutex *mutex);
	int nfp_cpp_mutex_trylock(struct nfp_cpp_mutex *mutex);
	int nfp_cpp_mutex_reclaim(struct nfp_cpp *cpp, int target,
	unsigned long long address);

	/**
	* nfp_cppcore_pcie_unit() - Get PCI Unit of a CPP handle
	* @cpp: CPP handle
	*
	* Return: PCI unit for the NFP CPP handle
	*/
	static inline u8 nfp_cppcore_pcie_unit(struct nfp_cpp *cpp)
	{
	return NFP_CPP_INTERFACE_UNIT_of(nfp_cpp_interface(cpp));
	}

	struct nfp_cpp_explicit;

	struct nfp_cpp_explicit_command {
	u32 cpp_id;
	u16 data_ref;
	u8 data_master;
	u8 len;
	u8 byte_mask;
	u8 signal_master;
	u8 signal_ref;
	u8 posted;
	u8 siga;
	u8 sigb;
	s8 siga_mode;
	s8 sigb_mode;
	};

	#define NFP_SERIAL_LEN 6

	/**
	* struct nfp_cpp_operations - NFP CPP operations structure
	* @area_priv_size: Size of the nfp_cpp_area private data
	* @owner: Owner module
	* @init: Initialize the NFP CPP bus
	* @free: Free the bus
	* @read_serial: Read serial number to memory provided
	* @get_interface: Return CPP interface
	* @area_init: Initialize a new NFP CPP area (not serialized)
	* @area_cleanup: Clean up a NFP CPP area (not serialized)
	* @area_acquire: Acquire the NFP CPP area (serialized)
	* @area_release: Release area (serialized)
	* @area_resource: Get resource range of area (not serialized)
	* @area_phys: Get physical address of area (not serialized)
	* @area_iomem: Get iomem of area (not serialized)
	* @area_read: Perform a read from a NFP CPP area (serialized)
	* @area_write: Perform a write to a NFP CPP area (serialized)
	* @explicit_priv_size: Size of an explicit's private area
	* @explicit_acquire: Acquire an explicit area
	* @explicit_release: Release an explicit area
	* @explicit_put: Write data to send
	* @explicit_get: Read data received
	* @explicit_do: Perform the transaction
	*/
	struct nfp_cpp_operations {
	size_t area_priv_size;
	struct module *owner;

	int (init)(struct nfp_cpp cpp);
	void (free)(struct nfp_cpp cpp);

	int (read_serial)(struct device dev, u8 *serial);
	int (get_interface)(struct device dev);

	int (area_init)(struct nfp_cpp_area area,
	u32 dest, unsigned long long address,
	unsigned long size);
	void (area_cleanup)(struct nfp_cpp_area area);
	int (area_acquire)(struct nfp_cpp_area area);
	void (area_release)(struct nfp_cpp_area area);
	struct resource (area_resource)(struct nfp_cpp_area *area);
	phys_addr_t (area_phys)(struct nfp_cpp_area area);
	void __iomem (area_iomem)(struct nfp_cpp_area *area);
	int (area_read)(struct nfp_cpp_area area, void *kernel_vaddr,
	unsigned long offset, unsigned int length);
	int (area_write)(struct nfp_cpp_area area, const void *kernel_vaddr,
	unsigned long offset, unsigned int length);

	size_t explicit_priv_size;
	int (explicit_acquire)(struct nfp_cpp_explicit expl);
	void (explicit_release)(struct nfp_cpp_explicit expl);
	int (explicit_put)(struct nfp_cpp_explicit expl,
	const void *buff, size_t len);
	int (explicit_get)(struct nfp_cpp_explicit expl,
	void *buff, size_t len);
	int (explicit_do)(struct nfp_cpp_explicit expl,
	const struct nfp_cpp_explicit_command *cmd,
	u64 address);
	};

	struct nfp_cpp *
	nfp_cpp_from_operations(const struct nfp_cpp_operations *ops,
	struct device parent, void priv);
	void nfp_cpp_priv(struct nfp_cpp priv);

	int nfp_cpp_area_cache_add(struct nfp_cpp *cpp, size_t size);

	/* The following section contains extensions to the
	* NFP CPP API, to be used in a Linux kernel-space context.
	*/

	/* Use this channel ID for multiple virtual channel interfaces
	* (ie ARM and PCIe) when setting up the interface field.
	*/
	#define NFP_CPP_INTERFACE_CHANNEL_PEROPENER 255
	struct device nfp_cpp_device(struct nfp_cpp cpp);

	/* Return code masks for nfp_cpp_explicit_do()
	*/
	#define NFP_SIGNAL_MASK_A BIT(0) /* Signal A fired */
	#define NFP_SIGNAL_MASK_B BIT(1) /* Signal B fired */

	enum nfp_cpp_explicit_signal_mode {
	NFP_SIGNAL_NONE = 0,
	NFP_SIGNAL_PUSH = 1,
	NFP_SIGNAL_PUSH_OPTIONAL = -1,
	NFP_SIGNAL_PULL = 2,
	NFP_SIGNAL_PULL_OPTIONAL = -2,
	};

	struct nfp_cpp_explicit nfp_cpp_explicit_acquire(struct nfp_cpp cpp);
	int nfp_cpp_explicit_set_target(struct nfp_cpp_explicit *expl, u32 cpp_id,
	u8 len, u8 mask);
	int nfp_cpp_explicit_set_data(struct nfp_cpp_explicit *expl,
	u8 data_master, u16 data_ref);
	int nfp_cpp_explicit_set_signal(struct nfp_cpp_explicit *expl,
	u8 signal_master, u8 signal_ref);
	int nfp_cpp_explicit_set_posted(struct nfp_cpp_explicit *expl, int posted,
	u8 siga,
	enum nfp_cpp_explicit_signal_mode siga_mode,
	u8 sigb,
	enum nfp_cpp_explicit_signal_mode sigb_mode);
	int nfp_cpp_explicit_put(struct nfp_cpp_explicit *expl,
	const void *buff, size_t len);
	int nfp_cpp_explicit_do(struct nfp_cpp_explicit *expl, u64 address);
	int nfp_cpp_explicit_get(struct nfp_cpp_explicit expl, void buff, size_t len);
	void nfp_cpp_explicit_release(struct nfp_cpp_explicit *expl);
	struct nfp_cpp nfp_cpp_explicit_cpp(struct nfp_cpp_explicit expl);
	void nfp_cpp_explicit_priv(struct nfp_cpp_explicit cpp_explicit);

	/* Implemented in nfp_cpplib.c */

	int nfp_cpp_model_autodetect(struct nfp_cpp cpp, u32 model);

	int nfp_cpp_explicit_read(struct nfp_cpp *cpp, u32 cpp_id,
	u64 addr, void *buff, size_t len,
	int width_read);

	int nfp_cpp_explicit_write(struct nfp_cpp *cpp, u32 cpp_id,
	u64 addr, const void *buff, size_t len,
	int width_write);

	#endif /* !__NFP_CPP_H__ */