drivers/staging/lustre/include/linux/lnet/types.h - nest-learning-thermostat/6.0/linux-imx-4.9.88 - Git at Google

 /*
  * GPL HEADER START
  *
  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
  *
  * This program is free software; you can redistribute it and/or modify
  * it under the terms of the GNU General Public License version 2 only,
  * as published by the Free Software Foundation.
  *
  * This program is distributed in the hope that it will be useful, but
  * WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * General Public License version 2 for more details (a copy is included
  * in the LICENSE file that accompanied this code).
  *
  * You should have received a copy of the GNU General Public License
  * version 2 along with this program; If not, see
  * http://www.gnu.org/licenses/gpl-2.0.html
  *
  * GPL HEADER END
  */
 /*
  * Copyright (c) 2003, 2010, Oracle and/or its affiliates. All rights reserved.
  * Use is subject to license terms.
  *
  * Copyright (c) 2012 - 2015, Intel Corporation.
  */
 /*
  * This file is part of Lustre, http://www.lustre.org/
  * Lustre is a trademark of Seagate, Inc.
  */

 #ifndef __LNET_TYPES_H__
 #define __LNET_TYPES_H__

 #include <linux/types.h>

 /** \addtogroup lnet
  * @{
  */

 #define LNET_VERSION		"0.6.0"

 /** \addtogroup lnet_addr
  * @{
  */

 /** Portal reserved for LNet's own use.
  * \see lustre/include/lustre/lustre_idl.h for Lustre portal assignments.
  */
 #define LNET_RESERVED_PORTAL	0

 /**
  * Address of an end-point in an LNet network.
  *
  * A node can have multiple end-points and hence multiple addresses.
  * An LNet network can be a simple network (e.g. tcp0) or a network of
  * LNet networks connected by LNet routers. Therefore an end-point address
  * has two parts: network ID, and address within a network.
  *
  * \see LNET_NIDNET, LNET_NIDADDR, and LNET_MKNID.
  */
 typedef __u64 lnet_nid_t;
 /**
  * ID of a process in a node. Shortened as PID to distinguish from
  * lnet_process_id_t, the global process ID.
  */
 typedef __u32 lnet_pid_t;

 /** wildcard NID that matches any end-point address */
 #define LNET_NID_ANY	((lnet_nid_t)(-1))
 /** wildcard PID that matches any lnet_pid_t */
 #define LNET_PID_ANY	((lnet_pid_t)(-1))

 #define LNET_PID_RESERVED 0xf0000000 /* reserved bits in PID */
 #define LNET_PID_USERFLAG 0x80000000 /* set in userspace peers */
 #define LNET_PID_LUSTRE	  12345

 #define LNET_TIME_FOREVER (-1)

 /* how an LNET NID encodes net:address */
 /** extract the address part of an lnet_nid_t */

 static inline __u32 LNET_NIDADDR(lnet_nid_t nid)
 {
 	return nid & 0xffffffff;
 }

 static inline __u32 LNET_NIDNET(lnet_nid_t nid)
 {
 	return (nid >> 32) & 0xffffffff;
 }

 static inline lnet_nid_t LNET_MKNID(__u32 net, __u32 addr)
 {
 	return (((__u64)net) << 32) | addr;
 }

 static inline __u32 LNET_NETNUM(__u32 net)
 {
 	return net & 0xffff;
 }

 static inline __u32 LNET_NETTYP(__u32 net)
 {
 	return (net >> 16) & 0xffff;
 }

 static inline __u32 LNET_MKNET(__u32 type, __u32 num)
 {
 	return (type << 16) | num;
 }

 #define WIRE_ATTR	__packed

 /* Packed version of lnet_process_id_t to transfer via network */
 typedef struct {
 	/* node id / process id */
 	lnet_nid_t	nid;
 	lnet_pid_t	pid;
 } WIRE_ATTR lnet_process_id_packed_t;

 /*
  * The wire handle's interface cookie only matches one network interface in
  * one epoch (i.e. new cookie when the interface restarts or the node
  * reboots).  The object cookie only matches one object on that interface
  * during that object's lifetime (i.e. no cookie re-use).
  */
 typedef struct {
 	__u64	wh_interface_cookie;
 	__u64	wh_object_cookie;
 } WIRE_ATTR lnet_handle_wire_t;

 typedef enum {
 	LNET_MSG_ACK = 0,
 	LNET_MSG_PUT,
 	LNET_MSG_GET,
 	LNET_MSG_REPLY,
 	LNET_MSG_HELLO,
 } lnet_msg_type_t;

 /*
  * The variant fields of the portals message header are aligned on an 8
  * byte boundary in the message header.  Note that all types used in these
  * wire structs MUST be fixed size and the smaller types are placed at the
  * end.
  */
 typedef struct lnet_ack {
 	lnet_handle_wire_t	dst_wmd;
 	__u64			match_bits;
 	__u32			mlength;
 } WIRE_ATTR lnet_ack_t;

 typedef struct lnet_put {
 	lnet_handle_wire_t	ack_wmd;
 	__u64			match_bits;
 	__u64			hdr_data;
 	__u32			ptl_index;
 	__u32			offset;
 } WIRE_ATTR lnet_put_t;

 typedef struct lnet_get {
 	lnet_handle_wire_t	return_wmd;
 	__u64			match_bits;
 	__u32			ptl_index;
 	__u32			src_offset;
 	__u32			sink_length;
 } WIRE_ATTR lnet_get_t;

 typedef struct lnet_reply {
 	lnet_handle_wire_t	dst_wmd;
 } WIRE_ATTR lnet_reply_t;

 typedef struct lnet_hello {
 	__u64			incarnation;
 	__u32			type;
 } WIRE_ATTR lnet_hello_t;

 typedef struct {
 	lnet_nid_t	dest_nid;
 	lnet_nid_t	src_nid;
 	lnet_pid_t	dest_pid;
 	lnet_pid_t	src_pid;
 	__u32		type;		/* lnet_msg_type_t */
 	__u32		payload_length;	/* payload data to follow */
 	/*<------__u64 aligned------->*/
 	union {
 		lnet_ack_t	ack;
 		lnet_put_t	put;
 		lnet_get_t	get;
 		lnet_reply_t	reply;
 		lnet_hello_t	hello;
 	} msg;
 } WIRE_ATTR lnet_hdr_t;

 /*
  * A HELLO message contains a magic number and protocol version
  * code in the header's dest_nid, the peer's NID in the src_nid, and
  * LNET_MSG_HELLO in the type field.  All other common fields are zero
  * (including payload_size; i.e. no payload).
  * This is for use by byte-stream LNDs (e.g. TCP/IP) to check the peer is
  * running the same protocol and to find out its NID. These LNDs should
  * exchange HELLO messages when a connection is first established.  Individual
  * LNDs can put whatever else they fancy in lnet_hdr_t::msg.
  */
 typedef struct {
 	__u32	magic;		/* LNET_PROTO_TCP_MAGIC */
 	__u16	version_major;	/* increment on incompatible change */
 	__u16	version_minor;	/* increment on compatible change */
 } WIRE_ATTR lnet_magicversion_t;

 /* PROTO MAGIC for LNDs */
 #define LNET_PROTO_IB_MAGIC		0x0be91b91
 #define LNET_PROTO_GNI_MAGIC		0xb00fbabe /* ask Kim */
 #define LNET_PROTO_TCP_MAGIC		0xeebc0ded
 #define LNET_PROTO_ACCEPTOR_MAGIC	0xacce7100
 #define LNET_PROTO_PING_MAGIC		0x70696E67 /* 'ping' */

 /* Placeholder for a future "unified" protocol across all LNDs */
 /*
  * Current LNDs that receive a request with this magic will respond with a
  * "stub" reply using their current protocol
  */
 #define LNET_PROTO_MAGIC		0x45726963 /* ! */

 #define LNET_PROTO_TCP_VERSION_MAJOR	1
 #define LNET_PROTO_TCP_VERSION_MINOR	0

 /* Acceptor connection request */
 typedef struct {
 	__u32	acr_magic;		/* PTL_ACCEPTOR_PROTO_MAGIC */
 	__u32	acr_version;		/* protocol version */
 	__u64	acr_nid;		/* target NID */
 } WIRE_ATTR lnet_acceptor_connreq_t;

 #define LNET_PROTO_ACCEPTOR_VERSION	1

 typedef struct {
 	lnet_nid_t	ns_nid;
 	__u32		ns_status;
 	__u32		ns_unused;
 } WIRE_ATTR lnet_ni_status_t;

 typedef struct {
 	__u32			pi_magic;
 	__u32			pi_features;
 	lnet_pid_t		pi_pid;
 	__u32			pi_nnis;
 	lnet_ni_status_t	pi_ni[0];
 } WIRE_ATTR lnet_ping_info_t;

 typedef struct lnet_counters {
 	__u32	msgs_alloc;
 	__u32	msgs_max;
 	__u32	errors;
 	__u32	send_count;
 	__u32	recv_count;
 	__u32	route_count;
 	__u32	drop_count;
 	__u64	send_length;
 	__u64	recv_length;
 	__u64	route_length;
 	__u64	drop_length;
 } WIRE_ATTR lnet_counters_t;

 #define LNET_NI_STATUS_UP      0x15aac0de
 #define LNET_NI_STATUS_DOWN    0xdeadface
 #define LNET_NI_STATUS_INVALID 0x00000000

 #define LNET_MAX_INTERFACES    16

 /**
  * Objects maintained by the LNet are accessed through handles. Handle types
  * have names of the form lnet_handle_xx_t, where xx is one of the two letter
  * object type codes ('eq' for event queue, 'md' for memory descriptor, and
  * 'me' for match entry).
  * Each type of object is given a unique handle type to enhance type checking.
  * The type lnet_handle_any_t can be used when a generic handle is needed.
  * Every handle value can be converted into a value of type lnet_handle_any_t
  * without loss of information.
  */
 typedef struct {
 	__u64	 cookie;
 } lnet_handle_any_t;

 typedef lnet_handle_any_t lnet_handle_eq_t;
 typedef lnet_handle_any_t lnet_handle_md_t;
 typedef lnet_handle_any_t lnet_handle_me_t;

 #define LNET_WIRE_HANDLE_COOKIE_NONE   (-1)

 /**
  * Invalidate handle \a h.
  */
 static inline void LNetInvalidateHandle(lnet_handle_any_t *h)
 {
 	h->cookie = LNET_WIRE_HANDLE_COOKIE_NONE;
 }

 /**
  * Compare handles \a h1 and \a h2.
  *
  * \return 1 if handles are equal, 0 if otherwise.
  */
 static inline int LNetHandleIsEqual(lnet_handle_any_t h1, lnet_handle_any_t h2)
 {
 	return h1.cookie == h2.cookie;
 }

 /**
  * Check whether handle \a h is invalid.
  *
  * \return 1 if handle is invalid, 0 if valid.
  */
 static inline int LNetHandleIsInvalid(lnet_handle_any_t h)
 {
 	return h.cookie == LNET_WIRE_HANDLE_COOKIE_NONE;
 }

 /**
  * Global process ID.
  */
 typedef struct {
 	/** node id */
 	lnet_nid_t nid;
 	/** process id */
 	lnet_pid_t pid;
 } lnet_process_id_t;
 /** @} lnet_addr */

 /** \addtogroup lnet_me
  * @{
  */

 /**
  * Specifies whether the match entry or memory descriptor should be unlinked
  * automatically (LNET_UNLINK) or not (LNET_RETAIN).
  */
 typedef enum {
 	LNET_RETAIN = 0,
 	LNET_UNLINK
 } lnet_unlink_t;

 /**
  * Values of the type lnet_ins_pos_t are used to control where a new match
  * entry is inserted. The value LNET_INS_BEFORE is used to insert the new
  * entry before the current entry or before the head of the list. The value
  * LNET_INS_AFTER is used to insert the new entry after the current entry
  * or after the last item in the list.
  */
 typedef enum {
 	/** insert ME before current position or head of the list */
 	LNET_INS_BEFORE,
 	/** insert ME after current position or tail of the list */
 	LNET_INS_AFTER,
 	/** attach ME at tail of local CPU partition ME list */
 	LNET_INS_LOCAL
 } lnet_ins_pos_t;

 /** @} lnet_me */

 /** \addtogroup lnet_md
  * @{
  */

 /**
  * Defines the visible parts of a memory descriptor. Values of this type
  * are used to initialize memory descriptors.
  */
 typedef struct {
 	/**
 	 * Specify the memory region associated with the memory descriptor.
 	 * If the options field has:
 	 * - LNET_MD_KIOV bit set: The start field points to the starting
 	 * address of an array of lnet_kiov_t and the length field specifies
 	 * the number of entries in the array. The length can't be bigger
 	 * than LNET_MAX_IOV. The lnet_kiov_t is used to describe page-based
 	 * fragments that are not necessarily mapped in virtual memory.
 	 * - LNET_MD_IOVEC bit set: The start field points to the starting
 	 * address of an array of struct iovec and the length field specifies
 	 * the number of entries in the array. The length can't be bigger
 	 * than LNET_MAX_IOV. The struct iovec is used to describe fragments
 	 * that have virtual addresses.
 	 * - Otherwise: The memory region is contiguous. The start field
 	 * specifies the starting address for the memory region and the
 	 * length field specifies its length.
 	 *
 	 * When the memory region is fragmented, all fragments but the first
 	 * one must start on page boundary, and all but the last must end on
 	 * page boundary.
 	 */
 	void		*start;
 	unsigned int	 length;
 	/**
 	 * Specifies the maximum number of operations that can be performed
 	 * on the memory descriptor. An operation is any action that could
 	 * possibly generate an event. In the usual case, the threshold value
 	 * is decremented for each operation on the MD. When the threshold
 	 * drops to zero, the MD becomes inactive and does not respond to
 	 * operations. A threshold value of LNET_MD_THRESH_INF indicates that
 	 * there is no bound on the number of operations that may be applied
 	 * to a MD.
 	 */
 	int		 threshold;
 	/**
 	 * Specifies the largest incoming request that the memory descriptor
 	 * should respond to. When the unused portion of a MD (length -
 	 * local offset) falls below this value, the MD becomes inactive and
 	 * does not respond to further operations. This value is only used
 	 * if the LNET_MD_MAX_SIZE option is set.
 	 */
 	int		 max_size;
 	/**
 	 * Specifies the behavior of the memory descriptor. A bitwise OR
 	 * of the following values can be used:
 	 * - LNET_MD_OP_PUT: The LNet PUT operation is allowed on this MD.
 	 * - LNET_MD_OP_GET: The LNet GET operation is allowed on this MD.
 	 * - LNET_MD_MANAGE_REMOTE: The offset used in accessing the memory
 	 *   region is provided by the incoming request. By default, the
 	 *   offset is maintained locally. When maintained locally, the
 	 *   offset is incremented by the length of the request so that
 	 *   the next operation (PUT or GET) will access the next part of
 	 *   the memory region. Note that only one offset variable exists
 	 *   per memory descriptor. If both PUT and GET operations are
 	 *   performed on a memory descriptor, the offset is updated each time.
 	 * - LNET_MD_TRUNCATE: The length provided in the incoming request can
 	 *   be reduced to match the memory available in the region (determined
 	 *   by subtracting the offset from the length of the memory region).
 	 *   By default, if the length in the incoming operation is greater
 	 *   than the amount of memory available, the operation is rejected.
 	 * - LNET_MD_ACK_DISABLE: An acknowledgment should not be sent for
 	 *   incoming PUT operations, even if requested. By default,
 	 *   acknowledgments are sent for PUT operations that request an
 	 *   acknowledgment. Acknowledgments are never sent for GET operations.
 	 *   The data sent in the REPLY serves as an implicit acknowledgment.
 	 * - LNET_MD_KIOV: The start and length fields specify an array of
 	 *   lnet_kiov_t.
 	 * - LNET_MD_IOVEC: The start and length fields specify an array of
 	 *   struct iovec.
 	 * - LNET_MD_MAX_SIZE: The max_size field is valid.
 	 *
 	 * Note:
 	 * - LNET_MD_KIOV or LNET_MD_IOVEC allows for a scatter/gather
 	 *   capability for memory descriptors. They can't be both set.
 	 * - When LNET_MD_MAX_SIZE is set, the total length of the memory
 	 *   region (i.e. sum of all fragment lengths) must not be less than
 	 *   \a max_size.
 	 */
 	unsigned int	 options;
 	/**
 	 * A user-specified value that is associated with the memory
 	 * descriptor. The value does not need to be a pointer, but must fit
 	 * in the space used by a pointer. This value is recorded in events
 	 * associated with operations on this MD.
 	 */
 	void		*user_ptr;
 	/**
 	 * A handle for the event queue used to log the operations performed on
 	 * the memory region. If this argument is a NULL handle (i.e. nullified
 	 * by LNetInvalidateHandle()), operations performed on this memory
 	 * descriptor are not logged.
 	 */
 	lnet_handle_eq_t eq_handle;
 } lnet_md_t;

 /*
  * Max Transfer Unit (minimum supported everywhere).
  * CAVEAT EMPTOR, with multinet (i.e. routers forwarding between networks)
  * these limits are system wide and not interface-local.
  */
 #define LNET_MTU_BITS	20
 #define LNET_MTU	(1 << LNET_MTU_BITS)

 /** limit on the number of fragments in discontiguous MDs */
 #define LNET_MAX_IOV	256

 /**
  * Options for the MD structure. See lnet_md_t::options.
  */
 #define LNET_MD_OP_PUT		(1 << 0)
 /** See lnet_md_t::options. */
 #define LNET_MD_OP_GET		(1 << 1)
 /** See lnet_md_t::options. */
 #define LNET_MD_MANAGE_REMOTE	(1 << 2)
 /* unused			(1 << 3) */
 /** See lnet_md_t::options. */
 #define LNET_MD_TRUNCATE	(1 << 4)
 /** See lnet_md_t::options. */
 #define LNET_MD_ACK_DISABLE	(1 << 5)
 /** See lnet_md_t::options. */
 #define LNET_MD_IOVEC		(1 << 6)
 /** See lnet_md_t::options. */
 #define LNET_MD_MAX_SIZE	(1 << 7)
 /** See lnet_md_t::options. */
 #define LNET_MD_KIOV		(1 << 8)

 /* For compatibility with Cray Portals */
 #define LNET_MD_PHYS		0

 /** Infinite threshold on MD operations. See lnet_md_t::threshold */
 #define LNET_MD_THRESH_INF	(-1)

 /* NB lustre portals uses struct iovec internally! */
 typedef struct iovec lnet_md_iovec_t;

 typedef struct bio_vec lnet_kiov_t;
 /** @} lnet_md */

 /** \addtogroup lnet_eq
  * @{
  */

 /**
  * Six types of events can be logged in an event queue.
  */
 typedef enum {
 	/** An incoming GET operation has completed on the MD. */
 	LNET_EVENT_GET		= 1,
 	/**
 	 * An incoming PUT operation has completed on the MD. The
 	 * underlying layers will not alter the memory (on behalf of this
 	 * operation) once this event has been logged.
 	 */
 	LNET_EVENT_PUT,
 	/**
 	 * A REPLY operation has completed. This event is logged after the
 	 * data (if any) from the REPLY has been written into the MD.
 	 */
 	LNET_EVENT_REPLY,
 	/** An acknowledgment has been received. */
 	LNET_EVENT_ACK,
 	/**
 	 * An outgoing send (PUT or GET) operation has completed. This event
 	 * is logged after the entire buffer has been sent and it is safe for
 	 * the caller to reuse the buffer.
 	 *
 	 * Note:
 	 * - The LNET_EVENT_SEND doesn't guarantee message delivery. It can
 	 *   happen even when the message has not yet been put out on wire.
 	 * - It's unsafe to assume that in an outgoing GET operation
 	 *   the LNET_EVENT_SEND event would happen before the
 	 *   LNET_EVENT_REPLY event. The same holds for LNET_EVENT_SEND and
 	 *   LNET_EVENT_ACK events in an outgoing PUT operation.
 	 */
 	LNET_EVENT_SEND,
 	/**
 	 * A MD has been unlinked. Note that LNetMDUnlink() does not
 	 * necessarily trigger an LNET_EVENT_UNLINK event.
 	 * \see LNetMDUnlink
 	 */
 	LNET_EVENT_UNLINK,
 } lnet_event_kind_t;

 #define LNET_SEQ_BASETYPE	long
 typedef unsigned LNET_SEQ_BASETYPE lnet_seq_t;
 #define LNET_SEQ_GT(a, b)	(((signed LNET_SEQ_BASETYPE)((a) - (b))) > 0)

 /**
  * Information about an event on a MD.
  */
 typedef struct {
 	/** The identifier (nid, pid) of the target. */
 	lnet_process_id_t	target;
 	/** The identifier (nid, pid) of the initiator. */
 	lnet_process_id_t	initiator;
 	/**
 	 * The NID of the immediate sender. If the request has been forwarded
 	 * by routers, this is the NID of the last hop; otherwise it's the
 	 * same as the initiator.
 	 */
 	lnet_nid_t		sender;
 	/** Indicates the type of the event. */
 	lnet_event_kind_t	type;
 	/** The portal table index specified in the request */
 	unsigned int		pt_index;
 	/** A copy of the match bits specified in the request. */
 	__u64			match_bits;
 	/** The length (in bytes) specified in the request. */
 	unsigned int		rlength;
 	/**
 	 * The length (in bytes) of the data that was manipulated by the
 	 * operation. For truncated operations, the manipulated length will be
 	 * the number of bytes specified by the MD (possibly with an offset,
 	 * see lnet_md_t). For all other operations, the manipulated length
 	 * will be the length of the requested operation, i.e. rlength.
 	 */
 	unsigned int		mlength;
 	/**
 	 * The handle to the MD associated with the event. The handle may be
 	 * invalid if the MD has been unlinked.
 	 */
 	lnet_handle_md_t	md_handle;
 	/**
 	 * A snapshot of the state of the MD immediately after the event has
 	 * been processed. In particular, the threshold field in md will
 	 * reflect the value of the threshold after the operation occurred.
 	 */
 	lnet_md_t		md;
 	/**
 	 * 64 bits of out-of-band user data. Only valid for LNET_EVENT_PUT.
 	 * \see LNetPut
 	 */
 	__u64			hdr_data;
 	/**
 	 * Indicates the completion status of the operation. It's 0 for
 	 * successful operations, otherwise it's an error code.
 	 */
 	int			status;
 	/**
 	 * Indicates whether the MD has been unlinked. Note that:
 	 * - An event with unlinked set is the last event on the MD.
 	 * - This field is also set for an explicit LNET_EVENT_UNLINK event.
 	 * \see LNetMDUnlink
 	 */
 	int			unlinked;
 	/**
 	 * The displacement (in bytes) into the memory region that the
 	 * operation used. The offset can be determined by the operation for
 	 * a remote managed MD or by the local MD.
 	 * \see lnet_md_t::options
 	 */
 	unsigned int		offset;
 	/**
 	 * The sequence number for this event. Sequence numbers are unique
 	 * to each event.
 	 */
 	volatile lnet_seq_t	sequence;
 } lnet_event_t;

 /**
  * Event queue handler function type.
  *
  * The EQ handler runs for each event that is deposited into the EQ. The
  * handler is supplied with a pointer to the event that triggered the
  * handler invocation.
  *
  * The handler must not block, must be reentrant, and must not call any LNet
  * API functions. It should return as quickly as possible.
  */
 typedef void (*lnet_eq_handler_t)(lnet_event_t *event);
 #define LNET_EQ_HANDLER_NONE NULL
 /** @} lnet_eq */

 /** \addtogroup lnet_data
  * @{
  */

 /**
  * Specify whether an acknowledgment should be sent by target when the PUT
  * operation completes (i.e., when the data has been written to a MD of the
  * target process).
  *
  * \see lnet_md_t::options for the discussion on LNET_MD_ACK_DISABLE by which
  * acknowledgments can be disabled for a MD.
  */
 typedef enum {
 	/** Request an acknowledgment */
 	LNET_ACK_REQ,
 	/** Request that no acknowledgment should be generated. */
 	LNET_NOACK_REQ
 } lnet_ack_req_t;
 /** @} lnet_data */

 /** @} lnet */
 #endif
	/*
	* GPL HEADER START
	*
	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
	*
	* This program is free software; you can redistribute it and/or modify
	* it under the terms of the GNU General Public License version 2 only,
	* as published by the Free Software Foundation.
	*
	* This program is distributed in the hope that it will be useful, but
	* WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	* General Public License version 2 for more details (a copy is included
	* in the LICENSE file that accompanied this code).
	*
	* You should have received a copy of the GNU General Public License
	* version 2 along with this program; If not, see
	* http://www.gnu.org/licenses/gpl-2.0.html
	*
	* GPL HEADER END
	*/
	/*
	* Copyright (c) 2003, 2010, Oracle and/or its affiliates. All rights reserved.
	* Use is subject to license terms.
	*
	* Copyright (c) 2012 - 2015, Intel Corporation.
	*/
	/*
	* This file is part of Lustre, http://www.lustre.org/
	* Lustre is a trademark of Seagate, Inc.
	*/

	#ifndef __LNET_TYPES_H__
	#define __LNET_TYPES_H__

	#include <linux/types.h>

	/** \addtogroup lnet
	* @{
	*/

	#define LNET_VERSION "0.6.0"

	/** \addtogroup lnet_addr
	* @{
	*/

	/** Portal reserved for LNet's own use.
	* \see lustre/include/lustre/lustre_idl.h for Lustre portal assignments.
	*/
	#define LNET_RESERVED_PORTAL 0

	/**
	* Address of an end-point in an LNet network.
	*
	* A node can have multiple end-points and hence multiple addresses.
	* An LNet network can be a simple network (e.g. tcp0) or a network of
	* LNet networks connected by LNet routers. Therefore an end-point address
	* has two parts: network ID, and address within a network.
	*
	* \see LNET_NIDNET, LNET_NIDADDR, and LNET_MKNID.
	*/
	typedef __u64 lnet_nid_t;
	/**
	* ID of a process in a node. Shortened as PID to distinguish from
	* lnet_process_id_t, the global process ID.
	*/
	typedef __u32 lnet_pid_t;

	/** wildcard NID that matches any end-point address */
	#define LNET_NID_ANY ((lnet_nid_t)(-1))
	/** wildcard PID that matches any lnet_pid_t */
	#define LNET_PID_ANY ((lnet_pid_t)(-1))

	#define LNET_PID_RESERVED 0xf0000000 /* reserved bits in PID */
	#define LNET_PID_USERFLAG 0x80000000 /* set in userspace peers */
	#define LNET_PID_LUSTRE 12345

	#define LNET_TIME_FOREVER (-1)

	/* how an LNET NID encodes net:address */
	/** extract the address part of an lnet_nid_t */

	static inline __u32 LNET_NIDADDR(lnet_nid_t nid)
	{
	return nid & 0xffffffff;
	}

	static inline __u32 LNET_NIDNET(lnet_nid_t nid)
	{
	return (nid >> 32) & 0xffffffff;
	}

	static inline lnet_nid_t LNET_MKNID(__u32 net, __u32 addr)
	{
	return (((__u64)net) << 32) \| addr;
	}

	static inline __u32 LNET_NETNUM(__u32 net)
	{
	return net & 0xffff;
	}

	static inline __u32 LNET_NETTYP(__u32 net)
	{
	return (net >> 16) & 0xffff;
	}

	static inline __u32 LNET_MKNET(__u32 type, __u32 num)
	{
	return (type << 16) \| num;
	}

	#define WIRE_ATTR __packed

	/* Packed version of lnet_process_id_t to transfer via network */
	typedef struct {
	/* node id / process id */
	lnet_nid_t nid;
	lnet_pid_t pid;
	} WIRE_ATTR lnet_process_id_packed_t;

	/*
	* The wire handle's interface cookie only matches one network interface in
	* one epoch (i.e. new cookie when the interface restarts or the node
	* reboots). The object cookie only matches one object on that interface
	* during that object's lifetime (i.e. no cookie re-use).
	*/
	typedef struct {
	__u64 wh_interface_cookie;
	__u64 wh_object_cookie;
	} WIRE_ATTR lnet_handle_wire_t;

	typedef enum {
	LNET_MSG_ACK = 0,
	LNET_MSG_PUT,
	LNET_MSG_GET,
	LNET_MSG_REPLY,
	LNET_MSG_HELLO,
	} lnet_msg_type_t;

	/*
	* The variant fields of the portals message header are aligned on an 8
	* byte boundary in the message header. Note that all types used in these
	* wire structs MUST be fixed size and the smaller types are placed at the
	* end.
	*/
	typedef struct lnet_ack {
	lnet_handle_wire_t dst_wmd;
	__u64 match_bits;
	__u32 mlength;
	} WIRE_ATTR lnet_ack_t;

	typedef struct lnet_put {
	lnet_handle_wire_t ack_wmd;
	__u64 match_bits;
	__u64 hdr_data;
	__u32 ptl_index;
	__u32 offset;
	} WIRE_ATTR lnet_put_t;

	typedef struct lnet_get {
	lnet_handle_wire_t return_wmd;
	__u64 match_bits;
	__u32 ptl_index;
	__u32 src_offset;
	__u32 sink_length;
	} WIRE_ATTR lnet_get_t;

	typedef struct lnet_reply {
	lnet_handle_wire_t dst_wmd;
	} WIRE_ATTR lnet_reply_t;

	typedef struct lnet_hello {
	__u64 incarnation;
	__u32 type;
	} WIRE_ATTR lnet_hello_t;

	typedef struct {
	lnet_nid_t dest_nid;
	lnet_nid_t src_nid;
	lnet_pid_t dest_pid;
	lnet_pid_t src_pid;
	__u32 type; /* lnet_msg_type_t */
	__u32 payload_length; /* payload data to follow */
	/<------__u64 aligned------->/
	union {
	lnet_ack_t ack;
	lnet_put_t put;
	lnet_get_t get;
	lnet_reply_t reply;
	lnet_hello_t hello;
	} msg;
	} WIRE_ATTR lnet_hdr_t;

	/*
	* A HELLO message contains a magic number and protocol version
	* code in the header's dest_nid, the peer's NID in the src_nid, and
	* LNET_MSG_HELLO in the type field. All other common fields are zero
	* (including payload_size; i.e. no payload).
	* This is for use by byte-stream LNDs (e.g. TCP/IP) to check the peer is
	* running the same protocol and to find out its NID. These LNDs should
	* exchange HELLO messages when a connection is first established. Individual
	* LNDs can put whatever else they fancy in lnet_hdr_t::msg.
	*/
	typedef struct {
	__u32 magic; /* LNET_PROTO_TCP_MAGIC */
	__u16 version_major; /* increment on incompatible change */
	__u16 version_minor; /* increment on compatible change */
	} WIRE_ATTR lnet_magicversion_t;

	/* PROTO MAGIC for LNDs */
	#define LNET_PROTO_IB_MAGIC 0x0be91b91
	#define LNET_PROTO_GNI_MAGIC 0xb00fbabe /* ask Kim */
	#define LNET_PROTO_TCP_MAGIC 0xeebc0ded
	#define LNET_PROTO_ACCEPTOR_MAGIC 0xacce7100
	#define LNET_PROTO_PING_MAGIC 0x70696E67 /* 'ping' */

	/* Placeholder for a future "unified" protocol across all LNDs */
	/*
	* Current LNDs that receive a request with this magic will respond with a
	* "stub" reply using their current protocol
	*/
	#define LNET_PROTO_MAGIC 0x45726963 /* ! */

	#define LNET_PROTO_TCP_VERSION_MAJOR 1
	#define LNET_PROTO_TCP_VERSION_MINOR 0

	/* Acceptor connection request */
	typedef struct {
	__u32 acr_magic; /* PTL_ACCEPTOR_PROTO_MAGIC */
	__u32 acr_version; /* protocol version */
	__u64 acr_nid; /* target NID */
	} WIRE_ATTR lnet_acceptor_connreq_t;

	#define LNET_PROTO_ACCEPTOR_VERSION 1

	typedef struct {
	lnet_nid_t ns_nid;
	__u32 ns_status;
	__u32 ns_unused;
	} WIRE_ATTR lnet_ni_status_t;

	typedef struct {
	__u32 pi_magic;
	__u32 pi_features;
	lnet_pid_t pi_pid;
	__u32 pi_nnis;
	lnet_ni_status_t pi_ni[0];
	} WIRE_ATTR lnet_ping_info_t;

	typedef struct lnet_counters {
	__u32 msgs_alloc;
	__u32 msgs_max;
	__u32 errors;
	__u32 send_count;
	__u32 recv_count;
	__u32 route_count;
	__u32 drop_count;
	__u64 send_length;
	__u64 recv_length;
	__u64 route_length;
	__u64 drop_length;
	} WIRE_ATTR lnet_counters_t;

	#define LNET_NI_STATUS_UP 0x15aac0de
	#define LNET_NI_STATUS_DOWN 0xdeadface
	#define LNET_NI_STATUS_INVALID 0x00000000

	#define LNET_MAX_INTERFACES 16

	/**
	* Objects maintained by the LNet are accessed through handles. Handle types
	* have names of the form lnet_handle_xx_t, where xx is one of the two letter
	* object type codes ('eq' for event queue, 'md' for memory descriptor, and
	* 'me' for match entry).
	* Each type of object is given a unique handle type to enhance type checking.
	* The type lnet_handle_any_t can be used when a generic handle is needed.
	* Every handle value can be converted into a value of type lnet_handle_any_t
	* without loss of information.
	*/
	typedef struct {
	__u64 cookie;
	} lnet_handle_any_t;

	typedef lnet_handle_any_t lnet_handle_eq_t;
	typedef lnet_handle_any_t lnet_handle_md_t;
	typedef lnet_handle_any_t lnet_handle_me_t;

	#define LNET_WIRE_HANDLE_COOKIE_NONE (-1)

	/**
	* Invalidate handle \a h.
	*/
	static inline void LNetInvalidateHandle(lnet_handle_any_t *h)
	{
	h->cookie = LNET_WIRE_HANDLE_COOKIE_NONE;
	}

	/**
	* Compare handles \a h1 and \a h2.
	*
	* \return 1 if handles are equal, 0 if otherwise.
	*/
	static inline int LNetHandleIsEqual(lnet_handle_any_t h1, lnet_handle_any_t h2)
	{
	return h1.cookie == h2.cookie;
	}

	/**
	* Check whether handle \a h is invalid.
	*
	* \return 1 if handle is invalid, 0 if valid.
	*/
	static inline int LNetHandleIsInvalid(lnet_handle_any_t h)
	{
	return h.cookie == LNET_WIRE_HANDLE_COOKIE_NONE;
	}

	/**
	* Global process ID.
	*/
	typedef struct {
	/** node id */
	lnet_nid_t nid;
	/** process id */
	lnet_pid_t pid;
	} lnet_process_id_t;
	/** @} lnet_addr */

	/** \addtogroup lnet_me
	* @{
	*/

	/**
	* Specifies whether the match entry or memory descriptor should be unlinked
	* automatically (LNET_UNLINK) or not (LNET_RETAIN).
	*/
	typedef enum {
	LNET_RETAIN = 0,
	LNET_UNLINK
	} lnet_unlink_t;

	/**
	* Values of the type lnet_ins_pos_t are used to control where a new match
	* entry is inserted. The value LNET_INS_BEFORE is used to insert the new
	* entry before the current entry or before the head of the list. The value
	* LNET_INS_AFTER is used to insert the new entry after the current entry
	* or after the last item in the list.
	*/
	typedef enum {
	/** insert ME before current position or head of the list */
	LNET_INS_BEFORE,
	/** insert ME after current position or tail of the list */
	LNET_INS_AFTER,
	/** attach ME at tail of local CPU partition ME list */
	LNET_INS_LOCAL
	} lnet_ins_pos_t;

	/** @} lnet_me */

	/** \addtogroup lnet_md
	* @{
	*/

	/**
	* Defines the visible parts of a memory descriptor. Values of this type
	* are used to initialize memory descriptors.
	*/
	typedef struct {
	/**
	* Specify the memory region associated with the memory descriptor.
	* If the options field has:
	* - LNET_MD_KIOV bit set: The start field points to the starting
	* address of an array of lnet_kiov_t and the length field specifies
	* the number of entries in the array. The length can't be bigger
	* than LNET_MAX_IOV. The lnet_kiov_t is used to describe page-based
	* fragments that are not necessarily mapped in virtual memory.
	* - LNET_MD_IOVEC bit set: The start field points to the starting
	* address of an array of struct iovec and the length field specifies
	* the number of entries in the array. The length can't be bigger
	* than LNET_MAX_IOV. The struct iovec is used to describe fragments
	* that have virtual addresses.
	* - Otherwise: The memory region is contiguous. The start field
	* specifies the starting address for the memory region and the
	* length field specifies its length.
	*
	* When the memory region is fragmented, all fragments but the first
	* one must start on page boundary, and all but the last must end on
	* page boundary.
	*/
	void *start;
	unsigned int length;
	/**
	* Specifies the maximum number of operations that can be performed
	* on the memory descriptor. An operation is any action that could
	* possibly generate an event. In the usual case, the threshold value
	* is decremented for each operation on the MD. When the threshold
	* drops to zero, the MD becomes inactive and does not respond to
	* operations. A threshold value of LNET_MD_THRESH_INF indicates that
	* there is no bound on the number of operations that may be applied
	* to a MD.
	*/
	int threshold;
	/**
	* Specifies the largest incoming request that the memory descriptor
	* should respond to. When the unused portion of a MD (length -
	* local offset) falls below this value, the MD becomes inactive and
	* does not respond to further operations. This value is only used
	* if the LNET_MD_MAX_SIZE option is set.
	*/
	int max_size;
	/**
	* Specifies the behavior of the memory descriptor. A bitwise OR
	* of the following values can be used:
	* - LNET_MD_OP_PUT: The LNet PUT operation is allowed on this MD.
	* - LNET_MD_OP_GET: The LNet GET operation is allowed on this MD.
	* - LNET_MD_MANAGE_REMOTE: The offset used in accessing the memory
	* region is provided by the incoming request. By default, the
	* offset is maintained locally. When maintained locally, the
	* offset is incremented by the length of the request so that
	* the next operation (PUT or GET) will access the next part of
	* the memory region. Note that only one offset variable exists
	* per memory descriptor. If both PUT and GET operations are
	* performed on a memory descriptor, the offset is updated each time.
	* - LNET_MD_TRUNCATE: The length provided in the incoming request can
	* be reduced to match the memory available in the region (determined
	* by subtracting the offset from the length of the memory region).
	* By default, if the length in the incoming operation is greater
	* than the amount of memory available, the operation is rejected.
	* - LNET_MD_ACK_DISABLE: An acknowledgment should not be sent for
	* incoming PUT operations, even if requested. By default,
	* acknowledgments are sent for PUT operations that request an
	* acknowledgment. Acknowledgments are never sent for GET operations.
	* The data sent in the REPLY serves as an implicit acknowledgment.
	* - LNET_MD_KIOV: The start and length fields specify an array of
	* lnet_kiov_t.
	* - LNET_MD_IOVEC: The start and length fields specify an array of
	* struct iovec.
	* - LNET_MD_MAX_SIZE: The max_size field is valid.
	*
	* Note:
	* - LNET_MD_KIOV or LNET_MD_IOVEC allows for a scatter/gather
	* capability for memory descriptors. They can't be both set.
	* - When LNET_MD_MAX_SIZE is set, the total length of the memory
	* region (i.e. sum of all fragment lengths) must not be less than
	* \a max_size.
	*/
	unsigned int options;
	/**
	* A user-specified value that is associated with the memory
	* descriptor. The value does not need to be a pointer, but must fit
	* in the space used by a pointer. This value is recorded in events
	* associated with operations on this MD.
	*/
	void *user_ptr;
	/**
	* A handle for the event queue used to log the operations performed on
	* the memory region. If this argument is a NULL handle (i.e. nullified
	* by LNetInvalidateHandle()), operations performed on this memory
	* descriptor are not logged.
	*/
	lnet_handle_eq_t eq_handle;
	} lnet_md_t;

	/*
	* Max Transfer Unit (minimum supported everywhere).
	* CAVEAT EMPTOR, with multinet (i.e. routers forwarding between networks)
	* these limits are system wide and not interface-local.
	*/
	#define LNET_MTU_BITS 20
	#define LNET_MTU (1 << LNET_MTU_BITS)

	/** limit on the number of fragments in discontiguous MDs */
	#define LNET_MAX_IOV 256

	/**
	* Options for the MD structure. See lnet_md_t::options.
	*/
	#define LNET_MD_OP_PUT (1 << 0)
	/** See lnet_md_t::options. */
	#define LNET_MD_OP_GET (1 << 1)
	/** See lnet_md_t::options. */
	#define LNET_MD_MANAGE_REMOTE (1 << 2)
	/* unused (1 << 3) */
	/** See lnet_md_t::options. */
	#define LNET_MD_TRUNCATE (1 << 4)
	/** See lnet_md_t::options. */
	#define LNET_MD_ACK_DISABLE (1 << 5)
	/** See lnet_md_t::options. */
	#define LNET_MD_IOVEC (1 << 6)
	/** See lnet_md_t::options. */
	#define LNET_MD_MAX_SIZE (1 << 7)
	/** See lnet_md_t::options. */
	#define LNET_MD_KIOV (1 << 8)

	/* For compatibility with Cray Portals */
	#define LNET_MD_PHYS 0

	/** Infinite threshold on MD operations. See lnet_md_t::threshold */
	#define LNET_MD_THRESH_INF (-1)

	/* NB lustre portals uses struct iovec internally! */
	typedef struct iovec lnet_md_iovec_t;

	typedef struct bio_vec lnet_kiov_t;
	/** @} lnet_md */

	/** \addtogroup lnet_eq
	* @{
	*/

	/**
	* Six types of events can be logged in an event queue.
	*/
	typedef enum {
	/** An incoming GET operation has completed on the MD. */
	LNET_EVENT_GET = 1,
	/**
	* An incoming PUT operation has completed on the MD. The
	* underlying layers will not alter the memory (on behalf of this
	* operation) once this event has been logged.
	*/
	LNET_EVENT_PUT,
	/**
	* A REPLY operation has completed. This event is logged after the
	* data (if any) from the REPLY has been written into the MD.
	*/
	LNET_EVENT_REPLY,
	/** An acknowledgment has been received. */
	LNET_EVENT_ACK,
	/**
	* An outgoing send (PUT or GET) operation has completed. This event
	* is logged after the entire buffer has been sent and it is safe for
	* the caller to reuse the buffer.
	*
	* Note:
	* - The LNET_EVENT_SEND doesn't guarantee message delivery. It can
	* happen even when the message has not yet been put out on wire.
	* - It's unsafe to assume that in an outgoing GET operation
	* the LNET_EVENT_SEND event would happen before the
	* LNET_EVENT_REPLY event. The same holds for LNET_EVENT_SEND and
	* LNET_EVENT_ACK events in an outgoing PUT operation.
	*/
	LNET_EVENT_SEND,
	/**
	* A MD has been unlinked. Note that LNetMDUnlink() does not
	* necessarily trigger an LNET_EVENT_UNLINK event.
	* \see LNetMDUnlink
	*/
	LNET_EVENT_UNLINK,
	} lnet_event_kind_t;

	#define LNET_SEQ_BASETYPE long
	typedef unsigned LNET_SEQ_BASETYPE lnet_seq_t;
	#define LNET_SEQ_GT(a, b) (((signed LNET_SEQ_BASETYPE)((a) - (b))) > 0)

	/**
	* Information about an event on a MD.
	*/
	typedef struct {
	/** The identifier (nid, pid) of the target. */
	lnet_process_id_t target;
	/** The identifier (nid, pid) of the initiator. */
	lnet_process_id_t initiator;
	/**
	* The NID of the immediate sender. If the request has been forwarded
	* by routers, this is the NID of the last hop; otherwise it's the
	* same as the initiator.
	*/
	lnet_nid_t sender;
	/** Indicates the type of the event. */
	lnet_event_kind_t type;
	/** The portal table index specified in the request */
	unsigned int pt_index;
	/** A copy of the match bits specified in the request. */
	__u64 match_bits;
	/** The length (in bytes) specified in the request. */
	unsigned int rlength;
	/**
	* The length (in bytes) of the data that was manipulated by the
	* operation. For truncated operations, the manipulated length will be
	* the number of bytes specified by the MD (possibly with an offset,
	* see lnet_md_t). For all other operations, the manipulated length
	* will be the length of the requested operation, i.e. rlength.
	*/
	unsigned int mlength;
	/**
	* The handle to the MD associated with the event. The handle may be
	* invalid if the MD has been unlinked.
	*/
	lnet_handle_md_t md_handle;
	/**
	* A snapshot of the state of the MD immediately after the event has
	* been processed. In particular, the threshold field in md will
	* reflect the value of the threshold after the operation occurred.
	*/
	lnet_md_t md;
	/**
	* 64 bits of out-of-band user data. Only valid for LNET_EVENT_PUT.
	* \see LNetPut
	*/
	__u64 hdr_data;
	/**
	* Indicates the completion status of the operation. It's 0 for
	* successful operations, otherwise it's an error code.
	*/
	int status;
	/**
	* Indicates whether the MD has been unlinked. Note that:
	* - An event with unlinked set is the last event on the MD.
	* - This field is also set for an explicit LNET_EVENT_UNLINK event.
	* \see LNetMDUnlink
	*/
	int unlinked;
	/**
	* The displacement (in bytes) into the memory region that the
	* operation used. The offset can be determined by the operation for
	* a remote managed MD or by the local MD.
	* \see lnet_md_t::options
	*/
	unsigned int offset;
	/**
	* The sequence number for this event. Sequence numbers are unique
	* to each event.
	*/
	volatile lnet_seq_t sequence;
	} lnet_event_t;

	/**
	* Event queue handler function type.
	*
	* The EQ handler runs for each event that is deposited into the EQ. The
	* handler is supplied with a pointer to the event that triggered the
	* handler invocation.
	*
	* The handler must not block, must be reentrant, and must not call any LNet
	* API functions. It should return as quickly as possible.
	*/
	typedef void (lnet_eq_handler_t)(lnet_event_t event);
	#define LNET_EQ_HANDLER_NONE NULL
	/** @} lnet_eq */

	/** \addtogroup lnet_data
	* @{
	*/

	/**
	* Specify whether an acknowledgment should be sent by target when the PUT
	* operation completes (i.e., when the data has been written to a MD of the
	* target process).
	*
	* \see lnet_md_t::options for the discussion on LNET_MD_ACK_DISABLE by which
	* acknowledgments can be disabled for a MD.
	*/
	typedef enum {
	/** Request an acknowledgment */
	LNET_ACK_REQ,
	/** Request that no acknowledgment should be generated. */
	LNET_NOACK_REQ
	} lnet_ack_req_t;
	/** @} lnet_data */

	/** @} lnet */
	#endif