[fs/lustre-release.git] / lnet / include / lnet / lib-types.h

/*
 * 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, 2017, Intel Corporation.
 */
/*
 * This file is part of Lustre, http://www.lustre.org/
 * Lustre is a trademark of Sun Microsystems, Inc.
 *
 * lnet/include/lnet/lib-types.h
 *
 * Types used by the library side routines that do not need to be
 * exposed to the user application
 */

#ifndef __LNET_LIB_TYPES_H__
#define __LNET_LIB_TYPES_H__

#ifndef __KERNEL__
# error This include is only for kernel use.
#endif

#include <linux/kthread.h>
#include <linux/uio.h>
#include <linux/semaphore.h>
#include <linux/types.h>

#include <uapi/linux/lnet/lnet-dlc.h>
#include <uapi/linux/lnet/lnetctl.h>
#include <uapi/linux/lnet/nidstr.h>

/* Max payload size */
#define LNET_MAX_PAYLOAD        LNET_MTU

#define LNET_MAX_IOV            (LNET_MAX_PAYLOAD >> PAGE_SHIFT)

/*
 * This is the maximum health value.
 * All local and peer NIs created have their health default to this value.
 */
#define LNET_MAX_HEALTH_VALUE 1000

/* forward refs */
struct lnet_libmd;

enum lnet_msg_hstatus {
        LNET_MSG_STATUS_OK = 0,
        LNET_MSG_STATUS_LOCAL_INTERRUPT,
        LNET_MSG_STATUS_LOCAL_DROPPED,
        LNET_MSG_STATUS_LOCAL_ABORTED,
        LNET_MSG_STATUS_LOCAL_NO_ROUTE,
        LNET_MSG_STATUS_LOCAL_ERROR,
        LNET_MSG_STATUS_LOCAL_TIMEOUT,
        LNET_MSG_STATUS_REMOTE_ERROR,
        LNET_MSG_STATUS_REMOTE_DROPPED,
        LNET_MSG_STATUS_REMOTE_TIMEOUT,
        LNET_MSG_STATUS_NETWORK_TIMEOUT,
        LNET_MSG_STATUS_END,
};

struct lnet_rsp_tracker {
        /* chain on the waiting list */
        struct list_head rspt_on_list;
        /* cpt to lock */
        int rspt_cpt;
        /* nid of next hop */
        lnet_nid_t rspt_next_hop_nid;
        /* deadline of the REPLY/ACK */
        ktime_t rspt_deadline;
        /* parent MD */
        struct lnet_handle_md rspt_mdh;
};

struct lnet_msg {
        struct list_head        msg_activelist;
        struct list_head        msg_list;       /* Q for credits/MD */

        struct lnet_process_id  msg_target;
        /* Primary NID of the source. */
        lnet_nid_t              msg_initiator;
        /* where is it from, it's only for building event */
        lnet_nid_t              msg_from;
        __u32                   msg_type;

        /*
         * hold parameters in case message is with held due
         * to discovery
         */
        lnet_nid_t              msg_src_nid_param;
        lnet_nid_t              msg_rtr_nid_param;

        /*
         * Deadline for the message after which it will be finalized if it
         * has not completed.
         */
        ktime_t                 msg_deadline;

        /* The message health status. */
        enum lnet_msg_hstatus   msg_health_status;
        /* This is a recovery message */
        bool                    msg_recovery;
        /* the number of times a transmission has been retried */
        int                     msg_retry_count;
        /* flag to indicate that we do not want to resend this message */
        bool                    msg_no_resend;

        /* committed for sending */
        unsigned int            msg_tx_committed:1;
        /* CPT # this message committed for sending */
        unsigned int            msg_tx_cpt:15;
        /* committed for receiving */
        unsigned int            msg_rx_committed:1;
        /* CPT # this message committed for receiving */
        unsigned int            msg_rx_cpt:15;
        /* queued for tx credit */
        unsigned int            msg_tx_delayed:1;
        /* queued for RX buffer */
        unsigned int            msg_rx_delayed:1;
        /* ready for pending on RX delay list */
        unsigned int            msg_rx_ready_delay:1;

        unsigned int          msg_vmflush:1;      /* VM trying to free memory */
        unsigned int          msg_target_is_router:1; /* sending to a router */
        unsigned int          msg_routing:1;      /* being forwarded */
        unsigned int          msg_ack:1;          /* ack on finalize (PUT) */
        unsigned int          msg_sending:1;      /* outgoing message */
        unsigned int          msg_receiving:1;    /* being received */
        unsigned int          msg_txcredit:1;     /* taken an NI send credit */
        unsigned int          msg_peertxcredit:1; /* taken a peer send credit */
        unsigned int          msg_rtrcredit:1;    /* taken a globel router credit */
        unsigned int          msg_peerrtrcredit:1; /* taken a peer router credit */
        unsigned int          msg_onactivelist:1; /* on the activelist */
        unsigned int          msg_rdma_get:1;

        struct lnet_peer_ni  *msg_txpeer;         /* peer I'm sending to */
        struct lnet_peer_ni  *msg_rxpeer;         /* peer I received from */

        void                 *msg_private;
        struct lnet_libmd    *msg_md;
        /* the NI the message was sent or received over */
        struct lnet_ni       *msg_txni;
        struct lnet_ni       *msg_rxni;

        unsigned int          msg_len;
        unsigned int          msg_wanted;
        unsigned int          msg_offset;
        unsigned int          msg_niov;
        struct kvec          *msg_iov;
        lnet_kiov_t          *msg_kiov;

        struct lnet_event       msg_ev;
        struct lnet_hdr         msg_hdr;
};

struct lnet_libhandle {
        struct list_head        lh_hash_chain;
        __u64                   lh_cookie;
};

#define lh_entry(ptr, type, member) \
        ((type *)((char *)(ptr)-(char *)(&((type *)0)->member)))

struct lnet_eq {
        lnet_eq_handler_t       eq_callback;
        int                     **eq_refs;      /* percpt refcount for EQ */
};

struct lnet_me {
        struct list_head        me_list;
        int                     me_cpt;
        struct lnet_process_id  me_match_id;
        unsigned int            me_portal;
        unsigned int            me_pos;         /* hash offset in mt_hash */
        __u64                   me_match_bits;
        __u64                   me_ignore_bits;
        enum lnet_unlink        me_unlink;
        struct lnet_libmd      *me_md;
};

struct lnet_libmd {
        struct list_head         md_list;
        struct lnet_libhandle    md_lh;
        struct lnet_me          *md_me;
        char                    *md_start;
        unsigned int             md_offset;
        unsigned int             md_length;
        unsigned int             md_max_size;
        int                      md_threshold;
        int                      md_refcount;
        unsigned int             md_options;
        unsigned int             md_flags;
        unsigned int             md_niov;       /* # frags at end of struct */
        void                    *md_user_ptr;
        struct lnet_rsp_tracker *md_rspt_ptr;
        struct lnet_eq          *md_eq;
        struct lnet_handle_md    md_bulk_handle;
        union {
                struct kvec      iov[LNET_MAX_IOV];
                lnet_kiov_t      kiov[LNET_MAX_IOV];
        } md_iov;
};

#define LNET_MD_FLAG_ZOMBIE      (1 << 0)
#define LNET_MD_FLAG_AUTO_UNLINK (1 << 1)
#define LNET_MD_FLAG_ABORTED     (1 << 2)

struct lnet_test_peer {
        /* info about peers we are trying to fail */
        struct list_head        tp_list;        /* ln_test_peers */
        lnet_nid_t              tp_nid;         /* matching nid */
        unsigned int            tp_threshold;   /* # failures to simulate */
};

#define LNET_COOKIE_TYPE_MD    1
#define LNET_COOKIE_TYPE_ME    2
#define LNET_COOKIE_TYPE_EQ    3
#define LNET_COOKIE_TYPE_BITS  2
#define LNET_COOKIE_MASK        ((1ULL << LNET_COOKIE_TYPE_BITS) - 1ULL)

struct lnet_ni;                                  /* forward ref */
struct socket;

struct lnet_lnd {
        /* fields initialized by the LND */
        __u32                   lnd_type;

        int  (*lnd_startup)(struct lnet_ni *ni);
        void (*lnd_shutdown)(struct lnet_ni *ni);
        int  (*lnd_ctl)(struct lnet_ni *ni, unsigned int cmd, void *arg);

        /* In data movement APIs below, payload buffers are described as a set
         * of 'niov' fragments which are...
         * EITHER
         *    in virtual memory (struct kvec *iov != NULL)
         * OR
         *    in pages (kernel only: plt_kiov_t *kiov != NULL).
         * The LND may NOT overwrite these fragment descriptors.
         * An 'offset' and may specify a byte offset within the set of
         * fragments to start from
         */

        /* Start sending a preformatted message.  'private' is NULL for PUT and
         * GET messages; otherwise this is a response to an incoming message
         * and 'private' is the 'private' passed to lnet_parse().  Return
         * non-zero for immediate failure, otherwise complete later with
         * lnet_finalize() */
        int (*lnd_send)(struct lnet_ni *ni, void *private,
                        struct lnet_msg *msg);

        /* Start receiving 'mlen' bytes of payload data, skipping the following
         * 'rlen' - 'mlen' bytes. 'private' is the 'private' passed to
         * lnet_parse().  Return non-zero for immedaite failure, otherwise
         * complete later with lnet_finalize().  This also gives back a receive
         * credit if the LND does flow control. */
        int (*lnd_recv)(struct lnet_ni *ni, void *private, struct lnet_msg *msg,
                        int delayed, unsigned int niov,
                        struct kvec *iov, lnet_kiov_t *kiov,
                        unsigned int offset, unsigned int mlen, unsigned int rlen);

        /* lnet_parse() has had to delay processing of this message
         * (e.g. waiting for a forwarding buffer or send credits).  Give the
         * LND a chance to free urgently needed resources.  If called, return 0
         * for success and do NOT give back a receive credit; that has to wait
         * until lnd_recv() gets called.  On failure return < 0 and
         * release resources; lnd_recv() will not be called. */
        int (*lnd_eager_recv)(struct lnet_ni *ni, void *private,
                              struct lnet_msg *msg, void **new_privatep);

        /* notification of peer down */
        void (*lnd_notify_peer_down)(lnet_nid_t peer);

        /* accept a new connection */
        int (*lnd_accept)(struct lnet_ni *ni, struct socket *sock);
};

struct lnet_tx_queue {
        int                     tq_credits;     /* # tx credits free */
        int                     tq_credits_min; /* lowest it's been */
        int                     tq_credits_max; /* total # tx credits */
        struct list_head        tq_delayed;     /* delayed TXs */
};

enum lnet_net_state {
        /* set when net block is allocated */
        LNET_NET_STATE_INIT = 0,
        /* set when NIs in net are started successfully */
        LNET_NET_STATE_ACTIVE,
        /* set if all NIs in net are in FAILED state */
        LNET_NET_STATE_INACTIVE,
        /* set when shutting down a NET */
        LNET_NET_STATE_DELETING
};

enum lnet_ni_state {
        /* initial state when NI is created */
        LNET_NI_STATE_INIT = 0,
        /* set when NI is brought up */
        LNET_NI_STATE_ACTIVE,
        /* set when NI is being shutdown */
        LNET_NI_STATE_DELETING,
};

#define LNET_NI_RECOVERY_PENDING        BIT(0)
#define LNET_NI_RECOVERY_FAILED         BIT(1)

enum lnet_stats_type {
        LNET_STATS_TYPE_SEND = 0,
        LNET_STATS_TYPE_RECV,
        LNET_STATS_TYPE_DROP
};

struct lnet_comm_count {
        atomic_t co_get_count;
        atomic_t co_put_count;
        atomic_t co_reply_count;
        atomic_t co_ack_count;
        atomic_t co_hello_count;
};

struct lnet_element_stats {
        struct lnet_comm_count el_send_stats;
        struct lnet_comm_count el_recv_stats;
        struct lnet_comm_count el_drop_stats;
};

struct lnet_health_local_stats {
        atomic_t hlt_local_interrupt;
        atomic_t hlt_local_dropped;
        atomic_t hlt_local_aborted;
        atomic_t hlt_local_no_route;
        atomic_t hlt_local_timeout;
        atomic_t hlt_local_error;
};

struct lnet_health_remote_stats {
        atomic_t hlt_remote_dropped;
        atomic_t hlt_remote_timeout;
        atomic_t hlt_remote_error;
        atomic_t hlt_network_timeout;
};

struct lnet_net {
        /* chain on the ln_nets */
        struct list_head        net_list;

        /* net ID, which is composed of
         * (net_type << 16) | net_num.
         * net_type can be one of the enumerated types defined in
         * lnet/include/lnet/nidstr.h */
        __u32                   net_id;

        /* priority of the network */
        __u32                   net_prio;

        /* total number of CPTs in the array */
        __u32                   net_ncpts;

        /* cumulative CPTs of all NIs in this net */
        __u32                   *net_cpts;

        /* network tunables */
        struct lnet_ioctl_config_lnd_cmn_tunables net_tunables;

        /*
         * boolean to indicate that the tunables have been set and
         * shouldn't be reset
         */
        bool                    net_tunables_set;

        /* procedural interface */
        const struct lnet_lnd   *net_lnd;

        /* list of NIs on this net */
        struct list_head        net_ni_list;

        /* list of NIs being added, but not started yet */
        struct list_head        net_ni_added;

        /* dying LND instances */
        struct list_head        net_ni_zombie;

        /* when I was last alive */
        time64_t                net_last_alive;

        /* protects access to net_last_alive */
        spinlock_t              net_lock;
};

struct lnet_ni {
        /* chain on the lnet_net structure */
        struct list_head        ni_netlist;

        /* chain on the recovery queue */
        struct list_head        ni_recovery;

        /* MD handle for recovery ping */
        struct lnet_handle_md   ni_ping_mdh;

        spinlock_t              ni_lock;

        /* number of CPTs */
        int                     ni_ncpts;

        /* bond NI on some CPTs */
        __u32                   *ni_cpts;

        /* interface's NID */
        lnet_nid_t              ni_nid;

        /* instance-specific data */
        void                    *ni_data;

        /* per ni credits */
        atomic_t                ni_tx_credits;

        /* percpt TX queues */
        struct lnet_tx_queue    **ni_tx_queues;

        /* percpt reference count */
        int                     **ni_refs;

        /* pointer to parent network */
        struct lnet_net         *ni_net;

        /* my health status */
        struct lnet_ni_status   *ni_status;

        /* NI FSM. Protected by lnet_ni_lock() */
        enum lnet_ni_state      ni_state;

        /* Recovery state. Protected by lnet_ni_lock() */
        __u32                   ni_recovery_state;

        /* per NI LND tunables */
        struct lnet_lnd_tunables ni_lnd_tunables;

        /* lnd tunables set explicitly */
        bool ni_lnd_tunables_set;

        /* NI statistics */
        struct lnet_element_stats ni_stats;
        struct lnet_health_local_stats ni_hstats;

        /* physical device CPT */
        int                     ni_dev_cpt;

        /* sequence number used to round robin over nis within a net */
        __u32                   ni_seq;

        /*
         * health value
         *      initialized to LNET_MAX_HEALTH_VALUE
         * Value is decremented every time we fail to send a message over
         * this NI because of a NI specific failure.
         * Value is incremented if we successfully send a message.
         */
        atomic_t                ni_healthv;

        /*
         * Set to 1 by the LND when it receives an event telling it the device
         * has gone into a fatal state. Set to 0 when the LND receives an
         * even telling it the device is back online.
         */
        atomic_t                ni_fatal_error_on;

        /*
         * equivalent interfaces to use
         * This is an array because socklnd bonding can still be configured
         */
        char                    *ni_interfaces[LNET_INTERFACES_NUM];
        struct net              *ni_net_ns;     /* original net namespace */
};

#define LNET_PROTO_PING_MATCHBITS       0x8000000000000000LL

/*
 * Descriptor of a ping info buffer: keep a separate indicator of the
 * size and a reference count. The type is used both as a source and
 * sink of data, so we need to keep some information outside of the
 * area that may be overwritten by network data.
 */
struct lnet_ping_buffer {
        int                     pb_nnis;
        atomic_t                pb_refcnt;
        struct lnet_ping_info   pb_info;
};

#define LNET_PING_BUFFER_SIZE(NNIDS) \
        offsetof(struct lnet_ping_buffer, pb_info.pi_ni[NNIDS])
#define LNET_PING_BUFFER_LONI(PBUF)     ((PBUF)->pb_info.pi_ni[0].ns_nid)
#define LNET_PING_BUFFER_SEQNO(PBUF)    ((PBUF)->pb_info.pi_ni[0].ns_status)

#define LNET_PING_INFO_TO_BUFFER(PINFO) \
        container_of((PINFO), struct lnet_ping_buffer, pb_info)

struct lnet_peer_ni {
        /* chain on lpn_peer_nis */
        struct list_head        lpni_peer_nis;
        /* chain on remote peer list */
        struct list_head        lpni_on_remote_peer_ni_list;
        /* chain on recovery queue */
        struct list_head        lpni_recovery;
        /* chain on peer hash */
        struct list_head        lpni_hashlist;
        /* messages blocking for tx credits */
        struct list_head        lpni_txq;
        /* pointer to peer net I'm part of */
        struct lnet_peer_net    *lpni_peer_net;
        /* statistics kept on each peer NI */
        struct lnet_element_stats lpni_stats;
        struct lnet_health_remote_stats lpni_hstats;
        /* spin lock protecting credits and lpni_txq */
        spinlock_t              lpni_lock;
        /* # tx credits available */
        int                     lpni_txcredits;
        /* low water mark */
        int                     lpni_mintxcredits;
        /*
         * Each peer_ni in a gateway maintains its own credits. This
         * allows more traffic to gateways that have multiple interfaces.
         */
        /* # router credits */
        int                     lpni_rtrcredits;
        /* low water mark */
        int                     lpni_minrtrcredits;
        /* bytes queued for sending */
        long                    lpni_txqnob;
        /* network peer is on */
        struct lnet_net         *lpni_net;
        /* peer's NID */
        lnet_nid_t              lpni_nid;
        /* # refs */
        atomic_t                lpni_refcount;
        /* health value for the peer */
        atomic_t                lpni_healthv;
        /* recovery ping mdh */
        struct lnet_handle_md   lpni_recovery_ping_mdh;
        /* CPT this peer attached on */
        int                     lpni_cpt;
        /* state flags -- protected by lpni_lock */
        unsigned                lpni_state;
        /* status of the peer NI as reported by the peer */
        __u32                   lpni_ns_status;
        /* sequence number used to round robin over peer nis within a net */
        __u32                   lpni_seq;
        /* sequence number used to round robin over gateways */
        __u32                   lpni_gw_seq;
        /* returned RC ping features. Protected with lpni_lock */
        unsigned int            lpni_ping_feats;
        /* time last message was received from the peer */
        time64_t                lpni_last_alive;
        /* preferred local nids: if only one, use lpni_pref.nid */
        union lpni_pref {
                lnet_nid_t      nid;
                lnet_nid_t      *nids;
        } lpni_pref;
        /* number of preferred NIDs in lnpi_pref_nids */
        __u32                   lpni_pref_nnids;
};

/* Preferred path added due to traffic on non-MR peer_ni */
#define LNET_PEER_NI_NON_MR_PREF        (1 << 0)
/* peer is being recovered. */
#define LNET_PEER_NI_RECOVERY_PENDING   (1 << 1)
/* recovery ping failed */
#define LNET_PEER_NI_RECOVERY_FAILED    (1 << 2)
/* peer is being deleted */
#define LNET_PEER_NI_DELETING           (1 << 3)

struct lnet_peer {
        /* chain on pt_peer_list */
        struct list_head        lp_peer_list;

        /* list of peer nets */
        struct list_head        lp_peer_nets;

        /* list of messages pending discovery*/
        struct list_head        lp_dc_pendq;

        /* chain on router list */
        struct list_head        lp_rtr_list;

        /* primary NID of the peer */
        lnet_nid_t              lp_primary_nid;

        /* net to perform discovery on */
        __u32                   lp_disc_net_id;

        /* CPT of peer_table */
        int                     lp_cpt;

        /* number of NIDs on this peer */
        int                     lp_nnis;

        /* # refs from lnet_route::lr_gateway */
        int                     lp_rtr_refcount;

        /*
         * peer specific health sensitivity value to decrement peer nis in
         * this peer with if set to something other than 0
         */
        __u32                   lp_health_sensitivity;

        /* messages blocking for router credits */
        struct list_head        lp_rtrq;

        /* routes on this peer */
        struct list_head        lp_routes;

        /* reference count */
        atomic_t                lp_refcount;

        /* lock protecting peer state flags and lpni_rtrq */
        spinlock_t              lp_lock;

        /* peer state flags */
        unsigned                lp_state;

        /* buffer for data pushed by peer */
        struct lnet_ping_buffer *lp_data;

        /* MD handle for ping in progress */
        struct lnet_handle_md   lp_ping_mdh;

        /* MD handle for push in progress */
        struct lnet_handle_md   lp_push_mdh;

        /* number of NIDs for sizing push data */
        int                     lp_data_nnis;

        /* NI config sequence number of peer */
        __u32                   lp_peer_seqno;

        /* Local NI config sequence number acked by peer */
        __u32                   lp_node_seqno;

        /* Local NI config sequence number sent to peer */
        __u32                   lp_node_seqno_sent;

        /* Ping error encountered during discovery. */
        int                     lp_ping_error;

        /* Push error encountered during discovery. */
        int                     lp_push_error;

        /* Error encountered during discovery. */
        int                     lp_dc_error;

        /* time it was put on the ln_dc_working queue */
        time64_t                lp_last_queued;

        /* link on discovery-related lists */
        struct list_head        lp_dc_list;

        /* tasks waiting on discovery of this peer */
        wait_queue_head_t       lp_dc_waitq;

        /* cached peer aliveness */
        bool                    lp_alive;
};

/*
 * The status flags in lp_state. Their semantics have chosen so that
 * lp_state can be zero-initialized.
 *
 * A peer is marked MULTI_RAIL in two cases: it was configured using DLC
 * as multi-rail aware, or the LNET_PING_FEAT_MULTI_RAIL bit was set.
 *
 * A peer is marked NO_DISCOVERY if the LNET_PING_FEAT_DISCOVERY bit was
 * NOT set when the peer was pinged by discovery.
 *
 * A peer is marked ROUTER if it indicates so in the feature bit.
 */
#define LNET_PEER_MULTI_RAIL    (1 << 0)        /* Multi-rail aware */
#define LNET_PEER_NO_DISCOVERY  (1 << 1)        /* Peer disabled discovery */
#define LNET_PEER_ROUTER_ENABLED (1 << 2)       /* router feature enabled */

/*
 * A peer is marked CONFIGURED if it was configured by DLC.
 *
 * In addition, a peer is marked DISCOVERED if it has fully passed
 * through Peer Discovery.
 *
 * When Peer Discovery is disabled, the discovery thread will mark
 * peers REDISCOVER to indicate that they should be re-examined if
 * discovery is (re)enabled on the node.
 *
 * A peer that was created as the result of inbound traffic will not
 * be marked at all.
 */
#define LNET_PEER_CONFIGURED    (1 << 3)        /* Configured via DLC */
#define LNET_PEER_DISCOVERED    (1 << 4)        /* Peer was discovered */
#define LNET_PEER_REDISCOVER    (1 << 5)        /* Discovery was disabled */
/*
 * A peer is marked DISCOVERING when discovery is in progress.
 * The other flags below correspond to stages of discovery.
 */
#define LNET_PEER_DISCOVERING   (1 << 6)        /* Discovering */
#define LNET_PEER_DATA_PRESENT  (1 << 7)        /* Remote peer data present */
#define LNET_PEER_NIDS_UPTODATE (1 << 8)        /* Remote peer info uptodate */
#define LNET_PEER_PING_SENT     (1 << 9)        /* Waiting for REPLY to Ping */
#define LNET_PEER_PUSH_SENT     (1 << 10)       /* Waiting for ACK of Push */
#define LNET_PEER_PING_FAILED   (1 << 11)       /* Ping send failure */
#define LNET_PEER_PUSH_FAILED   (1 << 12)       /* Push send failure */
/*
 * A ping can be forced as a way to fix up state, or as a manual
 * intervention by an admin.
 * A push can be forced in circumstances that would normally not
 * allow for one to happen.
 */
#define LNET_PEER_FORCE_PING    (1 << 13)       /* Forced Ping */
#define LNET_PEER_FORCE_PUSH    (1 << 14)       /* Forced Push */

/* force delete even if router */
#define LNET_PEER_RTR_NI_FORCE_DEL (1 << 15)

/* gw undergoing alive discovery */
#define LNET_PEER_RTR_DISCOVERY (1 << 16)
/* gw has undergone discovery (does not indicate success or failure) */
#define LNET_PEER_RTR_DISCOVERED (1 << 17)

struct lnet_peer_net {
        /* chain on lp_peer_nets */
        struct list_head        lpn_peer_nets;

        /* list of peer_nis on this network */
        struct list_head        lpn_peer_nis;

        /* pointer to the peer I'm part of */
        struct lnet_peer        *lpn_peer;

        /* Net ID */
        __u32                   lpn_net_id;

        /* peer net health */
        int                     lpn_healthv;

        /* time of last router net check attempt */
        time64_t                lpn_rtrcheck_timestamp;

        /* selection sequence number */
        __u32                   lpn_seq;

        /* reference count */
        atomic_t                lpn_refcount;
};

/* peer hash size */
#define LNET_PEER_HASH_BITS     9
#define LNET_PEER_HASH_SIZE     (1 << LNET_PEER_HASH_BITS)

/*
 * peer hash table - one per CPT
 *
 * protected by lnet_net_lock/EX for update
 *    pt_version
 *    pt_hash[...]
 *    pt_peer_list
 *    pt_peers
 * protected by pt_zombie_lock:
 *    pt_zombie_list
 *    pt_zombies
 *
 * pt_zombie lock nests inside lnet_net_lock
 */
struct lnet_peer_table {
        int                     pt_version;     /* /proc validity stamp */
        struct list_head        *pt_hash;       /* NID->peer hash */
        struct list_head        pt_peer_list;   /* peers */
        int                     pt_peers;       /* # peers */
        struct list_head        pt_zombie_list; /* zombie peer_ni */
        int                     pt_zombies;     /* # zombie peers_ni */
        spinlock_t              pt_zombie_lock; /* protect list and count */
};

/* peer aliveness is enabled only on routers for peers in a network where the
 * struct lnet_ni::ni_peertimeout has been set to a positive value
 */
#define lnet_peer_aliveness_enabled(lp) (the_lnet.ln_routing != 0 && \
                                        ((lp)->lpni_net) && \
                                        (lp)->lpni_net->net_tunables.lct_peer_timeout > 0)

struct lnet_route {
        struct list_head        lr_list;        /* chain on net */
        struct list_head        lr_gwlist;      /* chain on gateway */
        struct lnet_peer        *lr_gateway;    /* router node */
        lnet_nid_t              lr_nid;         /* NID used to add route */
        __u32                   lr_net;         /* remote network number */
        __u32                   lr_lnet;        /* local network number */
        int                     lr_seq;         /* sequence for round-robin */
        __u32                   lr_hops;        /* how far I am */
        unsigned int            lr_priority;    /* route priority */
        bool                    lr_alive;       /* cached route aliveness */
};

#define LNET_REMOTE_NETS_HASH_DEFAULT   (1U << 7)
#define LNET_REMOTE_NETS_HASH_MAX       (1U << 16)
#define LNET_REMOTE_NETS_HASH_SIZE      (1 << the_lnet.ln_remote_nets_hbits)

struct lnet_remotenet {
        /* chain on ln_remote_nets_hash */
        struct list_head        lrn_list;
        /* routes to me */
        struct list_head        lrn_routes;
        /* my net number */
        __u32                   lrn_net;
};

/** lnet message has credit and can be submitted to lnd for send/receive */
#define LNET_CREDIT_OK          0
/** lnet message is waiting for credit */
#define LNET_CREDIT_WAIT        1
/** lnet message is waiting for discovery */
#define LNET_DC_WAIT            2

struct lnet_rtrbufpool {
        /* my free buffer pool */
        struct list_head        rbp_bufs;
        /* messages blocking for a buffer */
        struct list_head        rbp_msgs;
        /* # pages in each buffer */
        int                     rbp_npages;
        /* requested number of buffers */
        int                     rbp_req_nbuffers;
        /* # buffers actually allocated */
        int                     rbp_nbuffers;
        /* # free buffers / blocked messages */
        int                     rbp_credits;
        /* low water mark */
        int                     rbp_mincredits;
};

struct lnet_rtrbuf {
        struct list_head         rb_list;       /* chain on rbp_bufs */
        struct lnet_rtrbufpool  *rb_pool;       /* owning pool */
        lnet_kiov_t              rb_kiov[0];    /* the buffer space */
};

#define LNET_PEER_HASHSIZE   503                /* prime! */

enum lnet_match_flags {
        /* Didn't match anything */
        LNET_MATCHMD_NONE       = (1 << 0),
        /* Matched OK */
        LNET_MATCHMD_OK         = (1 << 1),
        /* Must be discarded */
        LNET_MATCHMD_DROP       = (1 << 2),
        /* match and buffer is exhausted */
        LNET_MATCHMD_EXHAUSTED  = (1 << 3),
        /* match or drop */
        LNET_MATCHMD_FINISH     = (LNET_MATCHMD_OK | LNET_MATCHMD_DROP),
};

/* Options for struct lnet_portal::ptl_options */
#define LNET_PTL_LAZY               (1 << 0)
#define LNET_PTL_MATCH_UNIQUE       (1 << 1)    /* unique match, for RDMA */
#define LNET_PTL_MATCH_WILDCARD     (1 << 2)    /* wildcard match, request portal */

/* parameter for matching operations (GET, PUT) */
struct lnet_match_info {
        __u64                   mi_mbits;
        struct lnet_process_id  mi_id;
        unsigned int            mi_cpt;
        unsigned int            mi_opc;
        unsigned int            mi_portal;
        unsigned int            mi_rlength;
        unsigned int            mi_roffset;
};

/* ME hash of RDMA portal */
#define LNET_MT_HASH_BITS               8
#define LNET_MT_HASH_SIZE               (1 << LNET_MT_HASH_BITS)
#define LNET_MT_HASH_MASK               (LNET_MT_HASH_SIZE - 1)
/* we allocate (LNET_MT_HASH_SIZE + 1) entries for lnet_match_table::mt_hash,
 * the last entry is reserved for MEs with ignore-bits */
#define LNET_MT_HASH_IGNORE             LNET_MT_HASH_SIZE
/* __u64 has 2^6 bits, so need 2^(LNET_MT_HASH_BITS - LNET_MT_BITS_U64) which
 * is 4 __u64s as bit-map, and add an extra __u64 (only use one bit) for the
 * ME-list with ignore-bits, which is mtable::mt_hash[LNET_MT_HASH_IGNORE] */
#define LNET_MT_BITS_U64                6       /* 2^6 bits */
#define LNET_MT_EXHAUSTED_BITS          (LNET_MT_HASH_BITS - LNET_MT_BITS_U64)
#define LNET_MT_EXHAUSTED_BMAP          ((1 << LNET_MT_EXHAUSTED_BITS) + 1)

/* portal match table */
struct lnet_match_table {
        /* reserved for upcoming patches, CPU partition ID */
        unsigned int            mt_cpt;
        unsigned int            mt_portal;      /* portal index */
        /* match table is set as "enabled" if there's non-exhausted MD
         * attached on mt_mhash, it's only valid for wildcard portal */
        unsigned int            mt_enabled;
        /* bitmap to flag whether MEs on mt_hash are exhausted or not */
        __u64                   mt_exhausted[LNET_MT_EXHAUSTED_BMAP];
        struct list_head        *mt_mhash;      /* matching hash */
};

/* these are only useful for wildcard portal */
/* Turn off message rotor for wildcard portals */
#define LNET_PTL_ROTOR_OFF      0
/* round-robin dispatch all PUT messages for wildcard portals */
#define LNET_PTL_ROTOR_ON       1
/* round-robin dispatch routed PUT message for wildcard portals */
#define LNET_PTL_ROTOR_RR_RT    2
/* dispatch routed PUT message by hashing source NID for wildcard portals */
#define LNET_PTL_ROTOR_HASH_RT  3

struct lnet_portal {
        spinlock_t              ptl_lock;
        unsigned int            ptl_index;      /* portal ID, reserved */
        /* flags on this portal: lazy, unique... */
        unsigned int            ptl_options;
        /* list of messages which are stealing buffer */
        struct list_head        ptl_msg_stealing;
        /* messages blocking for MD */
        struct list_head        ptl_msg_delayed;
        /* Match table for each CPT */
        struct lnet_match_table **ptl_mtables;
        /* spread rotor of incoming "PUT" */
        unsigned int            ptl_rotor;
        /* # active entries for this portal */
        int                     ptl_mt_nmaps;
        /* array of active entries' cpu-partition-id */
        int                     ptl_mt_maps[0];
};

#define LNET_LH_HASH_BITS       12
#define LNET_LH_HASH_SIZE       (1ULL << LNET_LH_HASH_BITS)
#define LNET_LH_HASH_MASK       (LNET_LH_HASH_SIZE - 1)

/* resource container (ME, MD, EQ) */
struct lnet_res_container {
        unsigned int            rec_type;       /* container type */
        __u64                   rec_lh_cookie;  /* cookie generator */
        struct list_head        rec_active;     /* active resource list */
        struct list_head        *rec_lh_hash;   /* handle hash */
};

/* message container */
struct lnet_msg_container {
        int                     msc_init;       /* initialized or not */
        /* max # threads finalizing */
        int                     msc_nfinalizers;
        /* msgs waiting to complete finalizing */
        struct list_head        msc_finalizing;
        /* msgs waiting to be resent */
        struct list_head        msc_resending;
        struct list_head        msc_active;     /* active message list */
        /* threads doing finalization */
        void                    **msc_finalizers;
        /* threads doing resends */
        void                    **msc_resenders;
};

/* Peer Discovery states */
#define LNET_DC_STATE_SHUTDOWN          0       /* not started */
#define LNET_DC_STATE_RUNNING           1       /* started up OK */
#define LNET_DC_STATE_STOPPING          2       /* telling thread to stop */

/* Router Checker states */
#define LNET_MT_STATE_SHUTDOWN          0       /* not started */
#define LNET_MT_STATE_RUNNING           1       /* started up OK */
#define LNET_MT_STATE_STOPPING          2       /* telling thread to stop */

/* LNet states */
#define LNET_STATE_SHUTDOWN             0       /* not started */
#define LNET_STATE_RUNNING              1       /* started up OK */
#define LNET_STATE_STOPPING             2       /* telling thread to stop */

struct lnet {
        /* CPU partition table of LNet */
        struct cfs_cpt_table            *ln_cpt_table;
        /* number of CPTs in ln_cpt_table */
        unsigned int                    ln_cpt_number;
        unsigned int                    ln_cpt_bits;

        /* protect LNet resources (ME/MD/EQ) */
        struct cfs_percpt_lock          *ln_res_lock;
        /* # portals */
        int                             ln_nportals;
        /* the vector of portals */
        struct lnet_portal              **ln_portals;
        /* percpt MD container */
        struct lnet_res_container       **ln_md_containers;

        /* Event Queue container */
        struct lnet_res_container       ln_eq_container;
        spinlock_t                      ln_eq_wait_lock;

        unsigned int                    ln_remote_nets_hbits;

        /* protect NI, peer table, credits, routers, rtrbuf... */
        struct cfs_percpt_lock          *ln_net_lock;
        /* percpt message containers for active/finalizing/freed message */
        struct lnet_msg_container       **ln_msg_containers;
        struct lnet_counters            **ln_counters;
        struct lnet_peer_table          **ln_peer_tables;
        /* list of peer nis not on a local network */
        struct list_head                ln_remote_peer_ni_list;
        /* failure simulation */
        struct list_head                ln_test_peers;
        struct list_head                ln_drop_rules;
        struct list_head                ln_delay_rules;
        /* LND instances */
        struct list_head                ln_nets;
        /* the loopback NI */
        struct lnet_ni                  *ln_loni;
        /* network zombie list */
        struct list_head                ln_net_zombie;
        /* resend messages list */
        struct list_head                ln_msg_resend;
        /* spin lock to protect the msg resend list */
        spinlock_t                      ln_msg_resend_lock;

        /* remote networks with routes to them */
        struct list_head                *ln_remote_nets_hash;
        /* validity stamp */
        __u64                           ln_remote_nets_version;
        /* list of all known routers */
        struct list_head                ln_routers;
        /* validity stamp */
        __u64                           ln_routers_version;
        /* percpt router buffer pools */
        struct lnet_rtrbufpool          **ln_rtrpools;

        /*
         * Ping target / Push source
         *
         * The ping target and push source share a single buffer. The
         * ln_ping_target is protected against concurrent updates by
         * ln_api_mutex.
         */
        struct lnet_handle_md           ln_ping_target_md;
        struct lnet_eq                  *ln_ping_target_eq;
        struct lnet_ping_buffer         *ln_ping_target;
        atomic_t                        ln_ping_target_seqno;

        /*
         * Push Target
         *
         * ln_push_nnis contains the desired size of the push target.
         * The lnet_net_lock is used to handle update races. The old
         * buffer may linger a while after it has been unlinked, in
         * which case the event handler cleans up.
         */
        struct lnet_eq                  *ln_push_target_eq;
        struct lnet_handle_md           ln_push_target_md;
        struct lnet_ping_buffer         *ln_push_target;
        int                             ln_push_target_nnis;

        /* discovery event queue handle */
        struct lnet_eq                  *ln_dc_eq;
        /* discovery requests */
        struct list_head                ln_dc_request;
        /* discovery working list */
        struct list_head                ln_dc_working;
        /* discovery expired list */
        struct list_head                ln_dc_expired;
        /* discovery thread wait queue */
        wait_queue_head_t               ln_dc_waitq;
        /* discovery startup/shutdown state */
        int                             ln_dc_state;

        /* monitor thread startup/shutdown state */
        int                             ln_mt_state;
        /* serialise startup/shutdown */
        struct semaphore                ln_mt_signal;

        struct mutex                    ln_api_mutex;
        struct mutex                    ln_lnd_mutex;
        /* Have I called LNetNIInit myself? */
        int                             ln_niinit_self;
        /* LNetNIInit/LNetNIFini counter */
        int                             ln_refcount;
        /* SHUTDOWN/RUNNING/STOPPING */
        int                             ln_state;

        int                             ln_routing;     /* am I a router? */
        lnet_pid_t                      ln_pid;         /* requested pid */
        /* uniquely identifies this ni in this epoch */
        __u64                           ln_interface_cookie;
        /* registered LNDs */
        const struct lnet_lnd           *ln_lnds[NUM_LNDS];

        /* test protocol compatibility flags */
        unsigned long                   ln_testprotocompat;

        /* 0 - load the NIs from the mod params
         * 1 - do not load the NIs from the mod params
         * Reverse logic to ensure that other calls to LNetNIInit
         * need no change
         */
        bool                            ln_nis_from_mod_params;

        /*
         * completion for the monitor thread. The monitor thread takes care of
         * checking routes, timedout messages and resending messages.
         */
        struct completion               ln_mt_wait_complete;

        /* per-cpt resend queues */
        struct list_head                **ln_mt_resendqs;
        /* local NIs to recover */
        struct list_head                ln_mt_localNIRecovq;
        /* local NIs to recover */
        struct list_head                ln_mt_peerNIRecovq;
        /*
         * An array of queues for GET/PUT waiting for REPLY/ACK respectively.
         * There are CPT number of queues. Since response trackers will be
         * added on the fast path we can't afford to grab the exclusive
         * net lock to protect these queues. The CPT will be calculated
         * based on the mdh cookie.
         */
        struct list_head                **ln_mt_rstq;
        /*
         * A response tracker becomes a zombie when the associated MD is queued
         * for unlink before the response tracker is detached from the MD. An
         * entry on a zombie list can be freed when either the remaining
         * operations on the MD complete or when LNet has shut down.
         */
        struct list_head                **ln_mt_zombie_rstqs;
        /* recovery eq handler */
        struct lnet_eq                  *ln_mt_eq;

        /*
         * Completed when the discovery and monitor threads can enter their
         * work loops
         */
        struct completion               ln_started;
};

#endif