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/*
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 *        BIRD Internet Routing Daemon -- Protocols
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 *
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 *        (c) 1998--2000 Martin Mares <mj@ucw.cz>
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 *
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 *        Can be freely distributed and used under the terms of the GNU GPL.
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 */
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#ifndef _BIRD_PROTOCOL_H_
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#define _BIRD_PROTOCOL_H_
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#include "lib/lists.h"
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#include "lib/resource.h"
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#include "lib/timer.h"
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#include "conf/conf.h"
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struct iface;
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struct ifa;
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struct rte;
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struct neighbor;
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struct rta;
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struct network;
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struct proto_config;
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struct config;
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struct proto;
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struct event;
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struct ea_list;
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struct eattr;
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struct symbol;
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/*
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 *        Routing Protocol
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 */
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struct protocol {
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  node n;
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  char *name;
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  char *template;                        /* Template for automatic generation of names */
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  int name_counter;                        /* Counter for automatic name generation */
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  int attr_class;                        /* Attribute class known to this protocol */
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  void (*preconfig)(struct protocol *, struct config *);        /* Just before configuring */
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  void (*postconfig)(struct proto_config *);                        /* After configuring each instance */
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  struct proto * (*init)(struct proto_config *);                /* Create new instance */
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  int (*reconfigure)(struct proto *, struct proto_config *);        /* Try to reconfigure instance, returns success */
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  void (*dump)(struct proto *);                        /* Debugging dump */
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  void (*dump_attrs)(struct rte *);                /* Dump protocol-dependent attributes */
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  int (*start)(struct proto *);                        /* Start the instance */
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  int (*shutdown)(struct proto *);                /* Stop the instance */
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  void (*get_status)(struct proto *, byte *buf); /* Get instance status (for `show protocols' command) */
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  void (*get_route_info)(struct rte *, byte *buf, struct ea_list *attrs); /* Get route information (for `show route' command) */
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  int (*get_attr)(struct eattr *, byte *buf, int buflen);        /* ASCIIfy dynamic attribute (returns GA_*) */
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};
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void protos_build(void);
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void proto_build(struct protocol *);
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void protos_preconfig(struct config *);
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void protos_postconfig(struct config *);
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void protos_commit(struct config *new, struct config *old, int force_restart, int type);
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void protos_dump_all(void);
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#define GA_UNKNOWN        0                /* Attribute not recognized */
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#define GA_NAME                1                /* Result = name */
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#define GA_FULL                2                /* Result = both name and value */
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/*
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 *        Known protocols
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 */
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extern struct protocol
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  proto_device, proto_rip, proto_static,
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  proto_ospf, proto_pipe, proto_bgp;
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/*
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 *        Routing Protocol Instance
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 */
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struct proto_config {
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  node n;
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  struct config *global;                /* Global configuration data */
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  struct protocol *protocol;                /* Protocol */
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  struct proto *proto;                        /* Instance we've created */
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  char *name;
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  unsigned debug, preference, disabled;        /* Generic parameters */
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  u32 router_id;                        /* Protocol specific router ID */
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  struct rtable_config *table;                /* Table we're attached to */
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  struct filter *in_filter, *out_filter; /* Attached filters */
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  /* Protocol-specific data follow... */
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};
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  /* Protocol statistics */
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struct proto_stats {
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  /* Import - from protocol to core */
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  u32 imp_routes;                /* Number of routes successfully imported to the (adjacent) routing table */
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  u32 pref_routes;                /* Number of routes that are preferred, sum over all routing table */
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  u32 imp_updates_received;        /* Number of route updates received */
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  u32 imp_updates_invalid;        /* Number of route updates rejected as invalid */
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  u32 imp_updates_filtered;        /* Number of route updates rejected by filters */
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  u32 imp_updates_ignored;        /* Number of route updates rejected as already in route table */
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  u32 imp_updates_accepted;        /* Number of route updates accepted and imported */
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  u32 imp_withdraws_received;        /* Number of route withdraws received */
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  u32 imp_withdraws_invalid;        /* Number of route withdraws rejected as invalid */
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  u32 imp_withdraws_ignored;        /* Number of route withdraws rejected as already not in route table */
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  u32 imp_withdraws_accepted;        /* Number of route withdraws accepted and processed */
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  /* Export - from core to protocol */
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  u32 exp_routes;                /* Number of routes successfully exported to the protocol */
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  u32 exp_updates_received;        /* Number of route updates received */
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  u32 exp_updates_rejected;        /* Number of route updates rejected by protocol */
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  u32 exp_updates_filtered;        /* Number of route updates rejected by filters */
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  u32 exp_updates_accepted;        /* Number of route updates accepted and exported */ 
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  u32 exp_withdraws_received;        /* Number of route withdraws received */
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  u32 exp_withdraws_accepted;        /* Number of route withdraws accepted and processed */
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};
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struct proto {
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  node n;                                /* Node in *_proto_list */
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  node glob_node;                        /* Node in global proto_list */
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  struct protocol *proto;                /* Protocol */
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  struct proto_config *cf;                /* Configuration data */
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  struct proto_config *cf_new;                /* Configuration we want to switch to after shutdown (NULL=delete) */
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  pool *pool;                                /* Pool containing local objects */
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  struct event *attn;                        /* "Pay attention" event */
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  char *name;                                /* Name of this instance (== cf->name) */
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  unsigned debug;                        /* Debugging flags */
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  unsigned preference;                        /* Default route preference */
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  int min_scope;                        /* Minimal route scope accepted */
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  unsigned accept_ra_types;                /* Which types of route announcements are accepted (RA_OPTIMAL or RA_ANY) */
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  unsigned disabled;                        /* Manually disabled */
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  unsigned proto_state;                        /* Protocol state machine (see below) */
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  unsigned core_state;                        /* Core state machine (see below) */
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  unsigned core_goal;                        /* State we want to reach (see below) */
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  unsigned reconfiguring;                /* We're shutting down due to reconfiguration */
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  u32 hash_key;                                /* Random key used for hashing of neighbors */
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  bird_clock_t last_state_change;        /* Time of last state transition */
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  char *last_state_name_announced;        /* Last state name we've announced to the user */
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  struct proto_stats stats;                /* Current protocol statistics */
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  /*
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   *        General protocol hooks:
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   *
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   *           if_notify        Notify protocol about interface state changes.
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   *           ifa_notify        Notify protocol about interface address changes.
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   *           rt_notify        Notify protocol about routing table updates.
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   *           neigh_notify        Notify protocol about neighbor cache events.
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   *           make_tmp_attrs  Construct ea_list from private attrs stored in rte.
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   *           store_tmp_attrs Store private attrs back to the rte.
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   *           import_control  Called as the first step of the route importing process.
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   *                        It can construct a new rte, add private attributes and
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   *                        decide whether the route shall be imported: 1=yes, -1=no,
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   *                        0=process it through the import filter set by the user.
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   */
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  void (*if_notify)(struct proto *, unsigned flags, struct iface *i);
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  void (*ifa_notify)(struct proto *, unsigned flags, struct ifa *a);
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  void (*rt_notify)(struct proto *, struct network *net, struct rte *new, struct rte *old, struct ea_list *attrs);
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  void (*neigh_notify)(struct neighbor *neigh);
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  struct ea_list *(*make_tmp_attrs)(struct rte *rt, struct linpool *pool);
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  void (*store_tmp_attrs)(struct rte *rt, struct ea_list *attrs);
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  int (*import_control)(struct proto *, struct rte **rt, struct ea_list **attrs, struct linpool *pool);
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  /*
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   *        Routing entry hooks (called only for rte's belonging to this protocol):
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   *
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   *           rte_better        Compare two rte's and decide which one is better (1=first, 0=second).
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   *       rte_same        Compare two rte's and decide whether they are identical (1=yes, 0=no).
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   *           rte_insert        Called whenever a rte is inserted to a routing table.
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   *           rte_remove        Called whenever a rte is removed from the routing table.
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   */
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  int (*rte_better)(struct rte *, struct rte *);
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  int (*rte_same)(struct rte *, struct rte *);
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  void (*rte_insert)(struct network *, struct rte *);
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  void (*rte_remove)(struct network *, struct rte *);
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  struct rtable *table;                        /* Our primary routing table */
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  struct filter *in_filter;                /* Input filter */
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  struct filter *out_filter;                /* Output filter */
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  struct announce_hook *ahooks;                /* Announcement hooks for this protocol */
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  struct fib_iterator *feed_iterator;        /* Routing table iterator used during protocol feeding */
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  struct announce_hook *feed_ahook;        /* Announce hook we currently feed */
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  /* Hic sunt protocol-specific data */
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};
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void *proto_new(struct proto_config *, unsigned size);
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void *proto_config_new(struct protocol *, unsigned size);
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void proto_show(struct symbol *, int);
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struct proto *proto_get_named(struct symbol *, struct protocol *);
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void proto_xxable(char *, int);
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void proto_debug(char *, unsigned int);
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static inline u32
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proto_get_router_id(struct proto_config *pc)
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{
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  return pc->router_id ? pc->router_id : pc->global->router_id;
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}
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extern list active_proto_list;
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/*
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 *  Each protocol instance runs two different state machines:
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 *
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 *  [P] The protocol machine: (implemented inside protocol)
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 *
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 *                DOWN    ---->    START
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 *                  ^                   |
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 *                  |                   V
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 *                STOP    <----     UP
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 *
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 *        States:        DOWN        Protocol is down and it's waiting for the core
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 *                        requesting protocol start.
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 *                START        Protocol is waiting for connection with the rest
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 *                        of the network and it's not willing to accept
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 *                        packets. When it connects, it goes to UP state.
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 *                UP        Protocol is up and running. When the network
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 *                        connection breaks down or the core requests
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 *                        protocol to be terminated, it goes to STOP state.
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 *                STOP        Protocol is disconnecting from the network.
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 *                        After it disconnects, it returns to DOWN state.
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 *
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 *        In:        start()        Called in DOWN state to request protocol startup.
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 *                        Returns new state: either UP or START (in this
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 *                        case, the protocol will notify the core when it
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 *                        finally comes UP).
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 *                stop()        Called in START, UP or STOP state to request
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 *                        protocol shutdown. Returns new state: either
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 *                        DOWN or STOP (in this case, the protocol will
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 *                        notify the core when it finally comes DOWN).
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 *
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 *        Out:        proto_notify_state() -- called by protocol instance when
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 *                        it does any state transition not covered by
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 *                        return values of start() and stop(). This includes
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 *                        START->UP (delayed protocol startup), UP->STOP
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 *                        (spontaneous shutdown) and STOP->DOWN (delayed
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 *                        shutdown).
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 */
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#define PS_DOWN 0
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#define PS_START 1
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#define PS_UP 2
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#define PS_STOP 3
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void proto_notify_state(struct proto *p, unsigned state);
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/*
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 *  [F] The feeder machine: (implemented in core routines)
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 *
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 *                HUNGRY    ---->   FEEDING
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 *                 ^                     |
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 *                 |                      V
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 *                FLUSHING  <----   HAPPY
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 *
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 *        States:        HUNGRY        Protocol either administratively down (i.e.,
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 *                        disabled by the user) or temporarily down
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 *                        (i.e., [P] is not UP)
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 *                FEEDING        The protocol came up and we're feeding it
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 *                        initial routes. [P] is UP.
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 *                HAPPY        The protocol is up and it's receiving normal
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 *                        routing updates. [P] is UP.
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 *                FLUSHING The protocol is down and we're removing its
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 *                        routes from the table. [P] is STOP or DOWN.
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 *
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 *        Normal lifecycle of a protocol looks like:
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 *
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 *                HUNGRY/DOWN --> HUNGRY/START --> HUNGRY/UP -->
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 *                FEEDING/UP --> HAPPY/UP --> FLUSHING/STOP|DOWN -->
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 *                HUNGRY/STOP|DOWN --> HUNGRY/DOWN
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 */
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#define FS_HUNGRY 0
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#define FS_FEEDING 1
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#define FS_HAPPY 2
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#define FS_FLUSHING 3
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/*
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 *        Debugging flags
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 */
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#define D_STATES 1                /* [core] State transitions */
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#define D_ROUTES 2                /* [core] Routes passed by the filters */
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#define D_FILTERS 4                /* [core] Routes rejected by the filters */
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#define D_IFACES 8                /* [core] Interface events */
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#define D_EVENTS 16                /* Protocol events */
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#define D_PACKETS 32                /* Packets sent/received */
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/*
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 *        Known unique protocol instances as referenced by config routines
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 */
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extern struct proto_config *cf_dev_proto;
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/*
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 *        Route Announcement Hook
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 */
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struct announce_hook {
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  node n;
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  struct rtable *table;
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  struct proto *proto;
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  struct announce_hook *next;                /* Next hook for the same protocol */
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};
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struct announce_hook *proto_add_announce_hook(struct proto *, struct rtable *);
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#endif