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// SPDX-License-Identifier: GPL-2.0-or-later
/* Zebra Router header.
 * Copyright (C) 2018 Cumulus Networks, Inc.
 *                    Donald Sharp
 */
#ifndef __ZEBRA_ROUTER_H__
#define __ZEBRA_ROUTER_H__

#include "lib/mlag.h"

#include "zebra/zebra_ns.h"

#ifdef __cplusplus
extern "C" {
#endif

/*
 * This header file contains the idea of a router and as such
 * owns data that is associated with a router from zebra's
 * perspective.
 */

struct zebra_router_table {
	RB_ENTRY(zebra_router_table) zebra_router_table_entry;

	uint32_t tableid;
	afi_t afi;
	safi_t safi;
	ns_id_t ns_id;

	struct route_table *table;
};
RB_HEAD(zebra_router_table_head, zebra_router_table);
RB_PROTOTYPE(zebra_router_table_head, zebra_router_table,
	     zebra_router_table_entry, zebra_router_table_entry_compare)

/* RPF lookup behaviour */
enum multicast_mode {
	MCAST_NO_CONFIG = 0,  /* MIX_MRIB_FIRST, but no show in config write */
	MCAST_MRIB_ONLY,      /* MRIB only */
	MCAST_URIB_ONLY,      /* URIB only */
	MCAST_MIX_MRIB_FIRST, /* MRIB, if nothing at all then URIB */
	MCAST_MIX_DISTANCE,   /* MRIB & URIB, lower distance wins */
	MCAST_MIX_PFXLEN,     /* MRIB & URIB, longer prefix wins */
			      /* on equal value, MRIB wins for last 2 */
};

/* An interface can be error-disabled if a protocol (such as EVPN or
 * VRRP) detects a problem with keeping it operationally-up.
 * If any of the protodown bits are set protodown-on is programmed
 * in the dataplane. This results in a carrier/L1 down on the
 * physical device.
 */
enum protodown_reasons {
	/* A process outside of FRR's control protodowned the interface */
	ZEBRA_PROTODOWN_EXTERNAL = (1 << 0),
	/* On startup local ESs are held down for some time to
	 * allow the underlay to converge and EVPN routes to
	 * get learnt
	 */
	ZEBRA_PROTODOWN_EVPN_STARTUP_DELAY = (1 << 1),
	/* If all the uplinks are down the switch has lost access
	 * to the VxLAN overlay and must shut down the access
	 * ports to allow servers to re-direct their traffic to
	 * other switches on the Ethernet Segment
	 */
	ZEBRA_PROTODOWN_EVPN_UPLINK_DOWN = (1 << 2),
	ZEBRA_PROTODOWN_EVPN_ALL = (ZEBRA_PROTODOWN_EVPN_UPLINK_DOWN |
				    ZEBRA_PROTODOWN_EVPN_STARTUP_DELAY),
	ZEBRA_PROTODOWN_VRRP = (1 << 3),
	/* This reason used exclusively for testing */
	ZEBRA_PROTODOWN_SHARP = (1 << 4),
	/* Just used to clear our fields on shutdown, externel not included */
	ZEBRA_PROTODOWN_ALL = (ZEBRA_PROTODOWN_EVPN_ALL | ZEBRA_PROTODOWN_VRRP |
			       ZEBRA_PROTODOWN_SHARP)
};
#define ZEBRA_PROTODOWN_RC_STR_LEN 80

struct zebra_mlag_info {
	/* Role this zebra router is playing */
	enum mlag_role role;

	/* The peerlink being used for mlag */
	char *peerlink;
	ifindex_t peerlink_ifindex;

	/* The system mac being used */
	struct ethaddr mac;
	/*
	 * Zebra will open the communication channel with MLAGD only if any
	 * clients are interested and it is controlled dynamically based on
	 * client registers & un-registers.
	 */
	uint32_t clients_interested_cnt;

	/* coomunication channel with MLAGD is established */
	bool connected;

	/* connection retry timer is running */
	bool timer_running;

	/* Holds the client data(unencoded) that need to be pushed to MCLAGD*/
	struct stream_fifo *mlag_fifo;

	/*
	 * A new Kernel thread will be created to post the data to MCLAGD.
	 * where as, read will be performed from the zebra main thread, because
	 * read involves accessing client registartion data structures.
	 */
	struct frr_pthread *zebra_pth_mlag;

	/* MLAG Thread context 'master' */
	struct thread_master *th_master;

	/*
	 * Event for Initial MLAG Connection setup & Data Read
	 * Read can be performed only after successful connection establishment,
	 * so no issues.
	 *
	 */
	struct thread *t_read;
	/* Event for MLAG write */
	struct thread *t_write;
};

struct zebra_router {
	atomic_bool in_shutdown;

	/* Thread master */
	struct thread_master *master;

	/* Lists of clients who have connected to us */
	struct list *client_list;

	/* List of clients in GR */
	struct list *stale_client_list;

	struct zebra_router_table_head tables;

	/* L3-VNI hash table (for EVPN). Only in default instance */
	struct hash *l3vni_table;

	/* Tables and other global info maintained for EVPN multihoming */
	struct zebra_evpn_mh_info *mh_info;

	struct zebra_neigh_info *neigh_info;

	/* EVPN MH broadcast domains indexed by the VID */
	struct hash *evpn_vlan_table;

	struct hash *rules_hash;

	struct hash *ipset_hash;

	struct hash *ipset_entry_hash;

	struct hash *iptable_hash;

	struct hash *qdisc_hash;
	struct hash *class_hash;
	struct hash *filter_hash;

	/* A sequence number used for tracking routes */
	_Atomic uint32_t sequence_num;

	/* rib work queue */
#define ZEBRA_RIB_PROCESS_HOLD_TIME 10
#define ZEBRA_RIB_PROCESS_RETRY_TIME 1
	struct work_queue *ribq;

	/* Meta Queue Information */
	struct meta_queue *mq;

	/* LSP work queue */
	struct work_queue *lsp_process_q;

#define ZEBRA_ZAPI_PACKETS_TO_PROCESS 1000
	_Atomic uint32_t packets_to_process;

	/* Mlag information for the router */
	struct zebra_mlag_info mlag_info;

	/*
	 * The EVPN instance, if any
	 */
	struct zebra_vrf *evpn_vrf;

	uint32_t multipath_num;

	/* RPF Lookup behavior */
	enum multicast_mode ipv4_multicast_mode;

	/*
	 * Time for when we sweep the rib from old routes
	 */
	time_t startup_time;
	struct thread *sweeper;

	/*
	 * The hash of nexthop groups associated with this router
	 */
	struct hash *nhgs;
	struct hash *nhgs_id;

	/*
	 * Does the underlying system provide an asic offload
	 */
	bool asic_offloaded;
	bool notify_on_ack;

	/*
	 * If the asic is notifying us about successful nexthop
	 * allocation/control.  Some developers have made their
	 * asic take control of how many nexthops/ecmp they can
	 * have and will report what is successfull or not
	 */
	bool asic_notification_nexthop_control;

	bool supports_nhgs;

	bool all_mc_forwardingv4, default_mc_forwardingv4;
	bool all_mc_forwardingv6, default_mc_forwardingv6;
	bool all_linkdownv4, default_linkdownv4;
	bool all_linkdownv6, default_linkdownv6;

#define ZEBRA_DEFAULT_NHG_KEEP_TIMER 180
	uint32_t nhg_keep;

	/* Should we allow non FRR processes to delete our routes */
	bool allow_delete;
};

#define GRACEFUL_RESTART_TIME 60

extern struct zebra_router zrouter;
extern uint32_t rcvbufsize;

extern void zebra_router_init(bool asic_offload, bool notify_on_ack);
extern void zebra_router_cleanup(void);
extern void zebra_router_terminate(void);

extern struct zebra_router_table *zebra_router_find_zrt(struct zebra_vrf *zvrf,
							uint32_t tableid,
							afi_t afi, safi_t safi);
extern struct route_table *zebra_router_find_table(struct zebra_vrf *zvrf,
						   uint32_t tableid, afi_t afi,
						   safi_t safi);
extern struct route_table *zebra_router_get_table(struct zebra_vrf *zvrf,
						  uint32_t tableid, afi_t afi,
						  safi_t safi);
extern void zebra_router_release_table(struct zebra_vrf *zvrf, uint32_t tableid,
				       afi_t afi, safi_t safi);

extern int zebra_router_config_write(struct vty *vty);

extern void zebra_router_sweep_route(void);
extern void zebra_router_sweep_nhgs(void);

extern void zebra_router_show_table_summary(struct vty *vty);

extern uint32_t zebra_router_get_next_sequence(void);

static inline vrf_id_t zebra_vrf_get_evpn_id(void)
{
	return zrouter.evpn_vrf ? zvrf_id(zrouter.evpn_vrf) : VRF_DEFAULT;
}
static inline struct zebra_vrf *zebra_vrf_get_evpn(void)
{
	return zrouter.evpn_vrf ? zrouter.evpn_vrf
			        : zebra_vrf_lookup_by_id(VRF_DEFAULT);
}

extern void multicast_mode_ipv4_set(enum multicast_mode mode);

extern enum multicast_mode multicast_mode_ipv4_get(void);

extern bool zebra_router_notify_on_ack(void);

static inline void zebra_router_set_supports_nhgs(bool support)
{
	zrouter.supports_nhgs = support;
}

static inline bool zebra_router_in_shutdown(void)
{
	return atomic_load_explicit(&zrouter.in_shutdown, memory_order_relaxed);
}

/* zebra_northbound.c */
extern const struct frr_yang_module_info frr_zebra_info;

#ifdef __cplusplus
}
#endif

#endif