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neighbour.h (6101B) - Raw

      1 /* SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note */
      2 #ifndef __LINUX_NEIGHBOUR_H
      3 #define __LINUX_NEIGHBOUR_H
      4 
      5 #include <linux/types.h>
      6 #include <linux/netlink.h>
      7 
      8 struct ndmsg {
      9 	__u8		ndm_family;
     10 	__u8		ndm_pad1;
     11 	__u16		ndm_pad2;
     12 	__s32		ndm_ifindex;
     13 	__u16		ndm_state;
     14 	__u8		ndm_flags;
     15 	__u8		ndm_type;
     16 };
     17 
     18 enum {
     19 	NDA_UNSPEC,
     20 	NDA_DST,
     21 	NDA_LLADDR,
     22 	NDA_CACHEINFO,
     23 	NDA_PROBES,
     24 	NDA_VLAN,
     25 	NDA_PORT,
     26 	NDA_VNI,
     27 	NDA_IFINDEX,
     28 	NDA_MASTER,
     29 	NDA_LINK_NETNSID,
     30 	NDA_SRC_VNI,
     31 	NDA_PROTOCOL,  /* Originator of entry */
     32 	NDA_NH_ID,
     33 	NDA_FDB_EXT_ATTRS,
     34 	NDA_FLAGS_EXT,
     35 	NDA_NDM_STATE_MASK,
     36 	NDA_NDM_FLAGS_MASK,
     37 	__NDA_MAX
     38 };
     39 
     40 #define NDA_MAX (__NDA_MAX - 1)
     41 
     42 /*
     43  *	Neighbor Cache Entry Flags
     44  */
     45 
     46 #define NTF_USE		(1 << 0)
     47 #define NTF_SELF	(1 << 1)
     48 #define NTF_MASTER	(1 << 2)
     49 #define NTF_PROXY	(1 << 3)	/* == ATF_PUBL */
     50 #define NTF_EXT_LEARNED	(1 << 4)
     51 #define NTF_OFFLOADED   (1 << 5)
     52 #define NTF_STICKY	(1 << 6)
     53 #define NTF_ROUTER	(1 << 7)
     54 /* Extended flags under NDA_FLAGS_EXT: */
     55 #define NTF_EXT_MANAGED		(1 << 0)
     56 #define NTF_EXT_LOCKED		(1 << 1)
     57 
     58 /*
     59  *	Neighbor Cache Entry States.
     60  */
     61 
     62 #define NUD_INCOMPLETE	0x01
     63 #define NUD_REACHABLE	0x02
     64 #define NUD_STALE	0x04
     65 #define NUD_DELAY	0x08
     66 #define NUD_PROBE	0x10
     67 #define NUD_FAILED	0x20
     68 
     69 /* Dummy states */
     70 #define NUD_NOARP	0x40
     71 #define NUD_PERMANENT	0x80
     72 #define NUD_NONE	0x00
     73 
     74 /* NUD_NOARP & NUD_PERMANENT are pseudostates, they never change and make no
     75  * address resolution or NUD.
     76  *
     77  * NUD_PERMANENT also cannot be deleted by garbage collectors. This holds true
     78  * for dynamic entries with NTF_EXT_LEARNED flag as well. However, upon carrier
     79  * down event, NUD_PERMANENT entries are not flushed whereas NTF_EXT_LEARNED
     80  * flagged entries explicitly are (which is also consistent with the routing
     81  * subsystem).
     82  *
     83  * When NTF_EXT_LEARNED is set for a bridge fdb entry the different cache entry
     84  * states don't make sense and thus are ignored. Such entries don't age and
     85  * can roam.
     86  *
     87  * NTF_EXT_MANAGED flagged neigbor entries are managed by the kernel on behalf
     88  * of a user space control plane, and automatically refreshed so that (if
     89  * possible) they remain in NUD_REACHABLE state.
     90  *
     91  * NTF_EXT_LOCKED flagged bridge FDB entries are entries generated by the
     92  * bridge in response to a host trying to communicate via a locked bridge port
     93  * with MAB enabled. Their purpose is to notify user space that a host requires
     94  * authentication.
     95  */
     96 
     97 struct nda_cacheinfo {
     98 	__u32		ndm_confirmed;
     99 	__u32		ndm_used;
    100 	__u32		ndm_updated;
    101 	__u32		ndm_refcnt;
    102 };
    103 
    104 /*****************************************************************
    105  *		Neighbour tables specific messages.
    106  *
    107  * To retrieve the neighbour tables send RTM_GETNEIGHTBL with the
    108  * NLM_F_DUMP flag set. Every neighbour table configuration is
    109  * spread over multiple messages to avoid running into message
    110  * size limits on systems with many interfaces. The first message
    111  * in the sequence transports all not device specific data such as
    112  * statistics, configuration, and the default parameter set.
    113  * This message is followed by 0..n messages carrying device
    114  * specific parameter sets.
    115  * Although the ordering should be sufficient, NDTA_NAME can be
    116  * used to identify sequences. The initial message can be identified
    117  * by checking for NDTA_CONFIG. The device specific messages do
    118  * not contain this TLV but have NDTPA_IFINDEX set to the
    119  * corresponding interface index.
    120  *
    121  * To change neighbour table attributes, send RTM_SETNEIGHTBL
    122  * with NDTA_NAME set. Changeable attribute include NDTA_THRESH[1-3],
    123  * NDTA_GC_INTERVAL, and all TLVs in NDTA_PARMS unless marked
    124  * otherwise. Device specific parameter sets can be changed by
    125  * setting NDTPA_IFINDEX to the interface index of the corresponding
    126  * device.
    127  ****/
    128 
    129 struct ndt_stats {
    130 	__u64		ndts_allocs;
    131 	__u64		ndts_destroys;
    132 	__u64		ndts_hash_grows;
    133 	__u64		ndts_res_failed;
    134 	__u64		ndts_lookups;
    135 	__u64		ndts_hits;
    136 	__u64		ndts_rcv_probes_mcast;
    137 	__u64		ndts_rcv_probes_ucast;
    138 	__u64		ndts_periodic_gc_runs;
    139 	__u64		ndts_forced_gc_runs;
    140 	__u64		ndts_table_fulls;
    141 };
    142 
    143 enum {
    144 	NDTPA_UNSPEC,
    145 	NDTPA_IFINDEX,			/* u32, unchangeable */
    146 	NDTPA_REFCNT,			/* u32, read-only */
    147 	NDTPA_REACHABLE_TIME,		/* u64, read-only, msecs */
    148 	NDTPA_BASE_REACHABLE_TIME,	/* u64, msecs */
    149 	NDTPA_RETRANS_TIME,		/* u64, msecs */
    150 	NDTPA_GC_STALETIME,		/* u64, msecs */
    151 	NDTPA_DELAY_PROBE_TIME,		/* u64, msecs */
    152 	NDTPA_QUEUE_LEN,		/* u32 */
    153 	NDTPA_APP_PROBES,		/* u32 */
    154 	NDTPA_UCAST_PROBES,		/* u32 */
    155 	NDTPA_MCAST_PROBES,		/* u32 */
    156 	NDTPA_ANYCAST_DELAY,		/* u64, msecs */
    157 	NDTPA_PROXY_DELAY,		/* u64, msecs */
    158 	NDTPA_PROXY_QLEN,		/* u32 */
    159 	NDTPA_LOCKTIME,			/* u64, msecs */
    160 	NDTPA_QUEUE_LENBYTES,		/* u32 */
    161 	NDTPA_MCAST_REPROBES,		/* u32 */
    162 	NDTPA_PAD,
    163 	NDTPA_INTERVAL_PROBE_TIME_MS,	/* u64, msecs */
    164 	__NDTPA_MAX
    165 };
    166 #define NDTPA_MAX (__NDTPA_MAX - 1)
    167 
    168 struct ndtmsg {
    169 	__u8		ndtm_family;
    170 	__u8		ndtm_pad1;
    171 	__u16		ndtm_pad2;
    172 };
    173 
    174 struct ndt_config {
    175 	__u16		ndtc_key_len;
    176 	__u16		ndtc_entry_size;
    177 	__u32		ndtc_entries;
    178 	__u32		ndtc_last_flush;	/* delta to now in msecs */
    179 	__u32		ndtc_last_rand;		/* delta to now in msecs */
    180 	__u32		ndtc_hash_rnd;
    181 	__u32		ndtc_hash_mask;
    182 	__u32		ndtc_hash_chain_gc;
    183 	__u32		ndtc_proxy_qlen;
    184 };
    185 
    186 enum {
    187 	NDTA_UNSPEC,
    188 	NDTA_NAME,			/* char *, unchangeable */
    189 	NDTA_THRESH1,			/* u32 */
    190 	NDTA_THRESH2,			/* u32 */
    191 	NDTA_THRESH3,			/* u32 */
    192 	NDTA_CONFIG,			/* struct ndt_config, read-only */
    193 	NDTA_PARMS,			/* nested TLV NDTPA_* */
    194 	NDTA_STATS,			/* struct ndt_stats, read-only */
    195 	NDTA_GC_INTERVAL,		/* u64, msecs */
    196 	NDTA_PAD,
    197 	__NDTA_MAX
    198 };
    199 #define NDTA_MAX (__NDTA_MAX - 1)
    200 
    201  /* FDB activity notification bits used in NFEA_ACTIVITY_NOTIFY:
    202   * - FDB_NOTIFY_BIT - notify on activity/expire for any entry
    203   * - FDB_NOTIFY_INACTIVE_BIT - mark as inactive to avoid multiple notifications
    204   */
    205 enum {
    206 	FDB_NOTIFY_BIT		= (1 << 0),
    207 	FDB_NOTIFY_INACTIVE_BIT	= (1 << 1)
    208 };
    209 
    210 /* embedded into NDA_FDB_EXT_ATTRS:
    211  * [NDA_FDB_EXT_ATTRS] = {
    212  *     [NFEA_ACTIVITY_NOTIFY]
    213  *     ...
    214  * }
    215  */
    216 enum {
    217 	NFEA_UNSPEC,
    218 	NFEA_ACTIVITY_NOTIFY,
    219 	NFEA_DONT_REFRESH,
    220 	__NFEA_MAX
    221 };
    222 #define NFEA_MAX (__NFEA_MAX - 1)
    223 
    224 #endif