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Release 4.12 include/net/ndisc.h

Directory: include/net
#ifndef _NDISC_H

#define _NDISC_H

/*
 *      ICMP codes for neighbour discovery messages
 */


#define NDISC_ROUTER_SOLICITATION	133

#define NDISC_ROUTER_ADVERTISEMENT	134

#define NDISC_NEIGHBOUR_SOLICITATION	135

#define NDISC_NEIGHBOUR_ADVERTISEMENT	136

#define NDISC_REDIRECT			137

/*
 * Router type: cross-layer information from link-layer to
 * IPv6 layer reported by certain link types (e.g., RFC4214).
 */

#define NDISC_NODETYPE_UNSPEC		0	
/* unspecified (default) */

#define NDISC_NODETYPE_HOST		1	
/* host or unauthorized router */

#define NDISC_NODETYPE_NODEFAULT	2	
/* non-default router */

#define NDISC_NODETYPE_DEFAULT		3	
/* default router */

/*
 *      ndisc options
 */

enum {
	
__ND_OPT_PREFIX_INFO_END = 0,
	
ND_OPT_SOURCE_LL_ADDR = 1,	/* RFC2461 */
	
ND_OPT_TARGET_LL_ADDR = 2,	/* RFC2461 */
	
ND_OPT_PREFIX_INFO = 3,		/* RFC2461 */
	
ND_OPT_REDIRECT_HDR = 4,	/* RFC2461 */
	
ND_OPT_MTU = 5,			/* RFC2461 */
	
ND_OPT_NONCE = 14,              /* RFC7527 */
	
__ND_OPT_ARRAY_MAX,
	
ND_OPT_ROUTE_INFO = 24,		/* RFC4191 */
	
ND_OPT_RDNSS = 25,		/* RFC5006 */
	
ND_OPT_DNSSL = 31,		/* RFC6106 */
	
ND_OPT_6CO = 34,		/* RFC6775 */
	
__ND_OPT_MAX
};


#define MAX_RTR_SOLICITATION_DELAY	HZ


#define ND_REACHABLE_TIME		(30*HZ)

#define ND_RETRANS_TIMER		HZ

#include <linux/compiler.h>
#include <linux/icmpv6.h>
#include <linux/in6.h>
#include <linux/types.h>
#include <linux/if_arp.h>
#include <linux/netdevice.h>
#include <linux/hash.h>

#include <net/neighbour.h>

/* Set to 3 to get tracing... */

#define ND_DEBUG 1


#define ND_PRINTK(val, level, fmt, ...)				\
do {                                                            \
        if (val <= ND_DEBUG)                                    \
                net_##level##_ratelimited(fmt, ##__VA_ARGS__);  \
} while (0)

struct ctl_table;
struct inet6_dev;
struct net_device;
struct net_proto_family;
struct sk_buff;
struct prefix_info;

extern struct neigh_table nd_tbl;


struct nd_msg {
        
struct icmp6hdr	icmph;
        
struct in6_addr	target;
	
__u8		opt[0];
};


struct rs_msg {
	
struct icmp6hdr	icmph;
	
__u8		opt[0];
};


struct ra_msg {
        
struct icmp6hdr		icmph;
	
__be32			reachable_time;
	
__be32			retrans_timer;
};


struct rd_msg {
	
struct icmp6hdr icmph;
	
struct in6_addr	target;
	
struct in6_addr	dest;
	
__u8		opt[0];
};


struct nd_opt_hdr {
	
__u8		nd_opt_type;
	
__u8		nd_opt_len;

} __packed;

/* ND options */

struct ndisc_options {
	
struct nd_opt_hdr *nd_opt_array[__ND_OPT_ARRAY_MAX];
#ifdef CONFIG_IPV6_ROUTE_INFO
	
struct nd_opt_hdr *nd_opts_ri;
	
struct nd_opt_hdr *nd_opts_ri_end;
#endif
	
struct nd_opt_hdr *nd_useropts;
	
struct nd_opt_hdr *nd_useropts_end;
#if IS_ENABLED(CONFIG_IEEE802154_6LOWPAN)
	
struct nd_opt_hdr *nd_802154_opt_array[ND_OPT_TARGET_LL_ADDR + 1];
#endif
};


#define nd_opts_src_lladdr		nd_opt_array[ND_OPT_SOURCE_LL_ADDR]

#define nd_opts_tgt_lladdr		nd_opt_array[ND_OPT_TARGET_LL_ADDR]

#define nd_opts_pi			nd_opt_array[ND_OPT_PREFIX_INFO]

#define nd_opts_pi_end			nd_opt_array[__ND_OPT_PREFIX_INFO_END]

#define nd_opts_rh			nd_opt_array[ND_OPT_REDIRECT_HDR]

#define nd_opts_mtu			nd_opt_array[ND_OPT_MTU]

#define nd_opts_nonce			nd_opt_array[ND_OPT_NONCE]

#define nd_802154_opts_src_lladdr	nd_802154_opt_array[ND_OPT_SOURCE_LL_ADDR]

#define nd_802154_opts_tgt_lladdr	nd_802154_opt_array[ND_OPT_TARGET_LL_ADDR]


#define NDISC_OPT_SPACE(len) (((len)+2+7)&~7)

struct ndisc_options *ndisc_parse_options(const struct net_device *dev,
					  u8 *opt, int opt_len,
					  struct ndisc_options *ndopts);

void __ndisc_fill_addr_option(struct sk_buff *skb, int type, void *data,
			      int data_len, int pad);


#define NDISC_OPS_REDIRECT_DATA_SPACE	2

/*
 * This structure defines the hooks for IPv6 neighbour discovery.
 * The following hooks can be defined; unless noted otherwise, they are
 * optional and can be filled with a null pointer.
 *
 * int (*is_useropt)(u8 nd_opt_type):
 *     This function is called when IPv6 decide RA userspace options. if
 *     this function returns 1 then the option given by nd_opt_type will
 *     be handled as userspace option additional to the IPv6 options.
 *
 * int (*parse_options)(const struct net_device *dev,
 *                      struct nd_opt_hdr *nd_opt,
 *                      struct ndisc_options *ndopts):
 *     This function is called while parsing ndisc ops and put each position
 *     as pointer into ndopts. If this function return unequal 0, then this
 *     function took care about the ndisc option, if 0 then the IPv6 ndisc
 *     option parser will take care about that option.
 *
 * void (*update)(const struct net_device *dev, struct neighbour *n,
 *                u32 flags, u8 icmp6_type,
 *                const struct ndisc_options *ndopts):
 *     This function is called when IPv6 ndisc updates the neighbour cache
 *     entry. Additional options which can be updated may be previously
 *     parsed by parse_opts callback and accessible over ndopts parameter.
 *
 * int (*opt_addr_space)(const struct net_device *dev, u8 icmp6_type,
 *                       struct neighbour *neigh, u8 *ha_buf,
 *                       u8 **ha):
 *     This function is called when the necessary option space will be
 *     calculated before allocating a skb. The parameters neigh, ha_buf
 *     abd ha are available on NDISC_REDIRECT messages only.
 *
 * void (*fill_addr_option)(const struct net_device *dev,
 *                          struct sk_buff *skb, u8 icmp6_type,
 *                          const u8 *ha):
 *     This function is called when the skb will finally fill the option
 *     fields inside skb. NOTE: this callback should fill the option
 *     fields to the skb which are previously indicated by opt_space
 *     parameter. That means the decision to add such option should
 *     not lost between these two callbacks, e.g. protected by interface
 *     up state.
 *
 * void (*prefix_rcv_add_addr)(struct net *net, struct net_device *dev,
 *                             const struct prefix_info *pinfo,
 *                             struct inet6_dev *in6_dev,
 *                             struct in6_addr *addr,
 *                             int addr_type, u32 addr_flags,
 *                             bool sllao, bool tokenized,
 *                             __u32 valid_lft, u32 prefered_lft,
 *                             bool dev_addr_generated):
 *     This function is called when a RA messages is received with valid
 *     PIO option fields and an IPv6 address will be added to the interface
 *     for autoconfiguration. The parameter dev_addr_generated reports about
 *     if the address was based on dev->dev_addr or not. This can be used
 *     to add a second address if link-layer operates with two link layer
 *     addresses. E.g. 802.15.4 6LoWPAN.
 */

struct ndisc_ops {
	
int	(*is_useropt)(u8 nd_opt_type);
	
int	(*parse_options)(const struct net_device *dev,
				 struct nd_opt_hdr *nd_opt,
				 struct ndisc_options *ndopts);
	
void	(*update)(const struct net_device *dev, struct neighbour *n,
			  u32 flags, u8 icmp6_type,
			  const struct ndisc_options *ndopts);
	
int	(*opt_addr_space)(const struct net_device *dev, u8 icmp6_type,
				  struct neighbour *neigh, u8 *ha_buf,
				  u8 **ha);
	
void	(*fill_addr_option)(const struct net_device *dev,
				    struct sk_buff *skb, u8 icmp6_type,
				    const u8 *ha);
	
void	(*prefix_rcv_add_addr)(struct net *net, struct net_device *dev,
				       const struct prefix_info *pinfo,
				       struct inet6_dev *in6_dev,
				       struct in6_addr *addr,
				       int addr_type, u32 addr_flags,
				       bool sllao, bool tokenized,
				       __u32 valid_lft, u32 prefered_lft,
				       bool dev_addr_generated);
};

#if IS_ENABLED(CONFIG_IPV6)

static inline int ndisc_ops_is_useropt(const struct net_device *dev, u8 nd_opt_type) { if (dev->ndisc_ops && dev->ndisc_ops->is_useropt) return dev->ndisc_ops->is_useropt(nd_opt_type); else return 0; }

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static inline int ndisc_ops_parse_options(const struct net_device *dev, struct nd_opt_hdr *nd_opt, struct ndisc_options *ndopts) { if (dev->ndisc_ops && dev->ndisc_ops->parse_options) return dev->ndisc_ops->parse_options(dev, nd_opt, ndopts); else return 0; }

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static inline void ndisc_ops_update(const struct net_device *dev, struct neighbour *n, u32 flags, u8 icmp6_type, const struct ndisc_options *ndopts) { if (dev->ndisc_ops && dev->ndisc_ops->update) dev->ndisc_ops->update(dev, n, flags, icmp6_type, ndopts); }

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static inline int ndisc_ops_opt_addr_space(const struct net_device *dev, u8 icmp6_type) { if (dev->ndisc_ops && dev->ndisc_ops->opt_addr_space && icmp6_type != NDISC_REDIRECT) return dev->ndisc_ops->opt_addr_space(dev, icmp6_type, NULL, NULL, NULL); else return 0; }

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static inline int ndisc_ops_redirect_opt_addr_space(const struct net_device *dev, struct neighbour *neigh, u8 *ha_buf, u8 **ha) { if (dev->ndisc_ops && dev->ndisc_ops->opt_addr_space) return dev->ndisc_ops->opt_addr_space(dev, NDISC_REDIRECT, neigh, ha_buf, ha); else return 0; }

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static inline void ndisc_ops_fill_addr_option(const struct net_device *dev, struct sk_buff *skb, u8 icmp6_type) { if (dev->ndisc_ops && dev->ndisc_ops->fill_addr_option && icmp6_type != NDISC_REDIRECT) dev->ndisc_ops->fill_addr_option(dev, skb, icmp6_type, NULL); }

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static inline void ndisc_ops_fill_redirect_addr_option(const struct net_device *dev, struct sk_buff *skb, const u8 *ha) { if (dev->ndisc_ops && dev->ndisc_ops->fill_addr_option) dev->ndisc_ops->fill_addr_option(dev, skb, NDISC_REDIRECT, ha); }

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static inline void ndisc_ops_prefix_rcv_add_addr(struct net *net, struct net_device *dev, const struct prefix_info *pinfo, struct inet6_dev *in6_dev, struct in6_addr *addr, int addr_type, u32 addr_flags, bool sllao, bool tokenized, __u32 valid_lft, u32 prefered_lft, bool dev_addr_generated) { if (dev->ndisc_ops && dev->ndisc_ops->prefix_rcv_add_addr) dev->ndisc_ops->prefix_rcv_add_addr(net, dev, pinfo, in6_dev, addr, addr_type, addr_flags, sllao, tokenized, valid_lft, prefered_lft, dev_addr_generated); }

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#endif /* * Return the padding between the option length and the start of the * link addr. Currently only IP-over-InfiniBand needs this, although * if RFC 3831 IPv6-over-Fibre Channel is ever implemented it may * also need a pad of 2. */
static inline int ndisc_addr_option_pad(unsigned short type) { switch (type) { case ARPHRD_INFINIBAND: return 2; default: return 0; } }

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static inline int __ndisc_opt_addr_space(unsigned char addr_len, int pad) { return NDISC_OPT_SPACE(addr_len + pad); }

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#if IS_ENABLED(CONFIG_IPV6)
static inline int ndisc_opt_addr_space(struct net_device *dev, u8 icmp6_type) { return __ndisc_opt_addr_space(dev->addr_len, ndisc_addr_option_pad(dev->type)) + ndisc_ops_opt_addr_space(dev, icmp6_type); }

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static inline int ndisc_redirect_opt_addr_space(struct net_device *dev, struct neighbour *neigh, u8 *ops_data_buf, u8 **ops_data) { return __ndisc_opt_addr_space(dev->addr_len, ndisc_addr_option_pad(dev->type)) + ndisc_ops_redirect_opt_addr_space(dev, neigh, ops_data_buf, ops_data); }

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#endif
static inline u8 *__ndisc_opt_addr_data(struct nd_opt_hdr *p, unsigned char addr_len, int prepad) { u8 *lladdr = (u8 *)(p + 1); int lladdrlen = p->nd_opt_len << 3; if (lladdrlen != __ndisc_opt_addr_space(addr_len, prepad)) return NULL; return lladdr + prepad; }

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static inline u8 *ndisc_opt_addr_data(struct nd_opt_hdr *p, struct net_device *dev) { return __ndisc_opt_addr_data(p, dev->addr_len, ndisc_addr_option_pad(dev->type)); }

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static inline u32 ndisc_hashfn(const void *pkey, const struct net_device *dev, __u32 *hash_rnd) { const u32 *p32 = pkey; return (((p32[0] ^ hash32_ptr(dev)) * hash_rnd[0]) + (p32[1] * hash_rnd[1]) + (p32[2] * hash_rnd[2]) + (p32[3] * hash_rnd[3])); }

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static inline struct neighbour *__ipv6_neigh_lookup_noref(struct net_device *dev, const void *pkey) { return ___neigh_lookup_noref(&nd_tbl, neigh_key_eq128, ndisc_hashfn, pkey, dev); }

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static inline struct neighbour *__ipv6_neigh_lookup(struct net_device *dev, const void *pkey) { struct neighbour *n; rcu_read_lock_bh(); n = __ipv6_neigh_lookup_noref(dev, pkey); if (n && !atomic_inc_not_zero(&n->refcnt)) n = NULL; rcu_read_unlock_bh(); return n; }

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static inline void __ipv6_confirm_neigh(struct net_device *dev, const void *pkey) { struct neighbour *n; rcu_read_lock_bh(); n = __ipv6_neigh_lookup_noref(dev, pkey); if (n) { unsigned long now = jiffies; /* avoid dirtying neighbour */ if (n->confirmed != now) n->confirmed = now; } rcu_read_unlock_bh(); }

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int ndisc_init(void); int ndisc_late_init(void); void ndisc_late_cleanup(void); void ndisc_cleanup(void); int ndisc_rcv(struct sk_buff *skb); void ndisc_send_ns(struct net_device *dev, const struct in6_addr *solicit, const struct in6_addr *daddr, const struct in6_addr *saddr, u64 nonce); void ndisc_send_rs(struct net_device *dev, const struct in6_addr *saddr, const struct in6_addr *daddr); void ndisc_send_na(struct net_device *dev, const struct in6_addr *daddr, const struct in6_addr *solicited_addr, bool router, bool solicited, bool override, bool inc_opt); void ndisc_send_redirect(struct sk_buff *skb, const struct in6_addr *target); int ndisc_mc_map(const struct in6_addr *addr, char *buf, struct net_device *dev, int dir); void ndisc_update(const struct net_device *dev, struct neighbour *neigh, const u8 *lladdr, u8 new, u32 flags, u8 icmp6_type, struct ndisc_options *ndopts); /* * IGMP */ int igmp6_init(void); int igmp6_late_init(void); void igmp6_cleanup(void); void igmp6_late_cleanup(void); int igmp6_event_query(struct sk_buff *skb); int igmp6_event_report(struct sk_buff *skb); #ifdef CONFIG_SYSCTL int ndisc_ifinfo_sysctl_change(struct ctl_table *ctl, int write, void __user *buffer, size_t *lenp, loff_t *ppos); int ndisc_ifinfo_sysctl_strategy(struct ctl_table *ctl, void __user *oldval, size_t __user *oldlenp, void __user *newval, size_t newlen); #endif void inet6_ifinfo_notify(int event, struct inet6_dev *idev); #endif

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Linus Torvalds (pre-git)21911.73%613.64%
Hideaki Yoshifuji / 吉藤英明1598.52%920.45%
Julian Anastasov643.43%12.27%
Shirley Ma371.98%12.27%
Américo Wang331.77%12.27%
Duan Jiong231.23%12.27%
Arnaldo Carvalho de Melo221.18%12.27%
Fred L. Templin211.12%12.27%
Vlad Yasevich120.64%12.27%
Erik Nordmark120.64%12.27%
Michal Kubeček120.64%12.27%
Eric W. Biedermann70.37%12.27%
Pavel Emelyanov60.32%12.27%
Pierre Ynard50.27%12.27%
Alexey I. Froloff50.27%12.27%
Linus Torvalds40.21%12.27%
Joe Perches20.11%24.55%
Al Viro20.11%12.27%
Eric Dumazet20.11%24.55%
Alexey Kuznetsov20.11%12.27%
Denis V. Lunev20.11%12.27%
Total1867100.00%44100.00%
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