ip6_fib.c 32.3 KB
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/*
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 *	Linux INET6 implementation
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 *	Forwarding Information Database
 *
 *	Authors:
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 *	Pedro Roque		<roque@di.fc.ul.pt>
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 *
 *	This program is free software; you can redistribute it and/or
 *      modify it under the terms of the GNU General Public License
 *      as published by the Free Software Foundation; either version
 *      2 of the License, or (at your option) any later version.
 */

/*
 * 	Changes:
 * 	Yuji SEKIYA @USAGI:	Support default route on router node;
 * 				remove ip6_null_entry from the top of
 * 				routing table.
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 * 	Ville Nuorvala:		Fixed routing subtrees.
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 */
#include <linux/errno.h>
#include <linux/types.h>
#include <linux/net.h>
#include <linux/route.h>
#include <linux/netdevice.h>
#include <linux/in6.h>
#include <linux/init.h>
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#include <linux/list.h>
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#ifdef 	CONFIG_PROC_FS
#include <linux/proc_fs.h>
#endif

#include <net/ipv6.h>
#include <net/ndisc.h>
#include <net/addrconf.h>

#include <net/ip6_fib.h>
#include <net/ip6_route.h>

#define RT6_DEBUG 2

#if RT6_DEBUG >= 3
#define RT6_TRACE(x...) printk(KERN_DEBUG x)
#else
#define RT6_TRACE(x...) do { ; } while (0)
#endif

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static struct kmem_cache * fib6_node_kmem __read_mostly;
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enum fib_walk_state_t
{
#ifdef CONFIG_IPV6_SUBTREES
	FWS_S,
#endif
	FWS_L,
	FWS_R,
	FWS_C,
	FWS_U
};

struct fib6_cleaner_t
{
	struct fib6_walker_t w;
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	struct net *net;
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	int (*func)(struct rt6_info *, void *arg);
	void *arg;
};

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static DEFINE_RWLOCK(fib6_walker_lock);
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#ifdef CONFIG_IPV6_SUBTREES
#define FWS_INIT FWS_S
#else
#define FWS_INIT FWS_L
#endif

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static void fib6_prune_clones(struct net *net, struct fib6_node *fn,
			      struct rt6_info *rt);
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static struct rt6_info *fib6_find_prefix(struct net *net, struct fib6_node *fn);
static struct fib6_node *fib6_repair_tree(struct net *net, struct fib6_node *fn);
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static int fib6_walk(struct fib6_walker_t *w);
static int fib6_walk_continue(struct fib6_walker_t *w);
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/*
 *	A routing update causes an increase of the serial number on the
 *	affected subtree. This allows for cached routes to be asynchronously
 *	tested when modifications are made to the destination cache as a
 *	result of redirects, path MTU changes, etc.
 */

static __u32 rt_sernum;

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static void fib6_gc_timer_cb(unsigned long arg);

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static struct fib6_walker_t fib6_walker_list = {
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	.prev	= &fib6_walker_list,
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	.next	= &fib6_walker_list,
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};

#define FOR_WALKERS(w) for ((w)=fib6_walker_list.next; (w) != &fib6_walker_list; (w)=(w)->next)

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static inline void fib6_walker_link(struct fib6_walker_t *w)
{
	write_lock_bh(&fib6_walker_lock);
	w->next = fib6_walker_list.next;
	w->prev = &fib6_walker_list;
	w->next->prev = w;
	w->prev->next = w;
	write_unlock_bh(&fib6_walker_lock);
}

static inline void fib6_walker_unlink(struct fib6_walker_t *w)
{
	write_lock_bh(&fib6_walker_lock);
	w->next->prev = w->prev;
	w->prev->next = w->next;
	w->prev = w->next = w;
	write_unlock_bh(&fib6_walker_lock);
}
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static __inline__ u32 fib6_new_sernum(void)
{
	u32 n = ++rt_sernum;
	if ((__s32)n <= 0)
		rt_sernum = n = 1;
	return n;
}

/*
 *	Auxiliary address test functions for the radix tree.
 *
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 *	These assume a 32bit processor (although it will work on
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 *	64bit processors)
 */

/*
 *	test bit
 */

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static __inline__ __be32 addr_bit_set(void *token, int fn_bit)
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{
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	__be32 *addr = token;
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	return htonl(1 << ((~fn_bit)&0x1F)) & addr[fn_bit>>5];
}

static __inline__ struct fib6_node * node_alloc(void)
{
	struct fib6_node *fn;

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	fn = kmem_cache_zalloc(fib6_node_kmem, GFP_ATOMIC);
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	return fn;
}

static __inline__ void node_free(struct fib6_node * fn)
{
	kmem_cache_free(fib6_node_kmem, fn);
}

static __inline__ void rt6_release(struct rt6_info *rt)
{
	if (atomic_dec_and_test(&rt->rt6i_ref))
		dst_free(&rt->u.dst);
}

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#ifdef CONFIG_IPV6_MULTIPLE_TABLES
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#define FIB_TABLE_HASHSZ 256
#else
#define FIB_TABLE_HASHSZ 1
#endif

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static void fib6_link_table(struct net *net, struct fib6_table *tb)
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{
	unsigned int h;

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	/*
	 * Initialize table lock at a single place to give lockdep a key,
	 * tables aren't visible prior to being linked to the list.
	 */
	rwlock_init(&tb->tb6_lock);

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	h = tb->tb6_id & (FIB_TABLE_HASHSZ - 1);

	/*
	 * No protection necessary, this is the only list mutatation
	 * operation, tables never disappear once they exist.
	 */
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	hlist_add_head_rcu(&tb->tb6_hlist, &net->ipv6.fib_table_hash[h]);
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}
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#ifdef CONFIG_IPV6_MULTIPLE_TABLES
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static struct fib6_table *fib6_alloc_table(struct net *net, u32 id)
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{
	struct fib6_table *table;

	table = kzalloc(sizeof(*table), GFP_ATOMIC);
	if (table != NULL) {
		table->tb6_id = id;
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		table->tb6_root.leaf = net->ipv6.ip6_null_entry;
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		table->tb6_root.fn_flags = RTN_ROOT | RTN_TL_ROOT | RTN_RTINFO;
	}

	return table;
}

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struct fib6_table *fib6_new_table(struct net *net, u32 id)
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{
	struct fib6_table *tb;

	if (id == 0)
		id = RT6_TABLE_MAIN;
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	tb = fib6_get_table(net, id);
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	if (tb)
		return tb;

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	tb = fib6_alloc_table(net, id);
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	if (tb != NULL)
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		fib6_link_table(net, tb);
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	return tb;
}

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struct fib6_table *fib6_get_table(struct net *net, u32 id)
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{
	struct fib6_table *tb;
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	struct hlist_head *head;
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	struct hlist_node *node;
	unsigned int h;

	if (id == 0)
		id = RT6_TABLE_MAIN;
	h = id & (FIB_TABLE_HASHSZ - 1);
	rcu_read_lock();
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	head = &net->ipv6.fib_table_hash[h];
	hlist_for_each_entry_rcu(tb, node, head, tb6_hlist) {
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		if (tb->tb6_id == id) {
			rcu_read_unlock();
			return tb;
		}
	}
	rcu_read_unlock();

	return NULL;
}

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static void fib6_tables_init(struct net *net)
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{
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	fib6_link_table(net, net->ipv6.fib6_main_tbl);
	fib6_link_table(net, net->ipv6.fib6_local_tbl);
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}
#else

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struct fib6_table *fib6_new_table(struct net *net, u32 id)
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{
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	return fib6_get_table(net, id);
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}

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struct fib6_table *fib6_get_table(struct net *net, u32 id)
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{
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	  return net->ipv6.fib6_main_tbl;
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}

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struct dst_entry *fib6_rule_lookup(struct net *net, struct flowi *fl,
				   int flags, pol_lookup_t lookup)
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{
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	return (struct dst_entry *) lookup(net, net->ipv6.fib6_main_tbl, fl, flags);
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}

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static void fib6_tables_init(struct net *net)
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{
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	fib6_link_table(net, net->ipv6.fib6_main_tbl);
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}

#endif

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static int fib6_dump_node(struct fib6_walker_t *w)
{
	int res;
	struct rt6_info *rt;

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	for (rt = w->leaf; rt; rt = rt->u.dst.rt6_next) {
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		res = rt6_dump_route(rt, w->args);
		if (res < 0) {
			/* Frame is full, suspend walking */
			w->leaf = rt;
			return 1;
		}
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		WARN_ON(res == 0);
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	}
	w->leaf = NULL;
	return 0;
}

static void fib6_dump_end(struct netlink_callback *cb)
{
	struct fib6_walker_t *w = (void*)cb->args[2];

	if (w) {
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		if (cb->args[4]) {
			cb->args[4] = 0;
			fib6_walker_unlink(w);
		}
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		cb->args[2] = 0;
		kfree(w);
	}
	cb->done = (void*)cb->args[3];
	cb->args[1] = 3;
}

static int fib6_dump_done(struct netlink_callback *cb)
{
	fib6_dump_end(cb);
	return cb->done ? cb->done(cb) : 0;
}

static int fib6_dump_table(struct fib6_table *table, struct sk_buff *skb,
			   struct netlink_callback *cb)
{
	struct fib6_walker_t *w;
	int res;

	w = (void *)cb->args[2];
	w->root = &table->tb6_root;

	if (cb->args[4] == 0) {
		read_lock_bh(&table->tb6_lock);
		res = fib6_walk(w);
		read_unlock_bh(&table->tb6_lock);
		if (res > 0)
			cb->args[4] = 1;
	} else {
		read_lock_bh(&table->tb6_lock);
		res = fib6_walk_continue(w);
		read_unlock_bh(&table->tb6_lock);
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		if (res <= 0) {
			fib6_walker_unlink(w);
			cb->args[4] = 0;
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		}
	}
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	return res;
}

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static int inet6_dump_fib(struct sk_buff *skb, struct netlink_callback *cb)
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{
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	struct net *net = sock_net(skb->sk);
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	unsigned int h, s_h;
	unsigned int e = 0, s_e;
	struct rt6_rtnl_dump_arg arg;
	struct fib6_walker_t *w;
	struct fib6_table *tb;
	struct hlist_node *node;
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	struct hlist_head *head;
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	int res = 0;

	s_h = cb->args[0];
	s_e = cb->args[1];

	w = (void *)cb->args[2];
	if (w == NULL) {
		/* New dump:
		 *
		 * 1. hook callback destructor.
		 */
		cb->args[3] = (long)cb->done;
		cb->done = fib6_dump_done;

		/*
		 * 2. allocate and initialize walker.
		 */
		w = kzalloc(sizeof(*w), GFP_ATOMIC);
		if (w == NULL)
			return -ENOMEM;
		w->func = fib6_dump_node;
		cb->args[2] = (long)w;
	}

	arg.skb = skb;
	arg.cb = cb;
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	arg.net = net;
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	w->args = &arg;

	for (h = s_h; h < FIB_TABLE_HASHSZ; h++, s_e = 0) {
		e = 0;
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		head = &net->ipv6.fib_table_hash[h];
		hlist_for_each_entry(tb, node, head, tb6_hlist) {
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			if (e < s_e)
				goto next;
			res = fib6_dump_table(tb, skb, cb);
			if (res != 0)
				goto out;
next:
			e++;
		}
	}
out:
	cb->args[1] = e;
	cb->args[0] = h;

	res = res < 0 ? res : skb->len;
	if (res <= 0)
		fib6_dump_end(cb);
	return res;
}
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/*
 *	Routing Table
 *
 *	return the appropriate node for a routing tree "add" operation
 *	by either creating and inserting or by returning an existing
 *	node.
 */

static struct fib6_node * fib6_add_1(struct fib6_node *root, void *addr,
				     int addrlen, int plen,
				     int offset)
{
	struct fib6_node *fn, *in, *ln;
	struct fib6_node *pn = NULL;
	struct rt6key *key;
	int	bit;
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	__be32	dir = 0;
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	__u32	sernum = fib6_new_sernum();

	RT6_TRACE("fib6_add_1\n");

	/* insert node in tree */

	fn = root;

	do {
		key = (struct rt6key *)((u8 *)fn->leaf + offset);

		/*
		 *	Prefix match
		 */
		if (plen < fn->fn_bit ||
		    !ipv6_prefix_equal(&key->addr, addr, fn->fn_bit))
			goto insert_above;
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		/*
		 *	Exact match ?
		 */
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		if (plen == fn->fn_bit) {
			/* clean up an intermediate node */
			if ((fn->fn_flags & RTN_RTINFO) == 0) {
				rt6_release(fn->leaf);
				fn->leaf = NULL;
			}
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			fn->fn_sernum = sernum;
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			return fn;
		}

		/*
		 *	We have more bits to go
		 */
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		/* Try to walk down on tree. */
		fn->fn_sernum = sernum;
		dir = addr_bit_set(addr, fn->fn_bit);
		pn = fn;
		fn = dir ? fn->right: fn->left;
	} while (fn);

	/*
	 *	We walked to the bottom of tree.
	 *	Create new leaf node without children.
	 */

	ln = node_alloc();

	if (ln == NULL)
		return NULL;
	ln->fn_bit = plen;
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	ln->parent = pn;
	ln->fn_sernum = sernum;

	if (dir)
		pn->right = ln;
	else
		pn->left  = ln;

	return ln;


insert_above:
	/*
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	 * split since we don't have a common prefix anymore or
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	 * we have a less significant route.
	 * we've to insert an intermediate node on the list
	 * this new node will point to the one we need to create
	 * and the current
	 */

	pn = fn->parent;

	/* find 1st bit in difference between the 2 addrs.

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	   See comment in __ipv6_addr_diff: bit may be an invalid value,
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	   but if it is >= plen, the value is ignored in any case.
	 */
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	bit = __ipv6_addr_diff(addr, &key->addr, addrlen);
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	/*
	 *		(intermediate)[in]
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	 *	          /	   \
	 *	(new leaf node)[ln] (old node)[fn]
	 */
	if (plen > bit) {
		in = node_alloc();
		ln = node_alloc();
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		if (in == NULL || ln == NULL) {
			if (in)
				node_free(in);
			if (ln)
				node_free(ln);
			return NULL;
		}

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		/*
		 * new intermediate node.
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		 * RTN_RTINFO will
		 * be off since that an address that chooses one of
		 * the branches would not match less specific routes
		 * in the other branch
		 */

		in->fn_bit = bit;

		in->parent = pn;
		in->leaf = fn->leaf;
		atomic_inc(&in->leaf->rt6i_ref);

		in->fn_sernum = sernum;

		/* update parent pointer */
		if (dir)
			pn->right = in;
		else
			pn->left  = in;

		ln->fn_bit = plen;

		ln->parent = in;
		fn->parent = in;

		ln->fn_sernum = sernum;

		if (addr_bit_set(addr, bit)) {
			in->right = ln;
			in->left  = fn;
		} else {
			in->left  = ln;
			in->right = fn;
		}
	} else { /* plen <= bit */

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		/*
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		 *		(new leaf node)[ln]
		 *	          /	   \
		 *	     (old node)[fn] NULL
		 */

		ln = node_alloc();

		if (ln == NULL)
			return NULL;

		ln->fn_bit = plen;

		ln->parent = pn;

		ln->fn_sernum = sernum;
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		if (dir)
			pn->right = ln;
		else
			pn->left  = ln;

		if (addr_bit_set(&key->addr, plen))
			ln->right = fn;
		else
			ln->left  = fn;

		fn->parent = ln;
	}
	return ln;
}

/*
 *	Insert routing information in a node.
 */

static int fib6_add_rt2node(struct fib6_node *fn, struct rt6_info *rt,
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			    struct nl_info *info)
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{
	struct rt6_info *iter = NULL;
	struct rt6_info **ins;

	ins = &fn->leaf;

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	for (iter = fn->leaf; iter; iter=iter->u.dst.rt6_next) {
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		/*
		 *	Search for duplicates
		 */

		if (iter->rt6i_metric == rt->rt6i_metric) {
			/*
			 *	Same priority level
			 */

			if (iter->rt6i_dev == rt->rt6i_dev &&
			    iter->rt6i_idev == rt->rt6i_idev &&
			    ipv6_addr_equal(&iter->rt6i_gateway,
					    &rt->rt6i_gateway)) {
				if (!(iter->rt6i_flags&RTF_EXPIRES))
					return -EEXIST;
				iter->rt6i_expires = rt->rt6i_expires;
				if (!(rt->rt6i_flags&RTF_EXPIRES)) {
					iter->rt6i_flags &= ~RTF_EXPIRES;
					iter->rt6i_expires = 0;
				}
				return -EEXIST;
			}
		}

		if (iter->rt6i_metric > rt->rt6i_metric)
			break;

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		ins = &iter->u.dst.rt6_next;
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	}

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	/* Reset round-robin state, if necessary */
	if (ins == &fn->leaf)
		fn->rr_ptr = NULL;

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	/*
	 *	insert node
	 */

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	rt->u.dst.rt6_next = iter;
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	*ins = rt;
	rt->rt6i_node = fn;
	atomic_inc(&rt->rt6i_ref);
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	inet6_rt_notify(RTM_NEWROUTE, rt, info);
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	info->nl_net->ipv6.rt6_stats->fib_rt_entries++;
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	if ((fn->fn_flags & RTN_RTINFO) == 0) {
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		info->nl_net->ipv6.rt6_stats->fib_route_nodes++;
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		fn->fn_flags |= RTN_RTINFO;
	}

	return 0;
}

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static __inline__ void fib6_start_gc(struct net *net, struct rt6_info *rt)
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{
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	if (!timer_pending(&net->ipv6.ip6_fib_timer) &&
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	    (rt->rt6i_flags & (RTF_EXPIRES|RTF_CACHE)))
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		mod_timer(&net->ipv6.ip6_fib_timer,
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			  jiffies + net->ipv6.sysctl.ip6_rt_gc_interval);
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}

672
void fib6_force_start_gc(struct net *net)
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{
674 675
	if (!timer_pending(&net->ipv6.ip6_fib_timer))
		mod_timer(&net->ipv6.ip6_fib_timer,
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			  jiffies + net->ipv6.sysctl.ip6_rt_gc_interval);
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}

/*
 *	Add routing information to the routing tree.
 *	<destination addr>/<source addr>
 *	with source addr info in sub-trees
 */

685
int fib6_add(struct fib6_node *root, struct rt6_info *rt, struct nl_info *info)
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{
687
	struct fib6_node *fn, *pn = NULL;
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	int err = -ENOMEM;

	fn = fib6_add_1(root, &rt->rt6i_dst.addr, sizeof(struct in6_addr),
			rt->rt6i_dst.plen, offsetof(struct rt6_info, rt6i_dst));

	if (fn == NULL)
		goto out;

696 697
	pn = fn;

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#ifdef CONFIG_IPV6_SUBTREES
	if (rt->rt6i_src.plen) {
		struct fib6_node *sn;

		if (fn->subtree == NULL) {
			struct fib6_node *sfn;

			/*
			 * Create subtree.
			 *
			 *		fn[main tree]
			 *		|
			 *		sfn[subtree root]
			 *		   \
			 *		    sn[new leaf node]
			 */

			/* Create subtree root node */
			sfn = node_alloc();
			if (sfn == NULL)
				goto st_failure;

720 721
			sfn->leaf = info->nl_net->ipv6.ip6_null_entry;
			atomic_inc(&info->nl_net->ipv6.ip6_null_entry->rt6i_ref);
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			sfn->fn_flags = RTN_ROOT;
			sfn->fn_sernum = fib6_new_sernum();

			/* Now add the first leaf node to new subtree */

			sn = fib6_add_1(sfn, &rt->rt6i_src.addr,
					sizeof(struct in6_addr), rt->rt6i_src.plen,
					offsetof(struct rt6_info, rt6i_src));

			if (sn == NULL) {
				/* If it is failed, discard just allocated
				   root, and then (in st_failure) stale node
				   in main tree.
				 */
				node_free(sfn);
				goto st_failure;
			}

			/* Now link new subtree to main tree */
			sfn->parent = fn;
			fn->subtree = sfn;
		} else {
			sn = fib6_add_1(fn->subtree, &rt->rt6i_src.addr,
					sizeof(struct in6_addr), rt->rt6i_src.plen,
					offsetof(struct rt6_info, rt6i_src));

			if (sn == NULL)
				goto st_failure;
		}

752 753 754 755
		if (fn->leaf == NULL) {
			fn->leaf = rt;
			atomic_inc(&rt->rt6i_ref);
		}
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		fn = sn;
	}
#endif

760
	err = fib6_add_rt2node(fn, rt, info);
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	if (err == 0) {
763
		fib6_start_gc(info->nl_net, rt);
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		if (!(rt->rt6i_flags&RTF_CACHE))
765
			fib6_prune_clones(info->nl_net, pn, rt);
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	}

out:
769 770 771 772 773 774
	if (err) {
#ifdef CONFIG_IPV6_SUBTREES
		/*
		 * If fib6_add_1 has cleared the old leaf pointer in the
		 * super-tree leaf node we have to find a new one for it.
		 */
775 776 777 778
		if (pn != fn && pn->leaf == rt) {
			pn->leaf = NULL;
			atomic_dec(&rt->rt6i_ref);
		}
779
		if (pn != fn && !pn->leaf && !(pn->fn_flags & RTN_RTINFO)) {
780
			pn->leaf = fib6_find_prefix(info->nl_net, pn);
781 782
#if RT6_DEBUG >= 2
			if (!pn->leaf) {
783
				WARN_ON(pn->leaf == NULL);
784
				pn->leaf = info->nl_net->ipv6.ip6_null_entry;
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			}
#endif
			atomic_inc(&pn->leaf->rt6i_ref);
		}
#endif
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		dst_free(&rt->u.dst);
791
	}
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	return err;

#ifdef CONFIG_IPV6_SUBTREES
	/* Subtree creation failed, probably main tree node
	   is orphan. If it is, shoot it.
	 */
st_failure:
	if (fn && !(fn->fn_flags & (RTN_RTINFO|RTN_ROOT)))
800
		fib6_repair_tree(info->nl_net, fn);
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	dst_free(&rt->u.dst);
	return err;
#endif
}

/*
 *	Routing tree lookup
 *
 */

struct lookup_args {
	int		offset;		/* key offset on rt6_info	*/
	struct in6_addr	*addr;		/* search key			*/
};

static struct fib6_node * fib6_lookup_1(struct fib6_node *root,
					struct lookup_args *args)
{
	struct fib6_node *fn;
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	__be32 dir;
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	if (unlikely(args->offset == 0))
		return NULL;

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	/*
	 *	Descend on a tree
	 */

	fn = root;

	for (;;) {
		struct fib6_node *next;

		dir = addr_bit_set(args->addr, fn->fn_bit);

		next = dir ? fn->right : fn->left;

		if (next) {
			fn = next;
			continue;
		}

		break;
	}

846
	while(fn) {
847
		if (FIB6_SUBTREE(fn) || fn->fn_flags & RTN_RTINFO) {
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			struct rt6key *key;

			key = (struct rt6key *) ((u8 *) fn->leaf +
						 args->offset);

853 854 855 856 857 858 859 860
			if (ipv6_prefix_equal(&key->addr, args->addr, key->plen)) {
#ifdef CONFIG_IPV6_SUBTREES
				if (fn->subtree)
					fn = fib6_lookup_1(fn->subtree, args + 1);
#endif
				if (!fn || fn->fn_flags & RTN_RTINFO)
					return fn;
			}
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		}

863 864 865
		if (fn->fn_flags & RTN_ROOT)
			break;

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		fn = fn->parent;
	}

	return NULL;
}

struct fib6_node * fib6_lookup(struct fib6_node *root, struct in6_addr *daddr,
			       struct in6_addr *saddr)
{
	struct fib6_node *fn;
876 877 878 879 880
	struct lookup_args args[] = {
		{
			.offset = offsetof(struct rt6_info, rt6i_dst),
			.addr = daddr,
		},
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#ifdef CONFIG_IPV6_SUBTREES
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		{
			.offset = offsetof(struct rt6_info, rt6i_src),
			.addr = saddr,
		},
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#endif
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		{
			.offset = 0,	/* sentinel */
		}
	};
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892
	fn = fib6_lookup_1(root, daddr ? args : args + 1);
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	if (fn == NULL || fn->fn_flags & RTN_TL_ROOT)
		fn = root;

	return fn;
}

/*
 *	Get node with specified destination prefix (and source prefix,
 *	if subtrees are used)
 */


static struct fib6_node * fib6_locate_1(struct fib6_node *root,
					struct in6_addr *addr,
					int plen, int offset)
{
	struct fib6_node *fn;

	for (fn = root; fn ; ) {
		struct rt6key *key = (struct rt6key *)((u8 *)fn->leaf + offset);

		/*
		 *	Prefix match
		 */
		if (plen < fn->fn_bit ||
		    !ipv6_prefix_equal(&key->addr, addr, fn->fn_bit))
			return NULL;

		if (plen == fn->fn_bit)
			return fn;

		/*
		 *	We have more bits to go
		 */
		if (addr_bit_set(addr, fn->fn_bit))
			fn = fn->right;
		else
			fn = fn->left;
	}
	return NULL;
}

struct fib6_node * fib6_locate(struct fib6_node *root,
			       struct in6_addr *daddr, int dst_len,
			       struct in6_addr *saddr, int src_len)
{
	struct fib6_node *fn;

	fn = fib6_locate_1(root, daddr, dst_len,
			   offsetof(struct rt6_info, rt6i_dst));

#ifdef CONFIG_IPV6_SUBTREES
	if (src_len) {
947
		WARN_ON(saddr == NULL);
948 949
		if (fn && fn->subtree)
			fn = fib6_locate_1(fn->subtree, saddr, src_len,
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					   offsetof(struct rt6_info, rt6i_src));
	}
#endif

	if (fn && fn->fn_flags&RTN_RTINFO)
		return fn;

	return NULL;
}


/*
 *	Deletion
 *
 */

966
static struct rt6_info *fib6_find_prefix(struct net *net, struct fib6_node *fn)
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{
	if (fn->fn_flags&RTN_ROOT)
969
		return net->ipv6.ip6_null_entry;
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	while(fn) {
		if(fn->left)
			return fn->left->leaf;

		if(fn->right)
			return fn->right->leaf;

978
		fn = FIB6_SUBTREE(fn);
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	}
	return NULL;
}

/*
 *	Called to trim the tree of intermediate nodes when possible. "fn"
 *	is the node we want to try and remove.
 */

988 989
static struct fib6_node *fib6_repair_tree(struct net *net,
					   struct fib6_node *fn)
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{
	int children;
	int nstate;
	struct fib6_node *child, *pn;
	struct fib6_walker_t *w;
	int iter = 0;

	for (;;) {
		RT6_TRACE("fixing tree: plen=%d iter=%d\n", fn->fn_bit, iter);
		iter++;

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		WARN_ON(fn->fn_flags & RTN_RTINFO);
		WARN_ON(fn->fn_flags & RTN_TL_ROOT);
		WARN_ON(fn->leaf != NULL);
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		children = 0;
		child = NULL;
		if (fn->right) child = fn->right, children |= 1;
		if (fn->left) child = fn->left, children |= 2;

1010
		if (children == 3 || FIB6_SUBTREE(fn)
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#ifdef CONFIG_IPV6_SUBTREES
		    /* Subtree root (i.e. fn) may have one child */
		    || (children && fn->fn_flags&RTN_ROOT)
#endif
		    ) {
1016
			fn->leaf = fib6_find_prefix(net, fn);
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#if RT6_DEBUG >= 2
			if (fn->leaf==NULL) {
1019
				WARN_ON(!fn->leaf);
1020
				fn->leaf = net->ipv6.ip6_null_entry;
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			}
#endif
			atomic_inc(&fn->leaf->rt6i_ref);
			return fn->parent;
		}

		pn = fn->parent;
#ifdef CONFIG_IPV6_SUBTREES
1029
		if (FIB6_SUBTREE(pn) == fn) {
1030
			WARN_ON(!(fn->fn_flags & RTN_ROOT));
1031
			FIB6_SUBTREE(pn) = NULL;
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			nstate = FWS_L;
		} else {
1034
			WARN_ON(fn->fn_flags & RTN_ROOT);
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#endif
			if (pn->right == fn) pn->right = child;
			else if (pn->left == fn) pn->left = child;
#if RT6_DEBUG >= 2
1039 1040
			else
				WARN_ON(1);
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#endif
			if (child)
				child->parent = pn;
			nstate = FWS_R;
#ifdef CONFIG_IPV6_SUBTREES
		}
#endif

		read_lock(&fib6_walker_lock);
		FOR_WALKERS(w) {
			if (child == NULL) {
				if (w->root == fn) {
					w->root = w->node = NULL;
					RT6_TRACE("W %p adjusted by delroot 1\n", w);
				} else if (w->node == fn) {
					RT6_TRACE("W %p adjusted by delnode 1, s=%d/%d\n", w, w->state, nstate);
					w->node = pn;
					w->state = nstate;
				}
			} else {
				if (w->root == fn) {
					w->root = child;
					RT6_TRACE("W %p adjusted by delroot 2\n", w);
				}
				if (w->node == fn) {
					w->node = child;
					if (children&2) {
						RT6_TRACE("W %p adjusted by delnode 2, s=%d\n", w, w->state);
						w->state = w->state>=FWS_R ? FWS_U : FWS_INIT;
					} else {
						RT6_TRACE("W %p adjusted by delnode 2, s=%d\n", w, w->state);
						w->state = w->state>=FWS_C ? FWS_U : FWS_INIT;
					}
				}
			}
		}
		read_unlock(&fib6_walker_lock);

		node_free(fn);
1080
		if (pn->fn_flags&RTN_RTINFO || FIB6_SUBTREE(pn))
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			return pn;

		rt6_release(pn->leaf);
		pn->leaf = NULL;
		fn = pn;
	}
}

static void fib6_del_route(struct fib6_node *fn, struct rt6_info **rtp,
1090
			   struct nl_info *info)
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{
	struct fib6_walker_t *w;
	struct rt6_info *rt = *rtp;
1094
	struct net *net = info->nl_net;
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	RT6_TRACE("fib6_del_route\n");

	/* Unlink it */
1099
	*rtp = rt->u.dst.rt6_next;
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	rt->rt6i_node = NULL;
1101 1102
	net->ipv6.rt6_stats->fib_rt_entries--;
	net->ipv6.rt6_stats->fib_discarded_routes++;
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1104 1105 1106 1107
	/* Reset round-robin state, if necessary */
	if (fn->rr_ptr == rt)
		fn->rr_ptr = NULL;

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	/* Adjust walkers */
	read_lock(&fib6_walker_lock);
	FOR_WALKERS(w) {
		if (w->state == FWS_C && w->leaf == rt) {
			RT6_TRACE("walker %p adjusted by delroute\n", w);
1113
			w->leaf = rt->u.dst.rt6_next;
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			if (w->leaf == NULL)
				w->state = FWS_U;
		}
	}
	read_unlock(&fib6_walker_lock);

1120
	rt->u.dst.rt6_next = NULL;
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	/* If it was last route, expunge its radix tree node */
	if (fn->leaf == NULL) {
		fn->fn_flags &= ~RTN_RTINFO;
1125
		net->ipv6.rt6_stats->fib_route_nodes--;
1126
		fn = fib6_repair_tree(net, fn);
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	}

	if (atomic_read(&rt->rt6i_ref) != 1) {
		/* This route is used as dummy address holder in some split
		 * nodes. It is not leaked, but it still holds other resources,
		 * which must be released in time. So, scan ascendant nodes
		 * and replace dummy references to this route with references
		 * to still alive ones.
		 */
		while (fn) {
			if (!(fn->fn_flags&RTN_RTINFO) && fn->leaf == rt) {
1138
				fn->leaf = fib6_find_prefix(net, fn);
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				atomic_inc(&fn->leaf->rt6i_ref);
				rt6_release(rt);
			}
			fn = fn->parent;
		}
		/* No more references are possible at this point. */
1145
		BUG_ON(atomic_read(&rt->rt6i_ref) != 1);
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	}

1148
	inet6_rt_notify(RTM_DELROUTE, rt, info);
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	rt6_release(rt);
}

1152
int fib6_del(struct rt6_info *rt, struct nl_info *info)
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{
1154
	struct net *net = info->nl_net;
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	struct fib6_node *fn = rt->rt6i_node;
	struct rt6_info **rtp;

#if RT6_DEBUG >= 2
	if (rt->u.dst.obsolete>0) {
1160
		WARN_ON(fn != NULL);
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		return -ENOENT;
	}
#endif
1164
	if (fn == NULL || rt == net->ipv6.ip6_null_entry)
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		return -ENOENT;

1167
	WARN_ON(!(fn->fn_flags & RTN_RTINFO));
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1169 1170 1171 1172 1173 1174 1175 1176 1177 1178
	if (!(rt->rt6i_flags&RTF_CACHE)) {
		struct fib6_node *pn = fn;
#ifdef CONFIG_IPV6_SUBTREES
		/* clones of this route might be in another subtree */
		if (rt->rt6i_src.plen) {
			while (!(pn->fn_flags&RTN_ROOT))
				pn = pn->parent;
			pn = pn->parent;
		}
#endif
1179
		fib6_prune_clones(info->nl_net, pn, rt);
1180
	}
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	/*
	 *	Walk the leaf entries looking for ourself
	 */

1186
	for (rtp = &fn->leaf; *rtp; rtp = &(*rtp)->u.dst.rt6_next) {
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		if (*rtp == rt) {
1188
			fib6_del_route(fn, rtp, info);
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			return 0;
		}
	}
	return -ENOENT;
}

/*
 *	Tree traversal function.
 *
 *	Certainly, it is not interrupt safe.
 *	However, it is internally reenterable wrt itself and fib6_add/fib6_del.
 *	It means, that we can modify tree during walking
 *	and use this function for garbage collection, clone pruning,
1202
 *	cleaning tree when a device goes down etc. etc.
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 *
 *	It guarantees that every node will be traversed,
 *	and that it will be traversed only once.
 *
 *	Callback function w->func may return:
 *	0 -> continue walking.
 *	positive value -> walking is suspended (used by tree dumps,
 *	and probably by gc, if it will be split to several slices)
 *	negative value -> terminate walking.
 *
 *	The function itself returns:
 *	0   -> walk is complete.
 *	>0  -> walk is incomplete (i.e. suspended)
 *	<0  -> walk is terminated by an error.
 */

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static int fib6_walk_continue(struct fib6_walker_t *w)
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{
	struct fib6_node *fn, *pn;

	for (;;) {
		fn = w->node;
		if (fn == NULL)
			return 0;

		if (w->prune && fn != w->root &&
		    fn->fn_flags&RTN_RTINFO && w->state < FWS_C) {
			w->state = FWS_C;
			w->leaf = fn->leaf;
		}
		switch (w->state) {
#ifdef CONFIG_IPV6_SUBTREES
		case FWS_S:
1236 1237
			if (FIB6_SUBTREE(fn)) {
				w->node = FIB6_SUBTREE(fn);
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				continue;
			}
			w->state = FWS_L;
1241
#endif
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		case FWS_L:
			if (fn->left) {
				w->node = fn->left;
				w->state = FWS_INIT;
				continue;
			}
			w->state = FWS_R;
		case FWS_R:
			if (fn->right) {
				w->node = fn->right;
				w->state = FWS_INIT;
				continue;
			}
			w->state = FWS_C;
			w->leaf = fn->leaf;
		case FWS_C:
			if (w->leaf && fn->fn_flags&RTN_RTINFO) {
				int err = w->func(w);
				if (err)
					return err;
				continue;
			}
			w->state = FWS_U;
		case FWS_U:
			if (fn == w->root)
				return 0;
			pn = fn->parent;
			w->node = pn;
#ifdef CONFIG_IPV6_SUBTREES
1271
			if (FIB6_SUBTREE(pn) == fn) {
1272
				WARN_ON(!(fn->fn_flags & RTN_ROOT));
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				w->state = FWS_L;
				continue;
			}
#endif
			if (pn->left == fn) {
				w->state = FWS_R;
				continue;
			}
			if (pn->right == fn) {
				w->state = FWS_C;
				w->leaf = w->node->leaf;
				continue;
			}
#if RT6_DEBUG >= 2
1287
			WARN_ON(1);
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1288 1289 1290 1291 1292
#endif
		}
	}
}

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static int fib6_walk(struct fib6_walker_t *w)
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{
	int res;

	w->state = FWS_INIT;
	w->node = w->root;

	fib6_walker_link(w);
	res = fib6_walk_continue(w);
	if (res <= 0)
		fib6_walker_unlink(w);
	return res;
}

static int fib6_clean_node(struct fib6_walker_t *w)
{
	int res;
	struct rt6_info *rt;
1311
	struct fib6_cleaner_t *c = container_of(w, struct fib6_cleaner_t, w);
1312 1313 1314
	struct nl_info info = {
		.nl_net = c->net,
	};
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1315

1316
	for (rt = w->leaf; rt; rt = rt->u.dst.rt6_next) {
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1317 1318 1319
		res = c->func(rt, c->arg);
		if (res < 0) {
			w->leaf = rt;
1320
			res = fib6_del(rt, &info);
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			if (res) {
#if RT6_DEBUG >= 2
				printk(KERN_DEBUG "fib6_clean_node: del failed: rt=%p@%p err=%d\n", rt, rt->rt6i_node, res);
#endif
				continue;
			}
			return 0;
		}
1329
		WARN_ON(res != 0);
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	}
	w->leaf = rt;
	return 0;
}

/*
 *	Convenient frontend to tree walker.
1337
 *
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 *	func is called on each route.
 *		It may return -1 -> delete this route.
 *		              0  -> continue walking
 *
 *	prune==1 -> only immediate children of node (certainly,
 *	ignoring pure split nodes) will be scanned.
 */

1346
static void fib6_clean_tree(struct net *net, struct fib6_node *root,
A
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			    int (*func)(struct rt6_info *, void *arg),
			    int prune, void *arg)
L
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1349 1350 1351 1352 1353 1354 1355 1356
{
	struct fib6_cleaner_t c;

	c.w.root = root;
	c.w.func = fib6_clean_node;
	c.w.prune = prune;
	c.func = func;
	c.arg = arg;
1357
	c.net = net;
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	fib6_walk(&c.w);
}

1362
void fib6_clean_all(struct net *net, int (*func)(struct rt6_info *, void *arg),
T
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1363 1364 1365
		    int prune, void *arg)
{
	struct fib6_table *table;
1366
	struct hlist_node *node;
1367
	struct hlist_head *head;
1368
	unsigned int h;
T
Thomas Graf 已提交
1369

1370 1371
	rcu_read_lock();
	for (h = 0; h < FIB_TABLE_HASHSZ; h++) {
1372
		head = &net->ipv6.fib_table_hash[h];
1373
		hlist_for_each_entry_rcu(table, node, head, tb6_hlist) {
T
Thomas Graf 已提交
1374
			write_lock_bh(&table->tb6_lock);
1375 1376
			fib6_clean_tree(net, &table->tb6_root,
					func, prune, arg);
T
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1377 1378 1379
			write_unlock_bh(&table->tb6_lock);
		}
	}
1380
	rcu_read_unlock();
T
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1381 1382
}

L
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static int fib6_prune_clone(struct rt6_info *rt, void *arg)
{
	if (rt->rt6i_flags & RTF_CACHE) {
		RT6_TRACE("pruning clone %p\n", rt);
		return -1;
	}

	return 0;
}

1393 1394
static void fib6_prune_clones(struct net *net, struct fib6_node *fn,
			      struct rt6_info *rt)
L
Linus Torvalds 已提交
1395
{
1396
	fib6_clean_tree(net, fn, fib6_prune_clone, 1, rt);
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1397 1398 1399 1400 1401 1402 1403 1404 1405 1406 1407 1408 1409 1410 1411 1412 1413 1414 1415 1416 1417 1418 1419 1420 1421 1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 1443 1444 1445
}

/*
 *	Garbage collection
 */

static struct fib6_gc_args
{
	int			timeout;
	int			more;
} gc_args;

static int fib6_age(struct rt6_info *rt, void *arg)
{
	unsigned long now = jiffies;

	/*
	 *	check addrconf expiration here.
	 *	Routes are expired even if they are in use.
	 *
	 *	Also age clones. Note, that clones are aged out
	 *	only if they are not in use now.
	 */

	if (rt->rt6i_flags&RTF_EXPIRES && rt->rt6i_expires) {
		if (time_after(now, rt->rt6i_expires)) {
			RT6_TRACE("expiring %p\n", rt);
			return -1;
		}
		gc_args.more++;
	} else if (rt->rt6i_flags & RTF_CACHE) {
		if (atomic_read(&rt->u.dst.__refcnt) == 0 &&
		    time_after_eq(now, rt->u.dst.lastuse + gc_args.timeout)) {
			RT6_TRACE("aging clone %p\n", rt);
			return -1;
		} else if ((rt->rt6i_flags & RTF_GATEWAY) &&
			   (!(rt->rt6i_nexthop->flags & NTF_ROUTER))) {
			RT6_TRACE("purging route %p via non-router but gateway\n",
				  rt);
			return -1;
		}
		gc_args.more++;
	}

	return 0;
}

static DEFINE_SPINLOCK(fib6_gc_lock);

1446
void fib6_run_gc(unsigned long expires, struct net *net)
L
Linus Torvalds 已提交
1447
{
1448
	if (expires != ~0UL) {
L
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1449
		spin_lock_bh(&fib6_gc_lock);
1450 1451
		gc_args.timeout = expires ? (int)expires :
			net->ipv6.sysctl.ip6_rt_gc_interval;
L
Linus Torvalds 已提交
1452
	} else {
S
Stephen Hemminger 已提交
1453
		if (!spin_trylock_bh(&fib6_gc_lock)) {
1454
			mod_timer(&net->ipv6.ip6_fib_timer, jiffies + HZ);
L
Linus Torvalds 已提交
1455 1456
			return;
		}
1457
		gc_args.timeout = net->ipv6.sysctl.ip6_rt_gc_interval;
L
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1458 1459
	}

1460
	gc_args.more = icmp6_dst_gc();
1461

1462
	fib6_clean_all(net, fib6_age, 0, NULL);
L
Linus Torvalds 已提交
1463 1464

	if (gc_args.more)
S
Stephen Hemminger 已提交
1465 1466 1467
		mod_timer(&net->ipv6.ip6_fib_timer,
			  round_jiffies(jiffies
					+ net->ipv6.sysctl.ip6_rt_gc_interval));
1468 1469
	else
		del_timer(&net->ipv6.ip6_fib_timer);
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1470 1471 1472
	spin_unlock_bh(&fib6_gc_lock);
}

1473 1474 1475 1476 1477
static void fib6_gc_timer_cb(unsigned long arg)
{
	fib6_run_gc(0, (struct net *)arg);
}

1478
static int fib6_net_init(struct net *net)
L
Linus Torvalds 已提交
1479
{
1480
	setup_timer(&net->ipv6.ip6_fib_timer, fib6_gc_timer_cb, (unsigned long)net);
1481

1482 1483 1484 1485
	net->ipv6.rt6_stats = kzalloc(sizeof(*net->ipv6.rt6_stats), GFP_KERNEL);
	if (!net->ipv6.rt6_stats)
		goto out_timer;

S
Stephen Hemminger 已提交
1486 1487 1488
	net->ipv6.fib_table_hash = kcalloc(FIB_TABLE_HASHSZ,
					   sizeof(*net->ipv6.fib_table_hash),
					   GFP_KERNEL);
1489
	if (!net->ipv6.fib_table_hash)
1490
		goto out_rt6_stats;
1491

1492 1493 1494
	net->ipv6.fib6_main_tbl = kzalloc(sizeof(*net->ipv6.fib6_main_tbl),
					  GFP_KERNEL);
	if (!net->ipv6.fib6_main_tbl)
1495 1496
		goto out_fib_table_hash;

1497
	net->ipv6.fib6_main_tbl->tb6_id = RT6_TABLE_MAIN;
1498
	net->ipv6.fib6_main_tbl->tb6_root.leaf = net->ipv6.ip6_null_entry;
1499 1500
	net->ipv6.fib6_main_tbl->tb6_root.fn_flags =
		RTN_ROOT | RTN_TL_ROOT | RTN_RTINFO;
1501 1502

#ifdef CONFIG_IPV6_MULTIPLE_TABLES
1503 1504 1505
	net->ipv6.fib6_local_tbl = kzalloc(sizeof(*net->ipv6.fib6_local_tbl),
					   GFP_KERNEL);
	if (!net->ipv6.fib6_local_tbl)
1506
		goto out_fib6_main_tbl;
1507
	net->ipv6.fib6_local_tbl->tb6_id = RT6_TABLE_LOCAL;
1508
	net->ipv6.fib6_local_tbl->tb6_root.leaf = net->ipv6.ip6_null_entry;
1509 1510
	net->ipv6.fib6_local_tbl->tb6_root.fn_flags =
		RTN_ROOT | RTN_TL_ROOT | RTN_RTINFO;
1511
#endif
1512
	fib6_tables_init(net);
1513

1514
	return 0;
1515

1516 1517
#ifdef CONFIG_IPV6_MULTIPLE_TABLES
out_fib6_main_tbl:
1518
	kfree(net->ipv6.fib6_main_tbl);
1519 1520
#endif
out_fib_table_hash:
1521
	kfree(net->ipv6.fib_table_hash);
1522 1523
out_rt6_stats:
	kfree(net->ipv6.rt6_stats);
1524
out_timer:
1525
	return -ENOMEM;
1526 1527 1528 1529
 }

static void fib6_net_exit(struct net *net)
{
1530
	rt6_ifdown(net, NULL);
1531 1532
	del_timer_sync(&net->ipv6.ip6_fib_timer);

1533 1534 1535 1536 1537
#ifdef CONFIG_IPV6_MULTIPLE_TABLES
	kfree(net->ipv6.fib6_local_tbl);
#endif
	kfree(net->ipv6.fib6_main_tbl);
	kfree(net->ipv6.fib_table_hash);
1538
	kfree(net->ipv6.rt6_stats);
1539 1540 1541 1542 1543 1544 1545 1546 1547 1548
}

static struct pernet_operations fib6_net_ops = {
	.init = fib6_net_init,
	.exit = fib6_net_exit,
};

int __init fib6_init(void)
{
	int ret = -ENOMEM;
1549

1550 1551 1552 1553 1554 1555 1556 1557 1558
	fib6_node_kmem = kmem_cache_create("fib6_nodes",
					   sizeof(struct fib6_node),
					   0, SLAB_HWCACHE_ALIGN,
					   NULL);
	if (!fib6_node_kmem)
		goto out;

	ret = register_pernet_subsys(&fib6_net_ops);
	if (ret)
1559
		goto out_kmem_cache_create;
1560 1561 1562 1563 1564 1565 1566 1567 1568

	ret = __rtnl_register(PF_INET6, RTM_GETROUTE, NULL, inet6_dump_fib);
	if (ret)
		goto out_unregister_subsys;
out:
	return ret;

out_unregister_subsys:
	unregister_pernet_subsys(&fib6_net_ops);
1569 1570 1571
out_kmem_cache_create:
	kmem_cache_destroy(fib6_node_kmem);
	goto out;
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1572 1573 1574 1575
}

void fib6_gc_cleanup(void)
{
1576
	unregister_pernet_subsys(&fib6_net_ops);
L
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1577 1578
	kmem_cache_destroy(fib6_node_kmem);
}