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mirror of https://gitlab.nic.cz/labs/bird.git synced 2024-12-22 01:31:55 +00:00

Finishes add-path.

Fixes some bugs and uses generic hash implementation.
This commit is contained in:
Ondrej Zajicek 2013-11-26 22:37:24 +01:00
parent 283c7dfada
commit e7d2ac4401
10 changed files with 169 additions and 177 deletions

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@ -6,6 +6,9 @@
* Can be freely distributed and used under the terms of the GNU GPL.
*/
#ifndef _BIRD_BITOPTS_H_
#define _BIRD_BITOPTS_H_
/*
* Bit mask operations:
*
@ -19,3 +22,8 @@ u32 u32_mkmask(unsigned n);
int u32_masklen(u32 x);
u32 u32_log2(u32 v);
static inline u32 u32_hash(u32 v) { return v * 2902958171u; }
#endif

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@ -3,7 +3,9 @@
#define HASH(type) struct { type **data; uint count, order; }
#define HASH_TYPE(v) typeof(** (v).data)
#define HASH_SIZE(v) (1 << (v).order)
#define HASH_MASK(v) ((1 << (v).order)-1)
#define HASH_EQ(v,id,k1,k2...) (id##_EQ(k1, k2))
#define HASH_FN(v,id,key...) ((u32) (id##_FN(key)) >> (32 - (v).order))
#define HASH_INIT(v,pool,init_order) \
@ -15,16 +17,16 @@
#define HASH_FIND(v,id,key...) \
({ \
uint _h = id##_FN((key)) & HASH_MASK(v); \
u32 _h = HASH_FN(v, id, key); \
HASH_TYPE(v) *_n = (v).data[_h]; \
while (_n && !id##_EQ(id##_KEY(_n), (key))) \
while (_n && !HASH_EQ(v, id, id##_KEY(_n), key)) \
_n = id##_NEXT(_n); \
_n; \
})
#define HASH_INSERT(v,id,node) \
({ \
uint _h = id##_FN(id##_KEY((node))) & HASH_MASK(v); \
u32 _h = HASH_FN(v, id, id##_KEY((node))); \
HASH_TYPE(v) **_nn = (v).data + _h; \
id##_NEXT(node) = *_nn; \
*_nn = node; \
@ -33,72 +35,117 @@
#define HASH_DO_REMOVE(v,id,_nn) \
({ \
HASH_TYPE(v) *_n = *_nn; \
if (_n) \
{ \
*_nn = id##_NEXT(_n); \
*_nn = id##_NEXT((*_nn)); \
(v).count--; \
} \
_n; \
})
#define HASH_DELETE(v,id,key...) \
({ \
uint _h = id##_FN((key)) & HASH_MASK(v); \
HASH_TYPE(v) **_nn = (v).data + _h; \
u32 _h = HASH_FN(v, id, key); \
HASH_TYPE(v) *_n, **_nn = (v).data + _h; \
\
while ((*_nn) && !id##_EQ(id##_KEY((*_nn)), (key))) \
while ((*_nn) && !HASH_EQ(v, id, id##_KEY((*_nn)), key)) \
_nn = &(id##_NEXT((*_nn))); \
\
if (_n = *_nn) \
HASH_DO_REMOVE(v,id,_nn); \
_n; \
})
#define HASH_REMOVE(v,id,node) \
({ \
uint _h = id##_FN(id##_KEY((node))) & HASH_MASK(v); \
HASH_TYPE(v) **_nn = (v).data + _h; \
u32 _h = HASH_FN(v, id, id##_KEY((node))); \
HASH_TYPE(v) *_n, **_nn = (v).data + _h; \
\
while ((*_nn) && (*_nn != (node))) \
_nn = &(id##_NEXT((*_nn))); \
\
if (_n = *_nn) \
HASH_DO_REMOVE(v,id,_nn); \
_n; \
})
#define HASH_REHASH(v,id,pool,step) \
({ \
HASH_TYPE(v) *_n, *_n2, **_od; \
uint _i, _s; \
uint _i, _os; \
\
_s = HASH_SIZE(v); \
_os = HASH_SIZE(v); \
_od = (v).data; \
(v).count = 0; \
(v).order += (step); \
(v).data = mb_allocz(pool, HASH_SIZE(v) * sizeof(* (v).data)); \
\
for (_i = 0; _i < _s; _i++) \
for (_i = 0; _i < _os; _i++) \
for (_n = _od[_i]; _n && (_n2 = id##_NEXT(_n), 1); _n = _n2) \
HASH_INSERT(v, id, _n); \
\
mb_free(_od); \
})
#define HASH_DEFINE_REHASH_FN(id, type) \
static void id##_REHASH_FN(void *v, pool *p, int step) \
#define REHASH_LO_MARK(a,b,c,d,e,f) a
#define REHASH_HI_MARK(a,b,c,d,e,f) b
#define REHASH_LO_STEP(a,b,c,d,e,f) c
#define REHASH_HI_STEP(a,b,c,d,e,f) d
#define REHASH_LO_BOUND(a,b,c,d,e,f) e
#define REHASH_HI_BOUND(a,b,c,d,e,f) f
#define HASH_DEFINE_REHASH_FN(id,type) \
static void id##_REHASH(void *v, pool *p, int step) \
{ HASH_REHASH(* (HASH(type) *) v, id, p, step); }
#define HASH_TRY_REHASH_UP(v,id,pool) \
#define HASH_MAY_STEP_UP(v,id,pool) HASH_MAY_STEP_UP_(v,pool, id##_REHASH, id##_PARAMS)
#define HASH_MAY_STEP_DOWN(v,id,pool) HASH_MAY_STEP_DOWN_(v,pool, id##_REHASH, id##_PARAMS)
#define HASH_MAY_RESIZE_DOWN(v,id,pool) HASH_MAY_RESIZE_DOWN_(v,pool, id##_REHASH, id##_PARAMS)
#define HASH_MAY_STEP_UP_(v,pool,rehash_fn,args) \
({ \
if (((v).order < id##_REHASH_MAX) && ((v).count > HASH_SIZE(v))) \
id##_REHASH_FN(&v, pool, 1); \
if (((v).count > (HASH_SIZE(v) REHASH_HI_MARK(args))) && \
((v).order < (REHASH_HI_BOUND(args)))) \
rehash_fn(&(v), pool, REHASH_HI_STEP(args)); \
})
#define HASH_TRY_REHASH_DOWN(v,id,pool) \
#define HASH_MAY_STEP_DOWN_(v,pool,rehash_fn,args) \
({ \
if (((v).order > id##_REHASH_MIN) && ((v).count < HASH_SIZE(v)/2)) \
id##_REHASH_FN(&v, pool, -1); \
if (((v).count < (HASH_SIZE(v) REHASH_LO_MARK(args))) && \
((v).order > (REHASH_LO_BOUND(args)))) \
rehash_fn(&(v), pool, -(REHASH_LO_STEP(args))); \
})
#define HASH_MAY_RESIZE_DOWN_(v,pool,rehash_fn,args) \
({ \
int _o = (v).order; \
while (((v).count < ((1 << _o) REHASH_LO_MARK(args))) && \
(_o > (REHASH_LO_BOUND(args)))) \
_o -= (REHASH_LO_STEP(args)); \
if (_o < (v).order) \
rehash_fn(&(v), pool, _o - (int) (v).order); \
})
#define HASH_INSERT2(v,id,pool,node) \
({ \
HASH_INSERT(v, id, node); \
HASH_MAY_STEP_UP(v, id, pool); \
})
#define HASH_DELETE2(v,id,pool,key...) \
({ \
HASH_TYPE(v) *_n = HASH_DELETE(v, id, key); \
if (_n) HASH_MAY_STEP_DOWN(v, id, pool); \
_n; \
})
#define HASH_REMOVE2(v,id,pool,node) \
({ \
HASH_TYPE(v) *_n = HASH_REMOVE(v, id, node); \
if (_n) HASH_MAY_STEP_DOWN(v, id, pool); \
_n; \
})
#define HASH_WALK(v,next,n) \
do { \
HASH_TYPE(v) *n; \
@ -121,3 +168,13 @@
#define HASH_WALK_DELSAFE_END } while (0)
#define HASH_WALK_FILTER(v,next,n,nn) \
do { \
HASH_TYPE(v) *n, **nn; \
uint _i; \
uint _s = HASH_SIZE(v); \
for (_i = 0; _i < _s; _i++) \
for (nn = (v).data + _i; n = *nn; (*nn == n) ? (nn = &n->next) : NULL)
#define HASH_WALK_FILTER_END } while (0)

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@ -52,6 +52,7 @@ typedef u32 ip_addr;
#define ipa_mkmask(x) _MI(u32_mkmask(x))
#define ipa_mklen(x) u32_masklen(_I(x))
#define ipa_hash(x) ipv4_hash(_I(x))
#define ipa_hash32(x) ipv4_hash32(_I(x))
#define ipa_hton(x) x = _MI(htonl(_I(x)))
#define ipa_ntoh(x) x = _MI(ntohl(_I(x)))
#define ipa_classify(x) ipv4_classify(_I(x))
@ -86,6 +87,14 @@ static inline unsigned ipv4_hash(u32 a)
return a & 0xffff;
}
static inline u32 ipv4_hash32(u32 a)
{
/* Returns a 32-bit value, although low-order bits are not mixed */
a ^= a << 16;
a ^= a << 12;
return a;
}
static inline int ipv4_compare(u32 x, u32 y)
{
return (x > y) - (x < y);

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@ -58,6 +58,7 @@ typedef struct ipv6_addr {
#define ipa_mkmask(x) ipv6_mkmask(x)
#define ipa_mklen(x) ipv6_mklen(&(x))
#define ipa_hash(x) ipv6_hash(&(x))
#define ipa_hash32(x) ipv6_hash32(&(x))
#define ipa_hton(x) ipv6_hton(&(x))
#define ipa_ntoh(x) ipv6_ntoh(&(x))
#define ipa_classify(x) ipv6_classify(&(x))
@ -104,6 +105,13 @@ static inline unsigned ipv6_hash(ip_addr *a)
return (x ^ (x >> 16) ^ (x >> 8)) & 0xffff;
}
static inline u32 ipv6_hash32(ip_addr *a)
{
/* Returns a 32-bit hash key, although low-order bits are not ixed */
u32 x = _I0(*a) ^ _I1(*a) ^ _I2(*a) ^ _I3(*a);
return x ^ (x << 16) ^ (x << 24);
}
static inline u32 ipv6_getbit(ip_addr a, u32 y)
{
return a.addr[y / 32] & (0x80000000 >> (y % 32));

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@ -51,6 +51,7 @@
#include "nest/cli.h"
#include "nest/attrs.h"
#include "lib/alloca.h"
#include "lib/hash.h"
#include "lib/resource.h"
#include "lib/string.h"
@ -63,14 +64,20 @@ static slab *rte_src_slab;
/* rte source ID bitmap */
static u32 *src_ids;
static u32 src_id_size, src_id_used, src_id_pos;
#define SRC_ID_SIZE_DEF 4
#define SRC_ID_INIT_SIZE 4
/* rte source hash */
static struct rte_src **src_table;
static u32 src_hash_order, src_hash_size, src_hash_count;
#define SRC_HASH_ORDER_DEF 6
#define SRC_HASH_ORDER_MAX 18
#define SRC_HASH_ORDER_MIN 10
#define RSH_KEY(n) n->proto, n->private_id
#define RSH_NEXT(n) n->next
#define RSH_EQ(p1,n1,p2,n2) p1 == p2 && n1 == n2
#define RSH_FN(p,n) p->hash_key ^ u32_hash(n)
#define RSH_REHASH rte_src_rehash
#define RSH_PARAMS /2, *2, 1, 1, 8, 20
#define RSH_INIT_ORDER 6
static HASH(struct rte_src) src_hash;
struct protocol *attr_class_to_protocol[EAP_MAX];
@ -81,17 +88,14 @@ rte_src_init(void)
rte_src_slab = sl_new(rta_pool, sizeof(struct rte_src));
src_id_pos = 0;
src_id_size = SRC_ID_SIZE_DEF;
src_id_size = SRC_ID_INIT_SIZE;
src_ids = mb_allocz(rta_pool, src_id_size * sizeof(u32));
/* ID 0 is reserved */
src_ids[0] = 1;
src_id_used = 1;
src_hash_count = 0;
src_hash_order = SRC_HASH_ORDER_DEF;
src_hash_size = 1 << src_hash_order;
src_table = mb_allocz(rta_pool, src_hash_size * sizeof(struct rte_src *));
HASH_INIT(src_hash, rta_pool, RSH_INIT_ORDER);
}
static inline int u32_cto(unsigned int x) { return ffs(~x) - 1; }
@ -141,55 +145,21 @@ rte_src_free_id(u32 id)
src_id_used--;
}
static inline u32 rte_src_hash(struct proto *p, u32 x, u32 order)
{ return (x * 2902958171u) >> (32 - order); }
static void
rte_src_rehash(int step)
{
struct rte_src **old_tab, *src, *src_next;
u32 old_size, hash, i;
old_tab = src_table;
old_size = src_hash_size;
src_hash_order += step;
src_hash_size = 1 << src_hash_order;
src_table = mb_allocz(rta_pool, src_hash_size * sizeof(struct rte_src *));
for (i = 0; i < old_size; i++)
for (src = old_tab[i]; src; src = src_next)
{
src_next = src->next;
hash = rte_src_hash(src->proto, src->private_id, src_hash_order);
src->next = src_table[hash];
src_table[hash] = src;
}
mb_free(old_tab);
}
HASH_DEFINE_REHASH_FN(RSH, struct rte_src)
struct rte_src *
rt_find_source(struct proto *p, u32 id)
{
struct rte_src *src;
u32 hash = rte_src_hash(p, id, src_hash_order);
for (src = src_table[hash]; src; src = src->next)
if ((src->proto == p) && (src->private_id == id))
return src;
return NULL;
return HASH_FIND(src_hash, RSH, p, id);
}
struct rte_src *
rt_get_source(struct proto *p, u32 id)
{
struct rte_src *src;
u32 hash = rte_src_hash(p, id, src_hash_order);
struct rte_src *src = rt_find_source(p, id);
for (src = src_table[hash]; src; src = src->next)
if ((src->proto == p) && (src->private_id == id))
if (src)
return src;
src = sl_alloc(rte_src_slab);
@ -198,47 +168,26 @@ rt_get_source(struct proto *p, u32 id)
src->global_id = rte_src_alloc_id();
src->uc = 0;
src->next = src_table[hash];
src_table[hash] = src;
src_hash_count++;
if ((src_hash_count > src_hash_size) && (src_hash_order < SRC_HASH_ORDER_MAX))
rte_src_rehash(1);
HASH_INSERT2(src_hash, RSH, rta_pool, src);
return src;
}
static inline void
rt_remove_source(struct rte_src **sp)
{
struct rte_src *src = *sp;
*sp = src->next;
rte_src_free_id(src->global_id);
sl_free(rte_src_slab, src);
src_hash_count--;
}
void
rt_prune_sources(void)
{
struct rte_src **sp;
int i;
for (i = 0; i < src_hash_size; i++)
HASH_WALK_FILTER(src_hash, next, src, sp)
{
sp = &src_table[i];
while (*sp)
if (src->uc == 0)
{
if ((*sp)->uc == 0)
rt_remove_source(sp);
else
sp = &(*sp)->next;
HASH_DO_REMOVE(src_hash, RSH, sp);
rte_src_free_id(src->global_id);
sl_free(rte_src_slab, src);
}
}
HASH_WALK_FILTER_END;
while ((src_hash_count < (src_hash_size / 4)) && (src_hash_order > SRC_HASH_ORDER_MIN))
rte_src_rehash(-1);
HASH_MAY_RESIZE_DOWN(src_hash, RSH, rta_pool);
}

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@ -106,13 +106,13 @@
#define HASH_ID_KEY(n) n->loc_id
#define HASH_ID_NEXT(n) n->next_id
#define HASH_ID_EQ(a,b) (a == b)
#define HASH_ID_FN(k) (k)
#define HASH_ID_EQ(a,b) a == b
#define HASH_ID_FN(k) k
#define HASH_IP_KEY(n) n->addr
#define HASH_IP_NEXT(n) n->next_ip
#define HASH_IP_EQ(a,b) ipa_equal(a,b)
#define HASH_IP_FN(k) ipa_hash(k)
#define HASH_IP_FN(k) ipa_hash32(k)
static list bfd_proto_list;
static list bfd_wait_list;

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@ -58,6 +58,7 @@
* bgp_reconstruct_4b_attrs()).
*/
static byte bgp_mandatory_attrs[] = { BA_ORIGIN, BA_AS_PATH
#ifndef IPV6
,BA_NEXT_HOP
@ -875,70 +876,40 @@ bgp_free_bucket(struct bgp_proto *p, struct bgp_bucket *buck)
/* Prefix hash table */
static inline u32 prefix_hash(ip_addr prefix, int pxlen, u32 path_id, u32 order)
{
u32 x = ipa_hash(prefix) + pxlen + path_id;
return (x * 2902958171u) >> (32 - order);
}
#define PXH_KEY(n1) n1->n.prefix, n1->n.pxlen, n1->path_id
#define PXH_NEXT(n) n->next
#define PXH_EQ(p1,l1,i1,p2,l2,i2) ipa_equal(p1, p2) && l1 == l2 && i1 == i2
#define PXH_FN(p,l,i) ipa_hash32(p) ^ u32_hash((l << 16) ^ i)
static inline u32 px_hash_size(struct bgp_proto *p)
{ return 1 << p->px_hash_order; }
#define PXH_REHASH bgp_pxh_rehash
#define PXH_PARAMS /8, *2, 2, 2, 8, 20
HASH_DEFINE_REHASH_FN(PXH, struct bgp_prefix)
void
bgp_init_prefix_table(struct bgp_proto *p, u32 order)
{
p->px_hash_count = 0;
p->px_hash_order = order;
p->prefix_table = mb_allocz(p->p.pool, px_hash_size(p) * sizeof(struct bgp_prefix *));
HASH_INIT(p->prefix_hash, p->p.pool, order);
p->prefix_slab = sl_new(p->p.pool, sizeof(struct bgp_prefix));
}
static void
bgp_rehash_prefix_table(struct bgp_proto *p, int step)
{
struct bgp_prefix **old_tab, *px, *px_next;
u32 old_size, hash, i;
old_tab = p->prefix_table;
old_size = px_hash_size(p);
p->px_hash_order += step;
p->prefix_table = mb_allocz(p->p.pool, px_hash_size(p) * sizeof(struct bgp_prefix *));
for (i = 0; i < old_size; i++)
for (px = old_tab[i]; px; px = px_next)
{
px_next = px->next;
hash = prefix_hash(px->n.prefix, px->n.pxlen, px->path_id, p->px_hash_order);
px->next = p->prefix_table[hash];
p->prefix_table[hash] = px;
}
mb_free(old_tab);
}
static struct bgp_prefix *
bgp_get_prefix(struct bgp_proto *p, ip_addr prefix, int pxlen, u32 path_id)
{
struct bgp_prefix *bp;
u32 hash = prefix_hash(prefix, pxlen, path_id, p->px_hash_order);
struct bgp_prefix *bp = HASH_FIND(p->prefix_hash, PXH, prefix, pxlen, path_id);
for (bp = p->prefix_table[hash]; bp; bp = bp->next)
if (bp->n.pxlen == pxlen && ipa_equal(bp->n.prefix, prefix) && bp->path_id == path_id)
if (bp)
return bp;
bp = sl_alloc(p->prefix_slab);
bp->n.prefix = prefix;
bp->n.pxlen = pxlen;
bp->path_id = path_id;
bp->next = p->prefix_table[hash];
p->prefix_table[hash] = bp;
bp->bucket_node.next = NULL;
p->px_hash_count++;
if ((p->px_hash_count > px_hash_size(p)) && (p->px_hash_order < 18))
bgp_rehash_prefix_table(p, 1);
HASH_INSERT2(p->prefix_hash, PXH, p->p.pool, bp);
return bp;
}
@ -946,19 +917,8 @@ bgp_get_prefix(struct bgp_proto *p, ip_addr prefix, int pxlen, u32 path_id)
void
bgp_free_prefix(struct bgp_proto *p, struct bgp_prefix *bp)
{
struct bgp_prefix **bpp;
u32 hash = prefix_hash(bp->n.prefix, bp->n.pxlen, bp->path_id, p->px_hash_order);
for (bpp = &p->prefix_table[hash]; *bpp; *bpp = (*bpp)->next)
if (*bpp == bp)
break;
*bpp = bp->next;
HASH_REMOVE2(p->prefix_hash, PXH, p->p.pool, bp);
sl_free(p->prefix_slab, bp);
p->px_hash_count--;
if ((p->px_hash_count < (px_hash_size(p) / 4)) && (p->px_hash_order > 10))
bgp_rehash_prefix_table(p, -1);
}

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@ -68,6 +68,7 @@
#include "bgp.h"
struct linpool *bgp_linpool; /* Global temporary pool */
static sock *bgp_listen_sk; /* Global listening socket */
static int bgp_counter; /* Number of protocol instances using the listening socket */

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@ -12,6 +12,7 @@
#include <stdint.h>
#include "nest/route.h"
#include "nest/bfd.h"
#include "lib/hash.h"
struct linpool;
struct eattr;
@ -118,10 +119,8 @@ struct bgp_proto {
struct timer *startup_timer; /* Timer used to delay protocol startup due to previous errors (startup_delay) */
struct bgp_bucket **bucket_hash; /* Hash table of attribute buckets */
unsigned int hash_size, hash_count, hash_limit;
// struct fib prefix_fib; /* Prefixes to be sent */
struct bgp_prefix **prefix_table; /* Prefixes to be sent */
HASH(struct bgp_prefix) prefix_hash; /* Prefixes to be sent */
slab *prefix_slab; /* Slab holding prefix nodes */
u32 px_hash_order, px_hash_count;
list bucket_queue; /* Queue of buckets to send */
struct bgp_bucket *withdraw_bucket; /* Withdrawn routes */
unsigned startup_delay; /* Time to delay protocol startup by due to errors */

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@ -244,7 +244,7 @@ bgp_encode_prefixes(struct bgp_proto *p, byte *w, struct bgp_bucket *buck, unsig
ip_addr a;
int bytes;
while (!EMPTY_LIST(buck->prefixes) && remains >= (1+sizeof(ip_addr)))
while (!EMPTY_LIST(buck->prefixes) && (remains >= (5+sizeof(ip_addr))))
{
struct bgp_prefix *px = SKIP_BACK(struct bgp_prefix, bucket_node, HEAD(buck->prefixes));
DBG("\tDequeued route %I/%d\n", px->n.prefix, px->n.pxlen);
@ -253,6 +253,7 @@ bgp_encode_prefixes(struct bgp_proto *p, byte *w, struct bgp_bucket *buck, unsig
{
put_u32(w, px->path_id);
w += 4;
remains -= 4;
}
*w++ = px->n.pxlen;