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Nexthop: Fixed recursive route mpls label merging

This commit is contained in:
Jan Moskyto Matejka 2017-03-17 15:48:09 +01:00
parent a5d2a34497
commit 3c74416465
9 changed files with 121 additions and 62 deletions

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@ -65,7 +65,7 @@ CF_DECLS
struct proto_spec ps; struct proto_spec ps;
struct channel_limit cl; struct channel_limit cl;
struct timeformat *tf; struct timeformat *tf;
u32 *lbl; mpls_label_stack *mls;
} }
%token END CLI_MARKER INVALID_TOKEN ELSECOL DDOT %token END CLI_MARKER INVALID_TOKEN ELSECOL DDOT
@ -85,7 +85,7 @@ CF_DECLS
%type <a> ipa %type <a> ipa
%type <net> net_ip4_ net_ip6_ net_ip6 net_ip_ net_ip net_or_ipa %type <net> net_ip4_ net_ip6_ net_ip6 net_ip_ net_ip net_or_ipa
%type <net_ptr> net_ net_any net_vpn4_ net_vpn6_ net_vpn_ net_roa4_ net_roa6_ net_roa_ %type <net_ptr> net_ net_any net_vpn4_ net_vpn6_ net_vpn_ net_roa4_ net_roa6_ net_roa_
%type <lbl> label_stack_start label_stack %type <mls> label_stack_start label_stack
%type <t> text opttext %type <t> text opttext
@ -288,18 +288,17 @@ net_or_ipa:
label_stack_start: NUM label_stack_start: NUM
{ {
$$ = cfg_allocz(sizeof(u32) * (MPLS_MAX_LABEL_STACK+1)); $$ = cfg_allocz(sizeof(mpls_label_stack));
$$[0] = 1; $$->len = 1;
$$[1] = $1; $$->stack[0] = $1;
}; };
label_stack: label_stack:
label_stack_start label_stack_start
| label_stack '/' NUM { | label_stack '/' NUM {
if ($1[0] >= MPLS_MAX_LABEL_STACK) if ($1->len >= MPLS_MAX_LABEL_STACK)
cf_error("Too many labels in stack"); cf_error("Too many labels in stack");
$1[0]++; $1->stack[$1->len++] = $3;
$1[*$1] = $3;
$$ = $1; $$ = $1;
} }
; ;

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@ -326,6 +326,11 @@ static inline ip6_addr ip6_ntoh(ip6_addr a)
{ return _MI6(ntohl(_I0(a)), ntohl(_I1(a)), ntohl(_I2(a)), ntohl(_I3(a))); } { return _MI6(ntohl(_I0(a)), ntohl(_I1(a)), ntohl(_I2(a)), ntohl(_I3(a))); }
#define MPLS_MAX_LABEL_STACK 8 #define MPLS_MAX_LABEL_STACK 8
typedef struct mpls_label_stack {
uint len;
u32 stack[MPLS_MAX_LABEL_STACK];
} mpls_label_stack;
static inline int static inline int
mpls_get(const char *buf, int buflen, u32 *stack) mpls_get(const char *buf, int buflen, u32 *stack)
{ {

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@ -551,7 +551,7 @@ static inline rta * rta_cow(rta *r, linpool *lp) { return rta_is_cached(r) ? rta
void rta_dump(rta *); void rta_dump(rta *);
void rta_dump_all(void); void rta_dump_all(void);
void rta_show(struct cli *, rta *, ea_list *); void rta_show(struct cli *, rta *, ea_list *);
void rta_set_recursive_next_hop(rtable *dep, rta *a, rtable *tab, ip_addr gw, ip_addr ll); void rta_set_recursive_next_hop(rtable *dep, rta *a, rtable *tab, ip_addr gw, ip_addr ll, mpls_label_stack *mls);
/* /*
* rta_set_recursive_next_hop() acquires hostentry from hostcache and fills * rta_set_recursive_next_hop() acquires hostentry from hostcache and fills

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@ -1767,55 +1767,80 @@ rta_next_hop_outdated(rta *a)
} }
static inline void static inline void
rta_apply_hostentry(rta *a, struct hostentry *he) rta_apply_hostentry(rta *a, struct hostentry *he, mpls_label_stack *mls)
{ {
a->hostentry = he; a->hostentry = he;
a->dest = he->dest; a->dest = he->dest;
a->igp_metric = he->igp_metric; a->igp_metric = he->igp_metric;
if ((a->nh.labels_orig == 0) && (!a->nh.next) && he->nexthop_linkable) if (a->dest != RTD_UNICAST)
{ {
a->nh = he->src->nh; /* No nexthop */
no_nexthop:
a->nh = (struct nexthop) {};
if (mls)
{ /* Store the label stack for later changes */
a->nh.labels_orig = a->nh.labels = mls->len;
memcpy(a->nh.label, mls->stack, mls->len * sizeof(u32));
}
return; return;
} }
struct nexthop *nhp = alloca(NEXTHOP_MAX_SIZE); if (((!mls) || (!mls->len)) && he->nexthop_linkable)
{ /* Just link the nexthop chain, no label append happens. */
memcpy(&(a->nh), &(he->src->nh), nexthop_size(&(he->src->nh)));
return;
}
for (struct nexthop *nhe = &(a->nh); nhe; nhe = nhe->next) struct nexthop *nhp = NULL, *nhr = NULL;
{ int skip_nexthop = 0;
int labels_orig = nhe->labels_orig; /* Number of labels (at the bottom of stack) */
u32 label_stack[MPLS_MAX_LABEL_STACK];
memcpy(label_stack, nhe->label, labels_orig * sizeof(u32));
for (struct nexthop *nh = &(he->src->nh); nh; nh = nh->next) for (struct nexthop *nh = &(he->src->nh); nh; nh = nh->next)
{ {
if (skip_nexthop)
skip_nexthop--;
else
{
nhr = nhp;
nhp = (nhp ? (nhp->next = lp_allocz(rte_update_pool, NEXTHOP_MAX_SIZE)) : &(a->nh));
}
nhp->iface = nh->iface; nhp->iface = nh->iface;
nhp->weight = nh->weight; /* FIXME: Ignoring the recursive nexthop's weight */ nhp->weight = nh->weight;
nhp->labels = nh->labels + labels_orig; if (mls)
nhp->labels_orig = labels_orig; {
nhp->labels = nh->labels + mls->len;
nhp->labels_orig = mls->len;
if (nhp->labels <= MPLS_MAX_LABEL_STACK) if (nhp->labels <= MPLS_MAX_LABEL_STACK)
{ {
memcpy(nhp->label, nh->label, nh->labels * sizeof(u32)); /* First the hostentry labels */ memcpy(nhp->label, nh->label, nh->labels * sizeof(u32)); /* First the hostentry labels */
memcpy(&(nhp->label[nh->labels]), label_stack, labels_orig * sizeof(u32)); /* Then the bottom labels */ memcpy(&(nhp->label[nh->labels]), mls->stack, mls->len * sizeof(u32)); /* Then the bottom labels */
} }
else else
{ {
log(L_WARN "Sum of label stack sizes %d + %d = %d exceedes allowed maximum (%d)", log(L_WARN "Sum of label stack sizes %d + %d = %d exceedes allowed maximum (%d)",
nh->labels, labels_orig, nhp->labels, MPLS_MAX_LABEL_STACK); nh->labels, mls->len, nhp->labels, MPLS_MAX_LABEL_STACK);
skip_nexthop++;
continue; continue;
} }
}
if (ipa_nonzero(nh->gw)) if (ipa_nonzero(nh->gw))
nhp->gw = nh->gw; /* Router nexthop */ nhp->gw = nh->gw; /* Router nexthop */
else if (ipa_nonzero(he->link)) else if (ipa_nonzero(he->link))
nhp->gw = he->link; /* Device nexthop with link-local address known */ nhp->gw = he->link; /* Device nexthop with link-local address known */
else else
nhp->gw = he->addr; /* Device nexthop with link-local address unknown */ nhp->gw = he->addr; /* Device nexthop with link-local address unknown */
nhp = (nhp->next = lp_alloc(rte_update_pool, NEXTHOP_MAX_SIZE));
}
} }
memcpy(&(a->nh), nhp, nexthop_size(nhp)); if (skip_nexthop)
if (nhr)
nhr->next = NULL;
else
{
a->dest = RTD_UNREACHABLE;
log(L_WARN "No valid nexthop remaining, setting route unreachable");
goto no_nexthop;
}
} }
static inline rte * static inline rte *
@ -1823,7 +1848,11 @@ rt_next_hop_update_rte(rtable *tab UNUSED, rte *old)
{ {
rta *a = alloca(RTA_MAX_SIZE); rta *a = alloca(RTA_MAX_SIZE);
memcpy(a, old->attrs, rta_size(old->attrs)); memcpy(a, old->attrs, rta_size(old->attrs));
rta_apply_hostentry(a, old->attrs->hostentry);
mpls_label_stack mls = { .len = a->nh.labels_orig };
memcpy(mls.stack, &a->nh.label[a->nh.labels - mls.len], mls.len * sizeof(u32));
rta_apply_hostentry(a, old->attrs->hostentry, &mls);
a->aflags = 0; a->aflags = 0;
rte *e = sl_alloc(rte_slab); rte *e = sl_alloc(rte_slab);
@ -2387,13 +2416,25 @@ rt_update_hostentry(rtable *tab, struct hostentry *he)
goto done; goto done;
} }
he->dest = a->dest;
he->nexthop_linkable = 1; he->nexthop_linkable = 1;
if (he->dest == RTD_UNICAST)
{
for (struct nexthop *nh = &(a->nh); nh; nh = nh->next) for (struct nexthop *nh = &(a->nh); nh; nh = nh->next)
if (ipa_zero(nh->gw)) if (ipa_zero(nh->gw))
{ {
if (if_local_addr(he->addr, nh->iface))
{
/* The host address is a local address, this is not valid */
log(L_WARN "Next hop address %I is a local address of iface %s",
he->addr, nh->iface->name);
goto done;
}
he->nexthop_linkable = 0; he->nexthop_linkable = 0;
break; break;
} }
}
he->src = rta_clone(a); he->src = rta_clone(a);
he->igp_metric = rt_get_igp_metric(e); he->igp_metric = rt_get_igp_metric(e);
@ -2454,9 +2495,9 @@ rt_get_hostentry(rtable *tab, ip_addr a, ip_addr ll, rtable *dep)
} }
void void
rta_set_recursive_next_hop(rtable *dep, rta *a, rtable *tab, ip_addr gw, ip_addr ll) rta_set_recursive_next_hop(rtable *dep, rta *a, rtable *tab, ip_addr gw, ip_addr ll, mpls_label_stack *mls)
{ {
rta_apply_hostentry(a, rt_get_hostentry(tab, gw, ipa_zero(ll) ? gw : ll, dep)); rta_apply_hostentry(a, rt_get_hostentry(tab, gw, ipa_zero(ll) ? gw : ll, dep), mls);
} }

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@ -337,6 +337,8 @@ struct bgp_parse_state {
u32 mp_reach_af; u32 mp_reach_af;
u32 mp_unreach_af; u32 mp_unreach_af;
mpls_label_stack mls;
uint attr_len; uint attr_len;
uint ip_reach_len; uint ip_reach_len;
uint ip_unreach_len; uint ip_unreach_len;

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@ -753,7 +753,7 @@ bgp_apply_next_hop(struct bgp_parse_state *s, rta *a, ip_addr gw, ip_addr ll)
if (ipa_zero(gw)) if (ipa_zero(gw))
WITHDRAW(BAD_NEXT_HOP); WITHDRAW(BAD_NEXT_HOP);
rta_set_recursive_next_hop(c->c.table, a, c->igp_table, gw, ll); rta_set_recursive_next_hop(c->c.table, a, c->igp_table, gw, ll, &(s->mls));
} }
} }

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@ -75,8 +75,7 @@ stat_nexthop:
this_snh->iface = if_get_by_name($2); this_snh->iface = if_get_by_name($2);
} }
| stat_nexthop MPLS label_stack { | stat_nexthop MPLS label_stack {
this_snh->label_count = $3[0]; this_snh->mls = $3;
this_snh->label_stack = &($3[1]);
} }
| stat_nexthop WEIGHT expr { | stat_nexthop WEIGHT expr {
this_snh->weight = $3 - 1; this_snh->weight = $3 - 1;
@ -111,8 +110,7 @@ stat_route:
| stat_route0 RECURSIVE ipa MPLS label_stack { | stat_route0 RECURSIVE ipa MPLS label_stack {
this_srt->dest = RTDX_RECURSIVE; this_srt->dest = RTDX_RECURSIVE;
this_srt->via = $3; this_srt->via = $3;
this_srt->label_count = $5[0]; this_srt->mls = $5;
this_srt->label_stack = &($5[1]);
} }
| stat_route0 DROP { this_srt->dest = RTD_BLACKHOLE; } | stat_route0 DROP { this_srt->dest = RTD_BLACKHOLE; }
| stat_route0 REJECT { this_srt->dest = RTD_UNREACHABLE; } | stat_route0 REJECT { this_srt->dest = RTD_UNREACHABLE; }

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@ -79,8 +79,11 @@ static_announce_rte(struct static_proto *p, struct static_route *r)
nh->gw = r2->via; nh->gw = r2->via;
nh->iface = r2->neigh->iface; nh->iface = r2->neigh->iface;
nh->weight = r2->weight; nh->weight = r2->weight;
nh->labels = r2->label_count; if (r2->mls)
memcpy(nh->label, r2->label_stack, r2->label_count * sizeof(u32)); {
nh->labels = r2->mls->len;
memcpy(nh->label, r2->mls->stack, r2->mls->len * sizeof(u32));
}
nexthop_insert(&nhs, nh); nexthop_insert(&nhs, nh);
} }
@ -92,11 +95,7 @@ static_announce_rte(struct static_proto *p, struct static_route *r)
} }
if (r->dest == RTDX_RECURSIVE) if (r->dest == RTDX_RECURSIVE)
{ rta_set_recursive_next_hop(p->p.main_channel->table, a, p_igp_table(p), r->via, IPA_NONE, r->mls);
a->nh.labels_orig = a->nh.labels = r->label_count;
memcpy(a->nh.label, r->label_stack, r->label_count * sizeof(u32));
rta_set_recursive_next_hop(p->p.main_channel->table, a, p_igp_table(p), r->via, IPA_NONE);
}
/* Already announced */ /* Already announced */
if (r->state == SRS_CLEAN) if (r->state == SRS_CLEAN)
@ -274,17 +273,33 @@ static_same_dest(struct static_route *x, struct static_route *y)
(x->iface != y->iface) || (x->iface != y->iface) ||
(x->use_bfd != y->use_bfd) || (x->use_bfd != y->use_bfd) ||
(x->weight != y->weight) || (x->weight != y->weight) ||
(x->label_count != y->label_count)) (!x->mls != !y->mls) ||
((x->mls) && (y->mls) && (x->mls->len != y->mls->len)))
return 0; return 0;
for (int i = 0; i < x->label_count; i++) if (!x->mls)
if (x->label_stack[i] != y->label_stack[i]) continue;
for (uint i = 0; i < x->mls->len; i++)
if (x->mls->stack[i] != y->mls->stack[i])
return 0; return 0;
} }
return !x && !y; return !x && !y;
case RTDX_RECURSIVE: case RTDX_RECURSIVE:
return ipa_equal(x->via, y->via); if (!ipa_equal(x->via, y->via) ||
(!x->mls != !y->mls) ||
((x->mls) && (y->mls) && (x->mls->len != y->mls->len)))
return 0;
if (!x->mls)
return 1;
for (uint i = 0; i < x->mls->len; i++)
if (x->mls->stack[i] != y->mls->stack[i])
return 0;
return 1;
default: default:
return 1; return 1;

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@ -42,9 +42,8 @@ struct static_route {
byte active; /* Next hop is active (nbr/iface/BFD available) */ byte active; /* Next hop is active (nbr/iface/BFD available) */
byte weight; /* Multipath next hop weight */ byte weight; /* Multipath next hop weight */
byte use_bfd; /* Configured to use BFD */ byte use_bfd; /* Configured to use BFD */
byte label_count; /* Number of labels in stack */
struct bfd_request *bfd_req; /* BFD request, if BFD is used */ struct bfd_request *bfd_req; /* BFD request, if BFD is used */
u32 *label_stack; /* Label stack if label_count > 0 */ mpls_label_stack *mls; /* MPLS label stack; may be NULL */
}; };
/* /*