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bird/nest/aggregator.c

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/*
* BIRD Internet Routing Daemon -- Route aggregation
*
* (c) 2023
*
* Can be freely distributed and used under the terms of the GNU GPL.
*/
/**
* DOC: Route aggregation
*
* This is an implementation of route aggregation functionality.
* It enables user to specify a set of route attributes in the configuarion file
* and then, for a given destination (net), aggregate routes with the same
* values of these attributes into a single multi-path route.
*
* Structure &channel contains pointer to aggregation list which is represented
* by &aggr_list_linearized. In rt_notify_aggregated(), attributes from this
* list are evaluated for every route of a given net and results are stored
* in &rte_val_list which contains pointer to this route and array of &f_val.
* Array of pointers to &rte_val_list entries is sorted using
* sort_rte_val_list(). For comparison of &f_val structures, val_compare()
* is used. Comparator function is written so that sorting is stable. If all
* attributes have the same values, routes are compared by their global IDs.
*
* After sorting, &rte_val_list entries containing equivalent routes will be
* adjacent to each other. Function process_rte_list() iterates through these
* entries to identify sequences of equivalent routes. New route will be
* created for each such sequence, even if only from a single route.
* Only attributes from the aggreagation list will be set for the new route.
* New &rta is created and prepare_rta() is used to copy static and dynamic
* attributes to new &rta from &rta of the original route. New route is created
* by create_merged_rte() from new &rta and exported to the routing table.
*/
#undef LOCAL_DEBUG
#ifndef _GNU_SOURCE
#define _GNU_SOURCE
#endif
#include "nest/bird.h"
#include "nest/route.h"
#include "nest/protocol.h"
#include "nest/iface.h"
#include "lib/resource.h"
#include "lib/event.h"
#include "lib/timer.h"
#include "lib/string.h"
#include "conf/conf.h"
#include "filter/filter.h"
#include "filter/data.h"
#include "lib/hash.h"
#include "lib/string.h"
#include "lib/alloca.h"
#include "lib/flowspec.h"
#include <stdlib.h>
/* Context of &f_val comparison. */
struct cmp_ctx {
const struct channel *c;
const struct network *net;
const int val_count;
u32 failed:1;
};
static linpool *rte_update_pool;
/*
* Set static attribute in @rta from static attribute in @old according to @sa.
*/
static void
rta_set_static_attr(struct rta *rta, const struct rta *old, struct f_static_attr sa)
{
switch (sa.sa_code)
{
case SA_FROM:
rta->from = old->from;
break;
case SA_GW:
rta->dest = RTD_UNICAST;
rta->nh.gw = old->nh.gw;
rta->nh.iface = old->nh.iface;
rta->nh.next = NULL;
rta->hostentry = NULL;
rta->nh.labels = 0;
break;
case SA_SCOPE:
rta->scope = old->scope;
break;
case SA_DEST:
rta->dest = old->dest;
rta->nh.gw = IPA_NONE;
rta->nh.iface = NULL;
rta->nh.next = NULL;
rta->hostentry = NULL;
rta->nh.labels = 0;
break;
case SA_IFNAME:
rta->dest = RTD_UNICAST;
rta->nh.gw = IPA_NONE;
rta->nh.iface = old->nh.iface;
rta->nh.next = NULL;
rta->hostentry = NULL;
rta->nh.labels = 0;
break;
case SA_GW_MPLS:
rta->nh.labels = old->nh.labels;
memcpy(&rta->nh.label, &old->nh.label, sizeof(u32) * old->nh.labels);
break;
case SA_WEIGHT:
rta->nh.weight = old->nh.weight;
break;
case SA_PREF:
rta->pref = old->pref;
break;
default:
bug("Invalid static attribute access (%u/%u)", sa.f_type, sa.sa_code);
}
}
static int
get_dynamic_attr_count(const struct aggr_item_linearized *ail)
{
int ea_count = 0;
for (int i = 0; i < ail->count; i++)
if (ail->items[i].type == AGGR_ITEM_DYNAMIC_ATTR)
ea_count++;
return ea_count;
}
/*
* Copy static and dynamic attributes from @old to @new according to
* aggregation list @ail. Because route may not have any extended
* attributes, return real number of attributes that were copied.
*/
static int
prepare_rta(struct rta *new, const struct rta *old, const struct aggr_item_linearized *ail)
{
int pos = 0;
for (int i = 0; i < ail->count; i++)
{
if (ail->items[i].type == AGGR_ITEM_DYNAMIC_ATTR)
{
u32 ea_code = ail->items[i].da.ea_code;
const struct eattr *e = ea_find(old->eattrs, ea_code);
if (e)
new->eattrs->attrs[pos++] = *e;
}
else if (ail->items[i].type == AGGR_ITEM_STATIC_ATTR)
rta_set_static_attr(new, old, ail->items[i].sa);
}
return pos;
}
/*
* Find route with lowest ID in a sequence of rte_val_list entries
* within range [start, start + length).
* @start: first element in a sequence of equivalent routes
*/
static const struct rte *
find_rte_lowest_id(const struct rte_val_list **start, int length)
{
const struct rte *rte = start[0]->rte;
u32 id = rte->src->global_id;
for (int i = 1; i < length; i++)
{
u32 current = start[i]->rte->src->global_id;
if (current < id)
{
id = current;
rte = start[i]->rte;
}
}
log("Lowest ID: %d", id);
return rte;
}
static int
compare_f_val(const struct f_val *v1, const struct f_val *v2, struct cmp_ctx *ctx)
{
int result = val_compare(v1, v2);
if (result != F_CMP_ERROR)
return result;
ctx->failed = 1;
struct buffer buf;
LOG_BUFFER_INIT(buf);
buffer_puts(&buf, "v1 = ");
val_format(v1, &buf);
buffer_puts(&buf, ", v2 = ");
val_format(v2, &buf);
log(L_WARN "%s.%s: Error comparing values while aggregating routes to %N: %s",
ctx->c->proto->name, ctx->c->name, ctx->net->n.addr, buf.start);
bug("Sorting routes according to aggregation list: F_CMP_ERROR");
}
/*
* Compare list of &f_val entries.
* @count: number of &f_val entries
*/
static int
compare_val_list(const struct f_val *v1, const struct f_val *v2, struct cmp_ctx *ctx)
{
for (int i = 0; i < ctx->val_count; i++)
{
int res = compare_f_val(&v1[i], &v2[i], ctx);
if (res != 0)
return res;
}
return 0;
}
/*
* Comparator function for sorting array of pointers to &rte_val_list structures.
* Compare lists of &f_val associated with routes.
* If all values are equal, compare route's global IDs.
* @count: pointer to number of f_val entries
*/
static int
compare_val_list_id(const void *fst, const void *snd, void *context)
{
struct cmp_ctx *ctx = (struct cmp_ctx *)context;
for (int i = 0; i < ctx->val_count; i++)
{
/*
* This function receives two void pointers.
* Since we are sorting array of pointers, we have to cast this void
* pointer to struct rte_val_list** (pointer to first array element,
* which is a pointer). Dereference it once to access this element,
* which is struct rte_val_list*. Finally access f_val at position i
* and take its address, thus getting struct f_val*.
*/
const struct f_val *v1 = &(*(struct rte_val_list **)fst)->values[i];
const struct f_val *v2 = &(*(struct rte_val_list **)snd)->values[i];
int result = compare_f_val(v1, v2, ctx);
if (result != 0)
return result;
}
u32 id1 = (*(struct rte_val_list **)fst)->rte->src->global_id;
u32 id2 = (*(struct rte_val_list **)snd)->rte->src->global_id;
return id1 < id2 ? -1 : 1;
}
/*
* Sort array of pointers to &rte_val_list entries.
* @rte_val: first element in array of pointers to &rte_val_list
* @rte_count: number of &rte_val_list entries
* @val_count: number of &f_val entries in each &rte_val_list entry
*/
static void
sort_rte_val_list(const struct rte_val_list **rte_val, int rte_count, struct cmp_ctx *ctx)
{
log("======== Sorting routes... ========");
qsort_r(rte_val, rte_count, sizeof(struct rte_val_list *), compare_val_list_id, (void *)ctx);
for (int i = 0; i < rte_count; i++)
log("route ID: %d", rte_val[i]->rte->src->global_id);
}
/*
* Create and export new merged route.
* @old: first route in a sequence of equivalent routes that are to be merged
* @rte_val: first element in a sequence of equivalent rte_val_list entries
* @length: number of equivalent routes that are to be merged (at least 1)
* @ail: aggregation list
*/
static void
create_merged_rte(struct channel *c, struct network *net, const struct rte_val_list **rte_val,
int length, const struct aggr_item_linearized *ail, int refeed)
{
const struct rte *old = rte_val[0]->rte;
const struct rta *rta_old = old->attrs;
struct rta *rta_new = allocz(rta_size(rta_old));
int ea_count = get_dynamic_attr_count(ail);
struct ea_list *eal = allocz(sizeof(struct ea_list) + sizeof(struct eattr) * ea_count);
rta_new->dest = RTD_UNREACHABLE;
rta_new->eattrs = eal;
eal->next = NULL;
eal->count = prepare_rta(rta_new, rta_old, ail);
const struct rte *rte_lowest = find_rte_lowest_id(rte_val, length);
struct rte *new = rte_get_temp(rta_new, rte_lowest->src);
new->net = net;
do_rt_notify(c, net, new, NULL, refeed);
log("=============== CREATE MERGED ROUTE ===============");
log("New route created: id = %d, protocol: %s", new->src->global_id, new->src->proto->name);
log("===================================================");
struct rte_block *rb = allocz(sizeof(struct rte_block) + sizeof(struct rte *) * length);
rb->ad.length = sizeof(struct rte_block) + sizeof(struct rte *) * length - sizeof(struct adata);
for (int i = 0; i < length; i++)
rb->routes[i] = (struct rte *)rte_val[i]->rte;
struct f_val val = {
.type = T_ROUTES_BLOCK,
.val.ad = &rb->ad,
};
f_run_val(ail->merge_filter, &new, rte_update_pool, &val, 0);
}
/*
* Iterate through &rte_val_list entries and identify all sequences of
* equivalent routes.
* @rte_count: total number of routes being processed
* @val_count: number of &f_val entries with each route
* @ail: aggregation list
*/
static void
process_rte_list(struct channel *c, struct network *net, const struct rte_val_list **rte_val,
int rte_count, int val_count, const struct aggr_item_linearized *ail, int refeed)
{
if (rte_count == 1)
{
create_merged_rte(c, net, rte_val, 1, ail, refeed);
return;
}
struct cmp_ctx ctx = {
.c = c,
.net = net,
.val_count = val_count,
.failed = 0,
};
/*
* &start and &current are initially indices to first and second of
* &rte_val_list entries. If these entries contain equivalent routes,
* &current is incremented until non-equivalent route is found.
* [start, current) then define a range of routes that are to be merged.
* When non-equivalent route is found, &start is updated and the process
* continues until all entries are processed.
*/
int start = 0;
int current = 1;
log("RTE count: %d", rte_count);
log("VAL count: %d", val_count);
while (start < rte_count && current < rte_count)
{
int res = compare_val_list(&rte_val[start]->values[0], &rte_val[current]->values[0], &ctx);
/* At least two equivalent routes were found, try to find more. */
if (res == 0)
{
int merged = 1;
while (current < rte_count && res == 0)
{
log("Routes %d and %d are equal", rte_val[start]->rte->src->global_id, rte_val[current]->rte->src->global_id);
current++;
merged++;
if (current < rte_count)
res = compare_val_list(&rte_val[start]->values[0], &rte_val[current]->values[0], &ctx);
}
log("Creating merged route from %d routes", merged);
create_merged_rte(c, net, &rte_val[start], merged, ail, refeed);
start = current;
current++;
}
else
{
log("Route %d and %d are NOT equal", rte_val[start]->rte->src->global_id, rte_val[current]->rte->src->global_id);
log("Creating standalone route from route %d", rte_val[start]->rte->src->global_id);
create_merged_rte(c, net, &rte_val[start], 1, ail, refeed);
start = current;
current++;
}
}
if (start < rte_count)
{
log("Creating standalone route from route %d", rte_val[start]->rte->src->global_id);
create_merged_rte(c, net, &rte_val[start], 1, ail, refeed);
}
}
static int
get_rte_count(const struct rte *rte)
{
int count = 0;
for (; rte; rte = rte->next)
count++;
return count;
}
static void
log_attributes(const struct f_val *val, int count)
{
struct buffer buf;
LOG_BUFFER_INIT(buf);
for (int i = 0; i < count; i++)
{
val_format(&val[i], &buf);
log("%s", buf.start);
}
}
/*
* Evaluate static attribute of @rt1 according to @sa
* and store result in @pos.
*/
static void
eval_static_attr(const struct rte *rt1, struct f_static_attr sa, struct f_val *pos)
{
const struct rta *rta = rt1->attrs;
#define RESULT(_type, value, result) \
do { \
pos->type = _type; \
pos->val.value = result; \
} while (0)
switch (sa.sa_code)
{
case SA_FROM: RESULT(sa.f_type, ip, rta->from); break;
case SA_GW: RESULT(sa.f_type, ip, rta->nh.gw); break;
case SA_PROTO: RESULT(sa.f_type, s, rt1->src->proto->name); break;
case SA_SOURCE: RESULT(sa.f_type, i, rta->source); break;
case SA_SCOPE: RESULT(sa.f_type, i, rta->scope); break;
case SA_DEST: RESULT(sa.f_type, i, rta->dest); break;
case SA_IFNAME: RESULT(sa.f_type, s, rta->nh.iface ? rta->nh.iface->name : ""); break;
case SA_IFINDEX: RESULT(sa.f_type, i, rta->nh.iface ? rta->nh.iface->index : 0); break;
case SA_WEIGHT: RESULT(sa.f_type, i, rta->nh.weight + 1); break;
case SA_PREF: RESULT(sa.f_type, i, rta->pref); break;
case SA_GW_MPLS: RESULT(sa.f_type, i, rta->nh.labels ? rta->nh.label[0] : MPLS_NULL); break;
default:
bug("Invalid static attribute access (%u/%u)", sa.f_type, sa.sa_code);
}
#undef RESULT
}
/*
* Evaluate dynamic attribute of @rt1 according to @da
* and store result in @pos.
*/
static void
eval_dynamic_attr(const struct rte *rt1, struct f_dynamic_attr da, struct f_val *pos)
{
const struct rta *rta = rt1->attrs;
const struct eattr *e = ea_find(rta->eattrs, da.ea_code);
#define RESULT(_type, value, result) \
do { \
pos->type = _type; \
pos->val.value = result; \
} while (0)
#define RESULT_VOID \
do { \
pos->type = T_VOID; \
} while (0)
if (!e)
{
/* A special case: undefined as_path looks like empty as_path */
if (da.type == EAF_TYPE_AS_PATH)
{
RESULT(T_PATH, ad, &null_adata);
return;
}
/* The same special case for int_set */
if (da.type == EAF_TYPE_INT_SET)
{
RESULT(T_CLIST, ad, &null_adata);
return;
}
/* The same special case for ec_set */
if (da.type == EAF_TYPE_EC_SET)
{
RESULT(T_ECLIST, ad, &null_adata);
return;
}
/* The same special case for lc_set */
if (da.type == EAF_TYPE_LC_SET)
{
RESULT(T_LCLIST, ad, &null_adata);
return;
}
/* Undefined value */
RESULT_VOID;
return;
}
switch (e->type & EAF_TYPE_MASK)
{
case EAF_TYPE_INT:
RESULT(da.f_type, i, e->u.data);
break;
case EAF_TYPE_ROUTER_ID:
RESULT(T_QUAD, i, e->u.data);
break;
case EAF_TYPE_OPAQUE:
RESULT(T_ENUM_EMPTY, i, 0);
break;
case EAF_TYPE_IP_ADDRESS:
RESULT(T_IP, ip, *((ip_addr *) e->u.ptr->data));
break;
case EAF_TYPE_AS_PATH:
RESULT(T_PATH, ad, e->u.ptr);
break;
case EAF_TYPE_BITFIELD:
RESULT(T_BOOL, i, !!(e->u.data & (1u << da.bit)));
break;
case EAF_TYPE_INT_SET:
RESULT(T_CLIST, ad, e->u.ptr);
break;
case EAF_TYPE_EC_SET:
RESULT(T_ECLIST, ad, e->u.ptr);
break;
case EAF_TYPE_LC_SET:
RESULT(T_LCLIST, ad, e->u.ptr);
break;
default:
bug("Unknown dynamic attribute type");
}
#undef RESULT
#undef RESULT_VOID
}
void
rt_notify_aggregated(struct channel *c, struct network *net, struct rte *new_changed, struct rte *old_changed,
struct rte *new_best, struct rte *old_best, int refeed)
{
const struct aggr_item_linearized *ail = c->ai_aggr;
const int attr_count = ail->count;
if (net->routes == NULL)
return;
struct rte *best0 = net->routes;
const int rte_count = get_rte_count(best0);
if (rte_count == 0)
return;
log("---- RT NOTIFY AGGREGATED ----");
log("Routes count: %d", rte_count);
log("Aggregation list attributes count: %d", attr_count);
log("aggr_item_linearized: %p", ail);
struct rte **rte_temp = allocz(sizeof(struct rte *) * rte_count);
struct rte **rte_free_temp = allocz(sizeof(struct rte *) * rte_count);
int rte_temp_count = 0;
int rte_free_count = 0;
/* Run filter for all routes before aggregation. */
for (struct rte *rt0 = best0; rt0; rt0 = rt0->next)
{
struct rte *rte_free = NULL;
struct rte *filtered = export_filter(c, rt0, &rte_free, 0);
if (filtered)
rte_temp[rte_temp_count++] = filtered;
if (rte_free)
rte_free_temp[rte_free_count++] = rte_free;
}
const struct rte_val_list **rte_val_list_ptrs = allocz(sizeof(struct rte_val_list *) * rte_count);
int rte_val_list_pos = 0;
for (int rte_idx = 0; rte_idx < rte_temp_count; rte_idx++)
{
struct rte *rt0 = rte_temp[rte_idx];
struct rte_val_list *rte_val = allocz(sizeof(struct rte_val_list) + sizeof(struct f_val) * attr_count);
rte_val->rte = rt0;
rte_val_list_ptrs[rte_val_list_pos++] = rte_val;
for (int val_idx = 0; val_idx < attr_count; val_idx++)
{
int type = ail->items[val_idx].type;
/* Evaluate route attributes. */
switch (type)
{
case AGGR_ITEM_TERM: {
const struct f_line *line = ail->items[val_idx].line;
struct rte *rt1 = rt0;
enum filter_return fret = f_aggr_eval_line(line, &rt1, rte_update_pool, &rte_val->values[val_idx]);
if (rt1 != rt0)
{
rte_free(rt1);
log(L_WARN "rt1 != rt0");
}
if (fret > F_RETURN)
log(L_WARN "%s.%s: Wrong number of items left on stack after evaluation of aggregation list", rt1->src->proto->name, rt1->sender);
break;
}
case AGGR_ITEM_STATIC_ATTR: {
struct f_val *pos = &rte_val->values[val_idx];
eval_static_attr(rt0, ail->items[val_idx].sa, pos);
break;
}
case AGGR_ITEM_DYNAMIC_ATTR: {
struct f_val *pos = &rte_val->values[val_idx];
eval_dynamic_attr(rt0, ail->items[val_idx].da, pos);
break;
}
default:
break;
}
}
log_attributes(&rte_val->values[0], attr_count);
}
struct cmp_ctx ctx = {
.c = c,
.net = net,
.val_count = attr_count,
.failed = 0,
};
sort_rte_val_list(rte_val_list_ptrs, rte_temp_count, &ctx);
if (ctx.failed)
log(L_WARN "%s.%s: Could not aggregate routes to %N due to previous errors", c->proto->name, c->name, net->n.addr);
else
process_rte_list(c, net, rte_val_list_ptrs, rte_temp_count, attr_count, ail, refeed);
for (int i = 0; i < rte_free_count; i++)
rte_free(rte_free_temp[i]);
}