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bird/proto/rpki/rpki.c

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2015-09-17 15:15:30 +00:00
/*
* BIRD -- The Resource Public Key Infrastructure (RPKI) to Router Protocol
*
* (c) 2015 CZ.NIC
*
* Can be freely distributed and used under the terms of the GNU GPL.
*/
/**
* DOC: The Resource Public Key Infrastructure (RPKI) to Router Protocol
*/
#define LOCAL_DEBUG
#include <stdlib.h>
#include <unistd.h>
#include <pthread.h>
#include <dlfcn.h>
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#include "proto/rpki/rpki.h"
#include "lib/socket.h"
#include "lib/ip.h"
#include "nest/route.h"
struct rpki_entry {
node n;
u32 asn;
ip_addr ip;
u8 pxlen;
u8 maxlen;
u8 added;
struct rpki_proto *rpki;
};
void pipe_drain(int fd); /* implementation in io.c */
void pipe_kick(int fd); /* implementation in io.c */
static list rpki_proto_list;
static void *rtrlib;
static struct rtr_mgr_config * (*rtr_mgr_init_fp)(
struct rtr_mgr_group groups[], const unsigned int groups_len,
const unsigned int refresh_interval, const unsigned int expire_interval,
const void *update_fp,
const void *spki_update_fp,
const void *status_fp,
void *status_fp_data);
static int (*rtr_mgr_start_fp)(struct rtr_mgr_config *config);
static const char * (*rtr_state_to_str_fp)(enum rtr_socket_state state);
static const char * (*rtr_mgr_status_to_str_fp)(enum rtr_mgr_status status);
static int (*tr_tcp_init_fp)(const struct tr_tcp_config *config, struct tr_socket *socket);
static void (*rtr_mgr_stop_fp)(struct rtr_mgr_config *config);
static void (*rtr_mgr_free_fp)(struct rtr_mgr_config *config);
static int
was_dlsym_ok(struct rpki_proto *p)
{
char *err_buffer = dlerror();
if (err_buffer != NULL)
{
RPKI_ERROR(p, "%s. Try the latest version of RTRLib.", err_buffer);
return 0; /* FAIL */
}
return 1; /* OK */
}
static int
load_rtrlib(struct rpki_proto *p)
{
rtrlib = dlopen(p->cf->rtrlib_path, RTLD_LAZY);
if (!rtrlib)
{
RPKI_ERROR(p, "dlopen(): %s. Try specify path to the shared RTRLib (http://rpki.realmv6.org/) with 'rtrlib' option"
"inside of the rpki protocol configuration", dlerror());
return 0; /* FAIL */
}
else
{
RPKI_TRACE(p, "Loaded RTRLib from %s", p->cf->rtrlib_path);
}
dlerror(); /* Clear any existing error */
rtr_mgr_init_fp = (struct rtr_mgr_config * (*)(
struct rtr_mgr_group groups[], const unsigned int groups_len,
const unsigned int refresh_interval, const unsigned int expire_interval,
const void *update_fp,
const void *spki_update_fp,
const void *status_fp,
void *status_fp_data)) dlsym(rtrlib, "rtr_mgr_init");
if (!was_dlsym_ok(p))
return 0; /* FAIL */
rtr_mgr_start_fp = (int (*)(struct rtr_mgr_config *)) dlsym(rtrlib, "rtr_mgr_start");
if (!was_dlsym_ok(p))
return 0; /* FAIL */
rtr_state_to_str_fp = (const char * (*)(enum rtr_socket_state state)) dlsym(rtrlib, "rtr_state_to_str");
if (!was_dlsym_ok(p))
return 0; /* FAIL */
rtr_mgr_status_to_str_fp = (const char * (*)(enum rtr_mgr_status status)) dlsym(rtrlib, "rtr_mgr_status_to_str");
if (!was_dlsym_ok(p))
return 0; /* FAIL */
tr_tcp_init_fp = (int (*)(const struct tr_tcp_config *config, struct tr_socket *socket)) dlsym(rtrlib, "tr_tcp_init");
if (!was_dlsym_ok(p))
return 0; /* FAIL */
rtr_mgr_stop_fp = (void (*)(struct rtr_mgr_config *config)) dlsym(rtrlib, "rtr_mgr_stop");
if (!was_dlsym_ok(p))
return 0; /* FAIL */
rtr_mgr_free_fp = (void (*)(struct rtr_mgr_config *config)) dlsym(rtrlib, "rtr_mgr_free");
if (!was_dlsym_ok(p))
return 0; /* FAIL */
return 1; /* OK */
}
void
rpki_init_all(void)
{
init_list(&rpki_proto_list);
rtrlib = NULL;
}
static void
status_cb(const struct rtr_mgr_group *group, enum rtr_mgr_status status, const struct rtr_socket *socket, void *data)
{
struct rpki_proto *p = data;
if (status == RTR_MGR_ERROR)
{
RPKI_ERROR(p, "Error -> Should we here stop the protocol?"); /* FIXME */
}
else
{
RPKI_TRACE(p, "status: %s\t%s", (*rtr_mgr_status_to_str_fp)(status), (*rtr_state_to_str_fp)(socket->state));
}
}
static void
send_data_to_main_thread(struct rpki_proto *p, struct rpki_entry *e)
{
rpki_lock_sessions(p);
add_tail(&p->notify_list, &e->n);
rpki_unlock_sessions(p);
pipe_kick(p->notify_write_sk->fd);
}
static void
log_skip_entry(struct rpki_proto *p, const struct pfx_record *rec, const bool added)
{
char ip_buf[INET6_ADDRSTRLEN];
ip4_addr ip4;
ip6_addr ip6;
if (rec->prefix.ver == RTRLIB_IPV4)
{
ip4 = ipa_from_u32(rec->prefix.u.addr4.addr);
ip4_ntop(ip4, ip_buf);
}
else
{
ip6 = ip6_build(rec->prefix.u.addr6.addr[0], rec->prefix.u.addr6.addr[1], rec->prefix.u.addr6.addr[2], rec->prefix.u.addr6.addr[3]);
ip6_ntop(ip6, ip_buf);
}
#define RPKI_LOG_ADD "add"
#define RPKI_LOG_DEL "del"
#define RPKI_LOG_ENTRY_FMT(ip_fmt) " roa %-25" ip_fmt "/%u-%-3u ASN: %u"
#define RPKI_LOG_FMT(operation_name) operation_name RPKI_LOG_ENTRY_FMT("I")
#define RPKI_LOG_SKIP_FMT(operation_name) "skip " operation_name RPKI_LOG_ENTRY_FMT("s") " (unsupported IP version)"
if (added)
{
RPKI_TRACE(p, RPKI_LOG_SKIP_FMT(RPKI_LOG_ADD), ip_buf, rec->min_len, rec->max_len, rec->asn);
}
else
{
RPKI_TRACE(p, RPKI_LOG_SKIP_FMT(RPKI_LOG_DEL), ip_buf, rec->min_len, rec->max_len, rec->asn);
}
}
static struct rpki_proto *
find_rpki_proto_by_rtr_socket(const struct rtr_socket *socket)
{
struct rpki_proto *p_not_skipped_back;
unsigned int i, j;
WALK_LIST(p_not_skipped_back, rpki_proto_list)
{
struct rpki_proto *p = SKIP_BACK(struct rpki_proto, rpki_node, p_not_skipped_back);
for(i = 0; i < p->rtr_conf->len; i++)
{
for(j = 0; j < p->rtr_conf->groups[i].sockets_len; j++)
{
if (socket == p->rtr_conf->groups[i].sockets[j])
return p;
}
}
}
return NULL;
}
static void
rtr_thread_update_hook(struct pfx_table *pfx_table, const struct pfx_record rec, const bool added)
{
struct rpki_proto *p = find_rpki_proto_by_rtr_socket(rec.socket);
/* process only records that are the same with BIRD IP version */
#ifdef IPV6
if (rec.prefix.ver != RTRLIB_IPV6)
{
log_skip_entry(p, &rec);
return;
}
#else
if (rec.prefix.ver != RTRLIB_IPV4)
{
log_skip_entry(p, &rec, added);
return;
}
#endif
#ifdef IPV6
ip_addr ip = ip6_build(rec.prefix.u.addr6.addr[0], rec.prefix.u.addr6.addr[1], rec.prefix.u.addr6.addr[2], rec.prefix.u.addr6.addr[3]);
#else
ip_addr ip = ipa_from_u32(rec.prefix.u.addr4.addr);
#endif
struct rpki_entry *e = mb_allocz(p->p.pool, sizeof(struct rpki_entry));
e->added = added;
e->asn = rec.asn;
e->ip = ip;
e->pxlen = rec.min_len;
e->maxlen = rec.max_len;
e->rpki = p;
if (e->added)
{
RPKI_TRACE(p, RPKI_LOG_FMT(RPKI_LOG_ADD), e->ip, e->pxlen, e->maxlen, e->asn);
}
else
{
RPKI_TRACE(p, RPKI_LOG_FMT(RPKI_LOG_DEL), e->ip, e->pxlen, e->maxlen, e->asn);
}
send_data_to_main_thread(p, e);
}
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static struct proto *
rpki_init(struct proto_config *C)
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{
struct proto *P = proto_new(C, sizeof(struct rpki_proto));
struct rpki_proto *p = (struct rpki_proto *) P;
p->cf = (struct rpki_config *) C;
RPKI_TRACE(p, "------------- rpki_init -------------");
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return P;
}
struct rpki_cache *
rpki_new_cache(void)
{
struct rpki_cache *cache = (struct rpki_cache *)cfg_allocz(sizeof(struct rpki_cache));
strcpy(cache->port, RPKI_PORT);
cache->preference = ~0;
return cache;
}
static void
normalize_fulfillment_of_cache(struct rpki_cache *cache)
{
if (cache->full_domain_name == NULL)
{
bsnprintf(cache->ip_buf, INET6_ADDRSTRLEN, "%I", cache->ip);
cache->full_domain_name = cache->ip_buf;
}
bzero(&cache->rtr_tcp, sizeof(struct rtr_socket));
bzero(&cache->tcp_config, sizeof(struct tr_tcp_config));
bzero(&cache->tr_tcp, sizeof(struct tr_socket));
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}
static int
rpki_notify_hook(struct birdsock *sk, int size)
{
struct rpki_proto *p = sk->data;
struct rpki_entry *entry;
pipe_drain(sk->fd);
rpki_lock_sessions(p);
/* TODO: optimize like in the BFD proto */
WALK_LIST_FIRST(entry, p->notify_list)
{
rem2_node(&entry->n);
if (entry->added)
roa_add_item(p->cf->roa_table_cf->table, entry->ip, entry->pxlen, entry->maxlen, entry->asn, ROA_SRC_RPKI);
else
roa_delete_item(p->cf->roa_table_cf->table, entry->ip, entry->pxlen, entry->maxlen, entry->asn, ROA_SRC_RPKI);
}
rpki_unlock_sessions(p);
}
static void
rpki_noterr_hook(struct birdsock *sk, int err)
{
struct rpki_proto *p = sk->data;
RPKI_ERROR(p, "Notify socket error: %m", err);
}
static void
create_read_socket(struct rpki_proto *p, int fd)
{
sock *sk = sk_new(p->p.pool);
sk->type = SK_MAGIC;
sk->fd = fd;
sk->rx_hook = rpki_notify_hook;
sk->err_hook = rpki_noterr_hook;
sk->data = p;
if (sk_open(sk) < 0)
RPKI_DIE(p, "read socket sk_open() failed");
p->notify_read_sk = sk;
}
static void
create_write_socket(struct rpki_proto *p, int fd)
{
sock *sk = sk_new(p->p.pool);
sk->type = SK_MAGIC;
sk->fd = fd;
sk->flags = SKF_THREAD;
sk->data = p;
if (sk_open(sk) < 0)
RPKI_DIE(p, "write socket sk_open() failed");
p->notify_write_sk = sk;
}
static void
create_rw_sockets(struct rpki_proto *p)
{
int pipe_fildes[2];
int rv = pipe(pipe_fildes);
if (rv < 0)
RPKI_DIE(p, "pipe: %m");
create_read_socket (p, pipe_fildes[0]);
create_write_socket(p, pipe_fildes[1]);
}
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static int
rpki_start(struct proto *P)
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{
struct rpki_proto *p = (struct rpki_proto *) P;
struct rpki_config *cf = (struct rpki_config *) (P->cf);
RPKI_TRACE(p, "------------- rpki_start -------------");
if (!rtrlib && !load_rtrlib(p))
return PS_DOWN;
create_rw_sockets(p);
init_list(&p->notify_list);
pthread_spin_init(&p->notify_lock, PTHREAD_PROCESS_PRIVATE);
add_tail(&rpki_proto_list, &p->rpki_node);
p->rtr_sockets_len = get_list_length(&cf->cache_list);
p->rtr_groups = mb_allocz(P->pool, 1 * sizeof(struct rtr_mgr_group));
struct rtr_mgr_group *groups = p->rtr_groups;
p->rtr_sockets = mb_allocz(P->pool, p->rtr_sockets_len * sizeof(struct rtr_socket *));
groups[0].sockets = p->rtr_sockets;
groups[0].sockets_len = p->rtr_sockets_len;
groups[0].preference = 1;
uint idx = 0;
struct rpki_cache *cache;
WALK_LIST(cache, cf->cache_list)
{
/* TODO: Make them dynamic. Reconfigure reallocate structures */
struct tr_tcp_config *tcp_config = &cache->tcp_config;
struct rtr_socket *rtr_tcp = &cache->rtr_tcp;
struct tr_socket *tr_tcp = &cache->tr_tcp;
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normalize_fulfillment_of_cache(cache);
tcp_config->host = cache->full_domain_name;
tcp_config->port = cache->port;
(*tr_tcp_init_fp)(tcp_config, tr_tcp);
// create an rtr_socket and associate it with the transport socket
rtr_tcp->tr_socket = tr_tcp;
groups[0].sockets[idx] = rtr_tcp;
idx++;
}
p->rtr_conf = (*rtr_mgr_init_fp)(groups, 1, 30, 520, &rtr_thread_update_hook, NULL, &status_cb, p);
(*rtr_mgr_start_fp)(p->rtr_conf);
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return PS_UP;
}
static int
rpki_shutdown(struct proto *P)
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{
struct rpki_proto *p = (struct rpki_proto *) P;
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(*rtr_mgr_stop_fp)(p->rtr_conf);
(*rtr_mgr_free_fp)(p->rtr_conf);
mb_free(p->rtr_groups);
mb_free(p->rtr_sockets);
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return PS_DOWN;
}
static int
rpki_reconfigure(struct proto *p, struct proto_config *c)
{
struct rpki_proto *rpki = (struct rpki_proto *) p;
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struct rpki_config *new = (struct rpki_config *) c;
log(L_DEBUG "------------- rpki_reconfigure -------------");
return 1;
}
static void
rpki_copy_config(struct proto_config *dest, struct proto_config *src)
{
struct rpki_config *d = (struct rpki_config *) dest;
struct rpki_config *s = (struct rpki_config *) src;
log(L_DEBUG "------------- rpki_copy_config -------------");
}
static void
rpki_get_status(struct proto *p, byte *buf)
{
struct proto_rpki *rpki = (struct proto_rpki *) p;
log(L_DEBUG "------------- rpki_get_status -------------");
}
struct protocol proto_rpki = {
.name = "RPKI",
.template = "rpki%d",
// .attr_class = EAP_BGP,
// .preference = DEF_PREF_BGP,
.config_size = sizeof(struct rpki_config),
.init = rpki_init,
.start = rpki_start,
.shutdown = rpki_shutdown,
// .cleanup = rpki_cleanup,
.reconfigure = rpki_reconfigure,
.copy_config = rpki_copy_config,
.get_status = rpki_get_status,
// .get_attr = rpki_get_attr,
// .get_route_info = rpki_get_route_info,
// .show_proto_info = rpki_show_proto_info
};