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|
/*
* BIRD -- The BGP Monitoring Protocol (BMP)
*
* (c) 2020 Akamai Technologies, Inc. (Pawel Maslanka, pmaslank@akamai.com)
*
* Can be freely distributed and used under the terms of the GNU GPL.
*/
/**
* DOC: BGP Monitoring Protocol (BMP)
*
* Supported standards:
* o RFC 7854 - BMP standard
*
* TODO:
* - Support Peer Distinguisher ID in Per-Peer Header
* - Support peer type as RD Instance in Peer Type field of Per-Peer Header.
* Currently, there are supported Global and Local Instance Peer types
* - Support corresponding FSM event code during send PEER DOWN NOTIFICATION
* - Support DE_CONFIGURED PEER DOWN REASON code in PEER DOWN NOTIFICATION message
* - If connection with BMP collector will lost then we don't establish connection again
* - Set Peer Type by its a global and local-scope IP address
*
* The BMP session is managed by a simple state machine with three states: Idle
* (!started, !sk), Connect (!started, sk active), and Established (started). It
* has three events: connect successful (Connect -> Established), socket error
* (any -> Idle), and connect timeout (Idle/Connect -> Connect, resetting the
* TCP socket).
*/
#include "proto/bmp/bmp.h"
#include "proto/bmp/buffer.h"
#include "proto/bmp/map.h"
#include <sys/socket.h>
#include <sys/time.h>
#include <sys/types.h>
#include <netinet/in.h>
#include <netdb.h>
#include <string.h>
#include <stdlib.h>
#include <unistd.h>
#include <errno.h>
#include <arpa/inet.h>
#include <limits.h>
#include "nest/cli.h"
#include "filter/filter.h"
#include "proto/bgp/bgp.h"
#include "sysdep/unix/unix.h"
#include "lib/event.h"
#include "lib/ip.h"
#include "lib/lists.h"
#include "lib/resource.h"
#include "lib/unaligned.h"
#include "nest/iface.h"
#include "nest/route.h"
// We allow for single instance of BMP protocol
static struct bmp_proto *g_bmp;
/* BMP Common Header [RFC 7854 - Section 4.1] */
enum bmp_version {
BMP_VER_UNUSED = 0, // Version 0 is reserved and MUST NOT be sent
BMP_VERSION_1 = 1, // Version 1 was used by draft version of RFC 7854
BMP_VERSION_2 = 2, // Version 2 was used by draft version of RFC 7854
BMP_VERSION_3 = 3 // Version 3 is used by all messages defined in RFC 7854
};
enum bmp_message_type {
BMP_ROUTE_MONITOR = 0, // Route Monitoring
BMP_STATS_REPORT = 1, // Statistics Report
BMP_PEER_DOWN_NOTIF = 2, // Peer Down Notification
BMP_PEER_UP_NOTIF = 3, // Peer Up Notification
BMP_INIT_MSG = 4, // Initiation Message
BMP_TERM_MSG = 5, // Termination Message
BMP_ROUTE_MIRROR_MSG = 6 // Route Mirroring Message
};
// Total size of Common Header
#define BMP_COMMON_HDR_SIZE 6
// Defines size of padding when IPv4 address is going to be put into field
// which can accept also IPv6 address
#define BMP_PADDING_IP4_ADDR_SIZE 12
/* BMP Per-Peer Header [RFC 7854 - Section 4.2] */
// Total size of Per-Peer Header
#define BMP_PER_PEER_HDR_SIZE 42
enum bmp_peer_type {
BMP_PEER_TYPE_GLOBAL_INSTANCE = 0,
BMP_PEER_TYPE_RD_INSTANCE = 1,
BMP_PEER_TYPE_LOCAL_INSTANCE = 2
};
#define BMP_PEER_HDR_FLAG_V_SHIFT 7
enum bmp_peer_flag_v_t {
// The Peer address is an IPv4 address
BMP_PEER_HDR_FLAG_V_IP4 = (0 << BMP_PEER_HDR_FLAG_V_SHIFT),
// The Peer address is an IPv6 address
BMP_PEER_HDR_FLAG_V_IP6 = (1 << BMP_PEER_HDR_FLAG_V_SHIFT)
};
#define BMP_PEER_HDR_FLAG_L_SHIFT 6
enum bmp_peer_flag_l {
BMP_PEER_HDR_FLAG_L_PRE_POLICY_ADJ_RIB_IN = (0 << BMP_PEER_HDR_FLAG_L_SHIFT),
BMP_PEER_HDR_FLAG_L_POST_POLICY_ADJ_RIB_IN = (1 << BMP_PEER_HDR_FLAG_L_SHIFT)
};
#define BMP_PEER_HDR_FLAG_A_SHIFT 5
enum bmp_peer_flag_a {
// The 4-byte AS_PATH format
BMP_PEER_HDR_FLAG_A_AS_PATH_4B = (0 << BMP_PEER_HDR_FLAG_A_SHIFT),
// The legacy 2-byte AS_PATH format
BMP_PEER_HDR_FLAG_A_AS_PATH_2B = (1 << BMP_PEER_HDR_FLAG_A_SHIFT)
};
#define BMP_PEER_HDR_FLAGS_INIT(flags) \
(flags) = 0
#define BMP_PEER_HDR_FLAGS_SET(flags, bit_mask) \
(flags) |= (bit_mask)
/* BMP Information TLV header [RFC 7854 - Section 4.4] */
// Total size of Type and Length fields of Information TLV Header without
// variable part
#define BMP_INFO_TLV_FIX_SIZE 4
enum bmp_info_tlv_type {
BMP_INFO_TLV_TYPE_STRING = 0, // String
BMP_INFO_TLV_TYPE_SYS_DESCR = 1, // SysDescr
BMP_INFO_TLV_TYPE_SYS_NAME = 2 // SysName
};
/* BMP Peer Up Notification message header [RFC 7854 - Section 4.10] */
// Total size of all fields of Peer Up Notification message except variable part
#define BMP_PEER_UP_NOTIF_MSG_FIX_SIZE 20
enum bmp_peer_down_notif_reason {
// The local system closed the session
BMP_PEER_DOWN_REASON_LOCAL_BGP_NOTIFICATION = 1,
// The local system closed the session
BMP_PEER_DOWN_REASON_LOCAL_NO_NOTIFICATION = 2,
// The remote system closed the session with a notification message
BMP_PEER_DOWN_REASON_REMOTE_BGP_NOTIFICATION = 3,
// The remote system closed the session without a notification message
BMP_PEER_DOWN_REASON_REMOTE_NO_NOTIFICATION = 4,
// Information for this peer will no longer be sent to the monitoring station
// for configuration reasons
BMP_PEER_DOWN_REASON_PEER_DE_CONFIGURED = 5
};
/* BMP Termination Message [RFC 7854 - Section 4.5] */
#define BMP_TERM_INFO_TYPE_SIZE 2
enum bmp_term_info_type {
BMP_TERM_INFO_STRING = 0, // The Information field contains string
BMP_TERM_INFO_REASON = 1, // The Information field contains 2-byte reason code
};
// 2-byte code in the Information field
#define BMP_TERM_REASON_CODE_SIZE 2
enum bmp_term_reason {
BMP_TERM_REASON_ADM = 0, // Session administratively closed
BMP_TERM_REASON_UNK = 1, // Unspecified reason
BMP_TERM_REASON_OOR = 2, // Out of resources
BMP_TERM_REASON_DUP = 3, // Redundant connection
BMP_TERM_REASON_PERM = 4, // Session permanently administratively closed
};
// Size of Information Length field in Termination Message header
#define BMP_TERM_INFO_LEN_FIELD_SIZE 2
// Default chunk size request when memory allocation
#define DEFAULT_MEM_BLOCK_SIZE 4096
// Initial delay for connection to the BMP collector
#define CONNECT_INIT_TIME (200 MS)
// Timeout for connection to the BMP collector retry
#define CONNECT_RETRY_TIME (10 S)
#define IP4_MAX_TTL 255
#define IF_COND_TRUE_PRINT_ERR_MSG_AND_RETURN_OPT_VAL(expr, msg, rv...) \
do { \
if ((expr)) \
{ \
log(L_WARN "[BMP] " msg); \
return rv; \
} \
} while (0)
#define IF_PTR_IS_NULL_PRINT_ERR_MSG_AND_RETURN_OPT_VAL(p, msg, rv...) \
do { \
IF_COND_TRUE_PRINT_ERR_MSG_AND_RETURN_OPT_VAL(!(p), msg, rv); \
} while (0)
static void bmp_connected(struct birdsock *sk);
static void bmp_sock_err(sock *sk, int err);
static void bmp_close_socket(struct bmp_proto *p);
static void
bmp_send_peer_up_notif_msg(struct bmp_proto *p, const struct bgp_proto *bgp,
const byte *tx_data, const size_t tx_data_size,
const byte *rx_data, const size_t rx_data_size);
// Stores necessary any data in list
struct bmp_data_node {
node n;
byte *data;
size_t data_size;
};
static void
bmp_route_monitor_pre_policy_table_in_snapshot(struct bgp_channel *c);
static void
bmp_common_hdr_serialize(buffer *stream, const enum bmp_message_type type, const u32 data_size)
{
bmp_put_u8(stream, BMP_VERSION_3);
bmp_put_u32(stream, BMP_COMMON_HDR_SIZE + data_size);
bmp_put_u8(stream, type);
}
static void
bmp_info_tlv_hdr_serialize(buffer *stream, const enum bmp_info_tlv_type type,
const char *str)
{
size_t str_len = strlen(str);
str_len = MIN(str_len, MIB_II_STR_LEN);
bmp_put_u16(stream, type);
bmp_put_u16(stream, str_len);
bmp_put_data(stream, str, str_len);
}
// Serializes BMP Initiation message header [RFC 7854 - Section 4.3]
static void
bmp_init_msg_serialize(buffer *stream, const char *sys_descr, const char *sys_name)
{
const size_t sys_descr_len = strlen(sys_descr);
const size_t sys_name_len = strlen(sys_name);
// We include MIB-II sysDescr and sysName in BMP INIT MSG so that's why
// allocated 2x BMP_INFO_TLV_FIX_SIZE memory pool size
const size_t data_size = (2 * BMP_INFO_TLV_FIX_SIZE) + sys_descr_len + sys_name_len;
bmp_buffer_need(stream, BMP_COMMON_HDR_SIZE + data_size);
bmp_common_hdr_serialize(stream, BMP_INIT_MSG, data_size);
bmp_info_tlv_hdr_serialize(stream, BMP_INFO_TLV_TYPE_SYS_DESCR, sys_descr);
bmp_info_tlv_hdr_serialize(stream, BMP_INFO_TLV_TYPE_SYS_NAME, sys_name);
}
static void
bmp_schedule_tx_packet(struct bmp_proto *p, const byte *payload, const size_t size)
{
ASSERT(p->started);
struct bmp_data_node *tx_data = mb_alloc(p->tx_mem_pool, sizeof (struct bmp_data_node));
tx_data->data = mb_alloc(p->tx_mem_pool, size);
memcpy(tx_data->data, payload, size);
tx_data->data_size = size;
add_tail(&p->tx_queue, &tx_data->n);
if (sk_tx_buffer_empty(p->sk)
&& !ev_active(p->tx_ev))
{
ev_schedule(p->tx_ev);
}
}
static void
bmp_fire_tx(void *p_)
{
struct bmp_proto *p = p_;
byte *buf = p->sk->tbuf;
IF_COND_TRUE_PRINT_ERR_MSG_AND_RETURN_OPT_VAL(
EMPTY_LIST(p->tx_queue),
"Called BMP TX event handler when there is not any data to send"
);
size_t cnt = 0; // Counts max packets which we want to send per TX slot
struct bmp_data_node *tx_data;
struct bmp_data_node *tx_data_next;
WALK_LIST_DELSAFE(tx_data, tx_data_next, p->tx_queue)
{
if (tx_data->data_size > p->sk->tbsize)
{
sk_set_tbsize(p->sk, tx_data->data_size);
}
size_t data_size = tx_data->data_size;
memcpy(buf, tx_data->data, tx_data->data_size);
mb_free(tx_data->data);
rem_node((node *) tx_data);
mb_free(tx_data);
if (sk_send(p->sk, data_size) <= 0)
return;
// BMP packets should be treat with lowest priority when scheduling sending
// packets to target. That's why we want to send max. 32 packets per event
// call
if (++cnt > 32)
{
if (!ev_active(p->tx_ev))
{
ev_schedule(p->tx_ev);
}
return;
}
}
}
static void
bmp_tx(struct birdsock *sk)
{
bmp_fire_tx(sk->data);
}
/* We need RX hook just to accept socket close events */
static int
bmp_rx(struct birdsock *sk UNUSED, uint size UNUSED)
{
return 0;
}
static inline void
bmp_put_ipa(buffer *stream, const ip_addr addr)
{
bmp_put_ip6(stream, ipa_is_ip4(addr) ?
ip6_build(0,0,0, ipa_to_u32(addr)) :
ipa_to_ip6(addr));
}
static void
bmp_put_bgp_hdr(buffer *stream, const u8 msg_type, const u16 msg_length)
{
bmp_buffer_need(stream, BGP_HEADER_LENGTH);
memset(stream->pos, 0xff, BGP_HDR_MARKER_LENGTH);
stream->pos += BGP_HDR_MARKER_LENGTH;
bmp_put_u16(stream, msg_length);
bmp_put_u8(stream, msg_type);
}
/**
* bmp_per_peer_hdr_serialize - serializes Per-Peer Header
*
* @is_pre_policy: indicate the message reflects the pre-policy Adj-RIB-In
* @peer_addr: the remote IP address associated with the TCP session
* @peer_as: the Autonomous System number of the peer
* @peer_bgp_id: the BGP Identifier of the peer
* @ts_sec: the time in seconds when the encapsulated routes were received
* @ts_usec: the time in microseconds when the encapsulated routes were received
*/
static void
bmp_per_peer_hdr_serialize(buffer *stream, const bool is_global_instance_peer,
const bool is_pre_policy, const bool is_as_path_4bytes,
const ip_addr peer_addr, const u32 peer_as, const u32 peer_bgp_id,
const u32 ts_sec, const u32 ts_usec)
{
// TODO: ATM we don't support BMP_PEER_TYPE_RD_INSTANCE
const enum bmp_peer_type peer_type = is_global_instance_peer
? BMP_PEER_TYPE_GLOBAL_INSTANCE
: BMP_PEER_TYPE_LOCAL_INSTANCE;
const u8 peer_flag_v = ipa_is_ip4(peer_addr)
? BMP_PEER_HDR_FLAG_V_IP4
: BMP_PEER_HDR_FLAG_V_IP6;
const u8 peer_flag_l = is_pre_policy
? BMP_PEER_HDR_FLAG_L_PRE_POLICY_ADJ_RIB_IN
: BMP_PEER_HDR_FLAG_L_POST_POLICY_ADJ_RIB_IN;
const u8 peer_flag_a = is_as_path_4bytes
? BMP_PEER_HDR_FLAG_A_AS_PATH_4B
: BMP_PEER_HDR_FLAG_A_AS_PATH_2B;
u8 peer_flags;
BMP_PEER_HDR_FLAGS_INIT(peer_flags);
BMP_PEER_HDR_FLAGS_SET(peer_flags, peer_flag_v);
BMP_PEER_HDR_FLAGS_SET(peer_flags, peer_flag_l);
BMP_PEER_HDR_FLAGS_SET(peer_flags, peer_flag_a);
bmp_put_u8(stream, peer_type);
bmp_put_u8(stream, peer_flags);
// TODO: Provide appropriate peer Route Distinguisher if applicable
bmp_put_u64(stream, 0x00); // 0x00 - Not supported peer distinguisher
bmp_put_ipa(stream, peer_addr);
bmp_put_u32(stream, peer_as);
bmp_put_u32(stream, peer_bgp_id);
bmp_put_u32(stream, ts_sec);
bmp_put_u32(stream, ts_usec);
}
/* [4.6] Route Monitoring */
static void
bmp_route_monitor_msg_serialize(buffer *stream, const bool is_peer_global,
const bool table_in_pre_policy, const u32 peer_as, const u32 peer_bgp_id,
const bool as4_support, const ip_addr remote_addr, const byte *update_msg,
const size_t update_msg_size, u32 ts_sec, u32 ts_usec)
{
const size_t data_size = BMP_PER_PEER_HDR_SIZE + update_msg_size;
bmp_buffer_need(stream, BMP_COMMON_HDR_SIZE + data_size);
bmp_common_hdr_serialize(stream, BMP_ROUTE_MONITOR, data_size);
bmp_per_peer_hdr_serialize(stream, is_peer_global, table_in_pre_policy,
as4_support, remote_addr, peer_as, peer_bgp_id, ts_sec, ts_usec);
bmp_put_data(stream, update_msg, update_msg_size);
}
static void
bmp_peer_up_notif_msg_serialize(buffer *stream, const bool is_peer_global,
const u32 peer_as, const u32 peer_bgp_id, const bool as4_support,
const ip_addr local_addr, const ip_addr remote_addr, const u16 local_port,
const u16 remote_port, const byte *sent_msg, const size_t sent_msg_length,
const byte *recv_msg, const size_t recv_msg_length)
{
const size_t data_size =
BMP_PER_PEER_HDR_SIZE + BMP_PEER_UP_NOTIF_MSG_FIX_SIZE +
BGP_HEADER_LENGTH + sent_msg_length + BGP_HEADER_LENGTH + recv_msg_length;
bmp_buffer_need(stream, BMP_COMMON_HDR_SIZE + data_size);
bmp_common_hdr_serialize(stream, BMP_PEER_UP_NOTIF, data_size);
bmp_per_peer_hdr_serialize(stream, is_peer_global,
true /* TODO: Hardcoded pre-policy Adj-RIB-In */, as4_support, remote_addr,
peer_as, peer_bgp_id, 0, 0); // 0, 0 - No timestamp provided
bmp_put_ipa(stream, local_addr);
bmp_put_u16(stream, local_port);
bmp_put_u16(stream, remote_port);
bmp_put_bgp_hdr(stream, PKT_OPEN, BGP_HEADER_LENGTH + sent_msg_length);
bmp_put_data(stream, sent_msg, sent_msg_length);
bmp_put_bgp_hdr(stream, PKT_OPEN, BGP_HEADER_LENGTH + recv_msg_length);
bmp_put_data(stream, recv_msg, recv_msg_length);
}
static void
bmp_peer_down_notif_msg_serialize(buffer *stream, const bool is_peer_global,
const u32 peer_as, const u32 peer_bgp_id, const bool as4_support,
const ip_addr remote_addr, const byte *data, const size_t data_size)
{
const size_t payload_size = BMP_PER_PEER_HDR_SIZE + data_size;
bmp_buffer_need(stream, BMP_COMMON_HDR_SIZE + payload_size);
bmp_common_hdr_serialize(stream, BMP_PEER_DOWN_NOTIF, payload_size);
bmp_per_peer_hdr_serialize(stream, is_peer_global,
true /* TODO: Hardcoded pre-policy adj RIB IN */, as4_support, remote_addr,
peer_as, peer_bgp_id, 0, 0); // 0, 0 - No timestamp provided
bmp_put_data(stream, data, data_size);
}
void
bmp_peer_up(const struct bgp_proto *bgp,
const byte *tx_open_msg, uint tx_open_length,
const byte *rx_open_msg, uint rx_open_length)
{
struct bmp_proto *p = g_bmp;
if (!p || !p->started)
return;
// struct bmp_peer_map_key key = bmp_peer_map_key_create(bgp->remote_ip, bgp->remote_as);
// bmp_peer_map_insert(&p->bgp_peers, key, (const byte *) &bgp, sizeof (bgp));
bmp_send_peer_up_notif_msg(p, bgp, tx_open_msg, tx_open_length, rx_open_msg, rx_open_length);
struct bgp_channel *c;
BGP_WALK_CHANNELS(bgp, c)
bmp_route_monitor_pre_policy_table_in_snapshot(c);
}
static void
bmp_peer_init(const struct bgp_proto *bgp)
{
struct bgp_conn *conn = bgp->conn;
if (!conn || (conn->state != BS_ESTABLISHED) ||
!conn->local_open_msg || !conn->remote_open_msg)
return;
bmp_peer_up(bgp, conn->local_open_msg, conn->local_open_length,
conn->remote_open_msg, conn->remote_open_length);
}
static const struct birdsock *
bmp_get_birdsock(const struct bgp_proto *bgp)
{
if (bgp->conn && bgp->conn->sk)
return bgp->conn->sk;
return NULL;
}
static const struct birdsock *
bmp_get_birdsock_ext(const struct bgp_proto *bgp)
{
const struct birdsock *sk = bmp_get_birdsock(bgp);
if (sk != NULL)
return sk;
if (bgp->incoming_conn.sk)
{
sk = bgp->incoming_conn.sk;
}
else if (bgp->outgoing_conn.sk)
{
sk = bgp->outgoing_conn.sk;
}
return sk;
}
static const struct bgp_caps *
bmp_get_bgp_remote_caps(const struct bgp_proto *bgp)
{
if (bgp->conn && bgp->conn->remote_caps)
return bgp->conn->remote_caps;
return NULL;
}
static const struct bgp_caps *
bmp_get_bgp_remote_caps_ext(const struct bgp_proto *bgp)
{
const struct bgp_caps *remote_caps = bmp_get_bgp_remote_caps(bgp);
if (remote_caps != NULL)
return remote_caps;
if (bgp->incoming_conn.remote_caps)
{
remote_caps = bgp->incoming_conn.remote_caps;
}
else if (bgp->outgoing_conn.remote_caps)
{
remote_caps = bgp->outgoing_conn.remote_caps;
}
return remote_caps;
}
static bool
bmp_is_peer_global_instance(const struct bgp_proto *bgp)
{
return (bgp->cf->peer_type != BGP_PT_EXTERNAL &&
bgp->cf->peer_type != BGP_PT_INTERNAL)
? (bgp->local_as != bgp->remote_as)
: (bgp->cf->peer_type == BGP_PT_EXTERNAL);
}
static void
bmp_send_peer_up_notif_msg(struct bmp_proto *p, const struct bgp_proto *bgp,
const byte *tx_data, const size_t tx_data_size,
const byte *rx_data, const size_t rx_data_size)
{
ASSERT(p->started);
const struct birdsock *sk = bmp_get_birdsock_ext(bgp);
IF_PTR_IS_NULL_PRINT_ERR_MSG_AND_RETURN_OPT_VAL(
sk,
"[BMP] No BGP socket"
);
const bool is_global_instance_peer = bmp_is_peer_global_instance(bgp);
buffer payload = bmp_buffer_alloc(p->buffer_mpool, DEFAULT_MEM_BLOCK_SIZE);
bmp_peer_up_notif_msg_serialize(&payload, is_global_instance_peer,
bgp->remote_as, bgp->remote_id, 1,
sk->saddr, sk->daddr, sk->sport, sk->dport, tx_data, tx_data_size,
rx_data, rx_data_size);
bmp_schedule_tx_packet(p, bmp_buffer_data(&payload), bmp_buffer_pos(&payload));
bmp_buffer_free(&payload);
}
void
bmp_route_monitor_update_in_pre_begin(void)
{
struct bmp_proto *p = g_bmp;
if (!p || !p->started)
return;
if (p->monitoring_rib.in_pre_policy == false)
return;
IF_COND_TRUE_PRINT_ERR_MSG_AND_RETURN_OPT_VAL(
!EMPTY_LIST(p->rt_table_in_pre_policy.update_msg_queue),
"Previous BMP route monitoring update not finished yet"
);
gettimeofday(&p->rt_table_in_pre_policy.update_begin_time,NULL);
init_list(&p->rt_table_in_pre_policy.update_msg_queue);
p->rt_table_in_pre_policy.update_msg_size = 0;
p->rt_table_in_pre_policy.update_in_progress = true;
}
void
bmp_route_monitor_put_update_in_pre_msg(const byte *data, const size_t data_size)
{
struct bmp_proto *p = g_bmp;
if (!p || !p->started)
return;
if (p->monitoring_rib.in_pre_policy == false)
return;
IF_COND_TRUE_PRINT_ERR_MSG_AND_RETURN_OPT_VAL(
!p->rt_table_in_pre_policy.update_in_progress,
"BMP route monitoring update not started yet"
);
struct bmp_data_node *upd_msg = mb_alloc(p->update_msg_mem_pool,
sizeof (struct bmp_data_node));
upd_msg->data = mb_alloc(p->update_msg_mem_pool, data_size);
memcpy(upd_msg->data, data, data_size);
upd_msg->data_size = data_size;
p->rt_table_in_pre_policy.update_msg_size += data_size;
add_tail(&p->rt_table_in_pre_policy.update_msg_queue, &upd_msg->n);
}
void
bmp_route_monitor_update_in_pre_commit(const struct bgp_proto *bgp)
{
struct bmp_proto *p = g_bmp;
if (!p || !p->started)
return;
if (p->monitoring_rib.in_pre_policy == false)
return;
const struct birdsock *sk = bmp_get_birdsock(bgp);
IF_PTR_IS_NULL_PRINT_ERR_MSG_AND_RETURN_OPT_VAL(
sk,
"Failed to get bird socket from BGP proto"
);
const struct bgp_caps *remote_caps = bmp_get_bgp_remote_caps(bgp);
IF_PTR_IS_NULL_PRINT_ERR_MSG_AND_RETURN_OPT_VAL(
remote_caps,
"Failed to get remote capabilities from BGP proto"
);
bool is_global_instance_peer = bmp_is_peer_global_instance(bgp);
buffer payload
= bmp_buffer_alloc(p->buffer_mpool,
p->rt_table_in_pre_policy.update_msg_size + DEFAULT_MEM_BLOCK_SIZE);
buffer update_msgs
= bmp_buffer_alloc(p->buffer_mpool,
p->rt_table_in_pre_policy.update_msg_size);
struct bmp_data_node *data;
WALK_LIST(data, p->rt_table_in_pre_policy.update_msg_queue)
{
bmp_put_data(&update_msgs, data->data, data->data_size);
bmp_route_monitor_msg_serialize(&payload,
is_global_instance_peer, true /* TODO: Hardcoded pre-policy Adj-Rib-In */,
bgp->conn->received_as, bgp->remote_id, remote_caps->as4_support,
sk->daddr, bmp_buffer_data(&update_msgs), bmp_buffer_pos(&update_msgs),
p->rt_table_in_pre_policy.update_begin_time.tv_sec,
p->rt_table_in_pre_policy.update_begin_time.tv_usec);
bmp_schedule_tx_packet(p, bmp_buffer_data(&payload), bmp_buffer_pos(&payload));
bmp_buffer_flush(&payload);
bmp_buffer_flush(&update_msgs);
}
bmp_buffer_free(&payload);
bmp_buffer_free(&update_msgs);
}
void
bmp_route_monitor_update_in_pre_end(void)
{
struct bmp_proto *p = g_bmp;
if (!p || !p->started)
return;
if (p->monitoring_rib.in_pre_policy == false)
return;
struct bmp_data_node *upd_msg;
struct bmp_data_node *upd_msg_next;
WALK_LIST_DELSAFE(upd_msg, upd_msg_next, p->rt_table_in_pre_policy.update_msg_queue)
{
mb_free(upd_msg->data);
rem_node((node *) upd_msg);
mb_free(upd_msg);
}
p->rt_table_in_pre_policy.update_in_progress = false;
}
static void
bmp_route_monitor_pre_policy_table_in_snapshot(struct bgp_channel *c)
{
struct bmp_proto *p = g_bmp;
if (p->monitoring_rib.in_pre_policy == false)
return;
struct rtable *tab = c->c.in_table;
if (!tab)
return;
size_t cnt = 0;
struct proto *P;
struct fib_iterator fit;
memset(&fit, 0x00, sizeof (fit));
FIB_ITERATE_INIT(&fit, &tab->fib);
FIB_ITERATE_START(&tab->fib, &fit, net, n)
{
P = n->routes->sender->proto;
if (P->proto->class != PROTOCOL_BGP)
{
continue;
}
bmp_route_monitor_update_in_pre_begin();
rte *e;
for (e = n->routes; e; e = e->next)
{
bgp_rte_update_in_notify(&c->c, n->n.addr, e, e->src);
}
bmp_route_monitor_update_in_pre_commit((struct bgp_proto *) P);
bmp_route_monitor_update_in_pre_end();
++cnt;
}
FIB_ITERATE_END;
if (cnt > 0)
{
bmp_route_monitor_update_in_pre_begin();
byte rx_end_payload[DEFAULT_MEM_BLOCK_SIZE];
byte *pos = bgp_create_end_mark(c, rx_end_payload + BGP_HEADER_LENGTH);
memset(rx_end_payload + BGP_MSG_HDR_MARKER_POS, 0xff,
BGP_MSG_HDR_MARKER_SIZE); // BGP UPDATE MSG marker
put_u16(rx_end_payload + BGP_MSG_HDR_LENGTH_POS, pos - rx_end_payload);
put_u8(rx_end_payload + BGP_MSG_HDR_TYPE_POS, PKT_UPDATE);
bmp_route_monitor_put_update_in_pre_msg(rx_end_payload, pos - rx_end_payload);
bmp_route_monitor_update_in_pre_commit((struct bgp_proto *) c->c.proto);
bmp_route_monitor_update_in_pre_end();
}
}
static void
bmp_send_peer_down_notif_msg(struct bmp_proto *p, const struct bgp_proto *bgp,
const byte *data, const size_t data_size)
{
ASSERT(p->started);
const struct bgp_caps *remote_caps = bmp_get_bgp_remote_caps_ext(bgp);
bool is_global_instance_peer = bmp_is_peer_global_instance(bgp);
buffer payload
= bmp_buffer_alloc(p->buffer_mpool, DEFAULT_MEM_BLOCK_SIZE);
bmp_peer_down_notif_msg_serialize(&payload, is_global_instance_peer,
bgp->remote_as, bgp->remote_id,
remote_caps ? remote_caps->as4_support : bgp->as4_session,
bgp->remote_ip, data, data_size);
bmp_schedule_tx_packet(p, bmp_buffer_data(&payload), bmp_buffer_pos(&payload));
bmp_buffer_free(&payload);
}
void
bmp_peer_down(const struct bgp_proto *bgp, const int err_class,
const byte *msg, size_t msg_length)
{
struct bmp_proto *p = g_bmp;
if (!p || !p->started)
return;
// struct bmp_peer_map_key key = bmp_peer_map_key_create(bgp->remote_ip, bgp->remote_as);
// bmp_peer_map_remove(&p->bgp_peers, key);
buffer payload = bmp_buffer_alloc(p->buffer_mpool, 1 + BGP_HEADER_LENGTH + msg_length);
if (msg)
{
if (err_class == BE_BGP_TX)
bmp_put_u8(&payload, BMP_PEER_DOWN_REASON_LOCAL_BGP_NOTIFICATION);
else
bmp_put_u8(&payload, BMP_PEER_DOWN_REASON_REMOTE_BGP_NOTIFICATION);
bmp_put_bgp_hdr(&payload, BGP_HEADER_LENGTH + msg_length, PKT_NOTIFICATION);
bmp_put_data(&payload, msg, msg_length);
}
else
{
// TODO: Handle De-configured Peer Down Reason Code
if (err_class == BE_SOCKET || err_class == BE_MISC)
{
bmp_put_u8(&payload, BMP_PEER_DOWN_REASON_REMOTE_NO_NOTIFICATION);
}
else
{
bmp_put_u8(&payload, BMP_PEER_DOWN_REASON_LOCAL_NO_NOTIFICATION);
// TODO: Fill in with appropriate FSM event code
bmp_put_u16(&payload, 0x00); // no relevant Event code is defined
}
}
bmp_send_peer_down_notif_msg(p, bgp, bmp_buffer_data(&payload), bmp_buffer_pos(&payload));
bmp_buffer_free(&payload);
}
static void
bmp_send_termination_msg(struct bmp_proto *p,
const enum bmp_term_reason reason)
{
const size_t term_msg_hdr_size = BMP_TERM_INFO_TYPE_SIZE
+ BMP_TERM_INFO_LEN_FIELD_SIZE
+ BMP_TERM_REASON_CODE_SIZE;
const size_t term_msg_size = BMP_COMMON_HDR_SIZE + term_msg_hdr_size;
buffer stream = bmp_buffer_alloc(p->buffer_mpool, term_msg_size);
bmp_common_hdr_serialize(&stream, BMP_TERM_MSG, term_msg_hdr_size);
bmp_put_u16(&stream, BMP_TERM_INFO_REASON);
bmp_put_u16(&stream, BMP_TERM_REASON_CODE_SIZE); // 2-byte code indication the reason
bmp_put_u16(&stream, reason);
memcpy(p->sk->tbuf, bmp_buffer_data(&stream), bmp_buffer_pos(&stream));
IF_COND_TRUE_PRINT_ERR_MSG_AND_RETURN_OPT_VAL(
sk_send(p->sk, bmp_buffer_pos(&stream)) < 0,
"Failed to send BMP termination message"
);
bmp_buffer_free(&stream);
}
/**
* bmp_startup - enter established state
* @p: BMP instance
*
* The bgp_startup() function is called when the BMP session is established.
* It sends initiation and peer up messagages.
*/
static void
bmp_startup(struct bmp_proto *p)
{
ASSERT(!p->started);
p->started = true;
TRACE(D_EVENTS, "BMP session established");
/* Send initiation message */
buffer payload = bmp_buffer_alloc(p->buffer_mpool, DEFAULT_MEM_BLOCK_SIZE);
bmp_init_msg_serialize(&payload, p->sys_descr, p->sys_name);
bmp_schedule_tx_packet(p, bmp_buffer_data(&payload), bmp_buffer_pos(&payload));
bmp_buffer_free(&payload);
/* Send Peer Up messages */
struct proto *peer;
WALK_LIST(peer, proto_list)
if ((peer->proto->class == PROTOCOL_BGP) && (peer->proto_state == PS_UP))
bmp_peer_init((struct bgp_proto *) peer);
proto_notify_state(&p->p, PS_UP);
}
/**
* bmp_down - leave established state
* @p: BMP instance
*
* The bgp_down() function is called when the BMP session fails.
*/
static void
bmp_down(struct bmp_proto *p)
{
ASSERT(p->started);
p->started = false;
TRACE(D_EVENTS, "BMP session closed");
proto_notify_state(&p->p, PS_START);
}
/**
* bmp_connect - initiate an outgoing connection
* @p: BMP instance
*
* The bmp_connect() function creates the socket and initiates an outgoing TCP
* connection to the monitoring station. It is called to enter Connect state.
*/
static void
bmp_connect(struct bmp_proto *p)
{
ASSERT(!p->started);
sock *sk = sk_new(p->p.pool);
sk->type = SK_TCP_ACTIVE;
sk->daddr = p->station_ip;
sk->dport = p->station_port;
sk->ttl = IP4_MAX_TTL;
sk->tos = IP_PREC_INTERNET_CONTROL;
sk->tbsize = BGP_TX_BUFFER_EXT_SIZE;
sk->tx_hook = bmp_connected;
sk->err_hook = bmp_sock_err;
p->sk = sk;
sk->data = p;
int rc = sk_open(sk);
if (rc < 0)
sk_log_error(sk, p->p.name);
tm_start(p->connect_retry_timer, CONNECT_RETRY_TIME);
}
/* BMP connect successful event - switch from Connect to Established state */
static void
bmp_connected(struct birdsock *sk)
{
struct bmp_proto *p = (void *) sk->data;
sk->rx_hook = bmp_rx;
sk->tx_hook = bmp_tx;
tm_stop(p->connect_retry_timer);
bmp_startup(p);
}
/* BMP socket error event - switch from any state to Idle state */
static void
bmp_sock_err(sock *sk, int err)
{
struct bmp_proto *p = sk->data;
if (err)
TRACE(D_EVENTS, "Connection lost (%M)", err);
else
TRACE(D_EVENTS, "Connection closed");
if (p->started)
bmp_down(p);
bmp_close_socket(p);
tm_start(p->connect_retry_timer, CONNECT_RETRY_TIME);
}
/* BMP connect timeout event - switch from Idle/Connect state to Connect state */
static void
bmp_connection_retry(timer *t)
{
struct bmp_proto *p = t->data;
if (p->started)
return;
bmp_close_socket(p);
bmp_connect(p);
}
static void
bmp_close_socket(struct bmp_proto *p)
{
rfree(p->sk);
p->sk = NULL;
}
/** Configuration handle section **/
static struct proto *
bmp_init(struct proto_config *CF)
{
struct proto *P = proto_new(CF);
struct bmp_proto *p = (void *) P;
struct bmp_config *cf = (void *) CF;
p->cf = cf;
p->station_ip = cf->station_ip;
p->station_port = cf->station_port;
strcpy(p->sys_descr, cf->sys_descr);
strcpy(p->sys_name, cf->sys_name);
p->monitoring_rib.in_pre_policy = cf->monitoring_rib_in_pre_policy;
p->monitoring_rib.in_post_policy = cf->monitoring_rib_in_post_policy;
p->monitoring_rib.local = cf->monitoring_rib_local;
return P;
}
static int
bmp_start(struct proto *P)
{
struct bmp_proto *p = (void *) P;
log(L_DEBUG "Init BMP");
p->buffer_mpool = rp_new(P->pool, "BMP Buffer");
p->map_mem_pool = rp_new(P->pool, "BMP Map");
p->tx_mem_pool = rp_new(P->pool, "BMP Tx");
p->update_msg_mem_pool = rp_new(P->pool, "BMP Update");
p->tx_ev = ev_new_init(p->tx_mem_pool, bmp_fire_tx, p);
p->connect_retry_timer = tm_new_init(p->p.pool, bmp_connection_retry, p, 0, 0);
p->sk = NULL;
// bmp_peer_map_init(&p->bgp_peers, p->map_mem_pool);
init_list(&p->tx_queue);
init_list(&p->rt_table_in_pre_policy.update_msg_queue);
p->started = false;
tm_start(p->connect_retry_timer, CONNECT_INIT_TIME);
g_bmp = p;
return PS_START;
}
static int
bmp_shutdown(struct proto *P)
{
struct bmp_proto *p = (void *) P;
if (p->started)
{
bmp_send_termination_msg(p, BMP_TERM_REASON_ADM);
p->started = false;
}
g_bmp = NULL;
return PS_DOWN;
}
static int
bmp_reconfigure(struct proto *P, struct proto_config *CF)
{
struct bmp_proto *p = (void *) P;
const struct bmp_config *cf = (void *) CF;
log(L_WARN "Reconfiguring BMP is not supported");
p->cf = cf;
return 1;
}
struct protocol proto_bmp = {
.name = "BMP",
.template = "bmp%d",
.class = PROTOCOL_BMP,
.proto_size = sizeof(struct bmp_proto),
.config_size = sizeof(struct bmp_config),
.init = bmp_init,
.start = bmp_start,
.shutdown = bmp_shutdown,
.reconfigure = bmp_reconfigure,
};
void
bmp_build(void)
{
proto_build(&proto_bmp);
}
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