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|
// SPDX-License-Identifier: GPL-2.0-or-later
/* Kernel communication using netlink interface.
* Copyright (C) 1999 Kunihiro Ishiguro
*/
#include <zebra.h>
#ifdef HAVE_NETLINK
#include "linklist.h"
#include "if.h"
#include "log.h"
#include "prefix.h"
#include "connected.h"
#include "table.h"
#include "memory.h"
#include "rib.h"
#include "event.h"
#include "privs.h"
#include "nexthop.h"
#include "vrf.h"
#include "mpls.h"
#include "lib_errors.h"
#include "hash.h"
#include "zebra/zebra_router.h"
#include "zebra/zebra_ns.h"
#include "zebra/zebra_vrf.h"
#include "zebra/rt.h"
#include "zebra/debug.h"
#include "zebra/kernel_netlink.h"
#include "zebra/rt_netlink.h"
#include "zebra/if_netlink.h"
#include "zebra/rule_netlink.h"
#include "zebra/tc_netlink.h"
#include "zebra/netconf_netlink.h"
#include "zebra/zebra_errors.h"
#ifndef SO_RCVBUFFORCE
#define SO_RCVBUFFORCE (33)
#endif
/* Hack for GNU libc version 2. */
#ifndef MSG_TRUNC
#define MSG_TRUNC 0x20
#endif /* MSG_TRUNC */
#ifndef NLMSG_TAIL
#define NLMSG_TAIL(nmsg) \
((struct rtattr *)(((uint8_t *)(nmsg)) \
+ NLMSG_ALIGN((nmsg)->nlmsg_len)))
#endif
#ifndef RTA_TAIL
#define RTA_TAIL(rta) \
((struct rtattr *)(((uint8_t *)(rta)) + RTA_ALIGN((rta)->rta_len)))
#endif
#ifndef RTNL_FAMILY_IP6MR
#define RTNL_FAMILY_IP6MR 129
#endif
#ifndef RTPROT_MROUTED
#define RTPROT_MROUTED 17
#endif
#define NL_DEFAULT_BATCH_BUFSIZE (16 * NL_PKT_BUF_SIZE)
/*
* We limit the batch's size to a number smaller than the length of the
* underlying buffer since the last message that wouldn't fit the batch would go
* over the upper boundary and then it would have to be encoded again into a new
* buffer. If the difference between the limit and the length of the buffer is
* big enough (bigger than the biggest Netlink message) then this situation
* won't occur.
*/
#define NL_DEFAULT_BATCH_SEND_THRESHOLD (15 * NL_PKT_BUF_SIZE)
static const struct message nlmsg_str[] = {{RTM_NEWROUTE, "RTM_NEWROUTE"},
{RTM_DELROUTE, "RTM_DELROUTE"},
{RTM_GETROUTE, "RTM_GETROUTE"},
{RTM_NEWLINK, "RTM_NEWLINK"},
{RTM_SETLINK, "RTM_SETLINK"},
{RTM_DELLINK, "RTM_DELLINK"},
{RTM_GETLINK, "RTM_GETLINK"},
{RTM_NEWADDR, "RTM_NEWADDR"},
{RTM_DELADDR, "RTM_DELADDR"},
{RTM_GETADDR, "RTM_GETADDR"},
{RTM_NEWNEIGH, "RTM_NEWNEIGH"},
{RTM_DELNEIGH, "RTM_DELNEIGH"},
{RTM_GETNEIGH, "RTM_GETNEIGH"},
{RTM_NEWRULE, "RTM_NEWRULE"},
{RTM_DELRULE, "RTM_DELRULE"},
{RTM_GETRULE, "RTM_GETRULE"},
{RTM_NEWNEXTHOP, "RTM_NEWNEXTHOP"},
{RTM_DELNEXTHOP, "RTM_DELNEXTHOP"},
{RTM_GETNEXTHOP, "RTM_GETNEXTHOP"},
{RTM_NEWNETCONF, "RTM_NEWNETCONF"},
{RTM_DELNETCONF, "RTM_DELNETCONF"},
{RTM_NEWTUNNEL, "RTM_NEWTUNNEL"},
{RTM_DELTUNNEL, "RTM_DELTUNNEL"},
{RTM_GETTUNNEL, "RTM_GETTUNNEL"},
{RTM_NEWQDISC, "RTM_NEWQDISC"},
{RTM_DELQDISC, "RTM_DELQDISC"},
{RTM_GETQDISC, "RTM_GETQDISC"},
{RTM_NEWTCLASS, "RTM_NEWTCLASS"},
{RTM_DELTCLASS, "RTM_DELTCLASS"},
{RTM_GETTCLASS, "RTM_GETTCLASS"},
{RTM_NEWTFILTER, "RTM_NEWTFILTER"},
{RTM_DELTFILTER, "RTM_DELTFILTER"},
{RTM_GETTFILTER, "RTM_GETTFILTER"},
{RTM_NEWVLAN, "RTM_NEWVLAN"},
{RTM_DELVLAN, "RTM_DELVLAN"},
{RTM_GETVLAN, "RTM_GETVLAN"},
{0}};
static const struct message rtproto_str[] = {
{RTPROT_REDIRECT, "redirect"},
{RTPROT_KERNEL, "kernel"},
{RTPROT_BOOT, "boot"},
{RTPROT_STATIC, "static"},
{RTPROT_GATED, "GateD"},
{RTPROT_RA, "router advertisement"},
{RTPROT_MRT, "MRT"},
{RTPROT_ZEBRA, "Zebra"},
#ifdef RTPROT_BIRD
{RTPROT_BIRD, "BIRD"},
#endif /* RTPROT_BIRD */
{RTPROT_MROUTED, "mroute"},
{RTPROT_BGP, "BGP"},
{RTPROT_OSPF, "OSPF"},
{RTPROT_ISIS, "IS-IS"},
{RTPROT_RIP, "RIP"},
{RTPROT_RIPNG, "RIPNG"},
{RTPROT_ZSTATIC, "static"},
{0}};
static const struct message family_str[] = {{AF_INET, "ipv4"},
{AF_INET6, "ipv6"},
{AF_BRIDGE, "bridge"},
{RTNL_FAMILY_IPMR, "ipv4MR"},
{RTNL_FAMILY_IP6MR, "ipv6MR"},
{0}};
static const struct message rttype_str[] = {{RTN_UNSPEC, "none"},
{RTN_UNICAST, "unicast"},
{RTN_LOCAL, "local"},
{RTN_BROADCAST, "broadcast"},
{RTN_ANYCAST, "anycast"},
{RTN_MULTICAST, "multicast"},
{RTN_BLACKHOLE, "blackhole"},
{RTN_UNREACHABLE, "unreachable"},
{RTN_PROHIBIT, "prohibited"},
{RTN_THROW, "throw"},
{RTN_NAT, "nat"},
{RTN_XRESOLVE, "resolver"},
{0}};
extern struct event_master *master;
extern struct zebra_privs_t zserv_privs;
DEFINE_MTYPE_STATIC(ZEBRA, NL_BUF, "Zebra Netlink buffers");
/* Hashtable and mutex to allow lookup of nlsock structs by socket/fd value.
* We have both the main and dplane pthreads using these structs, so we have
* to protect the hash with a lock.
*/
static struct hash *nlsock_hash;
pthread_mutex_t nlsock_mutex;
/* Lock and unlock wrappers for nlsock hash */
#define NLSOCK_LOCK() pthread_mutex_lock(&nlsock_mutex)
#define NLSOCK_UNLOCK() pthread_mutex_unlock(&nlsock_mutex)
size_t nl_batch_tx_bufsize;
char *nl_batch_tx_buf;
_Atomic uint32_t nl_batch_bufsize = NL_DEFAULT_BATCH_BUFSIZE;
_Atomic uint32_t nl_batch_send_threshold = NL_DEFAULT_BATCH_SEND_THRESHOLD;
struct nl_batch {
void *buf;
size_t bufsiz;
size_t limit;
void *buf_head;
size_t curlen;
size_t msgcnt;
const struct zebra_dplane_info *zns;
struct dplane_ctx_list_head ctx_list;
/*
* Pointer to the queue of completed contexts outbound back
* towards the dataplane module.
*/
struct dplane_ctx_list_head *ctx_out_q;
};
int netlink_config_write_helper(struct vty *vty)
{
uint32_t size =
atomic_load_explicit(&nl_batch_bufsize, memory_order_relaxed);
uint32_t threshold = atomic_load_explicit(&nl_batch_send_threshold,
memory_order_relaxed);
if (size != NL_DEFAULT_BATCH_BUFSIZE
|| threshold != NL_DEFAULT_BATCH_SEND_THRESHOLD)
vty_out(vty, "zebra kernel netlink batch-tx-buf %u %u\n", size,
threshold);
if (if_netlink_frr_protodown_r_bit_is_set())
vty_out(vty, "zebra protodown reason-bit %u\n",
if_netlink_get_frr_protodown_r_bit());
return 0;
}
void netlink_set_batch_buffer_size(uint32_t size, uint32_t threshold, bool set)
{
if (!set) {
size = NL_DEFAULT_BATCH_BUFSIZE;
threshold = NL_DEFAULT_BATCH_SEND_THRESHOLD;
}
atomic_store_explicit(&nl_batch_bufsize, size, memory_order_relaxed);
atomic_store_explicit(&nl_batch_send_threshold, threshold,
memory_order_relaxed);
}
int netlink_talk_filter(struct nlmsghdr *h, ns_id_t ns_id, int startup)
{
/*
* This is an error condition that must be handled during
* development.
*
* The netlink_talk_filter function is used for communication
* down the netlink_cmd pipe and we are expecting
* an ack being received. So if we get here
* then we did not receive the ack and instead
* received some other message in an unexpected
* way.
*/
zlog_debug("%s: ignoring message type 0x%04x(%s) NS %u", __func__,
h->nlmsg_type, nl_msg_type_to_str(h->nlmsg_type), ns_id);
return 0;
}
static int netlink_recvbuf(struct nlsock *nl, uint32_t newsize)
{
uint32_t oldsize;
socklen_t newlen = sizeof(newsize);
socklen_t oldlen = sizeof(oldsize);
int ret;
ret = getsockopt(nl->sock, SOL_SOCKET, SO_RCVBUF, &oldsize, &oldlen);
if (ret < 0) {
flog_err_sys(EC_LIB_SOCKET,
"Can't get %s receive buffer size: %s", nl->name,
safe_strerror(errno));
return -1;
}
/* Try force option (linux >= 2.6.14) and fall back to normal set */
frr_with_privs(&zserv_privs) {
ret = setsockopt(nl->sock, SOL_SOCKET, SO_RCVBUFFORCE,
&rcvbufsize, sizeof(rcvbufsize));
}
if (ret < 0)
ret = setsockopt(nl->sock, SOL_SOCKET, SO_RCVBUF, &rcvbufsize,
sizeof(rcvbufsize));
if (ret < 0) {
flog_err_sys(EC_LIB_SOCKET,
"Can't set %s receive buffer size: %s", nl->name,
safe_strerror(errno));
return -1;
}
ret = getsockopt(nl->sock, SOL_SOCKET, SO_RCVBUF, &newsize, &newlen);
if (ret < 0) {
flog_err_sys(EC_LIB_SOCKET,
"Can't get %s receive buffer size: %s", nl->name,
safe_strerror(errno));
return -1;
}
return 0;
}
static const char *group2str(uint32_t group)
{
switch (group) {
case RTNLGRP_TUNNEL:
return "RTNLGRP_TUNNEL";
default:
return "UNKNOWN";
}
}
/* Make socket for Linux netlink interface. */
static int netlink_socket(struct nlsock *nl, unsigned long groups,
uint32_t ext_groups[], uint8_t ext_group_size,
ns_id_t ns_id)
{
int ret;
struct sockaddr_nl snl;
int sock;
int namelen;
frr_with_privs(&zserv_privs) {
sock = ns_socket(AF_NETLINK, SOCK_RAW, NETLINK_ROUTE, ns_id);
if (sock < 0) {
zlog_err("Can't open %s socket: %s", nl->name,
safe_strerror(errno));
return -1;
}
memset(&snl, 0, sizeof(snl));
snl.nl_family = AF_NETLINK;
snl.nl_groups = groups;
if (ext_group_size) {
uint8_t i;
for (i = 0; i < ext_group_size; i++) {
#if defined SOL_NETLINK
ret = setsockopt(sock, SOL_NETLINK,
NETLINK_ADD_MEMBERSHIP,
&ext_groups[i],
sizeof(ext_groups[i]));
if (ret < 0) {
zlog_notice(
"can't setsockopt NETLINK_ADD_MEMBERSHIP for group %s(%u), this linux kernel does not support it: %s(%d)",
group2str(ext_groups[i]),
ext_groups[i],
safe_strerror(errno), errno);
}
#else
zlog_notice(
"Unable to use NETLINK_ADD_MEMBERSHIP via SOL_NETLINK for %s(%u) since the linux kernel does not support the socket option",
group2str(ext_groups[i]),
ext_groups[i]);
#endif
}
}
/* Bind the socket to the netlink structure for anything. */
ret = bind(sock, (struct sockaddr *)&snl, sizeof(snl));
}
if (ret < 0) {
zlog_err("Can't bind %s socket to group 0x%x: %s", nl->name,
snl.nl_groups, safe_strerror(errno));
close(sock);
return -1;
}
/* multiple netlink sockets will have different nl_pid */
namelen = sizeof(snl);
ret = getsockname(sock, (struct sockaddr *)&snl, (socklen_t *)&namelen);
if (ret < 0 || namelen != sizeof(snl)) {
flog_err_sys(EC_LIB_SOCKET, "Can't get %s socket name: %s",
nl->name, safe_strerror(errno));
close(sock);
return -1;
}
nl->snl = snl;
nl->sock = sock;
nl->buflen = NL_RCV_PKT_BUF_SIZE;
nl->buf = XMALLOC(MTYPE_NL_BUF, nl->buflen);
return ret;
}
/*
* Dispatch an incoming netlink message; used by the zebra main pthread's
* netlink event reader.
*/
static int netlink_information_fetch(struct nlmsghdr *h, ns_id_t ns_id,
int startup)
{
/*
* When we handle new message types here
* because we are starting to install them
* then lets check the netlink_install_filter
* and see if we should add the corresponding
* allow through entry there.
* Probably not needed to do but please
* think about it.
*/
switch (h->nlmsg_type) {
case RTM_NEWROUTE:
return netlink_route_change(h, ns_id, startup);
case RTM_DELROUTE:
return netlink_route_change(h, ns_id, startup);
case RTM_NEWLINK:
return netlink_link_change(h, ns_id, startup);
case RTM_DELLINK:
return netlink_link_change(h, ns_id, startup);
case RTM_NEWNEIGH:
case RTM_DELNEIGH:
case RTM_GETNEIGH:
return netlink_neigh_change(h, ns_id);
case RTM_NEWRULE:
return netlink_rule_change(h, ns_id, startup);
case RTM_DELRULE:
return netlink_rule_change(h, ns_id, startup);
case RTM_NEWNEXTHOP:
return netlink_nexthop_change(h, ns_id, startup);
case RTM_DELNEXTHOP:
return netlink_nexthop_change(h, ns_id, startup);
case RTM_NEWQDISC:
case RTM_DELQDISC:
return netlink_qdisc_change(h, ns_id, startup);
case RTM_NEWTCLASS:
case RTM_DELTCLASS:
return netlink_tclass_change(h, ns_id, startup);
case RTM_NEWTFILTER:
case RTM_DELTFILTER:
return netlink_tfilter_change(h, ns_id, startup);
case RTM_NEWVLAN:
return netlink_vlan_change(h, ns_id, startup);
case RTM_DELVLAN:
return netlink_vlan_change(h, ns_id, startup);
/* Messages handled in the dplane thread */
case RTM_NEWADDR:
case RTM_DELADDR:
case RTM_NEWNETCONF:
case RTM_DELNETCONF:
case RTM_NEWTUNNEL:
case RTM_DELTUNNEL:
case RTM_GETTUNNEL:
return 0;
default:
/*
* If we have received this message then
* we have made a mistake during development
* and we need to write some code to handle
* this message type or not ask for
* it to be sent up to us
*/
flog_err(EC_ZEBRA_UNKNOWN_NLMSG,
"Unknown netlink nlmsg_type %s(%d) vrf %u",
nl_msg_type_to_str(h->nlmsg_type), h->nlmsg_type,
ns_id);
break;
}
return 0;
}
/*
* Dispatch an incoming netlink message; used by the dataplane pthread's
* netlink event reader code.
*/
static int dplane_netlink_information_fetch(struct nlmsghdr *h, ns_id_t ns_id,
int startup)
{
/*
* Dispatch the incoming messages that the dplane pthread handles
*/
switch (h->nlmsg_type) {
case RTM_NEWADDR:
case RTM_DELADDR:
return netlink_interface_addr_dplane(h, ns_id, startup);
case RTM_NEWNETCONF:
case RTM_DELNETCONF:
return netlink_netconf_change(h, ns_id, startup);
/* TODO -- other messages for the dplane socket and pthread */
case RTM_NEWLINK:
case RTM_DELLINK:
default:
break;
}
return 0;
}
static void kernel_read(struct event *thread)
{
struct zebra_ns *zns = (struct zebra_ns *)THREAD_ARG(thread);
struct zebra_dplane_info dp_info;
/* Capture key info from ns struct */
zebra_dplane_info_from_zns(&dp_info, zns, false);
netlink_parse_info(netlink_information_fetch, &zns->netlink, &dp_info,
5, false);
event_add_read(zrouter.master, kernel_read, zns, zns->netlink.sock,
&zns->t_netlink);
}
/*
* Called by the dplane pthread to read incoming OS messages and dispatch them.
*/
int kernel_dplane_read(struct zebra_dplane_info *info)
{
struct nlsock *nl = kernel_netlink_nlsock_lookup(info->sock);
netlink_parse_info(dplane_netlink_information_fetch, nl, info, 5,
false);
return 0;
}
/*
* Filter out messages from self that occur on listener socket,
* caused by our actions on the command socket(s)
*
* When we add new Netlink message types we probably
* do not need to add them here as that we are filtering
* on the routes we actually care to receive( which is rarer
* then the normal course of operations). We are intentionally
* allowing some messages from ourselves through
* ( I'm looking at you Interface based netlink messages )
* so that we only have to write one way to handle incoming
* address add/delete and xxxNETCONF changes.
*/
static void netlink_install_filter(int sock, uint32_t pid, uint32_t dplane_pid)
{
/*
* BPF_JUMP instructions and where you jump to are based upon
* 0 as being the next statement. So count from 0. Writing
* this down because every time I look at this I have to
* re-remember it.
*/
struct sock_filter filter[] = {
/*
* Logic:
* if (nlmsg_pid == pid ||
* nlmsg_pid == dplane_pid) {
* if (the incoming nlmsg_type ==
* RTM_NEWADDR || RTM_DELADDR || RTM_NEWNETCONF ||
* RTM_DELNETCONF)
* keep this message
* else
* skip this message
* } else
* keep this netlink message
*/
/*
* 0: Load the nlmsg_pid into the BPF register
*/
BPF_STMT(BPF_LD | BPF_ABS | BPF_W,
offsetof(struct nlmsghdr, nlmsg_pid)),
/*
* 1: Compare to pid
*/
BPF_JUMP(BPF_JMP | BPF_JEQ | BPF_K, htonl(pid), 1, 0),
/*
* 2: Compare to dplane pid
*/
BPF_JUMP(BPF_JMP | BPF_JEQ | BPF_K, htonl(dplane_pid), 0, 6),
/*
* 3: Load the nlmsg_type into BPF register
*/
BPF_STMT(BPF_LD | BPF_ABS | BPF_H,
offsetof(struct nlmsghdr, nlmsg_type)),
/*
* 4: Compare to RTM_NEWADDR
*/
BPF_JUMP(BPF_JMP | BPF_JEQ | BPF_K, htons(RTM_NEWADDR), 4, 0),
/*
* 5: Compare to RTM_DELADDR
*/
BPF_JUMP(BPF_JMP | BPF_JEQ | BPF_K, htons(RTM_DELADDR), 3, 0),
/*
* 6: Compare to RTM_NEWNETCONF
*/
BPF_JUMP(BPF_JMP | BPF_JEQ | BPF_K, htons(RTM_NEWNETCONF), 2,
0),
/*
* 7: Compare to RTM_DELNETCONF
*/
BPF_JUMP(BPF_JMP | BPF_JEQ | BPF_K, htons(RTM_DELNETCONF), 1,
0),
/*
* 8: This is the end state of we want to skip the
* message
*/
BPF_STMT(BPF_RET | BPF_K, 0),
/* 9: This is the end state of we want to keep
* the message
*/
BPF_STMT(BPF_RET | BPF_K, 0xffff),
};
struct sock_fprog prog = {
.len = array_size(filter), .filter = filter,
};
if (setsockopt(sock, SOL_SOCKET, SO_ATTACH_FILTER, &prog, sizeof(prog))
< 0)
flog_err_sys(EC_LIB_SOCKET, "Can't install socket filter: %s",
safe_strerror(errno));
}
void netlink_parse_rtattr_flags(struct rtattr **tb, int max, struct rtattr *rta,
int len, unsigned short flags)
{
unsigned short type;
memset(tb, 0, sizeof(struct rtattr *) * (max + 1));
while (RTA_OK(rta, len)) {
type = rta->rta_type & ~flags;
if ((type <= max) && (!tb[type]))
tb[type] = rta;
rta = RTA_NEXT(rta, len);
}
}
void netlink_parse_rtattr(struct rtattr **tb, int max, struct rtattr *rta,
int len)
{
memset(tb, 0, sizeof(struct rtattr *) * (max + 1));
while (RTA_OK(rta, len)) {
if (rta->rta_type <= max)
tb[rta->rta_type] = rta;
rta = RTA_NEXT(rta, len);
}
}
/**
* netlink_parse_rtattr_nested() - Parses a nested route attribute
* @tb: Pointer to array for storing rtattr in.
* @max: Max number to store.
* @rta: Pointer to rtattr to look for nested items in.
*/
void netlink_parse_rtattr_nested(struct rtattr **tb, int max,
struct rtattr *rta)
{
netlink_parse_rtattr(tb, max, RTA_DATA(rta), RTA_PAYLOAD(rta));
}
bool nl_addraw_l(struct nlmsghdr *n, unsigned int maxlen, const void *data,
unsigned int len)
{
if (NLMSG_ALIGN(n->nlmsg_len) + NLMSG_ALIGN(len) > maxlen) {
zlog_err("ERROR message exceeded bound of %d", maxlen);
return false;
}
memcpy(NLMSG_TAIL(n), data, len);
memset((uint8_t *)NLMSG_TAIL(n) + len, 0, NLMSG_ALIGN(len) - len);
n->nlmsg_len = NLMSG_ALIGN(n->nlmsg_len) + NLMSG_ALIGN(len);
return true;
}
bool nl_attr_put(struct nlmsghdr *n, unsigned int maxlen, int type,
const void *data, unsigned int alen)
{
int len;
struct rtattr *rta;
len = RTA_LENGTH(alen);
if (NLMSG_ALIGN(n->nlmsg_len) + RTA_ALIGN(len) > maxlen)
return false;
rta = (struct rtattr *)(((char *)n) + NLMSG_ALIGN(n->nlmsg_len));
rta->rta_type = type;
rta->rta_len = len;
if (data)
memcpy(RTA_DATA(rta), data, alen);
else
assert(alen == 0);
n->nlmsg_len = NLMSG_ALIGN(n->nlmsg_len) + RTA_ALIGN(len);
return true;
}
bool nl_attr_put8(struct nlmsghdr *n, unsigned int maxlen, int type,
uint8_t data)
{
return nl_attr_put(n, maxlen, type, &data, sizeof(uint8_t));
}
bool nl_attr_put16(struct nlmsghdr *n, unsigned int maxlen, int type,
uint16_t data)
{
return nl_attr_put(n, maxlen, type, &data, sizeof(uint16_t));
}
bool nl_attr_put32(struct nlmsghdr *n, unsigned int maxlen, int type,
uint32_t data)
{
return nl_attr_put(n, maxlen, type, &data, sizeof(uint32_t));
}
bool nl_attr_put64(struct nlmsghdr *n, unsigned int maxlen, int type,
uint64_t data)
{
return nl_attr_put(n, maxlen, type, &data, sizeof(uint64_t));
}
struct rtattr *nl_attr_nest(struct nlmsghdr *n, unsigned int maxlen, int type)
{
struct rtattr *nest = NLMSG_TAIL(n);
if (!nl_attr_put(n, maxlen, type, NULL, 0))
return NULL;
nest->rta_type |= NLA_F_NESTED;
return nest;
}
int nl_attr_nest_end(struct nlmsghdr *n, struct rtattr *nest)
{
nest->rta_len = (uint8_t *)NLMSG_TAIL(n) - (uint8_t *)nest;
return n->nlmsg_len;
}
struct rtnexthop *nl_attr_rtnh(struct nlmsghdr *n, unsigned int maxlen)
{
struct rtnexthop *rtnh = (struct rtnexthop *)NLMSG_TAIL(n);
if (NLMSG_ALIGN(n->nlmsg_len) + RTNH_ALIGN(sizeof(struct rtnexthop))
> maxlen)
return NULL;
memset(rtnh, 0, sizeof(struct rtnexthop));
n->nlmsg_len =
NLMSG_ALIGN(n->nlmsg_len) + RTA_ALIGN(sizeof(struct rtnexthop));
return rtnh;
}
void nl_attr_rtnh_end(struct nlmsghdr *n, struct rtnexthop *rtnh)
{
rtnh->rtnh_len = (uint8_t *)NLMSG_TAIL(n) - (uint8_t *)rtnh;
}
bool nl_rta_put(struct rtattr *rta, unsigned int maxlen, int type,
const void *data, int alen)
{
struct rtattr *subrta;
int len = RTA_LENGTH(alen);
if (RTA_ALIGN(rta->rta_len) + RTA_ALIGN(len) > maxlen) {
zlog_err("ERROR max allowed bound %d exceeded for rtattr",
maxlen);
return false;
}
subrta = (struct rtattr *)(((char *)rta) + RTA_ALIGN(rta->rta_len));
subrta->rta_type = type;
subrta->rta_len = len;
if (alen)
memcpy(RTA_DATA(subrta), data, alen);
rta->rta_len = NLMSG_ALIGN(rta->rta_len) + RTA_ALIGN(len);
return true;
}
bool nl_rta_put16(struct rtattr *rta, unsigned int maxlen, int type,
uint16_t data)
{
return nl_rta_put(rta, maxlen, type, &data, sizeof(uint16_t));
}
bool nl_rta_put64(struct rtattr *rta, unsigned int maxlen, int type,
uint64_t data)
{
return nl_rta_put(rta, maxlen, type, &data, sizeof(uint64_t));
}
struct rtattr *nl_rta_nest(struct rtattr *rta, unsigned int maxlen, int type)
{
struct rtattr *nest = RTA_TAIL(rta);
if (nl_rta_put(rta, maxlen, type, NULL, 0))
return NULL;
nest->rta_type |= NLA_F_NESTED;
return nest;
}
int nl_rta_nest_end(struct rtattr *rta, struct rtattr *nest)
{
nest->rta_len = (uint8_t *)RTA_TAIL(rta) - (uint8_t *)nest;
return rta->rta_len;
}
const char *nl_msg_type_to_str(uint16_t msg_type)
{
return lookup_msg(nlmsg_str, msg_type, "");
}
const char *nl_rtproto_to_str(uint8_t rtproto)
{
return lookup_msg(rtproto_str, rtproto, "");
}
const char *nl_family_to_str(uint8_t family)
{
return lookup_msg(family_str, family, "");
}
const char *nl_rttype_to_str(uint8_t rttype)
{
return lookup_msg(rttype_str, rttype, "");
}
#define NLA_OK(nla, len) \
((len) >= (int)sizeof(struct nlattr) \
&& (nla)->nla_len >= sizeof(struct nlattr) \
&& (nla)->nla_len <= (len))
#define NLA_NEXT(nla, attrlen) \
((attrlen) -= NLA_ALIGN((nla)->nla_len), \
(struct nlattr *)(((char *)(nla)) + NLA_ALIGN((nla)->nla_len)))
#define NLA_LENGTH(len) (NLA_ALIGN(sizeof(struct nlattr)) + (len))
#define NLA_DATA(nla) ((struct nlattr *)(((char *)(nla)) + NLA_LENGTH(0)))
#define ERR_NLA(err, inner_len) \
((struct nlattr *)(((char *)(err)) \
+ NLMSG_ALIGN(sizeof(struct nlmsgerr)) \
+ NLMSG_ALIGN((inner_len))))
static void netlink_parse_nlattr(struct nlattr **tb, int max,
struct nlattr *nla, int len)
{
while (NLA_OK(nla, len)) {
if (nla->nla_type <= max)
tb[nla->nla_type] = nla;
nla = NLA_NEXT(nla, len);
}
}
static void netlink_parse_extended_ack(struct nlmsghdr *h)
{
struct nlattr *tb[NLMSGERR_ATTR_MAX + 1] = {};
const struct nlmsgerr *err = (const struct nlmsgerr *)NLMSG_DATA(h);
const struct nlmsghdr *err_nlh = NULL;
/* Length not including nlmsghdr */
uint32_t len = 0;
/* Inner error netlink message length */
uint32_t inner_len = 0;
const char *msg = NULL;
uint32_t off = 0;
if (!(h->nlmsg_flags & NLM_F_CAPPED))
inner_len = (uint32_t)NLMSG_PAYLOAD(&err->msg, 0);
len = (uint32_t)(NLMSG_PAYLOAD(h, sizeof(struct nlmsgerr)) - inner_len);
netlink_parse_nlattr(tb, NLMSGERR_ATTR_MAX, ERR_NLA(err, inner_len),
len);
if (tb[NLMSGERR_ATTR_MSG])
msg = (const char *)NLA_DATA(tb[NLMSGERR_ATTR_MSG]);
if (tb[NLMSGERR_ATTR_OFFS]) {
off = *(uint32_t *)NLA_DATA(tb[NLMSGERR_ATTR_OFFS]);
if (off > h->nlmsg_len) {
zlog_err("Invalid offset for NLMSGERR_ATTR_OFFS");
} else if (!(h->nlmsg_flags & NLM_F_CAPPED)) {
/*
* Header of failed message
* we are not doing anything currently with it
* but noticing it for later.
*/
err_nlh = &err->msg;
zlog_debug("%s: Received %s extended Ack", __func__,
nl_msg_type_to_str(err_nlh->nlmsg_type));
}
}
if (msg && *msg != '\0') {
bool is_err = !!err->error;
if (is_err)
zlog_err("Extended Error: %s", msg);
else
flog_warn(EC_ZEBRA_NETLINK_EXTENDED_WARNING,
"Extended Warning: %s", msg);
}
}
/*
* netlink_send_msg - send a netlink message of a certain size.
*
* Returns -1 on error. Otherwise, it returns the number of bytes sent.
*/
static ssize_t netlink_send_msg(const struct nlsock *nl, void *buf,
size_t buflen)
{
struct sockaddr_nl snl = {};
struct iovec iov = {};
struct msghdr msg = {};
ssize_t status;
int save_errno = 0;
iov.iov_base = buf;
iov.iov_len = buflen;
msg.msg_name = &snl;
msg.msg_namelen = sizeof(snl);
msg.msg_iov = &iov;
msg.msg_iovlen = 1;
snl.nl_family = AF_NETLINK;
/* Send message to netlink interface. */
frr_with_privs(&zserv_privs) {
status = sendmsg(nl->sock, &msg, 0);
save_errno = errno;
}
if (IS_ZEBRA_DEBUG_KERNEL_MSGDUMP_SEND) {
zlog_debug("%s: >> netlink message dump [sent]", __func__);
#ifdef NETLINK_DEBUG
nl_dump(buf, buflen);
#else
zlog_hexdump(buf, buflen);
#endif /* NETLINK_DEBUG */
}
if (status == -1) {
flog_err_sys(EC_LIB_SOCKET, "%s error: %s", __func__,
safe_strerror(save_errno));
return -1;
}
return status;
}
/*
* netlink_recv_msg - receive a netlink message.
*
* Returns -1 on error, 0 if read would block or the number of bytes received.
*/
static int netlink_recv_msg(struct nlsock *nl, struct msghdr *msg)
{
struct iovec iov;
int status;
iov.iov_base = nl->buf;
iov.iov_len = nl->buflen;
msg->msg_iov = &iov;
msg->msg_iovlen = 1;
do {
int bytes;
bytes = recv(nl->sock, NULL, 0, MSG_PEEK | MSG_TRUNC);
if (bytes >= 0 && (size_t)bytes > nl->buflen) {
nl->buf = XREALLOC(MTYPE_NL_BUF, nl->buf, bytes);
nl->buflen = bytes;
iov.iov_base = nl->buf;
iov.iov_len = nl->buflen;
}
status = recvmsg(nl->sock, msg, 0);
} while (status == -1 && errno == EINTR);
if (status == -1) {
if (errno == EWOULDBLOCK || errno == EAGAIN)
return 0;
flog_err(EC_ZEBRA_RECVMSG_OVERRUN, "%s recvmsg overrun: %s",
nl->name, safe_strerror(errno));
/*
* In this case we are screwed. There is no good way to recover
* zebra at this point.
*/
exit(-1);
}
if (status == 0) {
flog_err_sys(EC_LIB_SOCKET, "%s EOF", nl->name);
return -1;
}
if (msg->msg_namelen != sizeof(struct sockaddr_nl)) {
flog_err(EC_ZEBRA_NETLINK_LENGTH_ERROR,
"%s sender address length error: length %d", nl->name,
msg->msg_namelen);
return -1;
}
if (IS_ZEBRA_DEBUG_KERNEL_MSGDUMP_RECV) {
zlog_debug("%s: << netlink message dump [recv]", __func__);
#ifdef NETLINK_DEBUG
nl_dump(nl->buf, status);
#else
zlog_hexdump(nl->buf, status);
#endif /* NETLINK_DEBUG */
}
return status;
}
/*
* netlink_parse_error - parse a netlink error message
*
* Returns 1 if this message is acknowledgement, 0 if this error should be
* ignored, -1 otherwise.
*/
static int netlink_parse_error(const struct nlsock *nl, struct nlmsghdr *h,
bool is_cmd, bool startup)
{
struct nlmsgerr *err = (struct nlmsgerr *)NLMSG_DATA(h);
int errnum = err->error;
int msg_type = err->msg.nlmsg_type;
if (h->nlmsg_len < NLMSG_LENGTH(sizeof(struct nlmsgerr))) {
flog_err(EC_ZEBRA_NETLINK_LENGTH_ERROR,
"%s error: message truncated", nl->name);
return -1;
}
/*
* Parse the extended information before we actually handle it. At this
* point in time we do not do anything other than report the issue.
*/
if (h->nlmsg_flags & NLM_F_ACK_TLVS)
netlink_parse_extended_ack(h);
/* If the error field is zero, then this is an ACK. */
if (err->error == 0) {
if (IS_ZEBRA_DEBUG_KERNEL) {
zlog_debug("%s: %s ACK: type=%s(%u), seq=%u, pid=%u",
__func__, nl->name,
nl_msg_type_to_str(err->msg.nlmsg_type),
err->msg.nlmsg_type, err->msg.nlmsg_seq,
err->msg.nlmsg_pid);
}
return 1;
}
/*
* Deal with errors that occur because of races in link handling
* or types are not supported in kernel.
*/
if (is_cmd &&
((msg_type == RTM_DELROUTE &&
(-errnum == ENODEV || -errnum == ESRCH)) ||
(msg_type == RTM_NEWROUTE &&
(-errnum == ENETDOWN || -errnum == EEXIST)) ||
((msg_type == RTM_NEWTUNNEL || msg_type == RTM_DELTUNNEL ||
msg_type == RTM_GETTUNNEL) &&
(-errnum == EOPNOTSUPP)))) {
if (IS_ZEBRA_DEBUG_KERNEL)
zlog_debug("%s: error: %s type=%s(%u), seq=%u, pid=%u",
nl->name, safe_strerror(-errnum),
nl_msg_type_to_str(msg_type), msg_type,
err->msg.nlmsg_seq, err->msg.nlmsg_pid);
return 0;
}
/*
* We see RTM_DELNEIGH when shutting down an interface with an IPv4
* link-local. The kernel should have already deleted the neighbor so
* do not log these as an error.
*/
if (msg_type == RTM_DELNEIGH
|| (is_cmd && msg_type == RTM_NEWROUTE
&& (-errnum == ESRCH || -errnum == ENETUNREACH))) {
/*
* This is known to happen in some situations, don't log as
* error.
*/
if (IS_ZEBRA_DEBUG_KERNEL)
zlog_debug("%s error: %s, type=%s(%u), seq=%u, pid=%u",
nl->name, safe_strerror(-errnum),
nl_msg_type_to_str(msg_type), msg_type,
err->msg.nlmsg_seq, err->msg.nlmsg_pid);
} else {
if ((msg_type != RTM_GETNEXTHOP && msg_type != RTM_GETVLAN) ||
!startup)
flog_err(EC_ZEBRA_UNEXPECTED_MESSAGE,
"%s error: %s, type=%s(%u), seq=%u, pid=%u",
nl->name, safe_strerror(-errnum),
nl_msg_type_to_str(msg_type), msg_type,
err->msg.nlmsg_seq, err->msg.nlmsg_pid);
}
return -1;
}
/*
* netlink_parse_info
*
* Receive message from netlink interface and pass those information
* to the given function.
*
* filter -> Function to call to read the results
* nl -> netlink socket information
* zns -> The zebra namespace data
* count -> How many we should read in, 0 means as much as possible
* startup -> Are we reading in under startup conditions? passed to
* the filter.
*/
int netlink_parse_info(int (*filter)(struct nlmsghdr *, ns_id_t, int),
struct nlsock *nl, const struct zebra_dplane_info *zns,
int count, bool startup)
{
int status;
int ret = 0;
int error;
int read_in = 0;
while (1) {
struct sockaddr_nl snl;
struct msghdr msg = {.msg_name = (void *)&snl,
.msg_namelen = sizeof(snl)};
struct nlmsghdr *h;
if (count && read_in >= count)
return 0;
status = netlink_recv_msg(nl, &msg);
if (status == -1)
return -1;
else if (status == 0)
break;
read_in++;
for (h = (struct nlmsghdr *)nl->buf;
(status >= 0 && NLMSG_OK(h, (unsigned int)status));
h = NLMSG_NEXT(h, status)) {
/* Finish of reading. */
if (h->nlmsg_type == NLMSG_DONE)
return ret;
/* Error handling. */
if (h->nlmsg_type == NLMSG_ERROR) {
int err = netlink_parse_error(
nl, h, zns->is_cmd, startup);
if (err == 1) {
if (!(h->nlmsg_flags & NLM_F_MULTI))
return 0;
continue;
} else
return err;
}
/*
* What is the right thing to do? The kernel
* is telling us that the dump request was interrupted
* and we more than likely are out of luck and have
* missed data from the kernel. At this point in time
* lets just note that this is happening.
*/
if (h->nlmsg_flags & NLM_F_DUMP_INTR)
flog_err(
EC_ZEBRA_NETLINK_BAD_SEQUENCE,
"netlink recvmsg: The Dump request was interrupted");
/* OK we got netlink message. */
if (IS_ZEBRA_DEBUG_KERNEL)
zlog_debug(
"%s: %s type %s(%u), len=%d, seq=%u, pid=%u",
__func__, nl->name,
nl_msg_type_to_str(h->nlmsg_type),
h->nlmsg_type, h->nlmsg_len,
h->nlmsg_seq, h->nlmsg_pid);
/*
* Ignore messages that maybe sent from
* other actors besides the kernel
*/
if (snl.nl_pid != 0) {
zlog_debug("Ignoring message from pid %u",
snl.nl_pid);
continue;
}
error = (*filter)(h, zns->ns_id, startup);
if (error < 0) {
zlog_debug("%s filter function error",
nl->name);
ret = error;
}
}
/* After error care. */
if (msg.msg_flags & MSG_TRUNC) {
flog_err(EC_ZEBRA_NETLINK_LENGTH_ERROR,
"%s error: message truncated", nl->name);
continue;
}
if (status) {
flog_err(EC_ZEBRA_NETLINK_LENGTH_ERROR,
"%s error: data remnant size %d", nl->name,
status);
return -1;
}
}
return ret;
}
/*
* netlink_talk_info
*
* sendmsg() to netlink socket then recvmsg().
* Calls netlink_parse_info to parse returned data
*
* filter -> The filter to read final results from kernel
* nlmsghdr -> The data to send to the kernel
* dp_info -> The dataplane and netlink socket information
* startup -> Are we reading in under startup conditions
* This is passed through eventually to filter.
*/
static int netlink_talk_info(int (*filter)(struct nlmsghdr *, ns_id_t,
int startup),
struct nlmsghdr *n,
struct zebra_dplane_info *dp_info, bool startup)
{
struct nlsock *nl;
nl = kernel_netlink_nlsock_lookup(dp_info->sock);
n->nlmsg_seq = dp_info->seq;
n->nlmsg_pid = nl->snl.nl_pid;
if (IS_ZEBRA_DEBUG_KERNEL)
zlog_debug(
"netlink_talk: %s type %s(%u), len=%d seq=%u flags 0x%x",
nl->name, nl_msg_type_to_str(n->nlmsg_type),
n->nlmsg_type, n->nlmsg_len, n->nlmsg_seq,
n->nlmsg_flags);
if (netlink_send_msg(nl, n, n->nlmsg_len) == -1)
return -1;
/*
* Get reply from netlink socket.
* The reply should either be an acknowlegement or an error.
*/
return netlink_parse_info(filter, nl, dp_info, 0, startup);
}
/*
* Synchronous version of netlink_talk_info. Converts args to suit the
* common version, which is suitable for both sync and async use.
*/
int netlink_talk(int (*filter)(struct nlmsghdr *, ns_id_t, int startup),
struct nlmsghdr *n, struct nlsock *nl, struct zebra_ns *zns,
bool startup)
{
struct zebra_dplane_info dp_info;
/* Increment sequence number before capturing snapshot of ns socket
* info.
*/
nl->seq++;
/* Capture info in intermediate info struct */
zebra_dplane_info_from_zns(&dp_info, zns, (nl == &(zns->netlink_cmd)));
return netlink_talk_info(filter, n, &dp_info, startup);
}
/* Issue request message to kernel via netlink socket. GET messages
* are issued through this interface.
*/
int netlink_request(struct nlsock *nl, void *req)
{
struct nlmsghdr *n = (struct nlmsghdr *)req;
/* Check netlink socket. */
if (nl->sock < 0) {
flog_err_sys(EC_LIB_SOCKET, "%s socket isn't active.",
nl->name);
return -1;
}
/* Fill common fields for all requests. */
n->nlmsg_pid = nl->snl.nl_pid;
n->nlmsg_seq = ++nl->seq;
if (netlink_send_msg(nl, req, n->nlmsg_len) == -1)
return -1;
return 0;
}
static int nl_batch_read_resp(struct nl_batch *bth)
{
struct nlmsghdr *h;
struct sockaddr_nl snl;
struct msghdr msg = {};
int status, seq;
struct nlsock *nl;
struct zebra_dplane_ctx *ctx;
bool ignore_msg;
nl = kernel_netlink_nlsock_lookup(bth->zns->sock);
msg.msg_name = (void *)&snl;
msg.msg_namelen = sizeof(snl);
/*
* The responses are not batched, so we need to read and process one
* message at a time.
*/
while (true) {
status = netlink_recv_msg(nl, &msg);
/*
* status == -1 is a full on failure somewhere
* since we don't know where the problem happened
* we must mark all as failed
*
* Else we mark everything as worked
*
*/
if (status == -1 || status == 0) {
while ((ctx = dplane_ctx_dequeue(&(bth->ctx_list))) !=
NULL) {
if (status == -1)
dplane_ctx_set_status(
ctx,
ZEBRA_DPLANE_REQUEST_FAILURE);
dplane_ctx_enqueue_tail(bth->ctx_out_q, ctx);
}
return status;
}
h = (struct nlmsghdr *)nl->buf;
ignore_msg = false;
seq = h->nlmsg_seq;
/*
* Find the corresponding context object. Received responses are
* in the same order as requests we sent, so we can simply
* iterate over the context list and match responses with
* requests at same time.
*/
while (true) {
ctx = dplane_ctx_get_head(&(bth->ctx_list));
if (ctx == NULL) {
/*
* This is a situation where we have gotten
* into a bad spot. We need to know that
* this happens( does it? )
*/
zlog_err(
"%s:WARNING Received netlink Response for an error and no Contexts to associate with it",
__func__);
break;
}
/*
* 'update' context objects take two consecutive
* sequence numbers.
*/
if (dplane_ctx_is_update(ctx) &&
dplane_ctx_get_ns(ctx)->seq + 1 == seq) {
/*
* This is the situation where we get a response
* to a message that should be ignored.
*/
ignore_msg = true;
break;
}
ctx = dplane_ctx_dequeue(&(bth->ctx_list));
dplane_ctx_enqueue_tail(bth->ctx_out_q, ctx);
/* We have found corresponding context object. */
if (dplane_ctx_get_ns(ctx)->seq == seq)
break;
if (dplane_ctx_get_ns(ctx)->seq > seq)
zlog_warn(
"%s:WARNING Received %u is less than any context on the queue ctx->seq %u",
__func__, seq,
dplane_ctx_get_ns(ctx)->seq);
}
if (ignore_msg) {
/*
* If we ignore the message due to an update
* above we should still fricking decode the
* message for our operator to understand
* what is going on
*/
int err = netlink_parse_error(nl, h, bth->zns->is_cmd,
false);
zlog_debug("%s: netlink error message seq=%d %d",
__func__, h->nlmsg_seq, err);
continue;
}
/*
* We received a message with the sequence number that isn't
* associated with any dplane context object.
*/
if (ctx == NULL) {
if (IS_ZEBRA_DEBUG_KERNEL)
zlog_debug(
"%s: skipping unassociated response, seq number %d NS %u",
__func__, h->nlmsg_seq,
bth->zns->ns_id);
continue;
}
if (h->nlmsg_type == NLMSG_ERROR) {
int err = netlink_parse_error(nl, h, bth->zns->is_cmd,
false);
if (err == -1)
dplane_ctx_set_status(
ctx, ZEBRA_DPLANE_REQUEST_FAILURE);
if (IS_ZEBRA_DEBUG_KERNEL)
zlog_debug("%s: netlink error message seq=%d ",
__func__, h->nlmsg_seq);
continue;
}
/*
* If we get here then we did not receive neither the ack nor
* the error and instead received some other message in an
* unexpected way.
*/
if (IS_ZEBRA_DEBUG_KERNEL)
zlog_debug("%s: ignoring message type 0x%04x(%s) NS %u",
__func__, h->nlmsg_type,
nl_msg_type_to_str(h->nlmsg_type),
bth->zns->ns_id);
}
return 0;
}
static void nl_batch_reset(struct nl_batch *bth)
{
bth->buf_head = bth->buf;
bth->curlen = 0;
bth->msgcnt = 0;
bth->zns = NULL;
dplane_ctx_q_init(&(bth->ctx_list));
}
static void nl_batch_init(struct nl_batch *bth,
struct dplane_ctx_list_head *ctx_out_q)
{
/*
* If the size of the buffer has changed, free and then allocate a new
* one.
*/
size_t bufsize =
atomic_load_explicit(&nl_batch_bufsize, memory_order_relaxed);
if (bufsize != nl_batch_tx_bufsize) {
if (nl_batch_tx_buf)
XFREE(MTYPE_NL_BUF, nl_batch_tx_buf);
nl_batch_tx_buf = XCALLOC(MTYPE_NL_BUF, bufsize);
nl_batch_tx_bufsize = bufsize;
}
bth->buf = nl_batch_tx_buf;
bth->bufsiz = bufsize;
bth->limit = atomic_load_explicit(&nl_batch_send_threshold,
memory_order_relaxed);
bth->ctx_out_q = ctx_out_q;
nl_batch_reset(bth);
}
static void nl_batch_send(struct nl_batch *bth)
{
struct zebra_dplane_ctx *ctx;
bool err = false;
if (bth->curlen != 0 && bth->zns != NULL) {
struct nlsock *nl =
kernel_netlink_nlsock_lookup(bth->zns->sock);
if (IS_ZEBRA_DEBUG_KERNEL)
zlog_debug("%s: %s, batch size=%zu, msg cnt=%zu",
__func__, nl->name, bth->curlen,
bth->msgcnt);
if (netlink_send_msg(nl, bth->buf, bth->curlen) == -1)
err = true;
if (!err) {
if (nl_batch_read_resp(bth) == -1)
err = true;
}
}
/* Move remaining contexts to the outbound queue. */
while (true) {
ctx = dplane_ctx_dequeue(&(bth->ctx_list));
if (ctx == NULL)
break;
if (err)
dplane_ctx_set_status(ctx,
ZEBRA_DPLANE_REQUEST_FAILURE);
dplane_ctx_enqueue_tail(bth->ctx_out_q, ctx);
}
nl_batch_reset(bth);
}
enum netlink_msg_status netlink_batch_add_msg(
struct nl_batch *bth, struct zebra_dplane_ctx *ctx,
ssize_t (*msg_encoder)(struct zebra_dplane_ctx *, void *, size_t),
bool ignore_res)
{
int seq;
ssize_t size;
struct nlmsghdr *msgh;
struct nlsock *nl;
size = (*msg_encoder)(ctx, bth->buf_head, bth->bufsiz - bth->curlen);
/*
* If there was an error while encoding the message (other than buffer
* overflow) then return an error.
*/
if (size < 0)
return FRR_NETLINK_ERROR;
/*
* If the message doesn't fit entirely in the buffer then send the batch
* and retry.
*/
if (size == 0) {
nl_batch_send(bth);
size = (*msg_encoder)(ctx, bth->buf_head,
bth->bufsiz - bth->curlen);
/*
* If the message doesn't fit in the empty buffer then just
* return an error.
*/
if (size <= 0)
return FRR_NETLINK_ERROR;
}
seq = dplane_ctx_get_ns(ctx)->seq;
nl = kernel_netlink_nlsock_lookup(dplane_ctx_get_ns_sock(ctx));
if (ignore_res)
seq++;
msgh = (struct nlmsghdr *)bth->buf_head;
msgh->nlmsg_seq = seq;
msgh->nlmsg_pid = nl->snl.nl_pid;
bth->zns = dplane_ctx_get_ns(ctx);
bth->buf_head = ((char *)bth->buf_head) + size;
bth->curlen += size;
bth->msgcnt++;
return FRR_NETLINK_QUEUED;
}
static enum netlink_msg_status nl_put_msg(struct nl_batch *bth,
struct zebra_dplane_ctx *ctx)
{
if (dplane_ctx_is_skip_kernel(ctx))
return FRR_NETLINK_SUCCESS;
switch (dplane_ctx_get_op(ctx)) {
case DPLANE_OP_ROUTE_INSTALL:
case DPLANE_OP_ROUTE_UPDATE:
case DPLANE_OP_ROUTE_DELETE:
return netlink_put_route_update_msg(bth, ctx);
case DPLANE_OP_NH_INSTALL:
case DPLANE_OP_NH_UPDATE:
case DPLANE_OP_NH_DELETE:
return netlink_put_nexthop_update_msg(bth, ctx);
case DPLANE_OP_LSP_INSTALL:
case DPLANE_OP_LSP_UPDATE:
case DPLANE_OP_LSP_DELETE:
return netlink_put_lsp_update_msg(bth, ctx);
case DPLANE_OP_PW_INSTALL:
case DPLANE_OP_PW_UNINSTALL:
return netlink_put_pw_update_msg(bth, ctx);
case DPLANE_OP_ADDR_INSTALL:
case DPLANE_OP_ADDR_UNINSTALL:
return netlink_put_address_update_msg(bth, ctx);
case DPLANE_OP_MAC_INSTALL:
case DPLANE_OP_MAC_DELETE:
return netlink_put_mac_update_msg(bth, ctx);
case DPLANE_OP_NEIGH_INSTALL:
case DPLANE_OP_NEIGH_UPDATE:
case DPLANE_OP_NEIGH_DELETE:
case DPLANE_OP_VTEP_ADD:
case DPLANE_OP_VTEP_DELETE:
case DPLANE_OP_NEIGH_DISCOVER:
case DPLANE_OP_NEIGH_IP_INSTALL:
case DPLANE_OP_NEIGH_IP_DELETE:
case DPLANE_OP_NEIGH_TABLE_UPDATE:
return netlink_put_neigh_update_msg(bth, ctx);
case DPLANE_OP_RULE_ADD:
case DPLANE_OP_RULE_DELETE:
case DPLANE_OP_RULE_UPDATE:
return netlink_put_rule_update_msg(bth, ctx);
case DPLANE_OP_SYS_ROUTE_ADD:
case DPLANE_OP_SYS_ROUTE_DELETE:
case DPLANE_OP_ROUTE_NOTIFY:
case DPLANE_OP_LSP_NOTIFY:
case DPLANE_OP_BR_PORT_UPDATE:
return FRR_NETLINK_SUCCESS;
case DPLANE_OP_IPTABLE_ADD:
case DPLANE_OP_IPTABLE_DELETE:
case DPLANE_OP_IPSET_ADD:
case DPLANE_OP_IPSET_DELETE:
case DPLANE_OP_IPSET_ENTRY_ADD:
case DPLANE_OP_IPSET_ENTRY_DELETE:
return FRR_NETLINK_ERROR;
case DPLANE_OP_GRE_SET:
return netlink_put_gre_set_msg(bth, ctx);
case DPLANE_OP_INTF_ADDR_ADD:
case DPLANE_OP_INTF_ADDR_DEL:
case DPLANE_OP_NONE:
return FRR_NETLINK_ERROR;
case DPLANE_OP_INTF_NETCONFIG:
return netlink_put_intf_netconfig(bth, ctx);
case DPLANE_OP_INTF_INSTALL:
case DPLANE_OP_INTF_UPDATE:
case DPLANE_OP_INTF_DELETE:
return netlink_put_intf_update_msg(bth, ctx);
case DPLANE_OP_TC_QDISC_INSTALL:
case DPLANE_OP_TC_QDISC_UNINSTALL:
return netlink_put_tc_qdisc_update_msg(bth, ctx);
case DPLANE_OP_TC_CLASS_ADD:
case DPLANE_OP_TC_CLASS_DELETE:
case DPLANE_OP_TC_CLASS_UPDATE:
return netlink_put_tc_class_update_msg(bth, ctx);
case DPLANE_OP_TC_FILTER_ADD:
case DPLANE_OP_TC_FILTER_DELETE:
case DPLANE_OP_TC_FILTER_UPDATE:
return netlink_put_tc_filter_update_msg(bth, ctx);
}
return FRR_NETLINK_ERROR;
}
void kernel_update_multi(struct dplane_ctx_list_head *ctx_list)
{
struct nl_batch batch;
struct zebra_dplane_ctx *ctx;
struct dplane_ctx_list_head handled_list;
enum netlink_msg_status res;
dplane_ctx_q_init(&handled_list);
nl_batch_init(&batch, &handled_list);
while (true) {
ctx = dplane_ctx_dequeue(ctx_list);
if (ctx == NULL)
break;
if (batch.zns != NULL
&& batch.zns->ns_id != dplane_ctx_get_ns(ctx)->ns_id)
nl_batch_send(&batch);
/*
* Assume all messages will succeed and then mark only the ones
* that failed.
*/
dplane_ctx_set_status(ctx, ZEBRA_DPLANE_REQUEST_SUCCESS);
res = nl_put_msg(&batch, ctx);
dplane_ctx_enqueue_tail(&(batch.ctx_list), ctx);
if (res == FRR_NETLINK_ERROR)
dplane_ctx_set_status(ctx,
ZEBRA_DPLANE_REQUEST_FAILURE);
if (batch.curlen > batch.limit)
nl_batch_send(&batch);
}
nl_batch_send(&batch);
dplane_ctx_q_init(ctx_list);
dplane_ctx_list_append(ctx_list, &handled_list);
}
struct nlsock *kernel_netlink_nlsock_lookup(int sock)
{
struct nlsock lookup, *retval;
lookup.sock = sock;
NLSOCK_LOCK();
retval = hash_lookup(nlsock_hash, &lookup);
NLSOCK_UNLOCK();
return retval;
}
/* Insert nlsock entry into hash */
static void kernel_netlink_nlsock_insert(struct nlsock *nls)
{
NLSOCK_LOCK();
(void)hash_get(nlsock_hash, nls, hash_alloc_intern);
NLSOCK_UNLOCK();
}
/* Remove nlsock entry from hash */
static void kernel_netlink_nlsock_remove(struct nlsock *nls)
{
NLSOCK_LOCK();
(void)hash_release(nlsock_hash, nls);
NLSOCK_UNLOCK();
}
static uint32_t kernel_netlink_nlsock_key(const void *arg)
{
const struct nlsock *nl = arg;
return nl->sock;
}
static bool kernel_netlink_nlsock_hash_equal(const void *arg1, const void *arg2)
{
const struct nlsock *nl1 = arg1;
const struct nlsock *nl2 = arg2;
if (nl1->sock == nl2->sock)
return true;
return false;
}
/* Exported interface function. This function simply calls
netlink_socket (). */
void kernel_init(struct zebra_ns *zns)
{
uint32_t groups, dplane_groups, ext_groups;
#if defined SOL_NETLINK
int one, ret, grp;
#endif
/*
* Initialize netlink sockets
*
* If RTMGRP_XXX exists use that, but at some point
* I think the kernel developers realized that
* keeping track of all the different values would
* lead to confusion, so we need to convert the
* RTNLGRP_XXX to a bit position for ourself
*
*
* NOTE: If the bit is >= 32, you must use setsockopt(). Those
* groups are added further below after SOL_NETLINK is verified to
* exist.
*/
groups = RTMGRP_LINK |
RTMGRP_IPV4_ROUTE |
RTMGRP_IPV4_IFADDR |
RTMGRP_IPV6_ROUTE |
RTMGRP_IPV6_IFADDR |
RTMGRP_IPV4_MROUTE |
RTMGRP_NEIGH |
((uint32_t) 1 << (RTNLGRP_IPV4_RULE - 1)) |
((uint32_t) 1 << (RTNLGRP_IPV6_RULE - 1)) |
((uint32_t) 1 << (RTNLGRP_NEXTHOP - 1)) |
((uint32_t) 1 << (RTNLGRP_TC - 1));
dplane_groups = (RTMGRP_LINK |
RTMGRP_IPV4_IFADDR |
RTMGRP_IPV6_IFADDR |
((uint32_t) 1 << (RTNLGRP_IPV4_NETCONF - 1)) |
((uint32_t) 1 << (RTNLGRP_IPV6_NETCONF - 1)) |
((uint32_t) 1 << (RTNLGRP_MPLS_NETCONF - 1)));
/* Use setsockopt for > 31 group */
ext_groups = RTNLGRP_TUNNEL;
snprintf(zns->netlink.name, sizeof(zns->netlink.name),
"netlink-listen (NS %u)", zns->ns_id);
zns->netlink.sock = -1;
if (netlink_socket(&zns->netlink, groups, &ext_groups, 1, zns->ns_id) <
0) {
zlog_err("Failure to create %s socket",
zns->netlink.name);
exit(-1);
}
kernel_netlink_nlsock_insert(&zns->netlink);
snprintf(zns->netlink_cmd.name, sizeof(zns->netlink_cmd.name),
"netlink-cmd (NS %u)", zns->ns_id);
zns->netlink_cmd.sock = -1;
if (netlink_socket(&zns->netlink_cmd, 0, 0, 0, zns->ns_id) < 0) {
zlog_err("Failure to create %s socket",
zns->netlink_cmd.name);
exit(-1);
}
kernel_netlink_nlsock_insert(&zns->netlink_cmd);
/* Outbound socket for dplane programming of the host OS. */
snprintf(zns->netlink_dplane_out.name,
sizeof(zns->netlink_dplane_out.name), "netlink-dp (NS %u)",
zns->ns_id);
zns->netlink_dplane_out.sock = -1;
if (netlink_socket(&zns->netlink_dplane_out, 0, 0, 0, zns->ns_id) < 0) {
zlog_err("Failure to create %s socket",
zns->netlink_dplane_out.name);
exit(-1);
}
kernel_netlink_nlsock_insert(&zns->netlink_dplane_out);
/* Inbound socket for OS events coming to the dplane. */
snprintf(zns->netlink_dplane_in.name,
sizeof(zns->netlink_dplane_in.name), "netlink-dp-in (NS %u)",
zns->ns_id);
zns->netlink_dplane_in.sock = -1;
if (netlink_socket(&zns->netlink_dplane_in, dplane_groups, 0, 0,
zns->ns_id) < 0) {
zlog_err("Failure to create %s socket",
zns->netlink_dplane_in.name);
exit(-1);
}
kernel_netlink_nlsock_insert(&zns->netlink_dplane_in);
/*
* SOL_NETLINK is not available on all platforms yet
* apparently. It's in bits/socket.h which I am not
* sure that we want to pull into our build system.
*/
#if defined SOL_NETLINK
/*
* setsockopt multicast group subscriptions that don't fit in nl_groups
*/
grp = RTNLGRP_BRVLAN;
ret = setsockopt(zns->netlink.sock, SOL_NETLINK, NETLINK_ADD_MEMBERSHIP,
&grp, sizeof(grp));
if (ret < 0)
zlog_notice(
"Registration for RTNLGRP_BRVLAN Membership failed : %d %s",
errno, safe_strerror(errno));
/*
* Let's tell the kernel that we want to receive extended
* ACKS over our command socket(s)
*/
one = 1;
ret = setsockopt(zns->netlink_cmd.sock, SOL_NETLINK, NETLINK_EXT_ACK,
&one, sizeof(one));
if (ret < 0)
zlog_notice("Registration for extended cmd ACK failed : %d %s",
errno, safe_strerror(errno));
one = 1;
ret = setsockopt(zns->netlink_dplane_out.sock, SOL_NETLINK,
NETLINK_EXT_ACK, &one, sizeof(one));
if (ret < 0)
zlog_notice("Registration for extended dp ACK failed : %d %s",
errno, safe_strerror(errno));
/*
* Trim off the payload of the original netlink message in the
* acknowledgment. This option is available since Linux 4.2, so if
* setsockopt fails, ignore the error.
*/
one = 1;
ret = setsockopt(zns->netlink_dplane_out.sock, SOL_NETLINK,
NETLINK_CAP_ACK, &one, sizeof(one));
if (ret < 0)
zlog_notice(
"Registration for reduced ACK packet size failed, probably running an early kernel");
#endif
/* Register kernel socket. */
if (fcntl(zns->netlink.sock, F_SETFL, O_NONBLOCK) < 0)
flog_err_sys(EC_LIB_SOCKET, "Can't set %s socket flags: %s",
zns->netlink.name, safe_strerror(errno));
if (fcntl(zns->netlink_cmd.sock, F_SETFL, O_NONBLOCK) < 0)
zlog_err("Can't set %s socket error: %s(%d)",
zns->netlink_cmd.name, safe_strerror(errno), errno);
if (fcntl(zns->netlink_dplane_out.sock, F_SETFL, O_NONBLOCK) < 0)
zlog_err("Can't set %s socket error: %s(%d)",
zns->netlink_dplane_out.name, safe_strerror(errno),
errno);
if (fcntl(zns->netlink_dplane_in.sock, F_SETFL, O_NONBLOCK) < 0)
zlog_err("Can't set %s socket error: %s(%d)",
zns->netlink_dplane_in.name, safe_strerror(errno),
errno);
/* Set receive buffer size if it's set from command line */
if (rcvbufsize) {
netlink_recvbuf(&zns->netlink, rcvbufsize);
netlink_recvbuf(&zns->netlink_cmd, rcvbufsize);
netlink_recvbuf(&zns->netlink_dplane_out, rcvbufsize);
netlink_recvbuf(&zns->netlink_dplane_in, rcvbufsize);
}
/* Set filter for inbound sockets, to exclude events we've generated
* ourselves.
*/
netlink_install_filter(zns->netlink.sock, zns->netlink_cmd.snl.nl_pid,
zns->netlink_dplane_out.snl.nl_pid);
netlink_install_filter(zns->netlink_dplane_in.sock,
zns->netlink_cmd.snl.nl_pid,
zns->netlink_dplane_out.snl.nl_pid);
zns->t_netlink = NULL;
event_add_read(zrouter.master, kernel_read, zns, zns->netlink.sock,
&zns->t_netlink);
rt_netlink_init();
}
/* Helper to clean up an nlsock */
static void kernel_nlsock_fini(struct nlsock *nls)
{
if (nls && nls->sock >= 0) {
kernel_netlink_nlsock_remove(nls);
close(nls->sock);
nls->sock = -1;
XFREE(MTYPE_NL_BUF, nls->buf);
nls->buflen = 0;
}
}
void kernel_terminate(struct zebra_ns *zns, bool complete)
{
THREAD_OFF(zns->t_netlink);
kernel_nlsock_fini(&zns->netlink);
kernel_nlsock_fini(&zns->netlink_cmd);
kernel_nlsock_fini(&zns->netlink_dplane_in);
/* During zebra shutdown, we need to leave the dataplane socket
* around until all work is done.
*/
if (complete)
kernel_nlsock_fini(&zns->netlink_dplane_out);
}
/*
* Global init for platform-/OS-specific things
*/
void kernel_router_init(void)
{
/* Init nlsock hash and lock */
pthread_mutex_init(&nlsock_mutex, NULL);
nlsock_hash = hash_create_size(8, kernel_netlink_nlsock_key,
kernel_netlink_nlsock_hash_equal,
"Netlink Socket Hash");
}
/*
* Global deinit for platform-/OS-specific things
*/
void kernel_router_terminate(void)
{
pthread_mutex_destroy(&nlsock_mutex);
hash_free(nlsock_hash);
nlsock_hash = NULL;
}
#endif /* HAVE_NETLINK */
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