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|
/* Kernel communication using routing socket.
* Copyright (C) 1999 Kunihiro Ishiguro
*
* This file is part of GNU Zebra.
*
* GNU Zebra is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation; either version 2, or (at your option) any
* later version.
*
* GNU Zebra is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; see the file COPYING; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include <zebra.h>
#ifndef HAVE_NETLINK
#include <net/if_types.h>
#ifdef __OpenBSD__
#include <netmpls/mpls.h>
#endif
#include "if.h"
#include "prefix.h"
#include "sockunion.h"
#include "connected.h"
#include "memory.h"
#include "ioctl.h"
#include "log.h"
#include "table.h"
#include "rib.h"
#include "privs.h"
#include "vrf.h"
#include "lib_errors.h"
#include "zebra/rt.h"
#include "zebra/interface.h"
#include "zebra/zebra_router.h"
#include "zebra/debug.h"
#include "zebra/kernel_socket.h"
#include "zebra/rib.h"
#include "zebra/zebra_errors.h"
#include "zebra/zebra_ptm.h"
extern struct zebra_privs_t zserv_privs;
/*
* Historically, the BSD routing socket has aligned data following a
* struct sockaddr to sizeof(long), which was 4 bytes on some
* platforms, and 8 bytes on others. NetBSD 6 changed the routing
* socket to align to sizeof(uint64_t), which is 8 bytes. OS X
* appears to align to sizeof(int), which is 4 bytes.
*
* Alignment of zero-sized sockaddrs is nonsensical, but historically
* BSD defines RT_ROUNDUP(0) to be the alignment interval (rather than
* 0). We follow this practice without questioning it, but it is a
* bug if frr calls ROUNDUP with 0.
*/
#ifdef __APPLE__
#define ROUNDUP_TYPE int
#else
#define ROUNDUP_TYPE long
#endif
/*
* Because of these varying conventions, the only sane approach is for
* the <net/route.h> header to define some flavor of ROUNDUP macro.
*/
/* OS X (Xcode as of 2014-12) is known not to define RT_ROUNDUP */
#if defined(RT_ROUNDUP)
#define ROUNDUP(a) RT_ROUNDUP(a)
#endif /* defined(RT_ROUNDUP) */
/*
* If ROUNDUP has not yet been defined in terms of platform-provided
* defines, attempt to cope with heuristics.
*/
#if !defined(ROUNDUP)
/*
* If you're porting to a platform that changed RT_ROUNDUP but doesn't
* have it in its headers, this will break rather obviously and you'll
* have to fix it here.
*/
#define ROUNDUP(a) \
((a) > 0 ? (1 + (((a)-1) | (sizeof(ROUNDUP_TYPE) - 1))) \
: sizeof(ROUNDUP_TYPE))
#endif /* defined(ROUNDUP) */
#if defined(SA_SIZE)
/* SAROUNDUP is the only thing we need, and SA_SIZE provides that */
#define SAROUNDUP(a) SA_SIZE(a)
#else /* !SA_SIZE */
/*
* Given a pointer (sockaddr or void *), return the number of bytes
* taken up by the sockaddr and any padding needed for alignment.
*/
#if defined(HAVE_STRUCT_SOCKADDR_SA_LEN)
#define SAROUNDUP(X) ROUNDUP(((struct sockaddr *)(X))->sa_len)
#else
/*
* One would hope all fixed-size structure definitions are aligned,
* but round them up nonetheless.
*/
#define SAROUNDUP(X) \
(((struct sockaddr *)(X))->sa_family == AF_INET \
? ROUNDUP(sizeof(struct sockaddr_in)) \
: (((struct sockaddr *)(X))->sa_family == AF_INET6 \
? ROUNDUP(sizeof(struct sockaddr_in6)) \
: (((struct sockaddr *)(X))->sa_family == AF_LINK \
? ROUNDUP(sizeof(struct sockaddr_dl)) \
: sizeof(struct sockaddr))))
#endif /* HAVE_STRUCT_SOCKADDR_SA_LEN */
#endif /* !SA_SIZE */
/* Routing socket message types. */
const struct message rtm_type_str[] = {{RTM_ADD, "RTM_ADD"},
{RTM_DELETE, "RTM_DELETE"},
{RTM_CHANGE, "RTM_CHANGE"},
{RTM_GET, "RTM_GET"},
{RTM_LOSING, "RTM_LOSING"},
{RTM_REDIRECT, "RTM_REDIRECT"},
{RTM_MISS, "RTM_MISS"},
#ifdef RTM_LOCK
{RTM_LOCK, "RTM_LOCK"},
#endif /* RTM_LOCK */
#ifdef OLDADD
{RTM_OLDADD, "RTM_OLDADD"},
#endif /* RTM_OLDADD */
#ifdef RTM_OLDDEL
{RTM_OLDDEL, "RTM_OLDDEL"},
#endif /* RTM_OLDDEL */
#ifdef RTM_RESOLVE
{RTM_RESOLVE, "RTM_RESOLVE"},
#endif /* RTM_RESOLVE */
{RTM_NEWADDR, "RTM_NEWADDR"},
{RTM_DELADDR, "RTM_DELADDR"},
{RTM_IFINFO, "RTM_IFINFO"},
#ifdef RTM_OIFINFO
{RTM_OIFINFO, "RTM_OIFINFO"},
#endif /* RTM_OIFINFO */
#ifdef RTM_NEWMADDR
{RTM_NEWMADDR, "RTM_NEWMADDR"},
#endif /* RTM_NEWMADDR */
#ifdef RTM_DELMADDR
{RTM_DELMADDR, "RTM_DELMADDR"},
#endif /* RTM_DELMADDR */
#ifdef RTM_IFANNOUNCE
{RTM_IFANNOUNCE, "RTM_IFANNOUNCE"},
#endif /* RTM_IFANNOUNCE */
#ifdef RTM_IEEE80211
{RTM_IEEE80211, "RTM_IEEE80211"},
#endif
{0}};
static const struct message rtm_flag_str[] = {{RTF_UP, "UP"},
{RTF_GATEWAY, "GATEWAY"},
{RTF_HOST, "HOST"},
{RTF_REJECT, "REJECT"},
{RTF_DYNAMIC, "DYNAMIC"},
{RTF_MODIFIED, "MODIFIED"},
{RTF_DONE, "DONE"},
#ifdef RTF_MASK
{RTF_MASK, "MASK"},
#endif /* RTF_MASK */
#ifdef RTF_CLONING
{RTF_CLONING, "CLONING"},
#endif /* RTF_CLONING */
#ifdef RTF_XRESOLVE
{RTF_XRESOLVE, "XRESOLVE"},
#endif /* RTF_XRESOLVE */
#ifdef RTF_LLINFO
{RTF_LLINFO, "LLINFO"},
#endif /* RTF_LLINFO */
{RTF_STATIC, "STATIC"},
{RTF_BLACKHOLE, "BLACKHOLE"},
#ifdef RTF_PRIVATE
{RTF_PRIVATE, "PRIVATE"},
#endif /* RTF_PRIVATE */
{RTF_PROTO1, "PROTO1"},
{RTF_PROTO2, "PROTO2"},
#ifdef RTF_PRCLONING
{RTF_PRCLONING, "PRCLONING"},
#endif /* RTF_PRCLONING */
#ifdef RTF_WASCLONED
{RTF_WASCLONED, "WASCLONED"},
#endif /* RTF_WASCLONED */
#ifdef RTF_PROTO3
{RTF_PROTO3, "PROTO3"},
#endif /* RTF_PROTO3 */
#ifdef RTF_PINNED
{RTF_PINNED, "PINNED"},
#endif /* RTF_PINNED */
#ifdef RTF_LOCAL
{RTF_LOCAL, "LOCAL"},
#endif /* RTF_LOCAL */
#ifdef RTF_BROADCAST
{RTF_BROADCAST, "BROADCAST"},
#endif /* RTF_BROADCAST */
#ifdef RTF_MULTICAST
{RTF_MULTICAST, "MULTICAST"},
#endif /* RTF_MULTICAST */
#ifdef RTF_MULTIRT
{RTF_MULTIRT, "MULTIRT"},
#endif /* RTF_MULTIRT */
#ifdef RTF_SETSRC
{RTF_SETSRC, "SETSRC"},
#endif /* RTF_SETSRC */
{0}};
/* Kernel routing update socket. */
int routing_sock = -1;
/* Kernel dataplane routing update socket, used in the dataplane pthread
* context.
*/
int dplane_routing_sock = -1;
/* Yes I'm checking ugly routing socket behavior. */
/* #define DEBUG */
size_t _rta_get(caddr_t sap, void *destp, size_t destlen, bool checkaf);
size_t rta_get(caddr_t sap, void *dest, size_t destlen);
size_t rta_getattr(caddr_t sap, void *destp, size_t destlen);
size_t rta_getsdlname(caddr_t sap, void *dest, short *destlen);
const char *rtatostr(unsigned int flags, char *buf, size_t buflen);
/* Supported address family check. */
static inline int af_check(int family)
{
if (family == AF_INET)
return 1;
if (family == AF_INET6)
return 1;
return 0;
}
size_t _rta_get(caddr_t sap, void *destp, size_t destlen, bool checkaf)
{
struct sockaddr *sa = (struct sockaddr *)sap;
struct sockaddr_dl *sdl;
uint8_t *dest = destp;
size_t tlen, copylen;
#ifdef HAVE_STRUCT_SOCKADDR_SA_LEN
copylen = sa->sa_len;
tlen = (copylen == 0) ? sizeof(ROUNDUP_TYPE) : ROUNDUP(copylen);
#else /* !HAVE_STRUCT_SOCKADDR_SA_LEN */
copylen = tlen = SAROUNDUP(sap);
#endif /* !HAVE_STRUCT_SOCKADDR_SA_LEN */
if (copylen > 0 && dest != NULL) {
if (checkaf && af_check(sa->sa_family) == 0)
return tlen;
/*
* Handle sockaddr_dl corner case:
* RTA_NETMASK might be AF_LINK, but it doesn't anything
* relevant (e.g. zeroed out fields). Check for this
* case and avoid warning log message.
*/
if (sa->sa_family == AF_LINK) {
sdl = (struct sockaddr_dl *)sa;
if (sdl->sdl_index == 0 || sdl->sdl_nlen == 0)
copylen = destlen;
}
if (copylen > destlen) {
zlog_warn(
"%s: destination buffer too small (%zu vs %zu)",
__func__, copylen, destlen);
memcpy(dest, sap, destlen);
} else
memcpy(dest, sap, copylen);
}
return tlen;
}
size_t rta_get(caddr_t sap, void *destp, size_t destlen)
{
return _rta_get(sap, destp, destlen, true);
}
size_t rta_getattr(caddr_t sap, void *destp, size_t destlen)
{
return _rta_get(sap, destp, destlen, false);
}
size_t rta_getsdlname(caddr_t sap, void *destp, short *destlen)
{
struct sockaddr_dl *sdl = (struct sockaddr_dl *)sap;
uint8_t *dest = destp;
size_t tlen, copylen;
copylen = sdl->sdl_nlen;
#ifdef HAVE_STRUCT_SOCKADDR_SA_LEN
struct sockaddr *sa = (struct sockaddr *)sap;
tlen = (sa->sa_len == 0) ? sizeof(ROUNDUP_TYPE) : ROUNDUP(sa->sa_len);
#else /* !HAVE_STRUCT_SOCKADDR_SA_LEN */
tlen = SAROUNDUP(sap);
#endif /* !HAVE_STRUCT_SOCKADDR_SA_LEN */
if (copylen > 0 && dest != NULL && sdl->sdl_family == AF_LINK) {
if (copylen > IFNAMSIZ) {
zlog_warn(
"%s: destination buffer too small (%zu vs %d)",
__func__, copylen, IFNAMSIZ);
memcpy(dest, sdl->sdl_data, IFNAMSIZ);
dest[IFNAMSIZ] = 0;
*destlen = IFNAMSIZ;
} else {
memcpy(dest, sdl->sdl_data, copylen);
dest[copylen] = 0;
*destlen = copylen;
}
} else
*destlen = 0;
return tlen;
}
const char *rtatostr(unsigned int flags, char *buf, size_t buflen)
{
const char *flagstr, *bufstart;
int bit, wlen;
char ustr[32];
/* Hold the pointer to the buffer beginning. */
bufstart = buf;
for (bit = 1; bit; bit <<= 1) {
if ((flags & bit) == 0)
continue;
switch (bit) {
case RTA_DST:
flagstr = "DST";
break;
case RTA_GATEWAY:
flagstr = "GATEWAY";
break;
case RTA_NETMASK:
flagstr = "NETMASK";
break;
#ifdef RTA_GENMASK
case RTA_GENMASK:
flagstr = "GENMASK";
break;
#endif /* RTA_GENMASK */
case RTA_IFP:
flagstr = "IFP";
break;
case RTA_IFA:
flagstr = "IFA";
break;
#ifdef RTA_AUTHOR
case RTA_AUTHOR:
flagstr = "AUTHOR";
break;
#endif /* RTA_AUTHOR */
case RTA_BRD:
flagstr = "BRD";
break;
#ifdef RTA_SRC
case RTA_SRC:
flagstr = "SRC";
break;
#endif /* RTA_SRC */
#ifdef RTA_SRCMASK
case RTA_SRCMASK:
flagstr = "SRCMASK";
break;
#endif /* RTA_SRCMASK */
#ifdef RTA_LABEL
case RTA_LABEL:
flagstr = "LABEL";
break;
#endif /* RTA_LABEL */
default:
snprintf(ustr, sizeof(ustr), "0x%x", bit);
flagstr = ustr;
break;
}
wlen = snprintf(buf, buflen, "%s,", flagstr);
buf += wlen;
buflen -= wlen;
}
/* Check for empty buffer. */
if (bufstart != buf)
buf--;
/* Remove the last comma. */
*buf = 0;
return bufstart;
}
/* Dump routing table flag for debug purpose. */
static void rtm_flag_dump(int flag)
{
const struct message *mes;
static char buf[BUFSIZ];
buf[0] = '\0';
for (mes = rtm_flag_str; mes->key != 0; mes++) {
if (mes->key & flag) {
strlcat(buf, mes->str, BUFSIZ);
strlcat(buf, " ", BUFSIZ);
}
}
zlog_debug("Kernel: %s", buf);
}
#ifdef RTM_IFANNOUNCE
/* Interface adding function */
static int ifan_read(struct if_announcemsghdr *ifan)
{
struct interface *ifp;
ifp = if_lookup_by_index(ifan->ifan_index, VRF_DEFAULT);
if (ifp)
assert((ifp->ifindex == ifan->ifan_index)
|| (ifp->ifindex == IFINDEX_INTERNAL));
if ((ifp == NULL) || ((ifp->ifindex == IFINDEX_INTERNAL)
&& (ifan->ifan_what == IFAN_ARRIVAL))) {
if (IS_ZEBRA_DEBUG_KERNEL)
zlog_debug(
"%s: creating interface for ifindex %d, name %s",
__func__, ifan->ifan_index, ifan->ifan_name);
/* Create Interface */
ifp = if_get_by_name(ifan->ifan_name, VRF_DEFAULT,
VRF_DEFAULT_NAME);
if_set_index(ifp, ifan->ifan_index);
if_get_metric(ifp);
if_add_update(ifp);
} else if (ifp != NULL && ifan->ifan_what == IFAN_DEPARTURE)
if_delete_update(&ifp);
if (ifp) {
if_get_flags(ifp);
if_get_mtu(ifp);
if_get_metric(ifp);
}
if (IS_ZEBRA_DEBUG_KERNEL)
zlog_debug("%s: interface %s index %d", __func__,
ifan->ifan_name, ifan->ifan_index);
return 0;
}
#endif /* RTM_IFANNOUNCE */
#ifdef HAVE_BSD_IFI_LINK_STATE
/* BSD link detect translation */
static void bsd_linkdetect_translate(struct if_msghdr *ifm)
{
if ((ifm->ifm_data.ifi_link_state >= LINK_STATE_UP)
|| (ifm->ifm_data.ifi_link_state == LINK_STATE_UNKNOWN))
SET_FLAG(ifm->ifm_flags, IFF_RUNNING);
else
UNSET_FLAG(ifm->ifm_flags, IFF_RUNNING);
}
#endif /* HAVE_BSD_IFI_LINK_STATE */
static enum zebra_link_type sdl_to_zebra_link_type(unsigned int sdlt)
{
switch (sdlt) {
case IFT_ETHER:
return ZEBRA_LLT_ETHER;
case IFT_X25:
return ZEBRA_LLT_X25;
case IFT_FDDI:
return ZEBRA_LLT_FDDI;
case IFT_PPP:
return ZEBRA_LLT_PPP;
case IFT_LOOP:
return ZEBRA_LLT_LOOPBACK;
case IFT_SLIP:
return ZEBRA_LLT_SLIP;
case IFT_ARCNET:
return ZEBRA_LLT_ARCNET;
case IFT_ATM:
return ZEBRA_LLT_ATM;
case IFT_LOCALTALK:
return ZEBRA_LLT_LOCALTLK;
case IFT_HIPPI:
return ZEBRA_LLT_HIPPI;
#ifdef IFT_IEEE1394
case IFT_IEEE1394:
return ZEBRA_LLT_IEEE1394;
#endif
default:
return ZEBRA_LLT_UNKNOWN;
}
}
/*
* Handle struct if_msghdr obtained from reading routing socket or
* sysctl (from interface_list). There may or may not be sockaddrs
* present after the header.
*/
int ifm_read(struct if_msghdr *ifm)
{
struct interface *ifp = NULL;
struct sockaddr_dl *sdl = NULL;
char ifname[IFNAMSIZ];
short ifnlen = 0;
int maskbit;
caddr_t cp;
char fbuf[64];
/* terminate ifname at head (for strnlen) and tail (for safety) */
ifname[IFNAMSIZ - 1] = '\0';
/* paranoia: sanity check structure */
if (ifm->ifm_msglen < sizeof(struct if_msghdr)) {
flog_err(EC_ZEBRA_NETLINK_LENGTH_ERROR,
"ifm_read: ifm->ifm_msglen %d too short",
ifm->ifm_msglen);
return -1;
}
/*
* Check for a sockaddr_dl following the message. First, point to
* where a socakddr might be if one follows the message.
*/
cp = (void *)(ifm + 1);
/* Look up for RTA_IFP and skip others. */
for (maskbit = 1; maskbit; maskbit <<= 1) {
if ((maskbit & ifm->ifm_addrs) == 0)
continue;
if (maskbit != RTA_IFP) {
cp += rta_get(cp, NULL, 0);
continue;
}
/* Save the pointer to the structure. */
sdl = (struct sockaddr_dl *)cp;
cp += rta_getsdlname(cp, ifname, &ifnlen);
}
if (IS_ZEBRA_DEBUG_KERNEL)
zlog_debug("%s: sdl ifname %s addrs {%s}", __func__,
(ifnlen ? ifname : "(nil)"),
rtatostr(ifm->ifm_addrs, fbuf, sizeof(fbuf)));
/*
* Look up on ifindex first, because ifindices are the primary handle
* for
* interfaces across the user/kernel boundary, for most systems. (Some
* messages, such as up/down status changes on NetBSD, do not include a
* sockaddr_dl).
*/
if ((ifp = if_lookup_by_index(ifm->ifm_index, VRF_DEFAULT)) != NULL) {
/* we have an ifp, verify that the name matches as some systems,
* eg Solaris, have a 1:many association of ifindex:ifname
* if they dont match, we dont have the correct ifp and should
* set it back to NULL to let next check do lookup by name
*/
if (ifnlen && (strncmp(ifp->name, ifname, IFNAMSIZ) != 0)) {
if (IS_ZEBRA_DEBUG_KERNEL)
zlog_debug(
"%s: ifp name %s doesn't match sdl name %s",
__func__, ifp->name, ifname);
ifp = NULL;
}
}
/*
* If we dont have an ifp, try looking up by name. Particularly as some
* systems (Solaris) have a 1:many mapping of ifindex:ifname - the
* ifname
* is therefore our unique handle to that interface.
*
* Interfaces specified in the configuration file for which the ifindex
* has not been determined will have ifindex == IFINDEX_INTERNAL, and
* such
* interfaces are found by this search, and then their ifindex values
* can
* be filled in.
*/
if ((ifp == NULL) && ifnlen)
ifp = if_lookup_by_name(ifname, VRF_DEFAULT);
/*
* If ifp still does not exist or has an invalid index
* (IFINDEX_INTERNAL),
* create or fill in an interface.
*/
if ((ifp == NULL) || (ifp->ifindex == IFINDEX_INTERNAL)) {
/*
* To create or fill in an interface, a sockaddr_dl (via
* RTA_IFP) is required.
*/
if (!ifnlen) {
zlog_debug("Interface index %d (new) missing ifname",
ifm->ifm_index);
return -1;
}
#ifndef RTM_IFANNOUNCE
/* Down->Down interface should be ignored here.
* See further comment below.
*/
if (!CHECK_FLAG(ifm->ifm_flags, IFF_UP))
return 0;
#endif /* !RTM_IFANNOUNCE */
if (ifp == NULL) {
/* Interface that zebra was not previously aware of, so
* create. */
ifp = if_get_by_name(ifname, VRF_DEFAULT,
VRF_DEFAULT_NAME);
if (IS_ZEBRA_DEBUG_KERNEL)
zlog_debug("%s: creating ifp for ifindex %d",
__func__, ifm->ifm_index);
}
if (IS_ZEBRA_DEBUG_KERNEL)
zlog_debug(
"%s: updated/created ifp, ifname %s, ifindex %d",
__func__, ifp->name, ifp->ifindex);
/*
* Fill in newly created interface structure, or larval
* structure with ifindex IFINDEX_INTERNAL.
*/
if_set_index(ifp, ifm->ifm_index);
#ifdef HAVE_BSD_IFI_LINK_STATE /* translate BSD kernel msg for link-state */
bsd_linkdetect_translate(ifm);
#endif /* HAVE_BSD_IFI_LINK_STATE */
if_flags_update(ifp, ifm->ifm_flags);
#if defined(__bsdi__)
if_kvm_get_mtu(ifp);
#else
if_get_mtu(ifp);
#endif /* __bsdi__ */
if_get_metric(ifp);
/*
* XXX sockaddr_dl contents can be larger than the structure
* definition. There are 2 big families here:
* - BSD has sdl_len + sdl_data[16] + overruns sdl_data
* we MUST use sdl_len here or we'll truncate data.
* - Solaris has no sdl_len, but sdl_data[244]
* presumably, it's not going to run past that, so sizeof()
* is fine here.
* a nonzero ifnlen from rta_getsdlname() means sdl is valid
*/
ifp->ll_type = ZEBRA_LLT_UNKNOWN;
ifp->hw_addr_len = 0;
if (ifnlen) {
#ifdef HAVE_STRUCT_SOCKADDR_DL_SDL_LEN
memcpy(&((struct zebra_if *)ifp->info)->sdl, sdl,
sdl->sdl_len);
#else
memcpy(&((struct zebra_if *)ifp->info)->sdl, sdl,
sizeof(struct sockaddr_dl));
#endif /* HAVE_STRUCT_SOCKADDR_DL_SDL_LEN */
ifp->ll_type = sdl_to_zebra_link_type(sdl->sdl_type);
if (sdl->sdl_alen <= sizeof(ifp->hw_addr)) {
memcpy(ifp->hw_addr, LLADDR(sdl),
sdl->sdl_alen);
ifp->hw_addr_len = sdl->sdl_alen;
}
}
if_add_update(ifp);
} else
/*
* Interface structure exists. Adjust stored flags from
* notification. If interface has up->down or down->up
* transition, call state change routines (to adjust routes,
* notify routing daemons, etc.). (Other flag changes are stored
* but apparently do not trigger action.)
*/
{
if (ifp->ifindex != ifm->ifm_index) {
zlog_debug(
"%s: index mismatch, ifname %s, ifp index %d, ifm index %d",
__func__, ifp->name, ifp->ifindex,
ifm->ifm_index);
return -1;
}
#ifdef HAVE_BSD_IFI_LINK_STATE /* translate BSD kernel msg for link-state */
bsd_linkdetect_translate(ifm);
#endif /* HAVE_BSD_IFI_LINK_STATE */
/* update flags and handle operative->inoperative transition, if
* any */
if_flags_update(ifp, ifm->ifm_flags);
#ifndef RTM_IFANNOUNCE
if (!if_is_up(ifp)) {
/* No RTM_IFANNOUNCE on this platform, so we can never
* distinguish between ~IFF_UP and delete. We must
* presume
* it has been deleted.
* Eg, Solaris will not notify us of unplumb.
*
* XXX: Fixme - this should be runtime detected
* So that a binary compiled on a system with IFANNOUNCE
* will still behave correctly if run on a platform
* without
*/
if_delete_update(&ifp);
}
#endif /* RTM_IFANNOUNCE */
if (ifp && if_is_up(ifp)) {
#if defined(__bsdi__)
if_kvm_get_mtu(ifp);
#else
if_get_mtu(ifp);
#endif /* __bsdi__ */
if_get_metric(ifp);
}
}
if (ifp) {
#ifdef HAVE_NET_RT_IFLIST
ifp->stats = ifm->ifm_data;
#endif /* HAVE_NET_RT_IFLIST */
ifp->speed = ifm->ifm_data.ifi_baudrate / 1000000;
if (IS_ZEBRA_DEBUG_KERNEL)
zlog_debug("%s: interface %s index %d", __func__,
ifp->name, ifp->ifindex);
}
return 0;
}
/* Address read from struct ifa_msghdr. */
static void ifam_read_mesg(struct ifa_msghdr *ifm, union sockunion *addr,
union sockunion *mask, union sockunion *brd,
char *ifname, short *ifnlen)
{
caddr_t pnt, end;
union sockunion dst;
union sockunion gateway;
int maskbit;
char fbuf[64];
pnt = (caddr_t)(ifm + 1);
end = ((caddr_t)ifm) + ifm->ifam_msglen;
/* Be sure structure is cleared */
memset(mask, 0, sizeof(union sockunion));
memset(addr, 0, sizeof(union sockunion));
memset(brd, 0, sizeof(union sockunion));
memset(&dst, 0, sizeof(union sockunion));
memset(&gateway, 0, sizeof(union sockunion));
/* We fetch each socket variable into sockunion. */
for (maskbit = 1; maskbit; maskbit <<= 1) {
if ((maskbit & ifm->ifam_addrs) == 0)
continue;
switch (maskbit) {
case RTA_DST:
pnt += rta_get(pnt, &dst, sizeof(dst));
break;
case RTA_GATEWAY:
pnt += rta_get(pnt, &gateway, sizeof(gateway));
break;
case RTA_NETMASK:
pnt += rta_getattr(pnt, mask, sizeof(*mask));
break;
case RTA_IFP:
pnt += rta_getsdlname(pnt, ifname, ifnlen);
break;
case RTA_IFA:
pnt += rta_get(pnt, addr, sizeof(*addr));
break;
case RTA_BRD:
pnt += rta_get(pnt, brd, sizeof(*brd));
break;
default:
pnt += rta_get(pnt, NULL, 0);
break;
}
if (pnt > end) {
zlog_warn("%s: overflow detected (pnt:%p end:%p)",
__func__, pnt, end);
break;
}
}
if (IS_ZEBRA_DEBUG_KERNEL) {
switch (sockunion_family(addr)) {
case AF_INET:
case AF_INET6: {
int masklen =
(sockunion_family(addr) == AF_INET)
? ip_masklen(mask->sin.sin_addr)
: ip6_masklen(mask->sin6.sin6_addr);
zlog_debug(
"%s: ifindex %d, ifname %s, ifam_addrs {%s}, ifam_flags 0x%x, addr %pSU/%d broad %pSU dst %pSU gateway %pSU",
__func__, ifm->ifam_index,
(ifnlen ? ifname : "(nil)"),
rtatostr(ifm->ifam_addrs, fbuf, sizeof(fbuf)),
ifm->ifam_flags, addr, masklen, brd, &dst,
&gateway);
} break;
default:
zlog_debug("%s: ifindex %d, ifname %s, ifam_addrs {%s}",
__func__, ifm->ifam_index,
(ifnlen ? ifname : "(nil)"),
rtatostr(ifm->ifam_addrs, fbuf,
sizeof(fbuf)));
break;
}
}
/* Assert read up end point matches to end point */
pnt = (caddr_t)ROUNDUP((size_t)pnt);
if (pnt != (caddr_t)ROUNDUP((size_t)end))
zlog_debug("ifam_read() doesn't read all socket data");
}
/* Interface's address information get. */
int ifam_read(struct ifa_msghdr *ifam)
{
struct interface *ifp = NULL;
union sockunion addr, mask, brd;
bool dest_same = false;
char ifname[INTERFACE_NAMSIZ];
short ifnlen = 0;
bool isalias = false;
uint32_t flags = 0;
ifname[0] = ifname[INTERFACE_NAMSIZ - 1] = '\0';
/* Allocate and read address information. */
ifam_read_mesg(ifam, &addr, &mask, &brd, ifname, &ifnlen);
if ((ifp = if_lookup_by_index(ifam->ifam_index, VRF_DEFAULT)) == NULL) {
flog_warn(EC_ZEBRA_UNKNOWN_INTERFACE,
"%s: no interface for ifname %s, index %d", __func__,
ifname, ifam->ifam_index);
return -1;
}
if (ifnlen && strncmp(ifp->name, ifname, INTERFACE_NAMSIZ))
isalias = true;
/*
* Mark the alias prefixes as secondary
*/
if (isalias)
SET_FLAG(flags, ZEBRA_IFA_SECONDARY);
/* N.B. The info in ifa_msghdr does not tell us whether the RTA_BRD
field contains a broadcast address or a peer address, so we are
forced to
rely upon the interface type. */
if (if_is_pointopoint(ifp))
SET_FLAG(flags, ZEBRA_IFA_PEER);
else {
if (memcmp(&addr, &brd, sizeof(addr)) == 0)
dest_same = true;
}
#if 0
/* it might seem cute to grab the interface metric here, however
* we're processing an address update message, and so some systems
* (e.g. FBSD) dont bother to fill in ifam_metric. Disabled, but left
* in deliberately, as comment.
*/
ifp->metric = ifam->ifam_metric;
#endif
/* Add connected address. */
switch (sockunion_family(&addr)) {
case AF_INET:
if (ifam->ifam_type == RTM_NEWADDR)
connected_add_ipv4(ifp, flags, &addr.sin.sin_addr,
ip_masklen(mask.sin.sin_addr),
dest_same ? NULL : &brd.sin.sin_addr,
(isalias ? ifname : NULL),
METRIC_MAX);
else
connected_delete_ipv4(ifp, flags, &addr.sin.sin_addr,
ip_masklen(mask.sin.sin_addr),
dest_same ? NULL
: &brd.sin.sin_addr);
break;
case AF_INET6:
/* Unset interface index from link-local address when IPv6 stack
is KAME. */
if (IN6_IS_ADDR_LINKLOCAL(&addr.sin6.sin6_addr)) {
SET_IN6_LINKLOCAL_IFINDEX(addr.sin6.sin6_addr, 0);
}
if (ifam->ifam_type == RTM_NEWADDR)
connected_add_ipv6(ifp, flags, &addr.sin6.sin6_addr,
NULL,
ip6_masklen(mask.sin6.sin6_addr),
(isalias ? ifname : NULL),
METRIC_MAX);
else
connected_delete_ipv6(ifp, &addr.sin6.sin6_addr, NULL,
ip6_masklen(mask.sin6.sin6_addr));
break;
default:
/* Unsupported family silently ignore... */
break;
}
/* Check interface flag for implicit up of the interface. */
if_refresh(ifp);
return 0;
}
/* Interface function for reading kernel routing table information. */
static int rtm_read_mesg(struct rt_msghdr *rtm, union sockunion *dest,
union sockunion *mask, union sockunion *gate,
char *ifname, short *ifnlen)
{
caddr_t pnt, end;
int maskbit;
/* Pnt points out socket data start point. */
pnt = (caddr_t)(rtm + 1);
end = ((caddr_t)rtm) + rtm->rtm_msglen;
/* rt_msghdr version check. */
if (rtm->rtm_version != RTM_VERSION)
flog_warn(EC_ZEBRA_RTM_VERSION_MISMATCH,
"Routing message version different %d should be %d.This may cause problem",
rtm->rtm_version, RTM_VERSION);
/* Be sure structure is cleared */
memset(dest, 0, sizeof(union sockunion));
memset(gate, 0, sizeof(union sockunion));
memset(mask, 0, sizeof(union sockunion));
/* We fetch each socket variable into sockunion. */
/* We fetch each socket variable into sockunion. */
for (maskbit = 1; maskbit; maskbit <<= 1) {
if ((maskbit & rtm->rtm_addrs) == 0)
continue;
switch (maskbit) {
case RTA_DST:
pnt += rta_get(pnt, dest, sizeof(*dest));
break;
case RTA_GATEWAY:
pnt += rta_get(pnt, gate, sizeof(*gate));
break;
case RTA_NETMASK:
pnt += rta_getattr(pnt, mask, sizeof(*mask));
break;
case RTA_IFP:
pnt += rta_getsdlname(pnt, ifname, ifnlen);
break;
default:
pnt += rta_get(pnt, NULL, 0);
break;
}
if (pnt > end) {
zlog_warn("%s: overflow detected (pnt:%p end:%p)",
__func__, pnt, end);
break;
}
}
/* If there is netmask information set it's family same as
destination family*/
if (rtm->rtm_addrs & RTA_NETMASK)
mask->sa.sa_family = dest->sa.sa_family;
/* Assert read up to the end of pointer. */
if (pnt != end)
zlog_debug("rtm_read() doesn't read all socket data.");
return rtm->rtm_flags;
}
void rtm_read(struct rt_msghdr *rtm)
{
int flags;
uint32_t zebra_flags;
union sockunion dest, mask, gate;
char ifname[INTERFACE_NAMSIZ + 1];
short ifnlen = 0;
struct nexthop nh;
struct prefix p;
ifindex_t ifindex = 0;
afi_t afi;
char fbuf[64];
int32_t proto = ZEBRA_ROUTE_KERNEL;
uint8_t distance = 0;
zebra_flags = 0;
/* Read destination and netmask and gateway from rtm message
structure. */
flags = rtm_read_mesg(rtm, &dest, &mask, &gate, ifname, &ifnlen);
if (!(flags & RTF_DONE))
return;
if (IS_ZEBRA_DEBUG_KERNEL)
zlog_debug("%s: got rtm of type %d (%s) addrs {%s}", __func__,
rtm->rtm_type,
lookup_msg(rtm_type_str, rtm->rtm_type, NULL),
rtatostr(rtm->rtm_addrs, fbuf, sizeof(fbuf)));
#ifdef RTF_CLONED /*bsdi, netbsd 1.6*/
if (flags & RTF_CLONED)
return;
#endif
#ifdef RTF_WASCLONED /*freebsd*/
if (flags & RTF_WASCLONED)
return;
#endif
if ((rtm->rtm_type == RTM_ADD || rtm->rtm_type == RTM_CHANGE)
&& !(flags & RTF_UP))
return;
/* This is connected route. */
if (!(flags & RTF_GATEWAY))
return;
if (flags & RTF_PROTO1) {
SET_FLAG(zebra_flags, ZEBRA_FLAG_SELFROUTE);
proto = ZEBRA_ROUTE_STATIC;
distance = 255;
}
memset(&nh, 0, sizeof(nh));
nh.vrf_id = VRF_DEFAULT;
/* This is a reject or blackhole route */
if (flags & RTF_REJECT) {
nh.type = NEXTHOP_TYPE_BLACKHOLE;
nh.bh_type = BLACKHOLE_REJECT;
} else if (flags & RTF_BLACKHOLE) {
nh.type = NEXTHOP_TYPE_BLACKHOLE;
nh.bh_type = BLACKHOLE_NULL;
}
/*
* Ignore our own messages.
*/
if (rtm->rtm_type != RTM_GET && rtm->rtm_pid == pid)
return;
if (dest.sa.sa_family == AF_INET) {
afi = AFI_IP;
p.family = AF_INET;
p.u.prefix4 = dest.sin.sin_addr;
if (flags & RTF_HOST)
p.prefixlen = IPV4_MAX_BITLEN;
else
p.prefixlen = ip_masklen(mask.sin.sin_addr);
if (!nh.type) {
nh.type = NEXTHOP_TYPE_IPV4;
nh.gate.ipv4 = gate.sin.sin_addr;
}
} else if (dest.sa.sa_family == AF_INET6) {
afi = AFI_IP6;
p.family = AF_INET6;
p.u.prefix6 = dest.sin6.sin6_addr;
if (flags & RTF_HOST)
p.prefixlen = IPV6_MAX_BITLEN;
else
p.prefixlen = ip6_masklen(mask.sin6.sin6_addr);
#ifdef KAME
if (IN6_IS_ADDR_LINKLOCAL(&gate.sin6.sin6_addr)) {
ifindex = IN6_LINKLOCAL_IFINDEX(gate.sin6.sin6_addr);
SET_IN6_LINKLOCAL_IFINDEX(gate.sin6.sin6_addr, 0);
}
#endif /* KAME */
if (!nh.type) {
nh.type = ifindex ? NEXTHOP_TYPE_IPV6_IFINDEX
: NEXTHOP_TYPE_IPV6;
nh.gate.ipv6 = gate.sin6.sin6_addr;
nh.ifindex = ifindex;
}
} else
return;
/*
* CHANGE: delete the old prefix, we have no further information
* to specify the route really
*/
if (rtm->rtm_type == RTM_CHANGE)
rib_delete(afi, SAFI_UNICAST, VRF_DEFAULT, ZEBRA_ROUTE_KERNEL,
0, zebra_flags, &p, NULL, NULL, 0, RT_TABLE_MAIN, 0,
0, true);
if (rtm->rtm_type == RTM_GET || rtm->rtm_type == RTM_ADD
|| rtm->rtm_type == RTM_CHANGE)
rib_add(afi, SAFI_UNICAST, VRF_DEFAULT, proto, 0, zebra_flags,
&p, NULL, &nh, 0, RT_TABLE_MAIN, 0, 0, distance, 0,
false);
else
rib_delete(afi, SAFI_UNICAST, VRF_DEFAULT, proto, 0,
zebra_flags, &p, NULL, &nh, 0, RT_TABLE_MAIN, 0,
distance, true);
}
/* Interface function for the kernel routing table updates. Support
* for RTM_CHANGE will be needed.
* Exported only for rt_socket.c
*/
int rtm_write(int message, union sockunion *dest, union sockunion *mask,
union sockunion *gate, union sockunion *mpls, unsigned int index,
enum blackhole_type bh_type, int metric)
{
int ret;
caddr_t pnt;
struct interface *ifp;
/* Sequencial number of routing message. */
static int msg_seq = 0;
/* Struct of rt_msghdr and buffer for storing socket's data. */
struct {
struct rt_msghdr rtm;
char buf[512];
} msg;
if (dplane_routing_sock < 0)
return ZEBRA_ERR_EPERM;
/* Clear and set rt_msghdr values */
memset(&msg, 0, sizeof(msg));
msg.rtm.rtm_version = RTM_VERSION;
msg.rtm.rtm_type = message;
msg.rtm.rtm_seq = msg_seq++;
msg.rtm.rtm_addrs = RTA_DST;
msg.rtm.rtm_addrs |= RTA_GATEWAY;
msg.rtm.rtm_flags = RTF_UP;
#ifdef __OpenBSD__
msg.rtm.rtm_flags |= RTF_MPATH;
msg.rtm.rtm_fmask = RTF_MPLS;
#endif
msg.rtm.rtm_index = index;
if (metric != 0) {
msg.rtm.rtm_rmx.rmx_hopcount = metric;
msg.rtm.rtm_inits |= RTV_HOPCOUNT;
}
ifp = if_lookup_by_index(index, VRF_DEFAULT);
if (gate && (message == RTM_ADD || message == RTM_CHANGE))
msg.rtm.rtm_flags |= RTF_GATEWAY;
/* When RTF_CLONING is unavailable on BSD, should we set some
* other flag instead?
*/
#ifdef RTF_CLONING
if (!gate && (message == RTM_ADD || message == RTM_CHANGE) && ifp
&& (ifp->flags & IFF_POINTOPOINT) == 0)
msg.rtm.rtm_flags |= RTF_CLONING;
#endif /* RTF_CLONING */
/* If no protocol specific gateway is specified, use link
address for gateway. */
if (!gate) {
if (!ifp) {
char dest_buf[INET_ADDRSTRLEN] = "NULL",
mask_buf[INET_ADDRSTRLEN] = "255.255.255.255";
if (dest)
inet_ntop(AF_INET, &dest->sin.sin_addr,
dest_buf, INET_ADDRSTRLEN);
if (mask)
inet_ntop(AF_INET, &mask->sin.sin_addr,
mask_buf, INET_ADDRSTRLEN);
flog_warn(
EC_ZEBRA_RTM_NO_GATEWAY,
"%s: %s/%s: gate == NULL and no gateway found for ifindex %d",
__func__, dest_buf, mask_buf, index);
return -1;
}
gate = (union sockunion *)&((struct zebra_if *)ifp->info)->sdl;
}
if (mask)
msg.rtm.rtm_addrs |= RTA_NETMASK;
else if (message == RTM_ADD || message == RTM_CHANGE)
msg.rtm.rtm_flags |= RTF_HOST;
#ifdef __OpenBSD__
if (mpls) {
msg.rtm.rtm_addrs |= RTA_SRC;
msg.rtm.rtm_flags |= RTF_MPLS;
if (mpls->smpls.smpls_label
!= htonl(MPLS_LABEL_IMPLICIT_NULL << MPLS_LABEL_OFFSET))
msg.rtm.rtm_mpls = MPLS_OP_PUSH;
}
#endif
/* Tagging route with flags */
msg.rtm.rtm_flags |= (RTF_PROTO1);
switch (bh_type) {
case BLACKHOLE_UNSPEC:
break;
case BLACKHOLE_REJECT:
msg.rtm.rtm_flags |= RTF_REJECT;
break;
default:
msg.rtm.rtm_flags |= RTF_BLACKHOLE;
break;
}
#define SOCKADDRSET(X, R) \
if (msg.rtm.rtm_addrs & (R)) { \
int len = SAROUNDUP(X); \
memcpy(pnt, (caddr_t)(X), len); \
pnt += len; \
}
pnt = (caddr_t)msg.buf;
/* Write each socket data into rtm message buffer */
SOCKADDRSET(dest, RTA_DST);
SOCKADDRSET(gate, RTA_GATEWAY);
SOCKADDRSET(mask, RTA_NETMASK);
#ifdef __OpenBSD__
SOCKADDRSET(mpls, RTA_SRC);
#endif
msg.rtm.rtm_msglen = pnt - (caddr_t)&msg;
ret = write(dplane_routing_sock, &msg, msg.rtm.rtm_msglen);
if (ret != msg.rtm.rtm_msglen) {
if (errno == EEXIST)
return ZEBRA_ERR_RTEXIST;
if (errno == ENETUNREACH)
return ZEBRA_ERR_RTUNREACH;
if (errno == ESRCH)
return ZEBRA_ERR_RTNOEXIST;
flog_err_sys(EC_LIB_SOCKET, "%s: write : %s (%d)", __func__,
safe_strerror(errno), errno);
return ZEBRA_ERR_KERNEL;
}
return ZEBRA_ERR_NOERROR;
}
#include "thread.h"
#include "zebra/zserv.h"
/* For debug purpose. */
static void rtmsg_debug(struct rt_msghdr *rtm)
{
char fbuf[64];
zlog_debug("Kernel: Len: %d Type: %s", rtm->rtm_msglen,
lookup_msg(rtm_type_str, rtm->rtm_type, NULL));
rtm_flag_dump(rtm->rtm_flags);
zlog_debug("Kernel: message seq %d", rtm->rtm_seq);
zlog_debug("Kernel: pid %lld, rtm_addrs {%s}", (long long)rtm->rtm_pid,
rtatostr(rtm->rtm_addrs, fbuf, sizeof(fbuf)));
}
/* This is pretty gross, better suggestions welcome -- mhandler */
#ifndef RTAX_MAX
#ifdef RTA_NUMBITS
#define RTAX_MAX RTA_NUMBITS
#else
#define RTAX_MAX 8
#endif /* RTA_NUMBITS */
#endif /* RTAX_MAX */
/* Kernel routing table and interface updates via routing socket. */
static void kernel_read(struct thread *thread)
{
int sock;
int nbytes;
struct rt_msghdr *rtm;
/*
* This must be big enough for any message the kernel might send.
* Rather than determining how many sockaddrs of what size might be
* in each particular message, just use RTAX_MAX of sockaddr_storage
* for each. Note that the sockaddrs must be after each message
* definition, or rather after whichever happens to be the largest,
* since the buffer needs to be big enough for a message and the
* sockaddrs together.
*/
union {
/* Routing information. */
struct {
struct rt_msghdr rtm;
struct sockaddr_storage addr[RTAX_MAX];
} r;
/* Interface information. */
struct {
struct if_msghdr ifm;
struct sockaddr_storage addr[RTAX_MAX];
} im;
/* Interface address information. */
struct {
struct ifa_msghdr ifa;
struct sockaddr_storage addr[RTAX_MAX];
} ia;
#ifdef RTM_IFANNOUNCE
/* Interface arrival/departure */
struct {
struct if_announcemsghdr ifan;
struct sockaddr_storage addr[RTAX_MAX];
} ian;
#endif /* RTM_IFANNOUNCE */
} buf;
/* Fetch routing socket. */
sock = THREAD_FD(thread);
nbytes = read(sock, &buf, sizeof(buf));
if (nbytes < 0) {
if (errno == ENOBUFS) {
#ifdef __FreeBSD__
/*
* ENOBUFS indicates a temporary resource
* shortage and is not harmful for consistency of
* reading the routing socket. Ignore it.
*/
thread_add_read(zrouter.master, kernel_read, NULL, sock,
NULL);
return;
#else
flog_err(EC_ZEBRA_RECVMSG_OVERRUN,
"routing socket overrun: %s",
safe_strerror(errno));
/*
* In this case we are screwed.
* There is no good way to
* recover zebra at this point.
*/
exit(-1);
#endif
}
if (errno != EAGAIN && errno != EWOULDBLOCK)
flog_err_sys(EC_LIB_SOCKET, "routing socket error: %s",
safe_strerror(errno));
return;
}
if (nbytes == 0)
return;
thread_add_read(zrouter.master, kernel_read, NULL, sock, NULL);
if (IS_ZEBRA_DEBUG_KERNEL)
rtmsg_debug(&buf.r.rtm);
rtm = &buf.r.rtm;
/*
* Ensure that we didn't drop any data, so that processing routines
* can assume they have the whole message.
*/
if (rtm->rtm_msglen != nbytes) {
zlog_debug(
"kernel_read: rtm->rtm_msglen %d, nbytes %d, type %d",
rtm->rtm_msglen, nbytes, rtm->rtm_type);
return;
}
switch (rtm->rtm_type) {
case RTM_ADD:
case RTM_DELETE:
case RTM_CHANGE:
rtm_read(rtm);
break;
case RTM_IFINFO:
ifm_read(&buf.im.ifm);
break;
case RTM_NEWADDR:
case RTM_DELADDR:
ifam_read(&buf.ia.ifa);
break;
#ifdef RTM_IFANNOUNCE
case RTM_IFANNOUNCE:
ifan_read(&buf.ian.ifan);
break;
#endif /* RTM_IFANNOUNCE */
default:
if (IS_ZEBRA_DEBUG_KERNEL)
zlog_debug(
"Unprocessed RTM_type: %s(%d)",
lookup_msg(rtm_type_str, rtm->rtm_type, NULL),
rtm->rtm_type);
break;
}
}
/* Make routing socket. */
static void routing_socket(struct zebra_ns *zns)
{
uint32_t default_rcvbuf;
socklen_t optlen;
frr_with_privs(&zserv_privs) {
routing_sock = ns_socket(AF_ROUTE, SOCK_RAW, 0, zns->ns_id);
dplane_routing_sock =
ns_socket(AF_ROUTE, SOCK_RAW, 0, zns->ns_id);
}
if (routing_sock < 0) {
flog_err_sys(EC_LIB_SOCKET, "Can't init kernel routing socket");
return;
}
if (dplane_routing_sock < 0) {
flog_err_sys(EC_LIB_SOCKET,
"Can't init kernel dataplane routing socket");
return;
}
#ifdef SO_RERROR
/* Allow reporting of route(4) buffer overflow errors */
int n = 1;
if (setsockopt(routing_sock, SOL_SOCKET, SO_RERROR, &n, sizeof(n)) < 0)
flog_err_sys(EC_LIB_SOCKET,
"Can't set SO_RERROR on routing socket");
#endif
/* XXX: Socket should be NONBLOCK, however as we currently
* discard failed writes, this will lead to inconsistencies.
* For now, socket must be blocking.
*/
/*if (fcntl (routing_sock, F_SETFL, O_NONBLOCK) < 0)
zlog_warn ("Can't set O_NONBLOCK to routing socket");*/
/*
* Attempt to set a more useful receive buffer size
*/
optlen = sizeof(default_rcvbuf);
if (getsockopt(routing_sock, SOL_SOCKET, SO_RCVBUF, &default_rcvbuf,
&optlen) == -1)
flog_err_sys(EC_LIB_SOCKET,
"routing_sock sockopt SOL_SOCKET SO_RCVBUF");
else {
for (; rcvbufsize > default_rcvbuf &&
setsockopt(routing_sock, SOL_SOCKET, SO_RCVBUF,
&rcvbufsize, sizeof(rcvbufsize)) == -1 &&
errno == ENOBUFS;
rcvbufsize /= 2)
;
}
/* kernel_read needs rewrite. */
thread_add_read(zrouter.master, kernel_read, NULL, routing_sock, NULL);
}
/* Exported interface function. This function simply calls
routing_socket (). */
void kernel_init(struct zebra_ns *zns)
{
routing_socket(zns);
}
void kernel_terminate(struct zebra_ns *zns, bool complete)
{
return;
}
/*
* Global init for platform-/OS-specific things
*/
void kernel_router_init(void)
{
}
/*
* Global deinit for platform-/OS-specific things
*/
void kernel_router_terminate(void)
{
}
/*
* Called by the dplane pthread to read incoming OS messages and dispatch them.
*/
int kernel_dplane_read(struct zebra_dplane_info *info)
{
return 0;
}
void kernel_update_multi(struct dplane_ctx_q *ctx_list)
{
struct zebra_dplane_ctx *ctx;
struct dplane_ctx_q handled_list;
enum zebra_dplane_result res = ZEBRA_DPLANE_REQUEST_SUCCESS;
TAILQ_INIT(&handled_list);
while (true) {
ctx = dplane_ctx_dequeue(ctx_list);
if (ctx == NULL)
break;
/*
* A previous provider plugin may have asked to skip the
* kernel update.
*/
if (dplane_ctx_is_skip_kernel(ctx)) {
res = ZEBRA_DPLANE_REQUEST_SUCCESS;
goto skip_one;
}
switch (dplane_ctx_get_op(ctx)) {
case DPLANE_OP_ROUTE_INSTALL:
case DPLANE_OP_ROUTE_UPDATE:
case DPLANE_OP_ROUTE_DELETE:
res = kernel_route_update(ctx);
break;
case DPLANE_OP_NH_INSTALL:
case DPLANE_OP_NH_UPDATE:
case DPLANE_OP_NH_DELETE:
res = kernel_nexthop_update(ctx);
break;
case DPLANE_OP_LSP_INSTALL:
case DPLANE_OP_LSP_UPDATE:
case DPLANE_OP_LSP_DELETE:
res = kernel_lsp_update(ctx);
break;
case DPLANE_OP_PW_INSTALL:
case DPLANE_OP_PW_UNINSTALL:
res = kernel_pw_update(ctx);
break;
case DPLANE_OP_ADDR_INSTALL:
case DPLANE_OP_ADDR_UNINSTALL:
res = kernel_address_update_ctx(ctx);
break;
case DPLANE_OP_MAC_INSTALL:
case DPLANE_OP_MAC_DELETE:
res = kernel_mac_update_ctx(ctx);
break;
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:
res = kernel_neigh_update_ctx(ctx);
break;
case DPLANE_OP_RULE_ADD:
case DPLANE_OP_RULE_DELETE:
case DPLANE_OP_RULE_UPDATE:
res = kernel_pbr_rule_update(ctx);
break;
case DPLANE_OP_INTF_INSTALL:
case DPLANE_OP_INTF_UPDATE:
case DPLANE_OP_INTF_DELETE:
res = kernel_intf_update(ctx);
break;
/* Ignore 'notifications' - no-op */
case DPLANE_OP_SYS_ROUTE_ADD:
case DPLANE_OP_SYS_ROUTE_DELETE:
case DPLANE_OP_ROUTE_NOTIFY:
case DPLANE_OP_LSP_NOTIFY:
res = ZEBRA_DPLANE_REQUEST_SUCCESS;
break;
case DPLANE_OP_INTF_NETCONFIG:
res = kernel_intf_netconf_update(ctx);
break;
case DPLANE_OP_NONE:
case DPLANE_OP_BR_PORT_UPDATE:
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:
case DPLANE_OP_NEIGH_IP_INSTALL:
case DPLANE_OP_NEIGH_IP_DELETE:
case DPLANE_OP_NEIGH_TABLE_UPDATE:
case DPLANE_OP_GRE_SET:
case DPLANE_OP_INTF_ADDR_ADD:
case DPLANE_OP_INTF_ADDR_DEL:
zlog_err("Unhandled dplane data for %s",
dplane_op2str(dplane_ctx_get_op(ctx)));
res = ZEBRA_DPLANE_REQUEST_FAILURE;
}
skip_one:
dplane_ctx_set_status(ctx, res);
dplane_ctx_enqueue_tail(&handled_list, ctx);
}
TAILQ_INIT(ctx_list);
dplane_ctx_list_append(ctx_list, &handled_list);
}
#endif /* !HAVE_NETLINK */
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