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| | // SPDX-License-Identifier: GPL-2.0-or-later
/* PASST - Plug A Simple Socket Transport
* for qemu/UNIX domain socket mode
*
* PASTA - Pack A Subtle Tap Abstraction
* for network namespace/tap device mode
*
* netlink.c - rtnetlink routines: interfaces, addresses, routes
*
* Copyright (c) 2020-2021 Red Hat GmbH
* Author: Stefano Brivio <sbrivio@redhat.com>
*/
#include <sched.h>
#include <string.h>
#include <stddef.h>
#include <errno.h>
#include <sys/types.h>
#include <limits.h>
#include <unistd.h>
#include <signal.h>
#include <stdlib.h>
#include <stdbool.h>
#include <stdint.h>
#include <arpa/inet.h>
#include <netinet/in.h>
#include <netinet/if_ether.h>
#include <linux/netlink.h>
#include <linux/rtnetlink.h>
#include "util.h"
#include "passt.h"
#include "log.h"
#include "ip.h"
#include "netlink.h"
/* Same as RTA_NEXT() but for nexthops: RTNH_NEXT() doesn't take 'attrlen' */
#define RTNH_NEXT_AND_DEC(rtnh, attrlen) \
((attrlen) -= RTNH_ALIGN((rtnh)->rtnh_len), RTNH_NEXT(rtnh))
/* Netlink expects a buffer of at least 8kiB or the system page size,
* whichever is larger. 32kiB is recommended for more efficient.
* Since the largest page size on any remotely common Linux setup is
* 64kiB (ppc64), that should cover it.
*
* https://www.kernel.org/doc/html/next/userspace-api/netlink/intro.html#buffer-sizing
*/
#define NLBUFSIZ 65536
/* Socket in init, in target namespace, sequence (just needs to be monotonic) */
int nl_sock = -1;
int nl_sock_ns = -1;
static int nl_seq = 1;
/**
* nl_sock_init_do() - Set up netlink sockets in init or target namespace
* @arg: Execution context, if running from namespace, NULL otherwise
*
* Return: 0
*/
static int nl_sock_init_do(void *arg)
{
struct sockaddr_nl addr = { .nl_family = AF_NETLINK, };
int *s = arg ? &nl_sock_ns : &nl_sock;
#ifdef NETLINK_GET_STRICT_CHK
int y = 1;
#endif
if (arg)
ns_enter((struct ctx *)arg);
*s = socket(AF_NETLINK, SOCK_RAW | SOCK_CLOEXEC, NETLINK_ROUTE);
if (*s < 0 || bind(*s, (struct sockaddr *)&addr, sizeof(addr))) {
*s = -1;
return 0;
}
#ifdef NETLINK_GET_STRICT_CHK
if (setsockopt(*s, SOL_NETLINK, NETLINK_GET_STRICT_CHK, &y, sizeof(y)))
debug("netlink: cannot set NETLINK_GET_STRICT_CHK on %i", *s);
#endif
return 0;
}
/**
* nl_sock_init() - Call nl_sock_init_do(), won't return on failure
* @c: Execution context
* @ns: Get socket in namespace, not in init
*/
void nl_sock_init(const struct ctx *c, bool ns)
{
if (ns) {
NS_CALL(nl_sock_init_do, c);
if (nl_sock_ns == -1)
goto fail;
} else {
nl_sock_init_do(NULL);
}
if (nl_sock == -1)
goto fail;
return;
fail:
die("Failed to get netlink socket");
}
/**
* nl_send() - Prepare and send netlink request
* @s: Netlink socket
* @req: Request (will fill netlink header)
* @type: Request type
* @flags: Extra request flags (NLM_F_REQUEST and NLM_F_ACK assumed)
* @len: Request length
*
* Return: sequence number of request on success, terminates on error
*/
static uint32_t nl_send(int s, void *req, uint16_t type,
uint16_t flags, ssize_t len)
{
struct nlmsghdr *nh;
ssize_t n;
nh = (struct nlmsghdr *)req;
nh->nlmsg_type = type;
nh->nlmsg_flags = NLM_F_REQUEST | NLM_F_ACK | flags;
nh->nlmsg_len = len;
nh->nlmsg_seq = nl_seq++;
nh->nlmsg_pid = 0;
n = send(s, req, len, 0);
if (n < 0)
die_perror("netlink: Failed to send()");
else if (n < len)
die("netlink: Short send (%zd of %zd bytes)", n, len);
return nh->nlmsg_seq;
}
/**
* nl_status() - Check status given by a netlink response
* @nh: Netlink response header
* @n: Remaining space in response buffer from @nh
* @seq: Request sequence number we expect a response to
*
* Return: 0 if @nh indicated successful completion,
* < 0, negative error code if @nh indicated failure
* > 0 @n if there are more responses to request @seq
* terminates if sequence numbers are out of sync
*/
static int nl_status(const struct nlmsghdr *nh, ssize_t n, uint32_t seq)
{
ASSERT(NLMSG_OK(nh, n));
if (nh->nlmsg_seq != seq)
die("netlink: Unexpected sequence number (%u != %u)",
nh->nlmsg_seq, seq);
if (nh->nlmsg_type == NLMSG_DONE) {
return 0;
}
if (nh->nlmsg_type == NLMSG_ERROR) {
struct nlmsgerr *errmsg = (struct nlmsgerr *)NLMSG_DATA(nh);
return errmsg->error;
}
return n;
}
/**
* nl_next() - Get next netlink response message, recv()ing if necessary
* @s: Netlink socket
* @buf: Buffer for responses (at least NLBUFSIZ long)
* @nh: Previous message, or NULL if there are none
* @n: Variable with remaining unread bytes in buffer (updated)
*
* Return: pointer to next unread netlink response message (may block)
*/
static struct nlmsghdr *nl_next(int s, char *buf, struct nlmsghdr *nh, ssize_t *n)
{
if (nh) {
nh = NLMSG_NEXT(nh, *n);
if (NLMSG_OK(nh, *n))
return nh;
}
*n = recv(s, buf, NLBUFSIZ, 0);
if (*n < 0)
die_perror("netlink: Failed to recv()");
nh = (struct nlmsghdr *)buf;
if (!NLMSG_OK(nh, *n))
die("netlink: Response datagram with no message");
return nh;
}
/**
* nl_foreach - 'for' type macro to step through netlink response messages
* nl_foreach_oftype - as above, but only messages of expected type
* @nh: Steps through each response header (struct nlmsghdr *)
* @status: When loop exits indicates if there was an error (ssize_t)
* @s: Netlink socket
* @buf: Buffer for responses (at least NLBUFSIZ long)
* @seq: Sequence number of request we're getting responses for
* @type: Type of netlink message to process
*/
#define nl_foreach(nh, status, s, buf, seq) \
for ((nh) = nl_next((s), (buf), NULL, &(status)); \
((status) = nl_status((nh), (status), (seq))) > 0; \
(nh) = nl_next((s), (buf), (nh), &(status)))
#define nl_foreach_oftype(nh, status, s, buf, seq, type) \
nl_foreach((nh), (status), (s), (buf), (seq)) \
if ((nh)->nlmsg_type != (type)) { \
warn("netlink: Unexpected message type"); \
} else
/**
* nl_do() - Send netlink "do" request, and wait for acknowledgement
* @s: Netlink socket
* @req: Request (will fill netlink header)
* @type: Request type
* @flags: Extra request flags (NLM_F_REQUEST and NLM_F_ACK assumed)
* @len: Request length
*
* Return: 0 on success, negative error code on error
*/
static int nl_do(int s, void *req, uint16_t type, uint16_t flags, ssize_t len)
{
struct nlmsghdr *nh;
char buf[NLBUFSIZ];
ssize_t status;
uint32_t seq;
seq = nl_send(s, req, type, flags, len);
nl_foreach(nh, status, s, buf, seq)
warn("netlink: Unexpected response message");
return status;
}
/**
* nl_get_ext_if() - Get interface index supporting IP version being probed
* @s: Netlink socket
* @af: Address family (AF_INET or AF_INET6) to look for connectivity
* for.
*
* Return: interface index, 0 if not found
*/
unsigned int nl_get_ext_if(int s, sa_family_t af)
{
struct { struct nlmsghdr nlh; struct rtmsg rtm; } req = {
.rtm.rtm_table = RT_TABLE_MAIN,
.rtm.rtm_scope = RT_SCOPE_UNIVERSE,
.rtm.rtm_type = RTN_UNICAST,
.rtm.rtm_family = af,
};
unsigned defifi = 0, anyifi = 0;
unsigned ndef = 0, nany = 0;
struct nlmsghdr *nh;
struct rtattr *rta;
char buf[NLBUFSIZ];
ssize_t status;
uint32_t seq;
size_t na;
/* Look for an interface with a default route first, failing that, look
* for any interface with a route, and pick the first one, if any.
*/
seq = nl_send(s, &req, RTM_GETROUTE, NLM_F_DUMP, sizeof(req));
nl_foreach_oftype(nh, status, s, buf, seq, RTM_NEWROUTE) {
struct rtmsg *rtm = (struct rtmsg *)NLMSG_DATA(nh);
const void *dst = NULL;
unsigned thisifi = 0;
if (rtm->rtm_family != af)
continue;
for (rta = RTM_RTA(rtm), na = RTM_PAYLOAD(nh); RTA_OK(rta, na);
rta = RTA_NEXT(rta, na)) {
if (rta->rta_type == RTA_OIF) {
thisifi = *(unsigned int *)RTA_DATA(rta);
} else if (rta->rta_type == RTA_MULTIPATH) {
const struct rtnexthop *rtnh;
rtnh = (struct rtnexthop *)RTA_DATA(rta);
thisifi = rtnh->rtnh_ifindex;
} else if (rta->rta_type == RTA_DST) {
dst = RTA_DATA(rta);
}
}
if (!thisifi)
continue; /* No interface for this route */
/* Skip routes to link-local addresses */
if (af == AF_INET && dst &&
IN4_IS_PREFIX_LINKLOCAL(dst, rtm->rtm_dst_len))
continue;
if (af == AF_INET6 && dst &&
IN6_IS_PREFIX_LINKLOCAL(dst, rtm->rtm_dst_len))
continue;
if (rtm->rtm_dst_len == 0) {
/* Default route */
ndef++;
if (!defifi)
defifi = thisifi;
} else {
/* Non-default route */
nany++;
if (!anyifi)
anyifi = thisifi;
}
}
if (status < 0)
warn("netlink: RTM_GETROUTE failed: %s", strerror(-status));
if (defifi) {
if (ndef > 1) {
info("Multiple default %s routes, picked first",
af_name(af));
}
return defifi;
}
if (anyifi) {
if (nany > 1) {
info("Multiple interfaces with %s routes, picked first",
af_name(af));
}
return anyifi;
}
if (!nany)
info("No interfaces with usable %s routes", af_name(af));
return 0;
}
/**
* nl_route_get_def_multipath() - Get lowest-weight route from nexthop list
* @rta: Routing netlink attribute with type RTA_MULTIPATH
* @gw: Default gateway to fill
*
* Return: true if a gateway was found, false otherwise
*/
bool nl_route_get_def_multipath(struct rtattr *rta, void *gw)
{
int nh_len = RTA_PAYLOAD(rta);
struct rtnexthop *rtnh;
bool found = false;
int hops = -1;
for (rtnh = (struct rtnexthop *)RTA_DATA(rta);
RTNH_OK(rtnh, nh_len); rtnh = RTNH_NEXT_AND_DEC(rtnh, nh_len)) {
size_t len = rtnh->rtnh_len - sizeof(*rtnh);
struct rtattr *rta_inner;
if (rtnh->rtnh_hops < hops)
continue;
hops = rtnh->rtnh_hops;
for (rta_inner = RTNH_DATA(rtnh); RTA_OK(rta_inner, len);
rta_inner = RTA_NEXT(rta_inner, len)) {
if (rta_inner->rta_type != RTA_GATEWAY)
continue;
memcpy(gw, RTA_DATA(rta_inner), RTA_PAYLOAD(rta_inner));
found = true;
}
}
return found;
}
/**
* nl_route_get_def() - Get default route for given interface and address family
* @s: Netlink socket
* @ifi: Interface index
* @af: Address family
* @gw: Default gateway to fill on NL_GET
*
* Return: error on netlink failure, or 0 (gw unset if default route not found)
*/
int nl_route_get_def(int s, unsigned int ifi, sa_family_t af, void *gw)
{
struct req_t {
struct nlmsghdr nlh;
struct rtmsg rtm;
struct rtattr rta;
unsigned int ifi;
} req = {
.rtm.rtm_family = af,
.rtm.rtm_table = RT_TABLE_MAIN,
.rtm.rtm_scope = RT_SCOPE_UNIVERSE,
.rtm.rtm_type = RTN_UNICAST,
.rta.rta_type = RTA_OIF,
.rta.rta_len = RTA_LENGTH(sizeof(unsigned int)),
.ifi = ifi,
};
struct nlmsghdr *nh;
bool found = false;
char buf[NLBUFSIZ];
ssize_t status;
uint32_t seq;
seq = nl_send(s, &req, RTM_GETROUTE, NLM_F_DUMP, sizeof(req));
nl_foreach_oftype(nh, status, s, buf, seq, RTM_NEWROUTE) {
struct rtmsg *rtm = (struct rtmsg *)NLMSG_DATA(nh);
struct rtattr *rta;
size_t na;
if (found || rtm->rtm_dst_len)
continue;
for (rta = RTM_RTA(rtm), na = RTM_PAYLOAD(nh); RTA_OK(rta, na);
rta = RTA_NEXT(rta, na)) {
if (rta->rta_type == RTA_MULTIPATH)
found = nl_route_get_def_multipath(rta, gw);
if (rta->rta_type != RTA_GATEWAY)
continue;
memcpy(gw, RTA_DATA(rta), RTA_PAYLOAD(rta));
found = true;
}
}
return status;
}
/**
* nl_route_set_def() - Set default route for given interface and address family
* @s: Netlink socket
* @ifi: Interface index in target namespace
* @af: Address family
* @gw: Default gateway to set
*
* Return: 0 on success, negative error code on failure
*/
int nl_route_set_def(int s, unsigned int ifi, sa_family_t af, const void *gw)
{
struct req_t {
struct nlmsghdr nlh;
struct rtmsg rtm;
struct rtattr rta;
unsigned int ifi;
union {
struct {
struct rtattr rta_dst;
struct in6_addr d;
struct rtattr rta_gw;
struct in6_addr a;
} r6;
struct {
struct rtattr rta_dst;
struct in_addr d;
struct rtattr rta_gw;
struct in_addr a;
} r4;
} set;
} req = {
.rtm.rtm_family = af,
.rtm.rtm_table = RT_TABLE_MAIN,
.rtm.rtm_scope = RT_SCOPE_UNIVERSE,
.rtm.rtm_type = RTN_UNICAST,
.rtm.rtm_protocol = RTPROT_BOOT,
.rta.rta_type = RTA_OIF,
.rta.rta_len = RTA_LENGTH(sizeof(unsigned int)),
.ifi = ifi,
};
ssize_t len;
if (af == AF_INET6) {
size_t rta_len = RTA_LENGTH(sizeof(req.set.r6.d));
len = offsetof(struct req_t, set.r6) + sizeof(req.set.r6);
req.set.r6.rta_dst.rta_type = RTA_DST;
req.set.r6.rta_dst.rta_len = rta_len;
memcpy(&req.set.r6.a, gw, sizeof(req.set.r6.a));
req.set.r6.rta_gw.rta_type = RTA_GATEWAY;
req.set.r6.rta_gw.rta_len = rta_len;
} else {
size_t rta_len = RTA_LENGTH(sizeof(req.set.r4.d));
len = offsetof(struct req_t, set.r4) + sizeof(req.set.r4);
req.set.r4.rta_dst.rta_type = RTA_DST;
req.set.r4.rta_dst.rta_len = rta_len;
memcpy(&req.set.r4.a, gw, sizeof(req.set.r4.a));
req.set.r4.rta_gw.rta_type = RTA_GATEWAY;
req.set.r4.rta_gw.rta_len = rta_len;
}
return nl_do(s, &req, RTM_NEWROUTE, NLM_F_CREATE | NLM_F_EXCL, len);
}
/**
* nl_route_dup() - Copy routes for given interface and address family
* @s_src: Netlink socket in source namespace
* @ifi_src: Source interface index
* @s_dst: Netlink socket in destination namespace
* @ifi_dst: Interface index in destination namespace
* @af: Address family
*
* Return: 0 on success, negative error code on failure
*/
int nl_route_dup(int s_src, unsigned int ifi_src,
int s_dst, unsigned int ifi_dst, sa_family_t af)
{
struct req_t {
struct nlmsghdr nlh;
struct rtmsg rtm;
struct rtattr rta;
unsigned int ifi;
} req = {
.rtm.rtm_family = af,
.rtm.rtm_table = RT_TABLE_MAIN,
.rtm.rtm_scope = RT_SCOPE_UNIVERSE,
.rtm.rtm_type = RTN_UNICAST,
.rta.rta_type = RTA_OIF,
.rta.rta_len = RTA_LENGTH(sizeof(unsigned int)),
.ifi = ifi_src,
};
ssize_t nlmsgs_size, left, status;
unsigned dup_routes = 0;
struct nlmsghdr *nh;
char buf[NLBUFSIZ];
uint32_t seq;
unsigned i;
seq = nl_send(s_src, &req, RTM_GETROUTE, NLM_F_DUMP, sizeof(req));
/* nl_foreach() will step through multiple response datagrams,
* which we don't want here because we need to have all the
* routes in the buffer at once.
*/
nh = nl_next(s_src, buf, NULL, &nlmsgs_size);
for (left = nlmsgs_size;
NLMSG_OK(nh, left) && (status = nl_status(nh, left, seq)) > 0;
nh = NLMSG_NEXT(nh, left)) {
struct rtmsg *rtm = (struct rtmsg *)NLMSG_DATA(nh);
bool discard = false;
struct rtattr *rta;
size_t na;
if (nh->nlmsg_type != RTM_NEWROUTE)
continue;
for (rta = RTM_RTA(rtm), na = RTM_PAYLOAD(nh); RTA_OK(rta, na);
rta = RTA_NEXT(rta, na)) {
/* RTA_OIF and RTA_MULTIPATH attributes carry the
* identifier of a host interface. If they match the
* host interface we're copying from, change them to
* match the corresponding identifier in the target
* namespace.
*
* If RTA_OIF doesn't match (NETLINK_GET_STRICT_CHK not
* available), or if any interface index in nexthop
* objects differ from the host interface, discard the
* route altogether.
*/
if (rta->rta_type == RTA_OIF) {
if (*(unsigned int *)RTA_DATA(rta) != ifi_src) {
discard = true;
break;
}
*(unsigned int *)RTA_DATA(rta) = ifi_dst;
} else if (rta->rta_type == RTA_MULTIPATH) {
int nh_len = RTA_PAYLOAD(rta);
struct rtnexthop *rtnh;
for (rtnh = (struct rtnexthop *)RTA_DATA(rta);
RTNH_OK(rtnh, nh_len);
rtnh = RTNH_NEXT_AND_DEC(rtnh, nh_len)) {
int src = (int)ifi_src;
if (rtnh->rtnh_ifindex != src) {
discard = true;
break;
}
rtnh->rtnh_ifindex = ifi_dst;
}
if (discard)
break;
} else if (rta->rta_type == RTA_PREFSRC ||
rta->rta_type == RTA_NH_ID) {
/* Strip RTA_PREFSRC attributes: host routes
* might include a preferred source address,
* which must be one of the host's addresses.
* However, with -a, pasta will use a different
* namespace address, making such a route
* invalid in the namespace.
*
* Strip RTA_NH_ID attributes: host routes set
* up via routing protocols (e.g. OSPF) might
* contain a nexthop ID (and not nexthop
* objects, which are taken care of in the
* RTA_MULTIPATH case above) that's not valid
* in the target namespace.
*/
rta->rta_type = RTA_UNSPEC;
}
}
if (discard)
nh->nlmsg_type = NLMSG_NOOP;
else
dup_routes++;
}
if (!NLMSG_OK(nh, left)) {
/* Process any remaining datagrams in a different
* buffer so we don't overwrite the first one.
*/
char tail[NLBUFSIZ];
unsigned extra = 0;
nl_foreach_oftype(nh, status, s_src, tail, seq, RTM_NEWROUTE)
extra++;
if (extra) {
err("netlink: Too many routes to duplicate");
return -E2BIG;
}
}
if (status < 0)
return status;
/* Routes might have dependencies between each other, and the kernel
* processes RTM_NEWROUTE messages sequentially. For n routes, we might
* need to send the requests up to n times to get all of them inserted.
* Routes that have been already inserted will return -EEXIST, but we
* can safely ignore that and repeat the requests. This avoids the need
* to calculate dependencies: let the kernel do that.
*/
for (i = 0; i < dup_routes; i++) {
for (nh = (struct nlmsghdr *)buf, left = nlmsgs_size;
NLMSG_OK(nh, left);
nh = NLMSG_NEXT(nh, left)) {
uint16_t flags = nh->nlmsg_flags;
int rc;
if (nh->nlmsg_type != RTM_NEWROUTE)
continue;
rc = nl_do(s_dst, nh, RTM_NEWROUTE,
(flags & ~NLM_F_DUMP_FILTERED) | NLM_F_CREATE,
nh->nlmsg_len);
if (rc < 0 && rc != -EEXIST &&
rc != -ENETUNREACH && rc != -EHOSTUNREACH)
return rc;
}
}
return 0;
}
/**
* nl_addr_set_ll_nodad() - Set IFA_F_NODAD on IPv6 link-local addresses
* @s: Netlink socket
* @ifi: Interface index in target namespace
*
* Return: 0 on success, negative error code on failure
*/
int nl_addr_set_ll_nodad(int s, unsigned int ifi)
{
struct req_t {
struct nlmsghdr nlh;
struct ifaddrmsg ifa;
} req = {
.ifa.ifa_family = AF_INET6,
.ifa.ifa_index = ifi,
};
uint32_t seq, last_seq = 0;
ssize_t status, ret = 0;
struct nlmsghdr *nh;
char buf[NLBUFSIZ];
seq = nl_send(s, &req, RTM_GETADDR, NLM_F_DUMP, sizeof(req));
nl_foreach_oftype(nh, status, s, buf, seq, RTM_NEWADDR) {
struct ifaddrmsg *ifa = (struct ifaddrmsg *)NLMSG_DATA(nh);
struct rtattr *rta;
size_t na;
if (ifa->ifa_index != ifi || ifa->ifa_scope != RT_SCOPE_LINK)
continue;
ifa->ifa_flags |= IFA_F_NODAD;
for (rta = IFA_RTA(ifa), na = IFA_PAYLOAD(nh); RTA_OK(rta, na);
rta = RTA_NEXT(rta, na)) {
/* If 32-bit flags are used, add IFA_F_NODAD there */
if (rta->rta_type == IFA_FLAGS)
*(uint32_t *)RTA_DATA(rta) |= IFA_F_NODAD;
}
last_seq = nl_send(s, nh, RTM_NEWADDR, NLM_F_REPLACE,
nh->nlmsg_len);
}
if (status < 0)
ret = status;
for (seq = seq + 1; seq <= last_seq; seq++) {
nl_foreach(nh, status, s, buf, seq)
warn("netlink: Unexpected response message");
if (!ret && status < 0)
ret = status;
}
return ret;
}
/**
* nl_addr_get() - Get most specific global address, given interface and family
* @s: Netlink socket
* @ifi: Interface index in outer network namespace
* @af: Address family
* @addr: Global address to fill
* @prefix_len: Mask or prefix length, to fill (for IPv4)
* @addr_l: Link-scoped address to fill (for IPv6)
*
* Return: 0 on success, negative error code on failure
*/
int nl_addr_get(int s, unsigned int ifi, sa_family_t af,
void *addr, int *prefix_len, void *addr_l)
{
uint8_t prefix_max = 0, prefix_max_ll = 0;
struct req_t {
struct nlmsghdr nlh;
struct ifaddrmsg ifa;
} req = {
.ifa.ifa_family = af,
.ifa.ifa_index = ifi,
};
struct nlmsghdr *nh;
char buf[NLBUFSIZ];
ssize_t status;
uint32_t seq;
seq = nl_send(s, &req, RTM_GETADDR, NLM_F_DUMP, sizeof(req));
nl_foreach_oftype(nh, status, s, buf, seq, RTM_NEWADDR) {
struct ifaddrmsg *ifa = (struct ifaddrmsg *)NLMSG_DATA(nh);
struct rtattr *rta;
size_t na;
if (ifa->ifa_index != ifi || ifa->ifa_flags & IFA_F_DEPRECATED)
continue;
for (rta = IFA_RTA(ifa), na = IFA_PAYLOAD(nh); RTA_OK(rta, na);
rta = RTA_NEXT(rta, na)) {
if ((af == AF_INET && rta->rta_type != IFA_LOCAL) ||
(af == AF_INET6 && rta->rta_type != IFA_ADDRESS))
continue;
if (af == AF_INET && ifa->ifa_prefixlen > prefix_max) {
memcpy(addr, RTA_DATA(rta), RTA_PAYLOAD(rta));
prefix_max = *prefix_len = ifa->ifa_prefixlen;
} else if (af == AF_INET6 && addr &&
ifa->ifa_scope == RT_SCOPE_UNIVERSE &&
ifa->ifa_prefixlen > prefix_max) {
memcpy(addr, RTA_DATA(rta), RTA_PAYLOAD(rta));
prefix_max = ifa->ifa_prefixlen;
}
if (addr_l &&
af == AF_INET6 && ifa->ifa_scope == RT_SCOPE_LINK &&
ifa->ifa_prefixlen > prefix_max_ll) {
memcpy(addr_l, RTA_DATA(rta), RTA_PAYLOAD(rta));
prefix_max_ll = ifa->ifa_prefixlen;
}
}
}
return status;
}
/**
* nl_addr_get_ll() - Get first IPv6 link-local address for a given interface
* @s: Netlink socket
* @ifi: Interface index in outer network namespace
* @addr: Link-local address to fill
*
* Return: 0 on success, negative error code on failure
*/
int nl_addr_get_ll(int s, unsigned int ifi, struct in6_addr *addr)
{
struct req_t {
struct nlmsghdr nlh;
struct ifaddrmsg ifa;
} req = {
.ifa.ifa_family = AF_INET6,
.ifa.ifa_index = ifi,
};
struct nlmsghdr *nh;
bool found = false;
char buf[NLBUFSIZ];
ssize_t status;
uint32_t seq;
seq = nl_send(s, &req, RTM_GETADDR, NLM_F_DUMP, sizeof(req));
nl_foreach_oftype(nh, status, s, buf, seq, RTM_NEWADDR) {
struct ifaddrmsg *ifa = (struct ifaddrmsg *)NLMSG_DATA(nh);
struct rtattr *rta;
size_t na;
if (ifa->ifa_index != ifi || ifa->ifa_scope != RT_SCOPE_LINK ||
found)
continue;
for (rta = IFA_RTA(ifa), na = IFA_PAYLOAD(nh); RTA_OK(rta, na);
rta = RTA_NEXT(rta, na)) {
if (rta->rta_type != IFA_ADDRESS)
continue;
if (!found) {
memcpy(addr, RTA_DATA(rta), RTA_PAYLOAD(rta));
found = true;
}
}
}
return status;
}
/**
* nl_addr_set() - Set IP addresses for given interface and address family
* @s: Netlink socket
* @ifi: Interface index
* @af: Address family
* @addr: Global address to set
* @prefix_len: Mask or prefix length to set
*
* Return: 0 on success, negative error code on failure
*/
int nl_addr_set(int s, unsigned int ifi, sa_family_t af,
const void *addr, int prefix_len)
{
struct req_t {
struct nlmsghdr nlh;
struct ifaddrmsg ifa;
union {
struct {
struct rtattr rta_l;
struct in_addr l;
struct rtattr rta_a;
struct in_addr a;
} a4;
struct {
struct rtattr rta_l;
struct in6_addr l;
struct rtattr rta_a;
struct in6_addr a;
} a6;
} set;
} req = {
.ifa.ifa_family = af,
.ifa.ifa_index = ifi,
.ifa.ifa_prefixlen = prefix_len,
.ifa.ifa_scope = RT_SCOPE_UNIVERSE,
};
ssize_t len;
if (af == AF_INET6) {
size_t rta_len = RTA_LENGTH(sizeof(req.set.a6.l));
/* By default, strictly speaking, it's duplicated */
req.ifa.ifa_flags = IFA_F_NODAD;
len = offsetof(struct req_t, set.a6) + sizeof(req.set.a6);
memcpy(&req.set.a6.l, addr, sizeof(req.set.a6.l));
req.set.a6.rta_l.rta_len = rta_len;
req.set.a4.rta_l.rta_type = IFA_LOCAL;
memcpy(&req.set.a6.a, addr, sizeof(req.set.a6.a));
req.set.a6.rta_a.rta_len = rta_len;
req.set.a6.rta_a.rta_type = IFA_ADDRESS;
} else {
size_t rta_len = RTA_LENGTH(sizeof(req.set.a4.l));
len = offsetof(struct req_t, set.a4) + sizeof(req.set.a4);
memcpy(&req.set.a4.l, addr, sizeof(req.set.a4.l));
req.set.a4.rta_l.rta_len = rta_len;
req.set.a4.rta_l.rta_type = IFA_LOCAL;
memcpy(&req.set.a4.a, addr, sizeof(req.set.a4.a));
req.set.a4.rta_a.rta_len = rta_len;
req.set.a4.rta_a.rta_type = IFA_ADDRESS;
}
return nl_do(s, &req, RTM_NEWADDR, NLM_F_CREATE | NLM_F_EXCL, len);
}
/**
* nl_addr_dup() - Copy IP addresses for given interface and address family
* @s_src: Netlink socket in source network namespace
* @ifi_src: Interface index in source network namespace
* @s_dst: Netlink socket in destination network namespace
* @ifi_dst: Interface index in destination namespace
* @af: Address family
*
* Return: 0 on success, negative error code on failure
*/
int nl_addr_dup(int s_src, unsigned int ifi_src,
int s_dst, unsigned int ifi_dst, sa_family_t af)
{
struct req_t {
struct nlmsghdr nlh;
struct ifaddrmsg ifa;
} req = {
.ifa.ifa_family = af,
.ifa.ifa_index = ifi_src,
.ifa.ifa_prefixlen = 0,
};
char buf[NLBUFSIZ];
struct nlmsghdr *nh;
ssize_t status;
uint32_t seq;
int rc = 0;
seq = nl_send(s_src, &req, RTM_GETADDR, NLM_F_DUMP, sizeof(req));
nl_foreach_oftype(nh, status, s_src, buf, seq, RTM_NEWADDR) {
struct ifaddrmsg *ifa;
struct rtattr *rta;
size_t na;
ifa = (struct ifaddrmsg *)NLMSG_DATA(nh);
if (rc < 0 || ifa->ifa_scope == RT_SCOPE_LINK ||
ifa->ifa_index != ifi_src ||
ifa->ifa_flags & IFA_F_DEPRECATED)
continue;
ifa->ifa_index = ifi_dst;
/* Same as nl_addr_set(), but here it's more than a default */
ifa->ifa_flags |= IFA_F_NODAD;
for (rta = IFA_RTA(ifa), na = IFA_PAYLOAD(nh); RTA_OK(rta, na);
rta = RTA_NEXT(rta, na)) {
/* Strip label and expiry (cacheinfo) information */
if (rta->rta_type == IFA_LABEL ||
rta->rta_type == IFA_CACHEINFO)
rta->rta_type = IFA_UNSPEC;
/* If 32-bit flags are used, add IFA_F_NODAD there */
if (rta->rta_type == IFA_FLAGS)
*(uint32_t *)RTA_DATA(rta) |= IFA_F_NODAD;
}
rc = nl_do(s_dst, nh, RTM_NEWADDR,
(nh->nlmsg_flags & ~NLM_F_DUMP_FILTERED) | NLM_F_CREATE,
nh->nlmsg_len);
}
if (status < 0)
return status;
return rc;
}
/**
* nl_link_get_mac() - Get link MAC address
* @s: Netlink socket
* @ifi: Interface index
* @mac: Fill with current MAC address
*
* Return: 0 on success, negative error code on failure
*/
int nl_link_get_mac(int s, unsigned int ifi, void *mac)
{
struct req_t {
struct nlmsghdr nlh;
struct ifinfomsg ifm;
} req = {
.ifm.ifi_family = AF_UNSPEC,
.ifm.ifi_index = ifi,
};
struct nlmsghdr *nh;
char buf[NLBUFSIZ];
ssize_t status;
uint32_t seq;
seq = nl_send(s, &req, RTM_GETLINK, 0, sizeof(req));
nl_foreach_oftype(nh, status, s, buf, seq, RTM_NEWLINK) {
struct ifinfomsg *ifm = (struct ifinfomsg *)NLMSG_DATA(nh);
struct rtattr *rta;
size_t na;
for (rta = IFLA_RTA(ifm), na = RTM_PAYLOAD(nh);
RTA_OK(rta, na);
rta = RTA_NEXT(rta, na)) {
if (rta->rta_type != IFLA_ADDRESS)
continue;
memcpy(mac, RTA_DATA(rta), ETH_ALEN);
}
}
return status;
}
/**
* nl_link_set_mac() - Set link MAC address
* @s: Netlink socket
* @ns: Use netlink socket in namespace
* @ifi: Interface index
* @mac: MAC address to set
*
* Return: 0 on success, negative error code on failure
*/
int nl_link_set_mac(int s, unsigned int ifi, const void *mac)
{
struct req_t {
struct nlmsghdr nlh;
struct ifinfomsg ifm;
struct rtattr rta;
unsigned char mac[ETH_ALEN];
} req = {
.ifm.ifi_family = AF_UNSPEC,
.ifm.ifi_index = ifi,
.rta.rta_type = IFLA_ADDRESS,
.rta.rta_len = RTA_LENGTH(ETH_ALEN),
};
memcpy(req.mac, mac, ETH_ALEN);
return nl_do(s, &req, RTM_NEWLINK, 0, sizeof(req));
}
/**
* nl_link_set_mtu() - Set link MTU
* @s: Netlink socket
* @ifi: Interface index
* @mtu: Interface MTU
*
* Return: 0 on success, negative error code on failure
*/
int nl_link_set_mtu(int s, unsigned int ifi, int mtu)
{
struct req_t {
struct nlmsghdr nlh;
struct ifinfomsg ifm;
struct rtattr rta;
unsigned int mtu;
} req = {
.ifm.ifi_family = AF_UNSPEC,
.ifm.ifi_index = ifi,
.rta.rta_type = IFLA_MTU,
.rta.rta_len = RTA_LENGTH(sizeof(unsigned int)),
.mtu = mtu,
};
return nl_do(s, &req, RTM_NEWLINK, 0, sizeof(req));
}
/**
* nl_link_set_flags() - Set link flags
* @s: Netlink socket
* @ifi: Interface index
* @set: Device flags to set
* @change: Mask of device flag changes
*
* Return: 0 on success, negative error code on failure
*/
int nl_link_set_flags(int s, unsigned int ifi,
unsigned int set, unsigned int change)
{
struct req_t {
struct nlmsghdr nlh;
struct ifinfomsg ifm;
} req = {
.ifm.ifi_family = AF_UNSPEC,
.ifm.ifi_index = ifi,
.ifm.ifi_flags = set,
.ifm.ifi_change = change,
};
return nl_do(s, &req, RTM_NEWLINK, 0, sizeof(req));
}
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