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arping.c
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arping.c
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/*
* arping.c
*
* This program 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 of the License, or (at your option) any later version.
*
* Authors: Alexey Kuznetsov, <[email protected]>
* YOSHIFUJI Hideaki <[email protected]>
*/
#include <arpa/inet.h>
#include <errno.h>
#include <ifaddrs.h>
#include <linux/if_ether.h>
#include <linux/if_packet.h>
#include <linux/rtnetlink.h>
#include <netdb.h>
#include <net/if_arp.h>
#include <net/if.h>
#include <poll.h>
#include <signal.h>
#include <stddef.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/param.h>
#include <sys/signalfd.h>
#include <sys/timerfd.h>
#include <unistd.h>
#ifdef HAVE_LIBCAP
# include <sys/capability.h>
# include <sys/prctl.h>
#endif
#include "iputils_common.h"
#ifdef DEFAULT_DEVICE
# define DEFAULT_DEVICE_STR DEFAULT_DEVICE
#else
# define DEFAULT_DEVICE NULL
#endif
#define FINAL_PACKS 2
struct device {
char *name;
int ifindex;
struct ifaddrs *ifa;
};
struct run_state {
struct device device;
char *source;
struct ifaddrs *ifa0;
struct in_addr gsrc;
struct in_addr gdst;
int gdst_family;
char *target;
int count;
int timeout;
unsigned int interval;
int socketfd;
struct sockaddr_storage me;
struct sockaddr_storage he;
struct timespec start;
struct timespec last;
int sent;
int brd_sent;
int received;
int brd_recv;
int req_recv;
#ifdef HAVE_LIBCAP
cap_flag_value_t cap_raw;
#else
uid_t euid;
#endif
unsigned int
advert:1,
broadcast_only:1,
dad:1,
quiet:1,
quit_on_reply:1,
unicasting:1,
unsolicited:1;
};
#ifdef HAVE_LIBCAP
static const cap_value_t caps[] = { CAP_NET_RAW };
#endif
/*
* All includes, definitions, struct declarations, and global variables are
* above. After this comment all you can find is functions.
*/
__attribute__((const)) static inline size_t sll_len(const size_t halen)
{
const struct sockaddr_ll unused;
const size_t len = offsetof(struct sockaddr_ll, sll_addr) + halen;
if (len < sizeof(unused))
return sizeof(unused);
return len;
}
static void usage(void)
{
fprintf(stderr, _(
"\nUsage:\n"
" arping [options] <destination>\n"
"\nOptions:\n"
" -f quit on first reply\n"
" -q be quiet\n"
" -b keep on broadcasting, do not unicast\n"
" -D duplicate address detection mode\n"
" -U unsolicited ARP mode, update your neighbours\n"
" -A ARP answer mode, update your neighbours\n"
" -V print version and exit\n"
" -c <count> how many packets to send\n"
" -w <timeout> how long to wait for a reply\n"
" -i <interval> set interval between packets (default: 1 second)\n"
" -I <device> which ethernet device to use"
));
#ifdef DEFAULT_DEVICE_STR
fprintf(stderr, "(" DEFAULT_DEVICE_STR ")");
#endif
fprintf(stderr, _(
"\n"
" -s <source> source ip address\n"
" <destination> dns name or ip address\n"
"\nFor more details see arping(8).\n"
));
exit(2);
}
#ifdef HAVE_LIBCAP
static void limit_capabilities(struct run_state *ctl)
{
cap_t cap_p;
cap_p = cap_get_proc();
if (!cap_p)
error(-1, errno, "cap_get_proc");
cap_get_flag(cap_p, CAP_NET_RAW, CAP_PERMITTED, &ctl->cap_raw);
if (ctl->cap_raw != CAP_CLEAR) {
if (cap_clear(cap_p) < 0)
error(-1, errno, "cap_clear");
cap_set_flag(cap_p, CAP_PERMITTED, 1, caps, CAP_SET);
if (cap_set_proc(cap_p) < 0) {
error(0, errno, "cap_set_proc");
if (errno != EPERM)
exit(-1);
}
}
if (prctl(PR_SET_KEEPCAPS, 1) < 0)
error(-1, errno, "prctl");
if (setuid(getuid()) < 0)
error(-1, errno, "setuid");
if (prctl(PR_SET_KEEPCAPS, 0) < 0)
error(-1, errno, "prctl");
cap_free(cap_p);
}
static int modify_capability_raw(struct run_state *ctl, int on)
{
cap_t cap_p;
if (ctl->cap_raw != CAP_SET)
return on ? -1 : 0;
cap_p = cap_get_proc();
if (!cap_p)
error(-1, errno, "cap_get_proc");
cap_set_flag(cap_p, CAP_EFFECTIVE, 1, caps, on ? CAP_SET : CAP_CLEAR);
if (cap_set_proc(cap_p) < 0)
error(-1, errno, "cap_set_proc");
cap_free(cap_p);
return 0;
}
static void drop_capabilities(void)
{
cap_t cap_p = cap_init();
if (!cap_p)
error(-1, errno, "cap_init");
if (cap_set_proc(cap_p) < 0)
error(-1, errno, "cap_set_proc");
cap_free(cap_p);
}
#else /* HAVE_LIBCAP */
static void limit_capabilities(struct run_state *ctl)
{
ctl->euid = geteuid();
}
static int modify_capability_raw(struct run_state *ctl, int on)
{
if (setuid(on ? ctl->euid : getuid()))
error(-1, errno, "setuid");
return 0;
}
static void drop_capabilities(void)
{
if (setuid(getuid()) < 0)
error(-1, errno, "setuid");
}
#endif /* HAVE_LIBCAP */
static inline int enable_capability_raw(struct run_state *ctl)
{
return modify_capability_raw(ctl, 1);
}
static inline int disable_capability_raw(struct run_state *ctl)
{
return modify_capability_raw(ctl, 0);
}
static int send_pack(struct run_state *ctl)
{
int err;
struct timespec now;
unsigned char buf[256];
struct arphdr *ah = (struct arphdr *)buf;
unsigned char *p = (unsigned char *)(ah + 1);
struct sockaddr_ll *ME = (struct sockaddr_ll *)&(ctl->me);
struct sockaddr_ll *HE = (struct sockaddr_ll *)&(ctl->he);
ah->ar_hrd = htons(ME->sll_hatype);
if (ah->ar_hrd == htons(ARPHRD_FDDI))
ah->ar_hrd = htons(ARPHRD_ETHER);
ah->ar_pro = htons(ETH_P_IP);
ah->ar_hln = ME->sll_halen;
ah->ar_pln = 4;
ah->ar_op = ctl->advert ? htons(ARPOP_REPLY) : htons(ARPOP_REQUEST);
memcpy(p, &ME->sll_addr, ah->ar_hln);
p += ME->sll_halen;
memcpy(p, &ctl->gsrc, 4);
p += 4;
if (ctl->advert)
memcpy(p, &ME->sll_addr, ah->ar_hln);
else
memcpy(p, &HE->sll_addr, ah->ar_hln);
p += ah->ar_hln;
memcpy(p, &ctl->gdst, 4);
p += 4;
clock_gettime(CLOCK_MONOTONIC, &now);
err = sendto(ctl->socketfd, buf, p - buf, 0, (struct sockaddr *)HE, sll_len(ah->ar_hln));
if (err == p - buf) {
ctl->last = now;
ctl->sent++;
if (!ctl->unicasting)
ctl->brd_sent++;
}
return err;
}
static int finish(struct run_state *ctl)
{
if (!ctl->quiet) {
printf(_("Sent %d probes (%d broadcast(s))\n"), ctl->sent, ctl->brd_sent);
printf(_("Received %d response(s)"), ctl->received);
if (ctl->brd_recv || ctl->req_recv) {
printf(" (");
if (ctl->req_recv)
printf(_("%d request(s)"), ctl->req_recv);
if (ctl->brd_recv)
printf(_("%s%d broadcast(s)"),
ctl->req_recv ? ", " : "",
ctl->brd_recv);
printf(")");
}
printf("\n");
fflush(stdout);
}
if (ctl->dad)
return (!!ctl->received);
if (ctl->unsolicited)
return 0;
return (!ctl->received);
}
static void print_hex(unsigned char *p, int len)
{
int i;
for (i = 0; i < len; i++) {
printf("%02X", p[i]);
if (i != len - 1)
printf(":");
}
}
static int recv_pack(struct run_state *ctl, unsigned char *buf, ssize_t len,
struct sockaddr_ll *FROM)
{
struct timespec ts;
struct arphdr *ah = (struct arphdr *)buf;
unsigned char *p = (unsigned char *)(ah + 1);
struct in_addr src_ip, dst_ip;
clock_gettime(CLOCK_MONOTONIC, &ts);
/* Filter out wild packets */
if (FROM->sll_pkttype != PACKET_HOST &&
FROM->sll_pkttype != PACKET_BROADCAST &&
FROM->sll_pkttype != PACKET_MULTICAST)
return 0;
/* Only these types are recognised */
if (ah->ar_op != htons(ARPOP_REQUEST) &&
ah->ar_op != htons(ARPOP_REPLY))
return 0;
/* ARPHRD check and this darned FDDI hack here :-( */
if (ah->ar_hrd != htons(FROM->sll_hatype) &&
(FROM->sll_hatype != ARPHRD_FDDI || ah->ar_hrd != htons(ARPHRD_ETHER)))
return 0;
/* Protocol must be IP. */
if (ah->ar_pro != htons(ETH_P_IP))
return 0;
if (ah->ar_pln != 4)
return 0;
if (ah->ar_hln != ((struct sockaddr_ll *)&ctl->me)->sll_halen)
return 0;
if (len < (ssize_t) sizeof(*ah) + 2 * (4 + ah->ar_hln))
return 0;
memcpy(&src_ip, p + ah->ar_hln, 4);
memcpy(&dst_ip, p + ah->ar_hln + 4 + ah->ar_hln, 4);
if (!ctl->dad) {
if (src_ip.s_addr != ctl->gdst.s_addr)
return 0;
if (ctl->gsrc.s_addr != dst_ip.s_addr)
return 0;
if (memcmp(p + ah->ar_hln + 4, ((struct sockaddr_ll *)&ctl->me)->sll_addr, ah->ar_hln))
return 0;
} else {
/*
* DAD packet was:
* src_ip = 0 (or some src)
* src_hw = ME
* dst_ip = tested address
* dst_hw = <unspec>
*
* We fail, if receive request/reply with:
* src_ip = tested_address
* src_hw != ME
* if src_ip in request was not zero, check
* also that it matches to dst_ip, otherwise
* dst_ip/dst_hw do not matter.
*/
if (src_ip.s_addr != ctl->gdst.s_addr)
return 0;
if (memcmp(p, ((struct sockaddr_ll *)&ctl->me)->sll_addr,
((struct sockaddr_ll *)&ctl->me)->sll_halen) == 0)
return 0;
if (ctl->gsrc.s_addr && ctl->gsrc.s_addr != dst_ip.s_addr)
return 0;
}
if (!ctl->quiet) {
int s_printed = 0;
printf("%s ", FROM->sll_pkttype == PACKET_HOST ? _("Unicast") : _("Broadcast"));
printf(_("%s from "), ah->ar_op == htons(ARPOP_REPLY) ? _("reply") : _("request"));
printf("%s [", inet_ntoa(src_ip));
print_hex(p, ah->ar_hln);
printf("] ");
if (dst_ip.s_addr != ctl->gsrc.s_addr) {
printf(_("for %s "), inet_ntoa(dst_ip));
s_printed = 1;
}
if (memcmp(p + ah->ar_hln + 4, ((struct sockaddr_ll *)&ctl->me)->sll_addr, ah->ar_hln)) {
if (!s_printed)
printf(_("for "));
printf("[");
print_hex(p + ah->ar_hln + 4, ah->ar_hln);
printf("]");
}
if (ctl->last.tv_sec) {
long usecs = (ts.tv_sec - ctl->last.tv_sec) * 1000000 +
(ts.tv_nsec - ctl->last.tv_nsec + 500) / 1000;
long msecs = (usecs + 500) / 1000;
usecs -= msecs * 1000 - 500;
printf(_(" %ld.%03ldms\n"), msecs, usecs);
} else {
printf(_(" UNSOLICITED?\n"));
}
fflush(stdout);
}
ctl->received++;
if (ctl->timeout && (ctl->received == ctl->count))
return FINAL_PACKS;
if (FROM->sll_pkttype != PACKET_HOST)
ctl->brd_recv++;
if (ah->ar_op == htons(ARPOP_REQUEST))
ctl->req_recv++;
if (ctl->quit_on_reply || (ctl->count == 0 && ctl->received == ctl->sent))
return FINAL_PACKS;
if (!ctl->broadcast_only) {
memcpy(((struct sockaddr_ll *)&ctl->he)->sll_addr, p,
((struct sockaddr_ll *)&ctl->me)->sll_halen);
ctl->unicasting = 1;
}
return 1;
}
static int outgoing_device(struct run_state *const ctl, struct nlmsghdr *nh)
{
struct rtmsg *rm = NLMSG_DATA(nh);
size_t len = RTM_PAYLOAD(nh);
struct rtattr *ra;
if (nh->nlmsg_type != RTM_NEWROUTE) {
error(0, 0, "NETLINK new route message type");
return 1;
}
for (ra = RTM_RTA(rm); RTA_OK(ra, (unsigned short)len); ra = RTA_NEXT(ra, len)) {
if (ra->rta_type == RTA_OIF) {
int *oif = RTA_DATA(ra);
static char dev_name[IF_NAMESIZE];
ctl->device.ifindex = *oif;
if (!if_indextoname(ctl->device.ifindex, dev_name)) {
error(0, errno, "if_indextoname failed");
return 1;
}
ctl->device.name = dev_name;
}
}
return 0;
}
static void netlink_query(struct run_state *const ctl, const int flags,
const int type, void const *const arg, size_t len)
{
const size_t buffer_size = 4096;
int fd;
static uint32_t seq;
struct msghdr mh = { 0 };
struct sockaddr_nl sa = {.nl_family = AF_NETLINK };
struct nlmsghdr *nh, *unmodified_nh;
struct iovec iov;
ssize_t msg_len;
int ret = 1;
mh.msg_name = (void *)&sa;
mh.msg_namelen = sizeof(sa);
mh.msg_iov = &iov;
mh.msg_iovlen = 1;
unmodified_nh = nh = calloc(1, buffer_size);
if (!nh)
error(1, errno, "allocating %zu bytes failed", buffer_size);
nh->nlmsg_len = NLMSG_LENGTH(len);
nh->nlmsg_flags = flags;
nh->nlmsg_type = type;
nh->nlmsg_seq = ++seq;
memcpy(NLMSG_DATA(nh), arg, len);
iov.iov_base = nh;
iov.iov_len = buffer_size;
fd = socket(PF_NETLINK, SOCK_RAW, NETLINK_ROUTE);
if (fd < 0) {
error(0, errno, "NETLINK_ROUTE socket failed");
goto fail;
}
if (sendmsg(fd, &mh, 0) < 0) {
error(0, errno, "NETLINK_ROUTE socket failed");
goto fail;
}
do {
msg_len = recvmsg(fd, &mh, 0);
} while (msg_len < 0 && errno == EINTR);
for (nh = iov.iov_base; NLMSG_OK(nh, msg_len); nh = NLMSG_NEXT(nh, msg_len)) {
if (nh->nlmsg_seq != seq)
continue;
switch (nh->nlmsg_type) {
case NLMSG_ERROR:
case NLMSG_OVERRUN:
errno = EIO;
error(0, 0, "NETLINK_ROUTE unexpected iov element");
goto fail;
case NLMSG_DONE:
ret = 0;
break;
default:
ret = outgoing_device(ctl, nh);
break;
}
}
fail:
free(unmodified_nh);
if (0 <= fd)
close(fd);
if (ret)
exit(1);
}
static void guess_device(struct run_state *const ctl)
{
size_t addr_len, len;
struct {
struct rtmsg rm;
struct rtattr ra;
char addr[16];
} query = { {0}, {0}, {0} };
switch (ctl->gdst_family) {
case AF_INET:
addr_len = 4;
break;
case AF_INET6:
addr_len = 16;
break;
default:
error(1, 0, "unknown address family, please, use option -I.");
abort();
}
query.rm.rtm_family = ctl->gdst_family;
query.ra.rta_len = RTA_LENGTH(addr_len);
query.ra.rta_type = RTA_DST;
memcpy(RTA_DATA(&query.ra), &ctl->gdst, addr_len);
len = NLMSG_ALIGN(sizeof(struct rtmsg)) + RTA_LENGTH(addr_len);
netlink_query(ctl, NLM_F_REQUEST, RTM_GETROUTE, &query, len);
}
/* Common check for ifa->ifa_flags */
static int check_ifflags(struct run_state const *const ctl, unsigned int ifflags)
{
if (!(ifflags & IFF_UP)) {
if (ctl->device.name != NULL) {
if (!ctl->quiet)
printf(_("Interface \"%s\" is down\n"), ctl->device.name);
exit(2);
}
return -1;
}
if (ifflags & (IFF_NOARP | IFF_LOOPBACK)) {
if (ctl->device.name != NULL) {
if (!ctl->quiet)
printf(_("Interface \"%s\" is not ARPable\n"), ctl->device.name);
exit(ctl->dad ? 0 : 2);
}
return -1;
}
return 0;
}
/*
* check_device()
*
* This function checks 1) if the device (if given) is okay for ARP,
* or 2) find fist appropriate device on the system.
*
* Return value:
* >0 : Succeeded, and appropriate device not found.
* device.ifindex remains 0.
* 0 : Succeeded, and appropriate device found.
* device.ifindex is set.
* <0 : Failed. Support not found, or other
* : system error.
*
* If an appropriate device found, it is recorded inside the
* "device" variable for later reference.
*
*/
static int check_device(struct run_state *ctl)
{
int rc;
struct ifaddrs *ifa;
int n = 0;
rc = getifaddrs(&ctl->ifa0);
if (rc) {
error(0, errno, "getifaddrs");
return -1;
}
for (ifa = ctl->ifa0; ifa; ifa = ifa->ifa_next) {
if (!ifa->ifa_addr)
continue;
if (ifa->ifa_addr->sa_family != AF_PACKET)
continue;
if (ctl->device.name && ifa->ifa_name && strcmp(ifa->ifa_name, ctl->device.name))
continue;
if (check_ifflags(ctl, ifa->ifa_flags) < 0)
continue;
if (!((struct sockaddr_ll *)ifa->ifa_addr)->sll_halen)
continue;
if (!ifa->ifa_broadaddr)
continue;
ctl->device.ifa = ifa;
if (n++)
break;
}
if (n == 1 && ctl->device.ifa) {
ctl->device.ifindex = if_nametoindex(ctl->device.ifa->ifa_name);
if (!ctl->device.ifindex) {
error(0, errno, "if_nametoindex");
freeifaddrs(ctl->ifa0);
return -1;
}
ctl->device.name = ctl->device.ifa->ifa_name;
return 0;
}
return 1;
}
/*
* find_broadcast_address()
*
* This fills the device "broadcast address"
* based on information found by check_device() function.
*/
static void find_broadcast_address(struct run_state *ctl)
{
struct sockaddr_ll *he = (struct sockaddr_ll *)&(ctl->he);
if (ctl->device.ifa) {
struct sockaddr_ll *sll =
(struct sockaddr_ll *)ctl->device.ifa->ifa_broadaddr;
if (sll->sll_halen == he->sll_halen) {
memcpy(he->sll_addr, sll->sll_addr, he->sll_halen);
return;
}
}
if (!ctl->quiet)
fprintf(stderr, _("WARNING: using default broadcast address.\n"));
memset(he->sll_addr, -1, he->sll_halen);
}
static int event_loop(struct run_state *ctl)
{
int exit_loop = 0, rc = 0;
ssize_t s;
enum {
POLLFD_SIGNAL = 0,
POLLFD_TIMER,
POLLFD_TIMEOUT,
POLLFD_SOCKET,
POLLFD_COUNT
};
struct pollfd pfds[POLLFD_COUNT];
sigset_t mask;
int sfd;
struct signalfd_siginfo sigval;
int tfd;
struct itimerspec timerfd_vals = {
.it_interval.tv_sec = ctl->interval,
.it_interval.tv_nsec = 0,
.it_value.tv_sec = ctl->interval,
.it_value.tv_nsec = 0
};
int timeoutfd;
struct itimerspec timeoutfd_vals = {
.it_interval.tv_sec = ctl->timeout,
.it_interval.tv_nsec = 0,
.it_value.tv_sec = ctl->timeout,
.it_value.tv_nsec = 0
};
uint64_t exp, total_expires = 1;
unsigned char packet[4096];
struct sockaddr_storage from;
memset(&from, 0, sizeof(from));
socklen_t addr_len = sizeof(from);
/* signalfd */
sigemptyset(&mask);
sigaddset(&mask, SIGINT);
sigaddset(&mask, SIGQUIT);
sigaddset(&mask, SIGTERM);
if (sigprocmask(SIG_BLOCK, &mask, NULL) == -1) {
error(0, errno, "sigprocmask failed");
return 1;
}
sfd = signalfd(-1, &mask, 0);
if (sfd == -1) {
error(0, errno, "signalfd");
return 1;
}
pfds[POLLFD_SIGNAL].fd = sfd;
pfds[POLLFD_SIGNAL].events = POLLIN | POLLERR | POLLHUP;
/* interval timerfd */
tfd = timerfd_create(CLOCK_MONOTONIC, 0);
if (tfd == -1) {
error(0, errno, "timerfd_create failed");
return 1;
}
if (timerfd_settime(tfd, 0, &timerfd_vals, NULL)) {
error(0, errno, "timerfd_settime failed");
return 1;
}
pfds[POLLFD_TIMER].fd = tfd;
pfds[POLLFD_TIMER].events = POLLIN | POLLERR | POLLHUP;
/* timeout timerfd */
timeoutfd = timerfd_create(CLOCK_MONOTONIC, 0);
if (tfd == -1) {
error(0, errno, "timerfd_create failed");
return 1;
}
if (timerfd_settime(timeoutfd, 0, &timeoutfd_vals, NULL)) {
error(0, errno, "timerfd_settime failed");
return 1;
}
pfds[POLLFD_TIMEOUT].fd = timeoutfd;
pfds[POLLFD_TIMEOUT].events = POLLIN | POLLERR | POLLHUP;
/* socket */
pfds[POLLFD_SOCKET].fd = ctl->socketfd;
pfds[POLLFD_SOCKET].events = POLLIN | POLLERR | POLLHUP;
send_pack(ctl);
while (!exit_loop) {
int ret;
size_t i;
ret = poll(pfds, POLLFD_COUNT, -1);
if (ret <= 0) {
if (errno == EAGAIN)
continue;
if (errno)
error(0, errno, "poll failed");
exit_loop = 1;
continue;
}
for (i = 0; i < POLLFD_COUNT; i++) {
if (pfds[i].revents == 0)
continue;
switch (i) {
case POLLFD_SIGNAL:
s = read(sfd, &sigval, sizeof(struct signalfd_siginfo));
if (s != sizeof(struct signalfd_siginfo)) {
error(0, errno, "could not read signalfd");
continue;
}
if (sigval.ssi_signo == SIGINT || sigval.ssi_signo == SIGQUIT ||
sigval.ssi_signo == SIGTERM)
exit_loop = 1;
else
error(0, errno, "unexpected signal: %d", sigval.ssi_signo);
break;
case POLLFD_TIMER:
s = read(tfd, &exp, sizeof(uint64_t));
if (s != sizeof(uint64_t)) {
error(0, errno, "could not read timerfd");
continue;
}
total_expires += exp;
if (0 < ctl->count && (uint64_t)ctl->count < total_expires) {
exit_loop = 1;
continue;
}
send_pack(ctl);
break;
case POLLFD_TIMEOUT:
exit_loop = 1;
break;
case POLLFD_SOCKET:
if ((s =
recvfrom(ctl->socketfd, packet, sizeof(packet), 0,
(struct sockaddr *)&from, &addr_len)) < 0) {
error(0, errno, "recvfrom");
if (errno == ENETDOWN)
rc = 2;
continue;
}
if (recv_pack
(ctl, packet, s, (struct sockaddr_ll *)&from) == FINAL_PACKS)
exit_loop = 1;
break;
default:
abort();
}
}
}
close(sfd);
close(tfd);
freeifaddrs(ctl->ifa0);
rc |= finish(ctl);
if (ctl->unsolicited)
/* nothing */;
else if (ctl->dad && ctl->quit_on_reply)
/* Duplicate address detection mode return value */
rc |= !(ctl->brd_sent != ctl->received);
else
rc |= (ctl->sent != ctl->received);
return rc;
}
int main(int argc, char **argv)
{
struct run_state ctl = {
.device = { .name = DEFAULT_DEVICE },
.count = -1,
.interval = 1,
#ifdef HAVE_LIBCAP
.cap_raw = CAP_CLEAR,
#endif
0
};
int ch;
atexit(close_stdout);
limit_capabilities(&ctl);
#if defined(USE_IDN) || defined(ENABLE_NLS)
setlocale(LC_ALL, "");
#ifdef ENABLE_NLS
bindtextdomain (PACKAGE_NAME, LOCALEDIR);
textdomain (PACKAGE_NAME);
#endif
#endif
while ((ch = getopt(argc, argv, "h?bfDUAqc:w:i:s:I:V")) != EOF) {
switch (ch) {
case 'b':
ctl.broadcast_only = 1;
break;
case 'D':
ctl.dad = 1;
ctl.quit_on_reply = 1;
break;
case 'U':
ctl.unsolicited = 1;
break;
case 'A':
ctl.advert = 1;
ctl.unsolicited = 1;
break;
case 'q':
ctl.quiet = 1;
break;
case 'c':
ctl.count = strtol_or_err(optarg, _("invalid argument"), 1, INT_MAX);
break;
case 'w':
ctl.timeout = strtol_or_err(optarg, _("invalid argument"), 0, INT_MAX);
break;
case 'i':
ctl.interval = strtol_or_err(optarg, _("invalid argument"), 0, INT_MAX);
break;
case 'I':
ctl.device.name = optarg;
break;
case 'f':
ctl.quit_on_reply = 1;
break;
case 's':
ctl.source = optarg;
break;
case 'V':
printf(IPUTILS_VERSION("arping"));
exit(0);
case 'h':
case '?':
default:
usage();
}
}
argc -= optind;
argv += optind;
if (argc != 1)
usage();
enable_capability_raw(&ctl);
ctl.socketfd = socket(PF_PACKET, SOCK_DGRAM, 0);
if (ctl.socketfd < 0)
error(2, errno, "socket");
disable_capability_raw(&ctl);
ctl.target = *argv;
if (ctl.device.name && !*ctl.device.name)
ctl.device.name = NULL;
if (inet_aton(ctl.target, &ctl.gdst) != 1) {
struct addrinfo hints = {
.ai_family = AF_INET,
.ai_socktype = SOCK_RAW,
#ifdef USE_IDN
.ai_flags = AI_IDN | AI_CANONIDN
#endif
};
struct addrinfo *result;
int status;
status = getaddrinfo(ctl.target, NULL, &hints, &result);
if (status)
error(2, 0, "%s: %s", ctl.target, gai_strerror(status));
memcpy(&ctl.gdst, &((struct sockaddr_in *)result->ai_addr)->sin_addr, sizeof ctl.gdst);
ctl.gdst_family = result->ai_family;
freeaddrinfo(result);
} else
ctl.gdst_family = AF_INET;
if (!ctl.device.name)
guess_device(&ctl);
if (check_device(&ctl) < 0)
exit(2);
if (!ctl.device.ifindex) {
if (ctl.device.name)
error(2, 0, _("Device %s not available."), ctl.device.name);
error(0, 0, _("Suitable device could not be determined. Please, use option -I."));
}
if (ctl.source && inet_aton(ctl.source, &ctl.gsrc) != 1)
error(2, 0, "invalid source %s", ctl.source);
if (!ctl.dad && ctl.unsolicited && ctl.source == NULL)
ctl.gsrc = ctl.gdst;
if (!ctl.dad || ctl.source) {
struct sockaddr_in saddr;
int probe_fd = socket(AF_INET, SOCK_DGRAM, 0);
if (probe_fd < 0)
error(2, errno, "socket");
if (ctl.device.name) {
enable_capability_raw(&ctl);
if (setsockopt(probe_fd, SOL_SOCKET, SO_BINDTODEVICE, ctl.device.name,
strlen(ctl.device.name) + 1) == -1)
error(0, errno, _("WARNING: interface is ignored"));
disable_capability_raw(&ctl);
}
memset(&saddr, 0, sizeof(saddr));
saddr.sin_family = AF_INET;
if (!ctl.unsolicited && (ctl.source || ctl.gsrc.s_addr)) {
saddr.sin_addr = ctl.gsrc;
if (bind(probe_fd, (struct sockaddr *)&saddr, sizeof(saddr)) == -1)
error(2, errno, "bind");
} else if (!ctl.dad) {
int on = 1;
socklen_t alen = sizeof(saddr);
saddr.sin_port = htons(1025);
saddr.sin_addr = ctl.gdst;
if (setsockopt(probe_fd, SOL_SOCKET, SO_DONTROUTE, (char *)&on, sizeof(on)) == -1)
error(0, errno, _("WARNING: setsockopt(SO_DONTROUTE)"));
if (connect(probe_fd, (struct sockaddr *)&saddr, sizeof(saddr)) == -1)
error(2, errno, "connect");
if (getsockname(probe_fd, (struct sockaddr *)&saddr, &alen) == -1)
error(2, errno, "getsockname");
ctl.gsrc = saddr.sin_addr;
}
close(probe_fd);
};
((struct sockaddr_ll *)&ctl.me)->sll_family = AF_PACKET;
((struct sockaddr_ll *)&ctl.me)->sll_ifindex = ctl.device.ifindex;
((struct sockaddr_ll *)&ctl.me)->sll_protocol = htons(ETH_P_ARP);
if (bind(ctl.socketfd, (struct sockaddr *)&ctl.me, sizeof(ctl.me)) == -1)
error(2, errno, "bind");
{
socklen_t alen = sizeof(ctl.me);