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/* sntp.c - sntp client and server
*
* Copyright 2019 Rob Landley <rob@landley.net>
*
* See https://www.ietf.org/rfc/rfc4330.txt
modes: oneshot display, oneshot set, persist, serve, multi
verify source addr
serve time
- precision -6
- source LOCL
- copy source packet transmit to originate (5->3), 2=4=5
wait for multicast updates
uniclient: retry at poll interval
USE_SNTP(NEWTOY(sntp, "m:Sp:asdD[!as]", TOYFLAG_USR|TOYFLAG_BIN))
config SNTP
bool "sntp"
default n
help
usage: sntp [-saS] [-dD[-m ADDRESS] [-p PORT] [SERVER]
Simple Network Time Protocol client. Query SERVER and display time.
-p Use PORT (default 123)
-s Set system clock suddenly
-a Adjust system clock gradually
-S Serve time instead of querying (bind to SERVER address if specified)
-m Wait for updates from multicast ADDRESS (RFC 4330 says use 224.0.1.1)
-d Daemonize (run in background re-querying )
-D Daemonize but stay in foreground: re-query time every 1000 seconds
*/
#define FOR_sntp
#include "toys.h"
GLOBALS(
char *p, *m;
)
// Seconds from 1900 to 1970, including appropriate leap days
#define SEVENTIES 2208988800L
union socksaddr {
struct sockaddr_in in;
struct sockaddr_in6 in6;
};
// timeout in milliseconds
int xrecvwait(int fd, char *buf, int len, union socksaddr *sa, int timeout)
{
socklen_t sl = sizeof(*sa);
if (timeout >= 0) {
struct pollfd pfd;
pfd.fd = fd;
pfd.events = POLLIN;
if (!xpoll(&pfd, 1, timeout)) return 0;
}
len = recvfrom(fd, buf, len, 0, (void *)sa, &sl);
if (len<0) perror_exit("recvfrom");
return len;
}
// Get time and return ntptime (saving timespec in pointer if not null)
// NTP time is high 32 bits = seconds since 1970 (blame RFC 868), low 32 bits
// fraction of a second.
static unsigned long long lunchtime(struct timespec *television)
{
struct timespec tv;
clock_gettime(CLOCK_REALTIME, &tv);
if (television) *television = tv;
// Unix time is 1970 but RFCs 868 and 958 said 1900 so add seconds 1900->1970
// If they'd done a 34/30 bit split the Y2036 problem would be centuries
// from now and still give us nanosecond accuracy, but no...
return ((tv.tv_sec+SEVENTIES)<<32)+(((long long)tv.tv_nsec)<<32)/1000000000;
}
// convert ntptime back to struct timespec.
static void doublyso(unsigned long long now, struct timespec *tv)
{
// Y2036 fixup: if time wrapped, it's in the future
tv->tv_sec = (now>>32) + (1LL<<32)*!(now&(1LL<<63));
tv->tv_sec -= SEVENTIES; // Force signed math for Y2038 fixup
tv->tv_nsec = ((now&0xFFFFFFFF)*1000000000)>>32;
}
// return difference between two timespecs in nanosecs
static long long nanodiff(struct timespec *old, struct timespec *new)
{
return (new->tv_sec - old->tv_sec)*1000000000LL+(new->tv_nsec - old->tv_nsec);
}
// Adjust timespec by nanosecond offset
static void nanomove(struct timespec *ts, long long offset)
{
long long nano = ts->tv_nsec + offset, secs = nano/1000000000;
ts->tv_sec += secs;
nano %= 1000000000;
if (nano<0) {
ts->tv_sec--;
nano += 1000000000;
}
ts->tv_nsec = nano;
}
static void server_packet(char *buf, unsigned long long ref)
{
*buf = 0x24;
buf[1] = 3;
buf[2] = 10;
buf[3] = 253;
strcpy(buf+12, "LOCL");
pktime[3] = ref;
pktime[2] = pktime[4] = pktime[5] = newtime;
}
void sntp_main(void)
{
struct timespec tv, tv2;
unsigned long long *pktime = (void *)toybuf, now, then, before;
long long diff;
long diffsecs, diffnano;
struct addrinfo *ai;
union socksaddr sa;
int fd, tries = 0;
if (!(FLAG(S)||FLAG(m)) && !*toys.optargs)
error_exit("Need -Sm or SERVER address");
// Lookup address and open server or client UDP socket
if (!TT.p || !*TT.p) TT.p = "123";
ai = xgetaddrinfo(*toys.optargs, TT.p, AF_UNSPEC, SOCK_DGRAM, IPPROTO_UDP,
AI_PASSIVE*!*toys.optargs);
if (FLAG(d)) daemon(0,0);
// Act as server if necessary
if (FLAG(S)|FLAG(m)) {
fd = xbind(ai);
if (TT.m) {
struct ip_mreq group;
// subscribe to multicast group
memset(&group, 0, sizeof(group));
group.imr_multiaddr.s_addr = inet_addr(addr);
xsetsockopt(fd, IPPROTO_IP, IP_ADD_MEMBERSHIP, (void *)&group,
sizeof(group));
}
} else fd = xsocket(ai->ai_family, SOCK_DGRAM, IPPROTO_UDP);
// Sm - loop waiting for input
// Dd - loop polling with probe
// else poll 3 times
// if SmDd loop
for (;;) {
// Daemon mode isn't limited to 3 tries
if (FLAG(d) || FLAG(D)) {
then = retry_timeout;
} else if (++tries>3) break;
// Prepare outgoing NTP packet
memset(toybuf, 0, 48);
*toybuf = 0xe3; // li = 3 (unsynchronized), version = 4, mode = 3 (client)
toybuf[2] = 8; // poll frequency 1<<8 = 256 seconds
pktime[5] = SWAP_BE64(before = lunchtime(&tv));
// Send and ye shall receive
xsendto(fd, toybuf, 48, ai->ai_addr);
then = (now = millitime())+4000;
while (now<then) {
// TODO: confirm sa matches
if (48 == xrecvwait(fd, toybuf, sizeof(toybuf), &sa, then-now)) {
if (TT.m || pktime[3] == SWAP_BE64(before)) break;
}
now = millitime();
}
if (now < then) break;
}
lunchtime(&tv2);
// determine midpoint of packet transit time according to local clock
// (simple calculation: assume each direction took same time so midpoint
// is time reported by other clock)
diff = nanodiff(&tv, &tv2)/2;
nanomove(&tv, diff);
doublyso(SWAP_BE64(pktime[5]), &tv2);
diff = nanodiff(&tv, &tv2);
diffsecs = diff/1000000000;
diffnano = diff%1000000000;
if (FLAG(s)) {
clock_gettime(CLOCK_REALTIME, &tv);
nanomove(&tv, diff);
if (clock_settime(CLOCK_REALTIME, &tv)) perror_exit("clock_settime");
} else if (FLAG(a)) {
struct timeval tv = {diffsecs, diffnano/1000};
if (adjtime(&tv, 0)) perror_exit("adjtime");
} else {
format_iso_time(toybuf, sizeof(toybuf)-1, &tv2);
printf("%s offset %c%d.%09d secs\n", toybuf, (diff<0) ? '-' : '+',
abs(diffsecs), abs(diffnano));
}
}
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