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* NTP client/server, based on OpenNTPD 3.9p1
*
* Author: Adam Tkac <vonsch@gmail.com>
*
* Licensed under GPLv2, see file LICENSE in this source tree.
*/
#include "libbb.h"
#include <netinet/ip.h> /* For IPTOS_LOWDELAY definition */
#include <sys/resource.h> /* setpriority */
#ifndef IPTOS_LOWDELAY
# define IPTOS_LOWDELAY 0x10
#endif
#ifndef IP_PKTINFO
# error "Sorry, your kernel has to support IP_PKTINFO"
#endif
/* Sync to peers every N secs */
#define INTERVAL_QUERY_NORMAL 30
#define INTERVAL_QUERY_PATHETIC 60
#define INTERVAL_QUERY_AGRESSIVE 5
/* Bad if *less than* TRUSTLEVEL_BADPEER */
#define TRUSTLEVEL_BADPEER 6
#define TRUSTLEVEL_PATHETIC 2
#define TRUSTLEVEL_AGRESSIVE 8
#define TRUSTLEVEL_MAX 10
#define QSCALE_OFF_MIN 0.05
#define QSCALE_OFF_MAX 0.50
/* Single query might take N secs max */
#define QUERYTIME_MAX 15
/* Min offset for settime at start. "man ntpd" says it's 128 ms */
#define STEPTIME_MIN_OFFSET 0.128
typedef struct {
uint32_t int_partl;
uint32_t fractionl;
} l_fixedpt_t;
typedef struct {
uint16_t int_parts;
uint16_t fractions;
} s_fixedpt_t;
enum {
NTP_DIGESTSIZE = 16,
NTP_MSGSIZE_NOAUTH = 48,
NTP_MSGSIZE = (NTP_MSGSIZE_NOAUTH + 4 + NTP_DIGESTSIZE),
};
typedef struct {
uint8_t m_status; /* status of local clock and leap info */
uint8_t m_stratum; /* stratum level */
uint8_t m_ppoll; /* poll value */
int8_t m_precision_exp;
s_fixedpt_t m_rootdelay;
s_fixedpt_t m_dispersion;
uint32_t m_refid;
l_fixedpt_t m_reftime;
l_fixedpt_t m_orgtime;
l_fixedpt_t m_rectime;
l_fixedpt_t m_xmttime;
uint32_t m_keyid;
uint8_t m_digest[NTP_DIGESTSIZE];
} msg_t;
enum {
NTP_VERSION = 4,
NTP_MAXSTRATUM = 15,
/* Status Masks */
MODE_MASK = (7 << 0),
VERSION_MASK = (7 << 3),
VERSION_SHIFT = 3,
LI_MASK = (3 << 6),
/* Leap Second Codes (high order two bits of m_status) */
LI_NOWARNING = (0 << 6), /* no warning */
LI_PLUSSEC = (1 << 6), /* add a second (61 seconds) */
LI_MINUSSEC = (2 << 6), /* minus a second (59 seconds) */
LI_ALARM = (3 << 6), /* alarm condition */
/* Mode values */
MODE_RES0 = 0, /* reserved */
MODE_SYM_ACT = 1, /* symmetric active */
MODE_SYM_PAS = 2, /* symmetric passive */
MODE_CLIENT = 3, /* client */
MODE_SERVER = 4, /* server */
MODE_BROADCAST = 5, /* broadcast */
MODE_RES1 = 6, /* reserved for NTP control message */
MODE_RES2 = 7, /* reserved for private use */
};
#define OFFSET_1900_1970 2208988800UL /* 1970 - 1900 in seconds */
typedef struct {
double d_offset;
double d_delay;
//UNUSED: double d_error;
time_t d_rcv_time;
uint32_t d_refid4;
uint8_t d_leap;
uint8_t d_stratum;
uint8_t d_good;
} datapoint_t;
#define NUM_DATAPOINTS 8
typedef struct {
len_and_sockaddr *p_lsa;
char *p_dotted;
/* When to send new query (if p_fd == -1)
* or when receive times out (if p_fd >= 0): */
time_t next_action_time;
int p_fd;
uint8_t p_datapoint_idx;
uint8_t p_trustlevel;
double p_xmttime;
datapoint_t update;
datapoint_t p_datapoint[NUM_DATAPOINTS];
msg_t p_xmt_msg;
} peer_t;
enum {
OPT_n = (1 << 0),
OPT_q = (1 << 1),
OPT_N = (1 << 2),
OPT_x = (1 << 3),
/* Insert new options above this line. */
/* Non-compat options: */
OPT_p = (1 << 4),
OPT_l = (1 << 5) * ENABLE_FEATURE_NTPD_SERVER,
};
struct globals {
/* total round trip delay to currently selected reference clock */
double rootdelay;
/* reference timestamp: time when the system clock was last set or corrected */
double reftime;
llist_t *ntp_peers;
#if ENABLE_FEATURE_NTPD_SERVER
int listen_fd;
#endif
unsigned verbose;
unsigned peer_cnt;
unsigned scale;
uint32_t refid;
uint32_t refid4;
uint8_t synced;
uint8_t leap;
#define G_precision_exp -6
// int8_t precision_exp;
uint8_t stratum;
uint8_t time_was_stepped;
uint8_t first_adj_done;
};
#define G (*ptr_to_globals)
static const int const_IPTOS_LOWDELAY = IPTOS_LOWDELAY;
static void
set_next(peer_t *p, unsigned t)
{
p->next_action_time = time(NULL) + t;
}
static void
add_peers(char *s)
{
peer_t *p;
p = xzalloc(sizeof(*p));
p->p_lsa = xhost2sockaddr(s, 123);
p->p_dotted = xmalloc_sockaddr2dotted_noport(&p->p_lsa->u.sa);
p->p_fd = -1;
p->p_xmt_msg.m_status = MODE_CLIENT | (NTP_VERSION << 3);
p->p_trustlevel = TRUSTLEVEL_PATHETIC;
p->next_action_time = time(NULL); /* = set_next(p, 0); */
llist_add_to(&G.ntp_peers, p);
G.peer_cnt++;
}
static double
gettime1900d(void)
{
struct timeval tv;
gettimeofday(&tv, NULL); /* never fails */
return (tv.tv_sec + 1.0e-6 * tv.tv_usec + OFFSET_1900_1970);
}
static void
d_to_tv(double d, struct timeval *tv)
{
tv->tv_sec = (long)d;
tv->tv_usec = (d - tv->tv_sec) * 1000000;
}
static double
lfp_to_d(l_fixedpt_t lfp)
{
double ret;
lfp.int_partl = ntohl(lfp.int_partl);
lfp.fractionl = ntohl(lfp.fractionl);
ret = (double)lfp.int_partl + ((double)lfp.fractionl / UINT_MAX);
return ret;
}
#if 0 //UNUSED
static double
sfp_to_d(s_fixedpt_t sfp)
{
double ret;
sfp.int_parts = ntohs(sfp.int_parts);
sfp.fractions = ntohs(sfp.fractions);
ret = (double)sfp.int_parts + ((double)sfp.fractions / USHRT_MAX);
return ret;
}
#endif
#if ENABLE_FEATURE_NTPD_SERVER
static l_fixedpt_t
d_to_lfp(double d)
{
l_fixedpt_t lfp;
lfp.int_partl = (uint32_t)d;
lfp.fractionl = (uint32_t)((d - lfp.int_partl) * UINT_MAX);
lfp.int_partl = htonl(lfp.int_partl);
lfp.fractionl = htonl(lfp.fractionl);
return lfp;
}
static s_fixedpt_t
d_to_sfp(double d)
{
s_fixedpt_t sfp;
sfp.int_parts = (uint16_t)d;
sfp.fractions = (uint16_t)((d - sfp.int_parts) * USHRT_MAX);
sfp.int_parts = htons(sfp.int_parts);
sfp.fractions = htons(sfp.fractions);
return sfp;
}
#endif
static unsigned
error_interval(void)
{
unsigned interval, r;
interval = INTERVAL_QUERY_PATHETIC * QSCALE_OFF_MAX / QSCALE_OFF_MIN;
r = (unsigned)random() % (unsigned)(interval / 10);
return (interval + r);
}
static int
do_sendto(int fd,
const struct sockaddr *from, const struct sockaddr *to, socklen_t addrlen,
msg_t *msg, ssize_t len)
{
ssize_t ret;
errno = 0;
if (!from) {
ret = sendto(fd, msg, len, MSG_DONTWAIT, to, addrlen);
} else {
ret = send_to_from(fd, msg, len, MSG_DONTWAIT, to, from, addrlen);
}
if (ret != len) {
bb_perror_msg("send failed");
return -1;
}
return 0;
}
static int
send_query_to_peer(peer_t *p)
{
// Why do we need to bind()?
// See what happens when we don't bind:
//
// socket(PF_INET, SOCK_DGRAM, IPPROTO_IP) = 3
// setsockopt(3, SOL_IP, IP_TOS, [16], 4) = 0
// gettimeofday({1259071266, 327885}, NULL) = 0
// sendto(3, "xxx", 48, MSG_DONTWAIT, {sa_family=AF_INET, sin_port=htons(123), sin_addr=inet_addr("10.34.32.125")}, 16) = 48
// ^^^ we sent it from some source port picked by kernel.
// time(NULL) = 1259071266
// write(2, "ntpd: entering poll 15 secs\n", 28) = 28
// poll([{fd=3, events=POLLIN}], 1, 15000) = 1 ([{fd=3, revents=POLLIN}])
// recv(3, "yyy", 68, MSG_DONTWAIT) = 48
// ^^^ this recv will receive packets to any local port!
//
// Uncomment this and use strace to see it in action:
#define PROBE_LOCAL_ADDR // { len_and_sockaddr lsa; lsa.len = LSA_SIZEOF_SA; getsockname(p->query.fd, &lsa.u.sa, &lsa.len); }
if (p->p_fd == -1) {
int fd, family;
len_and_sockaddr *local_lsa;
family = p->p_lsa->u.sa.sa_family;
p->p_fd = fd = xsocket_type(&local_lsa, family, SOCK_DGRAM);
/* local_lsa has "null" address and port 0 now.
* bind() ensures we have a *particular port* selected by kernel
* and remembered in p->p_fd, thus later recv(p->p_fd)
* receives only packets sent to this port.
*/
PROBE_LOCAL_ADDR
xbind(fd, &local_lsa->u.sa, local_lsa->len);
PROBE_LOCAL_ADDR
#if ENABLE_FEATURE_IPV6
if (family == AF_INET)
#endif
setsockopt(fd, IPPROTO_IP, IP_TOS, &const_IPTOS_LOWDELAY, sizeof(const_IPTOS_LOWDELAY));
free(local_lsa);
}
/*
* Send out a random 64-bit number as our transmit time. The NTP
* server will copy said number into the originate field on the
* response that it sends us. This is totally legal per the SNTP spec.
*
* The impact of this is two fold: we no longer send out the current
* system time for the world to see (which may aid an attacker), and
* it gives us a (not very secure) way of knowing that we're not
* getting spoofed by an attacker that can't capture our traffic
* but can spoof packets from the NTP server we're communicating with.
*
* Save the real transmit timestamp locally.
*/
p->p_xmt_msg.m_xmttime.int_partl = random();
p->p_xmt_msg.m_xmttime.fractionl = random();
p->p_xmttime = gettime1900d();
if (do_sendto(p->p_fd, /*from:*/ NULL, /*to:*/ &p->p_lsa->u.sa, /*addrlen:*/ p->p_lsa->len,
&p->p_xmt_msg, NTP_MSGSIZE_NOAUTH) == -1
) {
close(p->p_fd);
p->p_fd = -1;
set_next(p, INTERVAL_QUERY_PATHETIC);
return -1;
}
if (G.verbose)
bb_error_msg("sent query to %s", p->p_dotted);
set_next(p, QUERYTIME_MAX);
return 0;
}
/* Time is stepped only once, when the first packet from a peer is received.
*/
static void
step_time_once(double offset)
{
double dtime;
llist_t *item;
struct timeval tv;
char buf[80];
time_t tval;
if (G.time_was_stepped)
goto bail;
G.time_was_stepped = 1;
/* if the offset is small, don't step, slew (later) */
if (offset < STEPTIME_MIN_OFFSET && offset > -STEPTIME_MIN_OFFSET)
goto bail;
gettimeofday(&tv, NULL); /* never fails */
dtime = offset + tv.tv_sec;
dtime += 1.0e-6 * tv.tv_usec;
d_to_tv(dtime, &tv);
if (settimeofday(&tv, NULL) == -1)
bb_perror_msg_and_die("settimeofday");
tval = tv.tv_sec;
strftime_YYYYMMDDHHMMSS(buf, sizeof(buf), &tval);
bb_error_msg("setting clock to %s (offset %fs)", buf, offset);
for (item = G.ntp_peers; item != NULL; item = item->link) {
peer_t *p = (peer_t *) item->data;
p->next_action_time -= (time_t)offset;
}
bail:
if (option_mask32 & OPT_q)
exit(0);
}
/* Time is periodically slewed when we collect enough
* good data points.
*/
static int
compare_offsets(const void *aa, const void *bb)
{
const peer_t *const *a = aa;
const peer_t *const *b = bb;
if ((*a)->update.d_offset < (*b)->update.d_offset)
return -1;
return ((*a)->update.d_offset > (*b)->update.d_offset);
}
static unsigned
updated_scale(double offset)
{
if (offset < 0)
offset = -offset;
if (offset > QSCALE_OFF_MAX)
return 1;
if (offset < QSCALE_OFF_MIN)
return QSCALE_OFF_MAX / QSCALE_OFF_MIN;
return QSCALE_OFF_MAX / offset;
}
static void
slew_time(void)
{
llist_t *item;
double offset_median;
struct timeval tv;
{
peer_t **peers = xzalloc(sizeof(peers[0]) * G.peer_cnt);
unsigned goodpeer_cnt = 0;
unsigned middle;
for (item = G.ntp_peers; item != NULL; item = item->link) {
peer_t *p = (peer_t *) item->data;
if (p->p_trustlevel < TRUSTLEVEL_BADPEER)
continue;
if (!p->update.d_good) {
free(peers);
return;
}
peers[goodpeer_cnt++] = p;
}
if (goodpeer_cnt == 0) {
free(peers);
goto clear_good;
}
qsort(peers, goodpeer_cnt, sizeof(peers[0]), compare_offsets);
middle = goodpeer_cnt / 2;
if (middle != 0 && (goodpeer_cnt & 1) == 0) {
offset_median = (peers[middle-1]->update.d_offset + peers[middle]->update.d_offset) / 2;
G.rootdelay = (peers[middle-1]->update.d_delay + peers[middle]->update.d_delay) / 2;
G.stratum = 1 + MAX(peers[middle-1]->update.d_stratum, peers[middle]->update.d_stratum);
} else {
offset_median = peers[middle]->update.d_offset;
G.rootdelay = peers[middle]->update.d_delay;
G.stratum = 1 + peers[middle]->update.d_stratum;
}
G.leap = peers[middle]->update.d_leap;
G.refid4 = peers[middle]->update.d_refid4;
G.refid =
#if ENABLE_FEATURE_IPV6
peers[middle]->p_lsa->u.sa.sa_family != AF_INET ?
G.refid4 :
#endif
peers[middle]->p_lsa->u.sin.sin_addr.s_addr;
free(peers);
}
//TODO: if (offset_median > BIG) step_time(offset_median)?
G.scale = updated_scale(offset_median);
bb_error_msg("adjusting clock by %fs, our stratum is %u, time scale %u",
offset_median, G.stratum, G.scale);
errno = 0;
d_to_tv(offset_median, &tv);
if (adjtime(&tv, &tv) == -1)
bb_perror_msg_and_die("adjtime failed");
if (G.verbose >= 2)
bb_error_msg("old adjust: %d.%06u", (int)tv.tv_sec, (unsigned)tv.tv_usec);
if (G.first_adj_done) {
uint8_t synced = (tv.tv_sec == 0 && tv.tv_usec == 0);
if (synced != G.synced) {
G.synced = synced;
bb_error_msg("clock is %ssynced", synced ? "" : "un");
}
}
G.first_adj_done = 1;
G.reftime = gettime1900d();
clear_good:
for (item = G.ntp_peers; item != NULL; item = item->link) {
peer_t *p = (peer_t *) item->data;
p->update.d_good = 0;
}
}
static void
update_peer_data(peer_t *p)
{
/* Clock filter.
* Find the datapoint with the lowest delay.
* Use that as the peer update.
* Invalidate it and all older ones.
*/
int i;
int best = -1;
int good = 0;
for (i = 0; i < NUM_DATAPOINTS; i++) {
if (p->p_datapoint[i].d_good) {
good++;
if (best < 0 || p->p_datapoint[i].d_delay < p->p_datapoint[best].d_delay)
best = i;
}
}
if (good < 8) //FIXME: was it meant to be NUM_DATAPOINTS, not 8?
return;
p->update = p->p_datapoint[best]; /* struct copy */
slew_time();
for (i = 0; i < NUM_DATAPOINTS; i++)
if (p->p_datapoint[i].d_rcv_time <= p->p_datapoint[best].d_rcv_time)
p->p_datapoint[i].d_good = 0;
}
static unsigned
scale_interval(unsigned requested)
{
unsigned interval, r;
interval = requested * G.scale;
r = (unsigned)random() % (unsigned)(MAX(5, interval / 10));
return (interval + r);
}
static void
recv_and_process_peer_pkt(peer_t *p)
{
ssize_t size;
msg_t msg;
double T1, T2, T3, T4;
unsigned interval;
datapoint_t *datapoint;
/* We can recvfrom here and check from.IP, but some multihomed
* ntp servers reply from their *other IP*.
* TODO: maybe we should check at least what we can: from.port == 123?
*/
size = recv(p->p_fd, &msg, sizeof(msg), MSG_DONTWAIT);
if (size == -1) {
bb_perror_msg("recv(%s) error", p->p_dotted);
if (errno == EHOSTUNREACH || errno == EHOSTDOWN
|| errno == ENETUNREACH || errno == ENETDOWN
|| errno == ECONNREFUSED || errno == EADDRNOTAVAIL
|| errno == EAGAIN
) {
//TODO: always do this?
set_next(p, error_interval());
goto close_sock;
}
xfunc_die();
}
if (size != NTP_MSGSIZE_NOAUTH && size != NTP_MSGSIZE) {
bb_error_msg("malformed packet received from %s", p->p_dotted);
goto bail;
}
if (msg.m_orgtime.int_partl != p->p_xmt_msg.m_xmttime.int_partl
|| msg.m_orgtime.fractionl != p->p_xmt_msg.m_xmttime.fractionl
) {
goto bail;
}
if ((msg.m_status & LI_ALARM) == LI_ALARM
|| msg.m_stratum == 0
|| msg.m_stratum > NTP_MAXSTRATUM
) {
// TODO: stratum 0 responses may have commands in 32-bit m_refid field:
// "DENY", "RSTR" - peer does not like us at all
// "RATE" - peer is overloaded, reduce polling freq
interval = error_interval();
bb_error_msg("reply from %s: not synced, next query in %us", p->p_dotted, interval);
goto close_sock;
}
/*
* From RFC 2030 (with a correction to the delay math):
*
* Timestamp Name ID When Generated
* ------------------------------------------------------------
* Originate Timestamp T1 time request sent by client
* Receive Timestamp T2 time request received by server
* Transmit Timestamp T3 time reply sent by server
* Destination Timestamp T4 time reply received by client
*
* The roundtrip delay and local clock offset are defined as
*
* delay = (T4 - T1) - (T3 - T2); offset = ((T2 - T1) + (T3 - T4)) / 2
*/
T1 = p->p_xmttime;
T2 = lfp_to_d(msg.m_rectime);
T3 = lfp_to_d(msg.m_xmttime);
T4 = gettime1900d();
datapoint = &p->p_datapoint[p->p_datapoint_idx];
datapoint->d_offset = ((T2 - T1) + (T3 - T4)) / 2;
datapoint->d_delay = (T4 - T1) - (T3 - T2);
if (datapoint->d_delay < 0) {
bb_error_msg("reply from %s: negative delay %f", p->p_dotted, datapoint->d_delay);
interval = error_interval();
set_next(p, interval);
goto close_sock;
}
//UNUSED: datapoint->d_error = (T2 - T1) - (T3 - T4);
datapoint->d_rcv_time = (time_t)(T4 - OFFSET_1900_1970); /* = time(NULL); */
datapoint->d_good = 1;
datapoint->d_leap = (msg.m_status & LI_MASK);
//UNUSED: datapoint->o_precision = msg.m_precision_exp;
//UNUSED: datapoint->o_rootdelay = sfp_to_d(msg.m_rootdelay);
//UNUSED: datapoint->o_rootdispersion = sfp_to_d(msg.m_dispersion);
//UNUSED: datapoint->d_refid = ntohl(msg.m_refid);
datapoint->d_refid4 = msg.m_xmttime.fractionl;
//UNUSED: datapoint->o_reftime = lfp_to_d(msg.m_reftime);
//UNUSED: datapoint->o_poll = msg.m_ppoll;
datapoint->d_stratum = msg.m_stratum;
if (p->p_trustlevel < TRUSTLEVEL_PATHETIC)
interval = scale_interval(INTERVAL_QUERY_PATHETIC);
else if (p->p_trustlevel < TRUSTLEVEL_AGRESSIVE)
interval = scale_interval(INTERVAL_QUERY_AGRESSIVE);
else
interval = scale_interval(INTERVAL_QUERY_NORMAL);
set_next(p, interval);
/* Every received reply which we do not discard increases trust */
if (p->p_trustlevel < TRUSTLEVEL_MAX) {
p->p_trustlevel++;
if (p->p_trustlevel == TRUSTLEVEL_BADPEER)
bb_error_msg("peer %s now valid", p->p_dotted);
}
if (G.verbose)
bb_error_msg("reply from %s: offset %f delay %f, next query in %us", p->p_dotted,
datapoint->d_offset, datapoint->d_delay, interval);
update_peer_data(p);
//TODO: do it after all peers had a chance to return at least one reply?
step_time_once(datapoint->d_offset);
p->p_datapoint_idx++;
if (p->p_datapoint_idx >= NUM_DATAPOINTS)
p->p_datapoint_idx = 0;
close_sock:
/* We do not expect any more packets from this peer for now.
* Closing the socket informs kernel about it.
* We open a new socket when we send a new query.
*/
close(p->p_fd);
p->p_fd = -1;
bail:
return;
}
#if ENABLE_FEATURE_NTPD_SERVER
static void
recv_and_process_client_pkt(void /*int fd*/)
{
ssize_t size;
uint8_t version;
double rectime;
len_and_sockaddr *to;
struct sockaddr *from;
msg_t msg;
uint8_t query_status;
uint8_t query_ppoll;
l_fixedpt_t query_xmttime;
to = get_sock_lsa(G.listen_fd);
from = xzalloc(to->len);
size = recv_from_to(G.listen_fd, &msg, sizeof(msg), MSG_DONTWAIT, from, &to->u.sa, to->len);
if (size != NTP_MSGSIZE_NOAUTH && size != NTP_MSGSIZE) {
char *addr;
if (size < 0) {
if (errno == EAGAIN)
goto bail;
bb_perror_msg_and_die("recv");
}
addr = xmalloc_sockaddr2dotted_noport(from);
bb_error_msg("malformed packet received from %s: size %u", addr, (int)size);
free(addr);
goto bail;
}
query_status = msg.m_status;
query_ppoll = msg.m_ppoll;
query_xmttime = msg.m_xmttime;
/* Build a reply packet */
memset(&msg, 0, sizeof(msg));
msg.m_status = G.synced ? G.leap : LI_ALARM;
msg.m_status |= (query_status & VERSION_MASK);
msg.m_status |= ((query_status & MODE_MASK) == MODE_CLIENT) ?
MODE_SERVER : MODE_SYM_PAS;
msg.m_stratum = G.stratum;
msg.m_ppoll = query_ppoll;
msg.m_precision_exp = G_precision_exp;
rectime = gettime1900d();
msg.m_xmttime = msg.m_rectime = d_to_lfp(rectime);
msg.m_reftime = d_to_lfp(G.reftime);
//msg.m_xmttime = d_to_lfp(gettime1900d()); // = msg.m_rectime
msg.m_orgtime = query_xmttime;
msg.m_rootdelay = d_to_sfp(G.rootdelay);
version = (query_status & VERSION_MASK); /* ... >> VERSION_SHIFT - done below instead */
msg.m_refid = (version > (3 << VERSION_SHIFT)) ? G.refid4 : G.refid;
/* We reply from the local address packet was sent to,
* this makes to/from look swapped here: */
do_sendto(G.listen_fd,
/*from:*/ &to->u.sa, /*to:*/ from, /*addrlen:*/ to->len,
&msg, size);
bail:
free(to);
free(from);
}
#endif
/* Upstream ntpd's options:
*
* -4 Force DNS resolution of host names to the IPv4 namespace.
* -6 Force DNS resolution of host names to the IPv6 namespace.
* -a Require cryptographic authentication for broadcast client,
* multicast client and symmetric passive associations.
* This is the default.
* -A Do not require cryptographic authentication for broadcast client,
* multicast client and symmetric passive associations.
* This is almost never a good idea.
* -b Enable the client to synchronize to broadcast servers.
* -c conffile
* Specify the name and path of the configuration file,
* default /etc/ntp.conf
* -d Specify debugging mode. This option may occur more than once,
* with each occurrence indicating greater detail of display.
* -D level
* Specify debugging level directly.
* -f driftfile
* Specify the name and path of the frequency file.
* This is the same operation as the "driftfile FILE"
* configuration command.
* -g Normally, ntpd exits with a message to the system log
* if the offset exceeds the panic threshold, which is 1000 s
* by default. This option allows the time to be set to any value
* without restriction; however, this can happen only once.
* If the threshold is exceeded after that, ntpd will exit
* with a message to the system log. This option can be used
* with the -q and -x options. See the tinker command for other options.
* -i jaildir
* Chroot the server to the directory jaildir. This option also implies
* that the server attempts to drop root privileges at startup
* (otherwise, chroot gives very little additional security).
* You may need to also specify a -u option.
* -k keyfile
* Specify the name and path of the symmetric key file,
* default /etc/ntp/keys. This is the same operation
* as the "keys FILE" configuration command.
* -l logfile
* Specify the name and path of the log file. The default
* is the system log file. This is the same operation as
* the "logfile FILE" configuration command.
* -L Do not listen to virtual IPs. The default is to listen.
* -n Don't fork.
* -N To the extent permitted by the operating system,
* run the ntpd at the highest priority.
* -p pidfile
* Specify the name and path of the file used to record the ntpd
* process ID. This is the same operation as the "pidfile FILE"
* configuration command.
* -P priority
* To the extent permitted by the operating system,
* run the ntpd at the specified priority.
* -q Exit the ntpd just after the first time the clock is set.
* This behavior mimics that of the ntpdate program, which is
* to be retired. The -g and -x options can be used with this option.
* Note: The kernel time discipline is disabled with this option.
* -r broadcastdelay
* Specify the default propagation delay from the broadcast/multicast
* server to this client. This is necessary only if the delay
* cannot be computed automatically by the protocol.
* -s statsdir
* Specify the directory path for files created by the statistics
* facility. This is the same operation as the "statsdir DIR"
* configuration command.
* -t key
* Add a key number to the trusted key list. This option can occur
* more than once.
* -u user[:group]
* Specify a user, and optionally a group, to switch to.
* -v variable
* -V variable
* Add a system variable listed by default.
* -x Normally, the time is slewed if the offset is less than the step
* threshold, which is 128 ms by default, and stepped if above
* the threshold. This option sets the threshold to 600 s, which is
* well within the accuracy window to set the clock manually.
* Note: since the slew rate of typical Unix kernels is limited
* to 0.5 ms/s, each second of adjustment requires an amortization
* interval of 2000 s. Thus, an adjustment as much as 600 s
* will take almost 14 days to complete. This option can be used
* with the -g and -q options. See the tinker command for other options.
* Note: The kernel time discipline is disabled with this option.
*/
/* By doing init in a separate function we decrease stack usage
* in main loop.
*/
static NOINLINE void ntp_init(char **argv)
{
unsigned opts;
llist_t *peers;
srandom(getpid());
if (getuid())
bb_error_msg_and_die(bb_msg_you_must_be_root);
peers = NULL;
opt_complementary = "dd:p::"; /* d: counter, p: list */
opts = getopt32(argv,
"nqNx" /* compat */
"p:"IF_FEATURE_NTPD_SERVER("l") /* NOT compat */
"d" /* compat */
"46aAbgL", /* compat, ignored */
&peers, &G.verbose);
if (!(opts & (OPT_p|OPT_l)))
bb_show_usage();
if (opts & OPT_x) /* disable stepping, only slew is allowed */
G.time_was_stepped = 1;
while (peers)
add_peers(llist_pop(&peers));
if (!(opts & OPT_n)) {
bb_daemonize_or_rexec(DAEMON_DEVNULL_STDIO, argv);
logmode = LOGMODE_NONE;
}
#if ENABLE_FEATURE_NTPD_SERVER
G.listen_fd = -1;
if (opts & OPT_l) {
G.listen_fd = create_and_bind_dgram_or_die(NULL, 123);
socket_want_pktinfo(G.listen_fd);
setsockopt(G.listen_fd, IPPROTO_IP, IP_TOS, &const_IPTOS_LOWDELAY, sizeof(const_IPTOS_LOWDELAY));
}
#endif
/* I hesitate to set -20 prio. -15 should be high enough for timekeeping */
if (opts & OPT_N)
setpriority(PRIO_PROCESS, 0, -15);
/* Set some globals */
#if 0
/* With constant b = 100, G.precision_exp is also constant -6.
* Uncomment this and you'll see */
{
int prec = 0;
int b;
# if 0
struct timespec tp;
/* We can use sys_clock_getres but assuming 10ms tick should be fine */
clock_getres(CLOCK_REALTIME, &tp);
tp.tv_sec = 0;
tp.tv_nsec = 10000000;
b = 1000000000 / tp.tv_nsec; /* convert to Hz */
# else
b = 100; /* b = 1000000000/10000000 = 100 */
# endif
while (b > 1)
prec--, b >>= 1;
//G.precision_exp = prec;
bb_error_msg("G.precision_exp:%d", prec); /* -6 */
}
#endif
G.scale = 1;
bb_signals((1 << SIGTERM) | (1 << SIGINT), record_signo);
bb_signals((1 << SIGPIPE) | (1 << SIGHUP), SIG_IGN);
}
int ntpd_main(int argc UNUSED_PARAM, char **argv) MAIN_EXTERNALLY_VISIBLE;
int ntpd_main(int argc UNUSED_PARAM, char **argv)
{
struct globals g;
struct pollfd *pfd;
peer_t **idx2peer;
memset(&g, 0, sizeof(g));
SET_PTR_TO_GLOBALS(&g);
ntp_init(argv);
{
/* if ENABLE_FEATURE_NTPD_SERVER, + 1 for listen_fd: */
unsigned cnt = g.peer_cnt + ENABLE_FEATURE_NTPD_SERVER;
idx2peer = xzalloc(sizeof(idx2peer[0]) * cnt);
pfd = xzalloc(sizeof(pfd[0]) * cnt);
}
while (!bb_got_signal) {
llist_t *item;
unsigned i, j;
unsigned sent_cnt, trial_cnt;
int nfds, timeout;
time_t cur_time, nextaction;
/* Nothing between here and poll() blocks for any significant time */
cur_time = time(NULL);
nextaction = cur_time + 3600;
i = 0;
#if ENABLE_FEATURE_NTPD_SERVER
if (g.listen_fd != -1) {
pfd[0].fd = g.listen_fd;
pfd[0].events = POLLIN;
i++;
}
#endif
/* Pass over peer list, send requests, time out on receives */
sent_cnt = trial_cnt = 0;
for (item = g.ntp_peers; item != NULL; item = item->link) {
peer_t *p = (peer_t *) item->data;
/* Overflow-safe "if (p->next_action_time <= cur_time) ..." */
if ((int)(cur_time - p->next_action_time) >= 0) {
if (p->p_fd == -1) {
/* Time to send new req */
trial_cnt++;
if (send_query_to_peer(p) == 0)
sent_cnt++;
} else {
/* Timed out waiting for reply */
close(p->p_fd);
p->p_fd = -1;
timeout = error_interval();
bb_error_msg("timed out waiting for %s, "
"next query in %us", p->p_dotted, timeout);
if (p->p_trustlevel >= TRUSTLEVEL_BADPEER) {
p->p_trustlevel /= 2;
if (p->p_trustlevel < TRUSTLEVEL_BADPEER)
bb_error_msg("peer %s now invalid", p->p_dotted);
}
set_next(p, timeout);
}
}
if (p->next_action_time < nextaction)
nextaction = p->next_action_time;
if (p->p_fd >= 0) {
/* Wait for reply from this peer */
pfd[i].fd = p->p_fd;
pfd[i].events = POLLIN;
idx2peer[i] = p;
i++;
}
}
if ((trial_cnt > 0 && sent_cnt == 0) || g.peer_cnt == 0)
step_time_once(0); /* no good peers, don't wait */
timeout = nextaction - cur_time;
if (timeout < 1)
timeout = 1;
/* Here we may block */
if (g.verbose >= 2)
bb_error_msg("poll %us, sockets:%u", timeout, i);
nfds = poll(pfd, i, timeout * 1000);
if (nfds <= 0)
continue;
/* Process any received packets */
j = 0;
#if ENABLE_FEATURE_NTPD_SERVER
if (g.listen_fd != -1) {
if (pfd[0].revents /* & (POLLIN|POLLERR)*/) {
nfds--;
recv_and_process_client_pkt(/*g.listen_fd*/);
}
j = 1;
}
#endif
for (; nfds != 0 && j < i; j++) {
if (pfd[j].revents /* & (POLLIN|POLLERR)*/) {
nfds--;
recv_and_process_peer_pkt(idx2peer[j]);
}
}
} /* while (!bb_got_signal) */
kill_myself_with_sig(bb_got_signal);
}
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