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|
/*
* This is the main sequence of the gpsd daemon. The IO dispatcher, main
* select loop, and user command handling lives here.
*
* This file is Copyright (c) 2010 by the GPSD project
* BSD terms apply: see the file COPYING in the distribution root for details.
*/
#include <sys/stat.h>
#include <sys/types.h>
#include <sys/time.h> /* for select() */
#include <sys/select.h>
#include <stdio.h>
#include <time.h>
#include <string.h>
#include <stdlib.h>
#include <stdbool.h>
#include <stdarg.h>
#include <setjmp.h>
#include <assert.h>
#include <math.h>
#include <syslog.h>
#include <errno.h>
#include <signal.h>
#include <ctype.h>
#include <pwd.h>
#include <grp.h>
#include <fcntl.h>
#include <pthread.h>
#include <netdb.h>
#ifndef AF_UNSPEC
#include <sys/socket.h>
#endif /* AF_UNSPEC */
#ifndef INADDR_ANY
#include <netinet/in.h>
#endif /* INADDR_ANY */
#include <sys/un.h>
#include <arpa/inet.h> /* for htons() and friends */
#include <unistd.h>
#include "gpsd_config.h"
#include "gpsd.h"
#include "sockaddr.h"
#include "gps_json.h"
#include "revision.h"
#include "strfuncs.h"
#if defined(SYSTEMD_ENABLE)
#include "sd_socket.h"
#endif
/*
* The name of a tty device from which to pick up whatever the local
* owning group for tty devices is. Used when we drop privileges.
*/
#if defined(__FreeBSD__) || defined(__NetBSD__) || defined(__OpenBSD__)
#define PROTO_TTY "/dev/tty00" /* correct for *BSD */
#else
#define PROTO_TTY "/dev/ttyS0" /* correct for Linux */
#endif
/*
* Timeout policy. We can't rely on clients closing connections
* correctly, so we need timeouts to tell us when it's OK to
* reclaim client fds. COMMAND_TIMEOUT fends off programs
* that open connections and just sit there, not issuing a WATCH or
* doing anything else that triggers a device assignment. Clients
* in watcher or raw mode that don't read their data will get dropped
* when throttled_write() fills up the outbound buffers and the
* NOREAD_TIMEOUT expires.
*
* RELEASE_TIMEOUT sets the amount of time we hold a device
* open after the last subscriber closes it; this is nonzero so a
* client that does open/query/close will have time to come back and
* do another single-shot query, if it wants to, before the device is
* actually closed. The reason this matters is because some Bluetooth
* GPSes not only shut down the GPS receiver on close to save battery
* power, they actually shut down the Bluetooth RF stage as well and
* only re-wake it periodically to see if an attempt to raise the
* device is in progress. The result is that if you close the device
* when it's powered up, a re-open can fail with EIO and needs to be
* tried repeatedly. Better to avoid this...
*
* DEVICE_REAWAKE says how long to wait before repolling after a zero-length
* read. It's there so we avoid spinning forever on an EOF condition.
*
* DEVICE_RECONNECT sets interval on retries when (re)connecting to
* a device.
*/
#define COMMAND_TIMEOUT 60*15
#define NOREAD_TIMEOUT 60*3
#define RELEASE_TIMEOUT 60
#define DEVICE_REAWAKE 0.01
#define DEVICE_RECONNECT 2
#define QLEN 5
/*
* If ntpshm is enabled, we renice the process to this priority level.
* For precise timekeeping increase priority.
*/
#define NICEVAL -10
#if defined(FIXED_PORT_SPEED) || !defined(SOCKET_EXPORT_ENABLE)
/*
* Force nowait in two circumstances:
*
* (1) If we're running with FIXED_PORT_SPEED we're some sort
* of embedded configuration where we don't want to wait for connect
*
* (2) Socket export has been disabled. In this case we have no
* way to know when client apps are watching the export channels,
* so we need to be running all the time.
*/
#define FORCE_NOWAIT
#endif /* defined(FIXED_PORT_SPEED) || !defined(SOCKET_EXPORT_ENABLE) */
#ifdef SOCKET_EXPORT_ENABLE
/* IP version used by the program */
/* AF_UNSPEC: all
* AF_INET: IPv4 only
* AF_INET6: IPv6 only
*/
#ifdef IPV6_ENABLE
static const int af_allowed = AF_UNSPEC;
#else
static const int af_allowed = AF_INET;
#endif
#endif /* SOCKET_EXPORT_ENABLE */
#define AFCOUNT 2
static fd_set all_fds;
static int maxfd;
static int highwater;
#ifndef FORCE_GLOBAL_ENABLE
static bool listen_global = false;
#endif /* FORCE_GLOBAL_ENABLE */
#ifndef FORCE_NOWAIT
#define NOWAIT nowait
static bool nowait = false;
#else /* FORCE_NOWAIT */
#define NOWAIT true
#endif /* FORCE_NOWAIT */
static jmp_buf restartbuf;
static struct gps_context_t context;
#if defined(SYSTEMD_ENABLE)
static int sd_socket_count = 0;
#endif
/* work around the unfinished ipv6 implementation on hurd */
#ifdef __GNU__
#ifndef IPV6_TCLASS
#define IPV6_TCLASS 61
#endif
#endif
static volatile sig_atomic_t signalled;
static void onsig(int sig)
{
/* just set a variable, and deal with it in the main loop */
signalled = (sig_atomic_t) sig;
}
static void typelist(void)
/* list installed drivers and enabled features */
{
const struct gps_type_t **dp;
for (dp = gpsd_drivers; *dp; dp++) {
if ((*dp)->packet_type == COMMENT_PACKET)
continue;
#ifdef RECONFIGURE_ENABLE
if ((*dp)->mode_switcher != NULL)
(void)fputs("n\t", stdout);
else
(void)fputc('\t', stdout);
if ((*dp)->speed_switcher != NULL)
(void)fputs("b\t", stdout);
else
(void)fputc('\t', stdout);
if ((*dp)->rate_switcher != NULL)
(void)fputs("c\t", stdout);
else
(void)fputc('\t', stdout);
if ((*dp)->packet_type > NMEA_PACKET)
(void)fputs("*\t", stdout);
else
(void)fputc('\t', stdout);
#endif /* RECONFIGURE_ENABLE */
(void)puts((*dp)->type_name);
}
(void)printf("# n: mode switch, b: speed switch, "
"c: rate switch, *: non-NMEA packet type.\n");
#if defined(SOCKET_EXPORT_ENABLE)
(void)printf("# Socket export enabled.\n");
#endif
#if defined(SHM_EXPORT_ENABLE)
(void)printf("# Shared memory export enabled.\n");
#endif
#if defined(DBUS_EXPORT_ENABLE)
(void)printf("# DBUS export enabled\n");
#endif
#if defined(TIMEHINT_ENABLE)
(void)printf("# Time service features enabled.\n");
#endif
#if defined(PPS_ENABLE)
(void)printf("# PPS enabled.\n");
#endif
exit(EXIT_SUCCESS);
}
static void usage(void)
{
(void)printf("usage: gpsd [-b] [-n] [-N] [-D n] [-F sockfile] [-G] [-P pidfile] [-S port] [-h] device...\n\
Options include: \n\
-b = bluetooth-safe: open data sources read-only\n\
-n = don't wait for client connects to poll GPS\n\
-N = don't go into background\n\
-F sockfile = specify control socket location\n"
#ifndef FORCE_GLOBAL_ENABLE
" -G = make gpsd listen on INADDR_ANY\n"
#endif /* FORCE_GLOBAL_ENABLE */
" -P pidfile = set file to record process ID \n\
-D integer (default 0) = set debug level \n\
-S integer (default %s) = set port for daemon \n\
-h = help message \n\
-V = emit version and exit.\n\
A device may be a local serial device for GPS input, or a URL in one \n\
of the following forms:\n\
tcp://host[:port]\n\
udp://host[:port]\n\
{dgpsip|ntrip}://[user:passwd@]host[:port][/stream]\n\
gpsd://host[:port][/device][?protocol]\n\
in which case it specifies an input source for device, DGPS or ntrip data.\n\
\n\
The following driver types are compiled into this gpsd instance:\n",
DEFAULT_GPSD_PORT);
typelist();
}
#ifdef CONTROL_SOCKET_ENABLE
static socket_t filesock(char *filename)
{
struct sockaddr_un addr;
socket_t sock;
if (BAD_SOCKET(sock = socket(AF_UNIX, SOCK_STREAM, 0))) {
gpsd_log(&context.errout, LOG_ERROR,
"Can't create device-control socket\n");
return -1;
}
(void)strlcpy(addr.sun_path, filename, sizeof(addr.sun_path));
addr.sun_family = (sa_family_t)AF_UNIX;
if (bind(sock, (struct sockaddr *)&addr, (int)sizeof(addr)) < 0) {
gpsd_log(&context.errout, LOG_ERROR,
"can't bind to local socket %s\n", filename);
(void)close(sock);
return -1;
}
if (listen(sock, QLEN) == -1) {
gpsd_log(&context.errout, LOG_ERROR,
"can't listen on local socket %s\n", filename);
(void)close(sock);
return -1;
}
/* coverity[leaked_handle] This is an intentional allocation */
return sock;
}
#endif /* CONTROL_SOCKET_ENABLE */
#define sub_index(s) (int)((s) - subscribers)
#define allocated_device(devp) ((devp)->gpsdata.dev.path[0] != '\0')
#define free_device(devp) (devp)->gpsdata.dev.path[0] = '\0'
#define initialized_device(devp) ((devp)->context != NULL)
/*
* This array fills from the bottom, so as an extreme case you can
* reduce MAX_DEVICES to 1 in the build recipe.
*/
static struct gps_device_t devices[MAX_DEVICES];
static void adjust_max_fd(int fd, bool on)
/* track the largest fd currently in use */
{
if (on) {
if (fd > maxfd)
maxfd = fd;
}
else {
if (fd == maxfd) {
int tfd;
for (maxfd = tfd = 0; tfd < FD_SETSIZE; tfd++)
if (FD_ISSET(tfd, &all_fds))
maxfd = tfd;
}
}
}
#ifdef SOCKET_EXPORT_ENABLE
#ifndef IPTOS_LOWDELAY
#define IPTOS_LOWDELAY 0x10
#endif
static socket_t passivesock_af(int af, char *service, char *tcp_or_udp, int qlen)
/* bind a passive command socket for the daemon */
{
volatile socket_t s;
/*
* af = address family,
* service = IANA protocol name or number.
* tcp_or_udp = TCP or UDP
* qlen = maximum wait-queue length for connections
*/
struct servent *pse;
struct protoent *ppe;
sockaddr_t sat;
int sin_len = 0;
int type, proto, one = 1;
in_port_t port;
char *af_str = "";
const int dscp = IPTOS_LOWDELAY; /* Prioritize packet */
INVALIDATE_SOCKET(s);
if ((pse = getservbyname(service, tcp_or_udp)))
port = ntohs((in_port_t) pse->s_port);
// cppcheck-suppress unreadVariable
else if ((port = (in_port_t) atoi(service)) == 0) {
gpsd_log(&context.errout, LOG_ERROR,
"can't get \"%s\" service entry.\n", service);
return -1;
}
ppe = getprotobyname(tcp_or_udp);
if (strcmp(tcp_or_udp, "udp") == 0) {
type = SOCK_DGRAM;
proto = (ppe) ? ppe->p_proto : IPPROTO_UDP;
} else {
type = SOCK_STREAM;
proto = (ppe) ? ppe->p_proto : IPPROTO_TCP;
}
switch (af) {
case AF_INET:
sin_len = sizeof(sat.sa_in);
memset((char *)&sat.sa_in, 0, sin_len);
sat.sa_in.sin_family = (sa_family_t) AF_INET;
#ifndef FORCE_GLOBAL_ENABLE
if (!listen_global)
sat.sa_in.sin_addr.s_addr = htonl(INADDR_LOOPBACK);
else
#endif /* FORCE_GLOBAL_ENABLE */
sat.sa_in.sin_addr.s_addr = htonl(INADDR_ANY);
sat.sa_in.sin_port = htons(port);
af_str = "IPv4";
/* see PF_INET6 case below */
s = socket(PF_INET, type, proto);
if (s > -1 ) {
/* Set packet priority */
if (setsockopt(s, IPPROTO_IP, IP_TOS, &dscp, sizeof(dscp)) == -1)
gpsd_log(&context.errout, LOG_WARN,
"Warning: SETSOCKOPT TOS failed\n");
}
break;
#ifdef IPV6_ENABLE
case AF_INET6:
sin_len = sizeof(sat.sa_in6);
memset((char *)&sat.sa_in6, 0, sin_len);
sat.sa_in6.sin6_family = (sa_family_t) AF_INET6;
#ifndef FORCE_GLOBAL_ENABLE
if (!listen_global)
sat.sa_in6.sin6_addr = in6addr_loopback;
else
#endif /* FORCE_GLOBAL_ENABLE */
sat.sa_in6.sin6_addr = in6addr_any;
sat.sa_in6.sin6_port = htons(port);
/*
* Traditionally BSD uses "communication domains", named by
* constants starting with PF_ as the first argument for
* select. In practice PF_INET has the same value as AF_INET
* (on BSD and Linux, and probably everywhere else). POSIX
* leaves much of this unspecified, but requires that AF_INET
* be recognized. We follow tradition here.
*/
af_str = "IPv6";
s = socket(PF_INET6, type, proto);
/*
* On some network stacks, including Linux's, an IPv6 socket
* defaults to listening on IPv4 as well. Unless we disable
* this, trying to listen on in6addr_any will fail with the
* address-in-use error condition.
*/
if (s > -1) {
int on = 1;
if (setsockopt(s, IPPROTO_IPV6, IPV6_V6ONLY, &on, sizeof(on)) == -1) {
gpsd_log(&context.errout, LOG_ERROR,
"Error: SETSOCKOPT IPV6_V6ONLY\n");
(void)close(s);
return -1;
}
/* Set packet priority */
if (setsockopt(s, IPPROTO_IPV6, IPV6_TCLASS, &dscp, sizeof(dscp)) == -1)
gpsd_log(&context.errout, LOG_WARN,
"Warning: SETSOCKOPT TOS failed\n");
}
break;
#endif /* IPV6_ENABLE */
default:
gpsd_log(&context.errout, LOG_ERROR,
"unhandled address family %d\n", af);
return -1;
}
gpsd_log(&context.errout, LOG_IO,
"opening %s socket\n", af_str);
if (BAD_SOCKET(s)) {
gpsd_log(&context.errout, LOG_ERROR,
"can't create %s socket\n", af_str);
return -1;
}
if (setsockopt(s, SOL_SOCKET, SO_REUSEADDR, (char *)&one,
(int)sizeof(one)) == -1) {
gpsd_log(&context.errout, LOG_ERROR,
"Error: SETSOCKOPT SO_REUSEADDR\n");
(void)close(s);
return -1;
}
if (bind(s, &sat.sa, sin_len) < 0) {
gpsd_log(&context.errout, LOG_ERROR,
"can't bind to %s port %s, %s\n", af_str,
service, strerror(errno));
if (errno == EADDRINUSE) {
gpsd_log(&context.errout, LOG_ERROR,
"maybe gpsd is already running!\n");
}
(void)close(s);
return -1;
}
if (type == SOCK_STREAM && listen(s, qlen) == -1) {
gpsd_log(&context.errout, LOG_ERROR,
"can't listen on port %s\n", service);
(void)close(s);
return -1;
}
gpsd_log(&context.errout, LOG_SPIN, "passivesock_af() -> %d\n", s);
return s;
}
/* *INDENT-OFF* */
static int passivesocks(char *service, char *tcp_or_udp,
int qlen, socket_t socks[])
{
int numsocks = AFCOUNT;
int i;
for (i = 0; i < AFCOUNT; i++)
INVALIDATE_SOCKET(socks[i]);
#if defined(SYSTEMD_ENABLE)
if (sd_socket_count > 0) {
for (i = 0; i < AFCOUNT && i < sd_socket_count - 1; i++) {
socks[i] = SD_SOCKET_FDS_START + i + 1;
}
return sd_socket_count - 1;
}
#endif
if (AF_UNSPEC == af_allowed || (AF_INET == af_allowed))
socks[0] = passivesock_af(AF_INET, service, tcp_or_udp, qlen);
if (AF_UNSPEC == af_allowed || (AF_INET6 == af_allowed))
socks[1] = passivesock_af(AF_INET6, service, tcp_or_udp, qlen);
for (i = 0; i < AFCOUNT; i++)
if (socks[i] < 0)
numsocks--;
/* Return the number of succesfully opened sockets
* The failed ones are identified by negative values */
return numsocks;
}
/* *INDENT-ON* */
struct subscriber_t
{
int fd; /* client file descriptor. -1 if unused */
time_t active; /* when subscriber last polled for data */
struct policy_t policy; /* configurable bits */
pthread_mutex_t mutex; /* serialize access to fd */
};
#define subscribed(sub, devp) (sub->policy.watcher && (sub->policy.devpath[0]=='\0' || strcmp(sub->policy.devpath, devp->gpsdata.dev.path)==0))
static struct subscriber_t subscribers[MAX_CLIENTS]; /* indexed by client file descriptor */
static void lock_subscriber(struct subscriber_t *sub)
{
(void)pthread_mutex_lock(&sub->mutex);
}
static void unlock_subscriber(struct subscriber_t *sub)
{
(void)pthread_mutex_unlock(&sub->mutex);
}
static struct subscriber_t *allocate_client(void)
/* return the address of a subscriber structure allocated for a new session */
{
int si;
#if UNALLOCATED_FD == 0
#error client allocation code will fail horribly
#endif
for (si = 0; si < NITEMS(subscribers); si++) {
if (subscribers[si].fd == UNALLOCATED_FD) {
subscribers[si].fd = 0; /* mark subscriber as allocated */
return &subscribers[si];
}
}
return NULL;
}
static void detach_client(struct subscriber_t *sub)
/* detach a client and terminate the session */
{
char *c_ip;
lock_subscriber(sub);
if (sub->fd == UNALLOCATED_FD) {
unlock_subscriber(sub);
return;
}
c_ip = netlib_sock2ip(sub->fd);
(void)shutdown(sub->fd, SHUT_RDWR);
gpsd_log(&context.errout, LOG_SPIN,
"close(%d) in detach_client()\n",
sub->fd);
(void)close(sub->fd);
gpsd_log(&context.errout, LOG_INF,
"detaching %s (sub %d, fd %d) in detach_client\n",
c_ip, sub_index(sub), sub->fd);
FD_CLR(sub->fd, &all_fds);
adjust_max_fd(sub->fd, false);
sub->active = 0;
sub->policy.watcher = false;
sub->policy.json = false;
sub->policy.nmea = false;
sub->policy.raw = 0;
sub->policy.scaled = false;
sub->policy.timing = false;
sub->policy.split24 = false;
sub->policy.devpath[0] = '\0';
sub->fd = UNALLOCATED_FD;
unlock_subscriber(sub);
}
static ssize_t throttled_write(struct subscriber_t *sub, char *buf,
size_t len)
/* write to client -- throttle if it's gone or we're close to buffer overrun */
{
ssize_t status;
if (context.errout.debug >= LOG_CLIENT) {
if (isprint((unsigned char) buf[0]))
gpsd_log(&context.errout, LOG_CLIENT,
"=> client(%d): %s\n", sub_index(sub), buf);
else {
#ifndef __clang_analyzer__
char *cp, buf2[MAX_PACKET_LENGTH * 3];
buf2[0] = '\0';
for (cp = buf; cp < buf + len; cp++)
str_appendf(buf2, sizeof(buf2),
"%02x", (unsigned int)(*cp & 0xff));
gpsd_log(&context.errout, LOG_CLIENT,
"=> client(%d): =%s\n", sub_index(sub), buf2);
#endif /* __clang_analyzer__ */
}
}
#if defined(PPS_ENABLE)
gpsd_acquire_reporting_lock();
#endif /* PPS_ENABLE */
status = send(sub->fd, buf, len, 0);
#if defined(PPS_ENABLE)
gpsd_release_reporting_lock();
#endif /* PPS_ENABLE */
if (status == (ssize_t) len)
return status;
else if (status > -1) {
gpsd_log(&context.errout, LOG_INF,
"short write disconnecting client(%d)\n",
sub_index(sub));
detach_client(sub);
return 0;
} else if (errno == EAGAIN || errno == EINTR)
return 0; /* no data written, and errno says to retry */
else if (errno == EBADF)
gpsd_log(&context.errout, LOG_WARN,
"client(%d) has vanished.\n", sub_index(sub));
else if (errno == EWOULDBLOCK
&& time(NULL) - sub->active > NOREAD_TIMEOUT)
gpsd_log(&context.errout, LOG_INF,
"client(%d) timed out.\n", sub_index(sub));
else
gpsd_log(&context.errout, LOG_INF,
"client(%d) write: %s\n",
sub_index(sub), strerror(errno));
detach_client(sub);
return status;
}
static void notify_watchers(struct gps_device_t *device,
bool onjson, bool onpps,
const char *sentence, ...)
/* notify all JSON-watching clients of a given device about an event */
{
va_list ap;
char buf[BUFSIZ];
struct subscriber_t *sub;
va_start(ap, sentence);
(void)vsnprintf(buf, sizeof(buf), sentence, ap);
va_end(ap);
for (sub = subscribers; sub < subscribers + MAX_CLIENTS; sub++)
if (sub->active != 0 && subscribed(sub, device)) {
if ((onjson && sub->policy.json) || (onpps && sub->policy.pps))
(void)throttled_write(sub, buf, strlen(buf));
}
}
#endif /* SOCKET_EXPORT_ENABLE */
static void deactivate_device(struct gps_device_t *device)
/* deactivate device, but leave it in the pool (do not free it) */
{
#ifdef SOCKET_EXPORT_ENABLE
notify_watchers(device, true, false,
"{\"class\":\"DEVICE\",\"path\":\"%s\",\"activated\":0}\r\n",
device->gpsdata.dev.path);
#endif /* SOCKET_EXPORT_ENABLE */
if (!BAD_SOCKET(device->gpsdata.gps_fd)) {
FD_CLR(device->gpsdata.gps_fd, &all_fds);
adjust_max_fd(device->gpsdata.gps_fd, false);
#ifdef NTPSHM_ENABLE
ntpshm_link_deactivate(device);
#endif /* NTPSHM_ENABLE */
gpsd_deactivate(device);
}
}
#if defined(SOCKET_EXPORT_ENABLE) || defined(CONTROL_SOCKET_ENABLE)
/* *INDENT-OFF* */
static struct gps_device_t *find_device(const char
*device_name)
/* find the device block for an existing device name */
{
struct gps_device_t *devp;
for (devp = devices; devp < devices + MAX_DEVICES; devp++)
{
if (allocated_device(devp) && NULL != device_name &&
strcmp(devp->gpsdata.dev.path, device_name) == 0)
return devp;
}
return NULL;
}
/* *INDENT-ON* */
#endif /* defined(SOCKET_EXPORT_ENABLE) || defined(CONTROL_SOCKET_ENABLE) */
static bool open_device( struct gps_device_t *device)
/* open the input device
* return: false on failure
* true on success
*/
{
int activated = -1;
if (NULL == device ) {
return false;
}
activated = gpsd_activate(device, O_OPTIMIZE);
if ( ( 0 > activated ) && ( PLACEHOLDING_FD != activated ) ) {
/* failed to open device, and it is not a /dev/ppsX */
return false;
}
#ifdef NTPSHM_ENABLE
/*
* Now is the right time to grab the shared memory segment(s)
* to communicate the navigation message derived and (possibly)
* 1PPS derived time data to ntpd/chrony.
*/
ntpshm_link_activate(device);
gpsd_log(&context.errout, LOG_INF,
"PPS:%s ntpshm_link_activate: %d\n",
device->gpsdata.dev.path,
device->shm_clock != NULL);
#endif /* NTPSHM_ENABLE */
gpsd_log(&context.errout, LOG_INF,
"device %s activated\n", device->gpsdata.dev.path);
if ( PLACEHOLDING_FD == activated ) {
/* it is a /dev/ppsX, no need to select() it */
return true;
}
FD_SET(device->gpsdata.gps_fd, &all_fds);
adjust_max_fd(device->gpsdata.gps_fd, true);
++highwater;
return true;
}
bool gpsd_add_device(const char *device_name, bool flag_nowait)
/* add a device to the pool; open it right away if in nowait mode
* return: false on failure
* true on success
*/
{
struct gps_device_t *devp;
bool ret = false;
/* we can't handle paths longer than GPS_PATH_MAX, so don't try */
if (strlen(device_name) >= GPS_PATH_MAX) {
gpsd_log(&context.errout, LOG_ERROR,
"ignoring device %s: path length exceeds maximum %d\n",
device_name, GPS_PATH_MAX);
return false;
}
/* stash devicename away for probing when the first client connects */
for (devp = devices; devp < devices + MAX_DEVICES; devp++)
if (!allocated_device(devp)) {
gpsd_init(devp, &context, device_name);
#ifdef NTPSHM_ENABLE
ntpshm_session_init(devp);
#endif /* NTPSHM_ENABLE */
gpsd_log(&context.errout, LOG_INF,
"stashing device %s at slot %d\n",
device_name, (int)(devp - devices));
if (!flag_nowait) {
devp->gpsdata.gps_fd = UNALLOCATED_FD;
ret = true;
} else {
ret = open_device(devp);
}
#ifdef SOCKET_EXPORT_ENABLE
notify_watchers(devp, true, false,
"{\"class\":\"DEVICE\",\"path\":\"%s\",\"activated\":%lf}\r\n",
devp->gpsdata.dev.path, timestamp());
#endif /* SOCKET_EXPORT_ENABLE */
break;
}
return ret;
}
#ifdef CONTROL_SOCKET_ENABLE
static char *snarfline(char *p, char **out)
/* copy the rest of the command line, before CR-LF */
{
char *q;
static char stash[BUFSIZ];
for (q = p; isprint((unsigned char) *p) && !isspace((unsigned char) *p) && (p - q < (ssize_t) sizeof(stash) - 1);
p++)
continue;
(void)memcpy(stash, q, (size_t) (p - q));
stash[p - q] = '\0';
*out = stash;
return p;
}
static void handle_control(int sfd, char *buf)
/* handle privileged commands coming through the control socket */
{
char *stash;
struct gps_device_t *devp;
/*
* The only other place in the code that knows about the format
* of the + and - commands is the gpsd_control() function in
* gpsdctl.c. Be careful about keeping them in sync, or
* hotplugging will have mysterious failures.
*/
if (buf[0] == '-') {
/* remove device named after - */
(void)snarfline(buf + 1, &stash);
gpsd_log(&context.errout, LOG_INF,
"<= control(%d): removing %s\n", sfd, stash);
if ((devp = find_device(stash))) {
deactivate_device(devp);
free_device(devp);
ignore_return(write(sfd, "OK\n", 3));
} else
ignore_return(write(sfd, "ERROR\n", 6));
} else if (buf[0] == '+') {
/* add device named after + */
(void)snarfline(buf + 1, &stash);
if (find_device(stash)) {
gpsd_log(&context.errout, LOG_INF,
"<= control(%d): %s already active \n", sfd,
stash);
ignore_return(write(sfd, "ERROR\n", 6));
} else {
gpsd_log(&context.errout, LOG_INF,
"<= control(%d): adding %s\n", sfd, stash);
if (gpsd_add_device(stash, NOWAIT))
ignore_return(write(sfd, "OK\n", 3));
else {
ignore_return(write(sfd, "ERROR\n", 6));
gpsd_log(&context.errout, LOG_INF,
"control(%d): adding %s failed, too many devices active\n",
sfd, stash);
}
}
} else if (buf[0] == '!') {
/* split line after ! into device=string, send string to device */
char *eq;
(void)snarfline(buf + 1, &stash);
eq = strchr(stash, '=');
if (eq == NULL) {
gpsd_log(&context.errout, LOG_WARN,
"<= control(%d): ill-formed command \n",
sfd);
ignore_return(write(sfd, "ERROR\n", 6));
} else {
*eq++ = '\0';
if ((devp = find_device(stash))) {
if (devp->context->readonly || (devp->sourcetype <= source_blockdev)) {
gpsd_log(&context.errout, LOG_WARN,
"<= control(%d): attempted to write to a read-only device\n",
sfd);
ignore_return(write(sfd, "ERROR\n", 6));
} else {
gpsd_log(&context.errout, LOG_INF,
"<= control(%d): writing to %s \n", sfd,
stash);
if (write(devp->gpsdata.gps_fd, eq, strlen(eq)) <= 0) {
gpsd_log(&context.errout, LOG_WARN,
"<= control(%d): write to device failed\n",
sfd);
ignore_return(write(sfd, "ERROR\n", 6));
} else {
ignore_return(write(sfd, "OK\n", 3));
}
}
} else {
gpsd_log(&context.errout, LOG_INF,
"<= control(%d): %s not active \n", sfd,
stash);
ignore_return(write(sfd, "ERROR\n", 6));
}
}
} else if (buf[0] == '&') {
/* split line after & into dev=hexdata, send unpacked hexdata to dev */
char *eq;
(void)snarfline(buf + 1, &stash);
eq = strchr(stash, '=');
if (eq == NULL) {
gpsd_log(&context.errout, LOG_WARN,
"<= control(%d): ill-formed command\n",
sfd);
ignore_return(write(sfd, "ERROR\n", 6));
} else {
size_t len;
*eq++ = '\0';
len = strlen(eq) + 5;
if ((devp = find_device(stash)) != NULL) {
if (devp->context->readonly || (devp->sourcetype <= source_blockdev)) {
gpsd_log(&context.errout, LOG_WARN,
"<= control(%d): attempted to write to a read-only device\n",
sfd);
ignore_return(write(sfd, "ERROR\n", 6));
} else {
int st;
/* NOTE: this destroys the original buffer contents */
st = gpsd_hexpack(eq, eq, len);
if (st <= 0) {
gpsd_log(&context.errout, LOG_INF,
"<= control(%d): invalid hex string (error %d).\n",
sfd, st);
ignore_return(write(sfd, "ERROR\n", 6));
} else {
gpsd_log(&context.errout, LOG_INF,
"<= control(%d): writing %d bytes fromhex(%s) to %s\n",
sfd, st, eq, stash);
if (write(devp->gpsdata.gps_fd, eq, (size_t) st) <= 0) {
gpsd_log(&context.errout, LOG_WARN,
"<= control(%d): write to device failed\n",
sfd);
ignore_return(write(sfd, "ERROR\n", 6));
} else {
ignore_return(write(sfd, "OK\n", 3));
}
}
}
} else {
gpsd_log(&context.errout, LOG_INF,
"<= control(%d): %s not active\n", sfd,
stash);
ignore_return(write(sfd, "ERROR\n", 6));
}
}
} else if (strstr(buf, "?devices")==buf) {
/* write back devices list followed by OK */
for (devp = devices; devp < devices + MAX_DEVICES; devp++) {
char *path = devp->gpsdata.dev.path;
ignore_return(write(sfd, path, strlen(path)));
ignore_return(write(sfd, "\n", 1));
}
ignore_return(write(sfd, "OK\n", 3));
} else {
/* unknown command */
ignore_return(write(sfd, "ERROR\n", 6));
}
}
#endif /* CONTROL_SOCKET_ENABLE */
#ifdef SOCKET_EXPORT_ENABLE
static bool awaken(struct gps_device_t *device)
/* awaken a device and notify all watchers*/
{
/* open that device */
if (!initialized_device(device)) {
if (!open_device(device)) {
gpsd_log(&context.errout, LOG_WARN,
"%s: open failed\n",
device->gpsdata.dev.path);
free_device(device);
return false;
}
}
if (!BAD_SOCKET(device->gpsdata.gps_fd)) {
gpsd_log(&context.errout, LOG_PROG,
"device %d (fd=%d, path %s) already active.\n",
(int)(device - devices),
device->gpsdata.gps_fd, device->gpsdata.dev.path);
return true;
} else {
if (gpsd_activate(device, O_OPTIMIZE) < 0) {
gpsd_log(&context.errout, LOG_ERROR,
"%s: device activation failed.\n",
device->gpsdata.dev.path);
return false;
} else {
gpsd_log(&context.errout, LOG_RAW,
"flagging descriptor %d in assign_channel()\n",
device->gpsdata.gps_fd);
FD_SET(device->gpsdata.gps_fd, &all_fds);
adjust_max_fd(device->gpsdata.gps_fd, true);
return true;
}
}
}
#ifdef RECONFIGURE_ENABLE
static bool privileged_user(struct gps_device_t *device)
/* is this channel privileged to change a device's behavior? */
{
/* grant user privilege if he's the only one listening to the device */
struct subscriber_t *sub;
int subcount = 0;
for (sub = subscribers; sub < subscribers + MAX_CLIENTS; sub++) {
if (subscribed(sub, device))
subcount++;
}
/*
* Yes, zero subscribers is possible. For example, gpsctl talking
* to the daemon connects but doesn't necessarily issue a ?WATCH
* before shipping a request, which means it isn't marked as a
* subscriber.
*/
return subcount <= 1;
}
static void set_serial(struct gps_device_t *device,
speed_t speed, char *modestring)
/* set serial parameters for a device from a speed and modestring */
{
unsigned int stopbits = device->gpsdata.dev.stopbits;
char parity = device->gpsdata.dev.parity;
int wordsize = 8;
#ifndef __clang_analyzer__
while (isspace((unsigned char) *modestring))
modestring++;
if (*modestring && strchr("78", *modestring) != NULL) {
wordsize = (int)(*modestring++ - '0');
if (*modestring && strchr("NOE", *modestring) != NULL) {
parity = *modestring++;
while (isspace((unsigned char) *modestring))
modestring++;
if (*modestring && strchr("12", *modestring) != NULL)
stopbits = (unsigned int)(*modestring - '0');
}
}
#endif /* __clang_analyzer__ */
gpsd_log(&context.errout, LOG_PROG,
"set_serial(%s,%u,%s) %c%d\n",
device->gpsdata.dev.path,
(unsigned int)speed, modestring, parity, stopbits);
/* no support for other word sizes yet */
/* *INDENT-OFF* */
if (wordsize == (int)(9 - stopbits)
&& device->device_type->speed_switcher != NULL) {
if (device->device_type->speed_switcher(device, speed, parity, (int)stopbits)) {
/*
* Deep black magic is required here. We have to
* allow the control string time to register at the
* GPS before we do the baud rate switch, which
* effectively trashes the UART's buffer.
*
* This definitely fails below 40 milliseconds on a
* BU-303b. 50ms is also verified by Chris Kuethe on
* Pharos iGPS360 + GSW 2.3.1ES + prolific
* Rayming TN-200 + GSW 2.3.1 + ftdi
* Rayming TN-200 + GSW 2.3.2 + ftdi
* so it looks pretty solid.
*
* The minimum delay time is probably constant
* across any given type of UART.
*/
(void)tcdrain(device->gpsdata.gps_fd);
(void)usleep(50000);
gpsd_set_speed(device, speed, parity, stopbits);
}
}
/* *INDENT-ON* */
}
#endif /* RECONFIGURE_ENABLE */
#ifdef SOCKET_EXPORT_ENABLE
static void json_devicelist_dump(char *reply, size_t replylen)
{
struct gps_device_t *devp;
(void)strlcpy(reply, "{\"class\":\"DEVICES\",\"devices\":[", replylen);
for (devp = devices; devp < devices + MAX_DEVICES; devp++)
if (allocated_device(devp)
&& strlen(reply) + strlen(devp->gpsdata.dev.path) + 3 <
replylen - 1) {
char *cp;
json_device_dump(devp,
reply + strlen(reply), replylen - strlen(reply));
cp = reply + strlen(reply);
*--cp = '\0';
*--cp = '\0';
(void)strlcat(reply, ",", replylen);
}
str_rstrip_char(reply, ',');
(void)strlcat(reply, "]}\r\n", replylen);
}
#endif /* SOCKET_EXPORT_ENABLE */
static void rstrip(char *str)
/* strip trailing \r\n\t\SP from a string */
{
char *strend;
strend = str + strlen(str) - 1;
while (isspace((unsigned char) *strend)) {
*strend = '\0';
--strend;
}
}
static void handle_request(struct subscriber_t *sub,
const char *buf, const char **after,
char *reply, size_t replylen)
{
struct gps_device_t *devp;
const char *end = NULL;
if (buf[0] == '?')
++buf;
if (str_starts_with(buf, "DEVICES;")) {
buf += 8;
json_devicelist_dump(reply, replylen);
} else if (str_starts_with(buf, "WATCH")
&& (buf[5] == ';' || buf[5] == '=')) {
const char *start = buf;
buf += 5;
if (*buf == ';') {
++buf;
} else {
int status = json_watch_read(buf + 1, &sub->policy, &end);
#ifndef TIMING_ENABLE
sub->policy.timing = false;
#endif /* TIMING_ENABLE */
if (end == NULL)
buf += strlen(buf);
else {
if (*end == ';')
++end;
buf = end;
}
if (status != 0) {
(void)snprintf(reply, replylen,
"{\"class\":\"ERROR\",\"message\":\"Invalid WATCH: %s\"}\r\n",
json_error_string(status));
gpsd_log(&context.errout, LOG_ERROR, "response: %s\n", reply);
} else if (sub->policy.watcher) {
if (sub->policy.devpath[0] == '\0') {
/* awaken all devices */
for (devp = devices; devp < devices + MAX_DEVICES; devp++)
if (allocated_device(devp)) {
(void)awaken(devp);
if (devp->sourcetype == source_gpsd) {
(void)gpsd_write(devp, "?", 1);
(void)gpsd_write(devp, start, (size_t)(end-start));
}
}
} else {
devp = find_device(sub->policy.devpath);
if (devp == NULL) {
(void)snprintf(reply, replylen,
"{\"class\":\"ERROR\",\"message\":\"No such device as %s\"}\r\n",
sub->policy.devpath);
gpsd_log(&context.errout, LOG_ERROR,
"response: %s\n", reply);
goto bailout;
} else if (awaken(devp)) {
if (devp->sourcetype == source_gpsd) {
(void)gpsd_write(devp, "?", 1);
(void)gpsd_write(devp, start, (size_t)(end-start));
}
} else {
(void)snprintf(reply, replylen,
"{\"class\":\"ERROR\",\"message\":\"Can't assign %s\"}\r\n",
sub->policy.devpath);
gpsd_log(&context.errout, LOG_ERROR,
"response: %s\n", reply);
goto bailout;
}
}
}
}
/* display a device list and the user's policy */
json_devicelist_dump(reply + strlen(reply), replylen - strlen(reply));
json_watch_dump(&sub->policy,
reply + strlen(reply), replylen - strlen(reply));
} else if (str_starts_with(buf, "DEVICE")
&& (buf[6] == ';' || buf[6] == '=')) {
struct devconfig_t devconf;
buf += 6;
devconf.path[0] = '\0'; /* initially, no device selection */
if (*buf == ';') {
++buf;
} else {
#ifdef RECONFIGURE_ENABLE
struct gps_device_t *device;
/* first, select a device to operate on */
int status = json_device_read(buf + 1, &devconf, &end);
if (end == NULL)
buf += strlen(buf);
else {
if (*end == ';')
++end;
buf = end;
}
device = NULL;
if (status != 0) {
(void)snprintf(reply, replylen,
"{\"class\":\"ERROR\",\"message\":\"Invalid DEVICE: \"%s\"}\r\n",
json_error_string(status));
gpsd_log(&context.errout, LOG_ERROR, "response: %s\n", reply);
goto bailout;
} else {
if (devconf.path[0] != '\0') {
/* user specified a path, try to assign it */
device = find_device(devconf.path);
/* do not optimize away, we need 'device' later on! */
if (device == NULL || !awaken(device)) {
(void)snprintf(reply, replylen,
"{\"class\":\"ERROR\",\"message\":\"Can't open %s.\"}\r\n",
devconf.path);
gpsd_log(&context.errout, LOG_ERROR,
"response: %s\n", reply);
goto bailout;
}
} else {
/* no path specified */
int devcount = 0;
for (devp = devices; devp < devices + MAX_DEVICES; devp++)
if (allocated_device(devp)) {
device = devp;
devcount++;
}
if (devcount == 0) {
(void)strlcat(reply,
"{\"class\":\"ERROR\",\"message\":\"Can't perform DEVICE configuration, no devices attached.\"}\r\n",
replylen);
gpsd_log(&context.errout, LOG_ERROR,
"response: %s\n", reply);
goto bailout;
} else if (devcount > 1) {
str_appendf(reply, replylen,
"{\"class\":\"ERROR\",\"message\":\"No path specified in DEVICE, but multiple devices are attached.\"}\r\n");
gpsd_log(&context.errout, LOG_ERROR,
"response: %s\n", reply);
goto bailout;
}
/* we should have exactly one device now */
}
if (!privileged_user(device))
str_appendf(reply, replylen,
"{\"class\":\"ERROR\",\"message\":\"Multiple subscribers, cannot change control bits on %s.\"}\r\n",
device->gpsdata.dev.path);
else if (device->device_type == NULL)
str_appendf(reply, replylen,
"{\"class\":\"ERROR\",\"message\":\"Type of %s is unknown.\"}\r\n",
device->gpsdata.dev.path);
else {
const struct gps_type_t *dt = device->device_type;
bool no_serial_change =
(devconf.baudrate == DEVDEFAULT_BPS)
&& (devconf.parity == DEVDEFAULT_PARITY)
&& (devconf.stopbits == DEVDEFAULT_STOPBITS);
/* interpret defaults */
if (devconf.baudrate == DEVDEFAULT_BPS)
devconf.baudrate =
(uint) gpsd_get_speed(device);
if (devconf.parity == DEVDEFAULT_PARITY)
devconf.stopbits = device->gpsdata.dev.stopbits;
if (devconf.stopbits == DEVDEFAULT_STOPBITS)
devconf.stopbits = device->gpsdata.dev.stopbits;
if (isnan(devconf.cycle))
devconf.cycle = device->gpsdata.dev.cycle;
/* now that channel is selected, apply changes */
if (devconf.driver_mode != device->gpsdata.dev.driver_mode
&& devconf.driver_mode != DEVDEFAULT_NATIVE
&& dt->mode_switcher != NULL)
dt->mode_switcher(device, devconf.driver_mode);
if (!no_serial_change) {
char serialmode[3];
serialmode[0] = devconf.parity;
serialmode[1] = '0' + devconf.stopbits;
serialmode[2] = '\0';
set_serial(device,
(speed_t) devconf.baudrate, serialmode);
}
if (devconf.cycle != device->gpsdata.dev.cycle
&& devconf.cycle >= dt->min_cycle
&& dt->rate_switcher != NULL)
if (dt->rate_switcher(device, devconf.cycle))
device->gpsdata.dev.cycle = devconf.cycle;
}
}
#else /* RECONFIGURE_ENABLE */
str_appendf(reply, replylen,
"{\"class\":\"ERROR\",\"message\":\"Device configuration support not compiled.\"}\r\n");
#endif /* RECONFIGURE_ENABLE */
}
/* dump a response for each selected channel */
for (devp = devices; devp < devices + MAX_DEVICES; devp++)
if (!allocated_device(devp))
continue;
else if (devconf.path[0] != '\0'
&& strcmp(devp->gpsdata.dev.path, devconf.path) != 0)
continue;
else {
json_device_dump(devp,
reply + strlen(reply),
replylen - strlen(reply));
}
} else if (str_starts_with(buf, "POLL;")) {
char tbuf[JSON_DATE_MAX+1];
int active = 0;
buf += 5;
for (devp = devices; devp < devices + MAX_DEVICES; devp++)
if (allocated_device(devp) && subscribed(sub, devp))
if ((devp->observed & GPS_TYPEMASK) != 0)
active++;
(void)snprintf(reply, replylen,
"{\"class\":\"POLL\",\"time\":\"%s\",\"active\":%d,\"tpv\":[",
unix_to_iso8601(timestamp(), tbuf, sizeof(tbuf)), active);
for (devp = devices; devp < devices + MAX_DEVICES; devp++) {
if (allocated_device(devp) && subscribed(sub, devp)) {
if ((devp->observed & GPS_TYPEMASK) != 0) {
json_tpv_dump(devp, &sub->policy,
reply + strlen(reply),
replylen - strlen(reply));
rstrip(reply);
(void)strlcat(reply, ",", replylen);
}
}
}
str_rstrip_char(reply, ',');
(void)strlcat(reply, "],\"gst\":[", replylen);
for (devp = devices; devp < devices + MAX_DEVICES; devp++) {
if (allocated_device(devp) && subscribed(sub, devp)) {
if ((devp->observed & GPS_TYPEMASK) != 0) {
json_noise_dump(&devp->gpsdata,
reply + strlen(reply),
replylen - strlen(reply));
rstrip(reply);
(void)strlcat(reply, ",", replylen);
}
}
}
str_rstrip_char(reply, ',');
(void)strlcat(reply, "],\"sky\":[", replylen);
for (devp = devices; devp < devices + MAX_DEVICES; devp++) {
if (allocated_device(devp) && subscribed(sub, devp)) {
if ((devp->observed & GPS_TYPEMASK) != 0) {
json_sky_dump(&devp->gpsdata,
reply + strlen(reply),
replylen - strlen(reply));
rstrip(reply);
(void)strlcat(reply, ",", replylen);
}
}
}
str_rstrip_char(reply, ',');
(void)strlcat(reply, "]}\r\n", replylen);
} else if (str_starts_with(buf, "VERSION;")) {
buf += 8;
json_version_dump(reply, replylen);
} else {
const char *errend;
errend = buf + strlen(buf) - 1;
while (isspace((unsigned char) *errend) && errend > buf)
--errend;
(void)snprintf(reply, replylen,
"{\"class\":\"ERROR\",\"message\":\"Unrecognized request '%.*s'\"}\r\n",
(int)(errend - buf), buf);
gpsd_log(&context.errout, LOG_ERROR, "ERROR response: %s\n", reply);
buf += strlen(buf);
}
bailout:
*after = buf;
}
static void raw_report(struct subscriber_t *sub, struct gps_device_t *device)
/* report a raw packet to a subscriber */
{
/* *INDENT-OFF* */
/*
* NMEA and other textual sentences are simply
* copied to all clients that are in raw or nmea
* mode.
*/
if (TEXTUAL_PACKET_TYPE(device->lexer.type)
&& (sub->policy.raw > 0 || sub->policy.nmea)) {
(void)throttled_write(sub,
(char *)device->lexer.outbuffer,
device->lexer.outbuflen);
return;
}
/*
* Also, simply copy if user has specified
* super-raw mode.
*/
if (sub->policy.raw > 1) {
(void)throttled_write(sub,
(char *)device->lexer.outbuffer,
device->lexer.outbuflen);
return;
}
#ifdef BINARY_ENABLE
/*
* Maybe the user wants a binary packet hexdumped.
*/
if (sub->policy.raw == 1) {
const char *hd =
gpsd_hexdump(device->msgbuf, sizeof(device->msgbuf),
(char *)device->lexer.outbuffer,
device->lexer.outbuflen);
(void)strlcat((char *)hd, "\r\n", sizeof(device->msgbuf));
(void)throttled_write(sub, (char *)hd, strlen(hd));
}
#endif /* BINARY_ENABLE */
}
static void pseudonmea_report(struct subscriber_t *sub,
gps_mask_t changed,
struct gps_device_t *device)
/* report pseudo-NMEA in appropriate circumstances */
{
if (GPS_PACKET_TYPE(device->lexer.type)
&& !TEXTUAL_PACKET_TYPE(device->lexer.type)) {
char buf[MAX_PACKET_LENGTH * 3 + 2];
if ((changed & REPORT_IS) != 0) {
nmea_tpv_dump(device, buf, sizeof(buf));
gpsd_log(&context.errout, LOG_IO,
"<= GPS (binary tpv) %s: %s\n",
device->gpsdata.dev.path, buf);
(void)throttled_write(sub, buf, strlen(buf));
}
if ((changed & SATELLITE_SET) != 0) {
nmea_sky_dump(device, buf, sizeof(buf));
gpsd_log(&context.errout, LOG_IO,
"<= GPS (binary sky) %s: %s\n",
device->gpsdata.dev.path, buf);
(void)throttled_write(sub, buf, strlen(buf));
}
if ((changed & SUBFRAME_SET) != 0) {
nmea_subframe_dump(device, buf, sizeof(buf));
gpsd_log(&context.errout, LOG_IO,
"<= GPS (binary subframe) %s: %s\n",
device->gpsdata.dev.path, buf);
(void)throttled_write(sub, buf, strlen(buf));
}
#ifdef AIVDM_ENABLE
if ((changed & AIS_SET) != 0) {
nmea_ais_dump(device, buf, sizeof(buf));
gpsd_log(&context.errout, LOG_IO,
"<= AIS (binary ais) %s: %s\n",
device->gpsdata.dev.path, buf);
(void)throttled_write(sub, buf, strlen(buf));
}
#endif /* AIVDM_ENABLE */
}
}
#endif /* SOCKET_EXPORT_ENABLE */
static void all_reports(struct gps_device_t *device, gps_mask_t changed)
/* report on the current packet from a specified device */
{
#ifdef SOCKET_EXPORT_ENABLE
struct subscriber_t *sub;
/* add any just-identified device to watcher lists */
if ((changed & DRIVER_IS) != 0) {
bool listeners = false;
for (sub = subscribers;
sub < subscribers + MAX_CLIENTS; sub++)
if (sub->active != 0
&& sub->policy.watcher
&& subscribed(sub, device))
listeners = true;
if (listeners) {
(void)awaken(device);
}
}
/* handle laggy response to a firmware version query */
if ((changed & (DEVICEID_SET | DRIVER_IS)) != 0) {
if (device->device_type == NULL)
gpsd_log(&context.errout, LOG_ERROR,
"internal error - device type of %s not set when expected\n",
device->gpsdata.dev.path);
else
{
char id2[GPS_JSON_RESPONSE_MAX];
json_device_dump(device, id2, sizeof(id2));
notify_watchers(device, true, false, id2);
}
}
#endif /* SOCKET_EXPORT_ENABLE */
/*
* If the device provided an RTCM packet, repeat it to all devices.
*/
if ((changed & RTCM2_SET) != 0 || (changed & RTCM3_SET) != 0) {
if (device->lexer.outbuflen > RTCM_MAX) {
gpsd_log(&context.errout, LOG_ERROR,
"overlong RTCM packet (%zd bytes)\n",
device->lexer.outbuflen);
} else {
struct gps_device_t *dp;
for (dp = devices; dp < devices+MAX_DEVICES; dp++) {
if (allocated_device(dp)) {
/* *INDENT-OFF* */
if (dp->device_type->rtcm_writer != NULL) {
if (dp->device_type->rtcm_writer(dp,
(const char *)device->lexer.outbuffer,
device->lexer.outbuflen) == 0)
gpsd_log(&context.errout, LOG_ERROR,
"Write to RTCM sink failed\n");
else {
gpsd_log(&context.errout, LOG_IO,
"<= DGPS: %zd bytes of RTCM relayed.\n",
device->lexer.outbuflen);
}
}
/* *INDENT-ON* */
}
}
}
}
#ifdef NTP_ENABLE
/*
* Time is eligible for shipping to NTPD if the driver has
* asserted PPSTIME_IS at any point in the current cycle.
*/
if ((changed & CLEAR_IS)!=0)
device->ship_to_ntpd = false;
if ((changed & PPSTIME_IS)!=0)
device->ship_to_ntpd = true;
/*
* Only update the NTP time if we've seen the leap-seconds data.
* Else we may be providing GPS time.
*/
if ((changed & TIME_SET) == 0) {
//gpsd_log(&context.errout, LOG_PROG, "NTP: No time this packet\n");
} else if (isnan(device->newdata.time)) {
//gpsd_log(&context.errout, LOG_PROG, "NTP: bad new time\n");
#if defined(PPS_ENABLE)
} else if (device->newdata.time <= device->pps_thread.fix_in.real.tv_sec) {
//gpsd_log(&context.errout, LOG_PROG, "NTP: Not a new time\n");
#endif /* PPS_ENABLE */
} else if (!device->ship_to_ntpd) {
//gpsd_log(&context.errout, LOG_PROG, "NTP: No precision time report\n");
} else {
struct timedelta_t td;
#if defined(PPS_ENABLE)
struct gps_device_t *ppsonly;
#endif /* PPS_ENABLE */
ntp_latch(device, &td);
#if defined(PPS_ENABLE)
/* propagate this in-band-time to all PPS-only devices */
for (ppsonly = devices; ppsonly < devices + MAX_DEVICES; ppsonly++)
if (ppsonly->sourcetype == source_pps)
pps_thread_fixin(&ppsonly->pps_thread, &td);
#endif /* PPS_ENABLE */
#ifdef NTPSHM_ENABLE
if (device->shm_clock != NULL) {
(void)ntpshm_put(device, device->shm_clock, &td);
}
#endif /* NTPSHM_ENABLE */
#ifdef SOCKET_EXPORT_ENABLE
notify_watchers(device, false, true,
"{\"class\":\"TOFF\",\"device\":\"%s\",\"real_sec\":%ld, \"real_nsec\":%ld,\"clock_sec\":%ld,\"clock_nsec\":%ld}\r\n",
device->gpsdata.dev.path,
td.real.tv_sec, td.real.tv_nsec,
td.clock.tv_sec, td.clock.tv_nsec);
#endif /* SOCKET_EXPORT_ENABLE */
}
#endif /* NTP_ENABLE */
/*
* If no reliable end of cycle, must report every time
* a sentence changes position or mode. Likely to
* cause display jitter.
*/
if (!device->cycle_end_reliable && (changed & (LATLON_SET | MODE_SET))!=0)
changed |= REPORT_IS;
/* a few things are not per-subscriber reports */
if ((changed & REPORT_IS) != 0) {
#ifdef NETFEED_ENABLE
if (device->gpsdata.fix.mode == MODE_3D) {
struct gps_device_t *dgnss;
/*
* Pass the fix to every potential caster, here.
* netgnss_report() individual caster types get to
* make filtering decisiona.
*/
for (dgnss = devices; dgnss < devices + MAX_DEVICES; dgnss++)
if (dgnss != device)
netgnss_report(&context, device, dgnss);
}
#endif /* NETFEED_ENABLE */
#if defined(DBUS_EXPORT_ENABLE)
if (device->gpsdata.fix.mode > MODE_NO_FIX)
send_dbus_fix(device);
#endif /* defined(DBUS_EXPORT_ENABLE) */
}
#ifdef SHM_EXPORT_ENABLE
if ((changed & (REPORT_IS|GST_SET|SATELLITE_SET|SUBFRAME_SET|
ATTITUDE_SET|RTCM2_SET|RTCM3_SET|AIS_SET)) != 0)
shm_update(&context, &device->gpsdata);
#endif /* SHM_EXPORT_ENABLE */
#ifdef SOCKET_EXPORT_ENABLE
/* update all subscribers associated with this device */
for (sub = subscribers; sub < subscribers + MAX_CLIENTS; sub++) {
if (sub == NULL || sub->active == 0 || !subscribed(sub, device))
continue;
#ifdef PASSTHROUGH_ENABLE
/* this is for passing through JSON packets */
if ((changed & PASSTHROUGH_IS) != 0) {
(void)strlcat((char *)device->lexer.outbuffer,
"\r\n",
sizeof(device->lexer.outbuffer));
(void)throttled_write(sub,
(char *)device->lexer.outbuffer,
device->lexer.outbuflen+2);
continue;
}
#endif /* PASSTHROUGH_ENABLE */
/* report raw packets to users subscribed to those */
raw_report(sub, device);
/* some listeners may be in watcher mode */
if (sub->policy.watcher) {
if (changed & DATA_IS) {
/* guard keeps mask dumper from eating CPU */
if (context.errout.debug >= LOG_PROG)
gpsd_log(&context.errout, LOG_PROG,
"Changed mask: %s with %sreliable cycle detection\n",
gps_maskdump(changed),
device->cycle_end_reliable ? "" : "un");
if ((changed & REPORT_IS) != 0)
gpsd_log(&context.errout, LOG_PROG,
"time to report a fix\n");
if (sub->policy.nmea)
pseudonmea_report(sub, changed, device);
if (sub->policy.json)
{
char buf[GPS_JSON_RESPONSE_MAX * 4];
if ((changed & AIS_SET) != 0)
if (device->gpsdata.ais.type == 24
&& device->gpsdata.ais.type24.part != both
&& !sub->policy.split24)
continue;
json_data_report(changed,
device, &sub->policy,
buf, sizeof(buf));
if (buf[0] != '\0')
(void)throttled_write(sub, buf, strlen(buf));
}
}
}
} /* subscribers */
#endif /* SOCKET_EXPORT_ENABLE */
}
#ifdef SOCKET_EXPORT_ENABLE
static int handle_gpsd_request(struct subscriber_t *sub, const char *buf)
/* execute GPSD requests from a buffer */
{
char reply[GPS_JSON_RESPONSE_MAX + 1];
reply[0] = '\0';
if (buf[0] == '?') {
const char *end;
for (end = buf; *buf != '\0'; buf = end)
if (isspace((unsigned char) *buf))
end = buf + 1;
else
handle_request(sub, buf, &end,
reply + strlen(reply),
sizeof(reply) - strlen(reply));
}
return (int)throttled_write(sub, reply, strlen(reply));
}
#endif /* SOCKET_EXPORT_ENABLE */
#if defined(CONTROL_SOCKET_ENABLE) && defined(PPS_ENABLE) && defined(SOCKET_EXPORT_ENABLE)
static void ship_pps_message(struct gps_device_t *session,
struct timedelta_t *td)
/* on PPS interrupt, ship a message to all clients */
{
int precision = -20;
if ( source_usb == session->sourcetype) {
/* PPS over USB not so good */
precision = -10;
}
/* real_XXX - the time the GPS thinks it is at the PPS edge */
/* clock_XXX - the time the system clock thinks it is at the PPS edge */
notify_watchers(session, true, true,
"{\"class\":\"PPS\",\"device\":\"%s\",\"real_sec\":%ld, \"real_nsec\":%ld,\"clock_sec\":%ld,\"clock_nsec\":%ld,\"precision\":%d}\r\n",
session->gpsdata.dev.path,
td->real.tv_sec, td->real.tv_nsec,
td->clock.tv_sec, td->clock.tv_nsec,
precision);
/*
* PPS receipt resets the device's timeout. This keeps PPS-only
* devices, which never deliver in-band data, from timing out.
*/
session->gpsdata.online = timestamp();
}
#endif
#ifdef __UNUSED_AUTOCONNECT__
#define DGPS_THRESHOLD 1600000 /* max. useful dist. from DGPS server (m) */
#define SERVER_SAMPLE 12 /* # of servers within threshold to check */
struct dgps_server_t
{
double lat, lon;
char server[257];
double dist;
};
static int srvcmp(const void *s, const void *t)
{
return (int)(((const struct dgps_server_t *)s)->dist - ((const struct dgps_server_t *)t)->dist); /* fixes: warning: cast discards qualifiers from pointer target type */
}
static void netgnss_autoconnect(struct gps_context_t *context,
double lat, double lon, const char *serverlist)
/* tell the library to talk to the nearest DGPSIP server */
{
struct dgps_server_t keep[SERVER_SAMPLE], hold, *sp, *tp;
char buf[BUFSIZ];
FILE *sfp = fopen(serverlist, "r");
if (sfp == NULL) {
gpsd_log(&context.errout, LOG_ERROR, "no DGPS server list found.\n");
return;
}
for (sp = keep; sp < keep + SERVER_SAMPLE; sp++) {
sp->dist = DGPS_THRESHOLD;
sp->server[0] = '\0';
}
while (fgets(buf, (int)sizeof(buf), sfp)) {
char *cp = strchr(buf, '#');
if (cp != NULL)
*cp = '\0';
if (sscanf(buf, "%32lf %32lf %256s", &hold.lat, &hold.lon, hold.server) ==
3) {
hold.dist = earth_distance(lat, lon, hold.lat, hold.lon);
tp = NULL;
/*
* The idea here is to look for a server in the sample array
* that is (a) closer than the one we're checking, and (b)
* furtherest away of all those that are closer. Replace it.
* In this way we end up with the closest possible set.
*/
for (sp = keep; sp < keep + SERVER_SAMPLE; sp++)
if (hold.dist < sp->dist
&& (tp == NULL || hold.dist > tp->dist))
tp = sp;
if (tp != NULL)
memcpy(tp, &hold, sizeof(struct dgps_server_t));
}
}
(void)fclose(sfp);
if (keep[0].server[0] == '\0') {
gpsd_log(&context.errout, LOG_ERROR,
"no DGPS servers within %dm.\n",
(int)(DGPS_THRESHOLD / 1000));
return;
}
/* sort them and try the closest first */
qsort((void *)keep, SERVER_SAMPLE, sizeof(struct dgps_server_t), srvcmp);
for (sp = keep; sp < keep + SERVER_SAMPLE; sp++) {
if (sp->server[0] != '\0') {
gpsd_log(&context.errout, LOG_INF,
"%s is %dkm away.\n", sp->server,
(int)(sp->dist / 1000));
if (dgpsip_open(context, sp->server) >= 0)
break;
}
}
}
#endif /* __UNUSED_AUTOCONNECT__ */
#ifdef PPS_ENABLE
#define CONDITIONALLY_UNUSED
#else
#define CONDITIONALLY_UNUSED UNUSED
#endif /* PPS_ENABLE */
static void gpsd_terminate(struct gps_context_t *context CONDITIONALLY_UNUSED)
/* finish cleanly, reverting device configuration */
{
int dfd;
for (dfd = 0; dfd < MAX_DEVICES; dfd++) {
if (allocated_device(&devices[dfd])) {
(void)gpsd_wrap(&devices[dfd]);
}
}
#ifdef PPS_ENABLE
context->pps_hook = NULL; /* tell any PPS-watcher thread to die */
#endif /* PPS_ENABLE */
}
int main(int argc, char *argv[])
{
/* some of these statics suppress -W warnings due to longjmp() */
#ifdef SOCKET_EXPORT_ENABLE
static char *gpsd_service = NULL;
struct subscriber_t *sub;
#endif /* SOCKET_EXPORT_ENABLE */
fd_set rfds;
#ifdef CONTROL_SOCKET_ENABLE
fd_set control_fds;
#endif /* CONTROL_SOCKET_ENABLE */
#ifdef CONTROL_SOCKET_ENABLE
static socket_t csock;
socket_t cfd;
static char *control_socket = NULL;
#endif /* CONTROL_SOCKET_ENABLE */
#if defined(SOCKET_EXPORT_ENABLE) || defined(CONTROL_SOCKET_ENABLE)
sockaddr_t fsin;
#endif /* defined(SOCKET_EXPORT_ENABLE) || defined(CONTROL_SOCKET_ENABLE) */
static char *pid_file = NULL;
struct gps_device_t *device;
int i, option;
int msocks[2] = {-1, -1};
bool go_background = true;
volatile bool in_restart;
gps_context_init(&context, "gpsd");
#ifdef CONTROL_SOCKET_ENABLE
INVALIDATE_SOCKET(csock);
#if defined(PPS_ENABLE) && defined(SOCKET_EXPORT_ENABLE)
context.pps_hook = ship_pps_message;
#endif /* PPS_ENABLE && SOCKET_EXPORT_ENABLE */
#endif /* CONTROL_SOCKET_ENABLE */
while ((option = getopt(argc, argv, "F:D:S:bGhlNnP:V")) != -1) {
switch (option) {
case 'D':
context.errout.debug = (int)strtol(optarg, 0, 0);
#ifdef CLIENTDEBUG_ENABLE
gps_enable_debug(context.errout.debug, stderr);
#endif /* CLIENTDEBUG_ENABLE */
break;
#ifdef CONTROL_SOCKET_ENABLE
case 'F':
control_socket = optarg;
break;
#endif /* CONTROL_SOCKET_ENABLE */
case 'N':
go_background = false;
break;
case 'b':
context.readonly = true;
break;
#ifndef FORCE_GLOBAL_ENABLE
case 'G':
listen_global = true;
break;
#endif /* FORCE_GLOBAL_ENABLE */
case 'l': /* list known device types and exit */
typelist();
break;
case 'S':
#ifdef SOCKET_EXPORT_ENABLE
gpsd_service = optarg;
#endif /* SOCKET_EXPORT_ENABLE */
break;
case 'n':
#ifndef FORCE_NOWAIT
nowait = true;
#endif /* FORCE_NOWAIT */
break;
case 'P':
pid_file = optarg;
break;
case 'V':
(void)printf("%s: %s (revision %s)\n", argv[0], VERSION, REVISION);
exit(EXIT_SUCCESS);
case 'h':
case '?':
default:
usage();
exit(EXIT_SUCCESS);
}
}
/* sanity check */
if (argc - optind > MAX_DEVICES) {
gpsd_log(&context.errout, LOG_ERROR,
"too many devices on command line\n");
exit(1);
}
#if defined(SYSTEMD_ENABLE) && defined(CONTROL_SOCKET_ENABLE)
sd_socket_count = sd_get_socket_count();
if (sd_socket_count > 0 && control_socket != NULL) {
gpsd_log(&context.errout, LOG_WARN,
"control socket passed on command line ignored\n");
control_socket = NULL;
}
#endif
#if defined(CONTROL_SOCKET_ENABLE) || defined(SYSTEMD_ENABLE)
if (
#ifdef CONTROL_SOCKET_ENABLE
control_socket == NULL
#endif
#if defined(CONTROL_SOCKET_ENABLE) && defined(SYSTEMD_ENABLE)
&&
#endif
#ifdef SYSTEMD_ENABLE
sd_socket_count <= 0
#endif
&& optind >= argc) {
gpsd_log(&context.errout, LOG_ERROR,
"can't run with neither control socket nor devices\n");
exit(EXIT_FAILURE);
}
/*
* Control socket has to be created before we go background in order to
* avoid a race condition in which hotplug scripts can try opening
* the socket before it's created.
*/
#if defined(SYSTEMD_ENABLE) && defined(CONTROL_SOCKET_ENABLE)
if (sd_socket_count > 0) {
csock = SD_SOCKET_FDS_START;
FD_SET(csock, &all_fds);
adjust_max_fd(csock, true);
}
#endif
#ifdef CONTROL_SOCKET_ENABLE
if (control_socket) {
(void)unlink(control_socket);
if (BAD_SOCKET(csock = filesock(control_socket))) {
gpsd_log(&context.errout, LOG_ERROR,
"control socket create failed, netlib error %d\n",
csock);
exit(EXIT_FAILURE);
} else
gpsd_log(&context.errout, LOG_SPIN,
"control socket %s is fd %d\n",
control_socket, csock);
FD_SET(csock, &all_fds);
adjust_max_fd(csock, true);
gpsd_log(&context.errout, LOG_PROG,
"control socket opened at %s\n",
control_socket);
}
#endif /* CONTROL_SOCKET_ENABLE */
#else
if (optind >= argc) {
gpsd_log(&context.errout, LOG_ERROR,
"can't run with no devices specified\n");
exit(EXIT_FAILURE);
}
#endif /* defined(CONTROL_SOCKET_ENABLE) || defined(SYSTEMD_ENABLE) */
/* might be time to daemonize */
if (go_background) {
/* not SuS/POSIX portable, but we have our own fallback version */
if (daemon(0, 0) != 0)
gpsd_log(&context.errout, LOG_ERROR,
"demonization failed: %s\n",strerror(errno));
}
if (pid_file != NULL) {
FILE *fp;
if ((fp = fopen(pid_file, "w")) != NULL) {
(void)fprintf(fp, "%u\n", (unsigned int)getpid());
(void)fclose(fp);
} else {
gpsd_log(&context.errout, LOG_ERROR,
"Cannot create PID file: %s.\n", pid_file);
}
}
openlog("gpsd", LOG_PID, LOG_USER);
gpsd_log(&context.errout, LOG_INF, "launching (Version %s)\n", VERSION);
#ifdef SOCKET_EXPORT_ENABLE
if (!gpsd_service)
gpsd_service =
getservbyname("gpsd", "tcp") ? "gpsd" : DEFAULT_GPSD_PORT;
if (passivesocks(gpsd_service, "tcp", QLEN, msocks) < 1) {
gpsd_log(&context.errout, LOG_ERR,
"command sockets creation failed, netlib errors %d, %d\n",
msocks[0], msocks[1]);
if (pid_file != NULL)
(void)unlink(pid_file);
exit(EXIT_FAILURE);
}
gpsd_log(&context.errout, LOG_INF, "listening on port %s\n", gpsd_service);
#endif /* SOCKET_EXPORT_ENABLE */
#ifdef NTPSHM_ENABLE
if (getuid() == 0) {
errno = 0;
// nice() can ONLY succeed when run as root!
// do not even bother as non-root
if (nice(NICEVAL) == -1 && errno != 0)
gpsd_log(&context.errout, LOG_WARN,
"PPS: o=priority setting failed. Time accuracty will be degraded\n");
}
/*
* By initializing before we drop privileges, we guarantee that even
* hotplugged devices added *after* we drop privileges will be able
* to use segments 0 and 1.
*/
(void)ntpshm_context_init(&context);
#endif /* NTPSHM_ENABLE */
#if defined(DBUS_EXPORT_ENABLE)
/* we need to connect to dbus as root */
if (initialize_dbus_connection()) {
/* the connection could not be started */
gpsd_log(&context.errout, LOG_ERROR,
"unable to connect to the DBUS system bus\n");
} else
gpsd_log(&context.errout, LOG_PROG,
"successfully connected to the DBUS system bus\n");
#endif /* defined(DBUS_EXPORT_ENABLE) */
#ifdef SHM_EXPORT_ENABLE
/* create the shared segment as root so readers can't mess with it */
(void)shm_acquire(&context);
#endif /* SHM_EXPORT_ENABLE */
/*
* We open devices specified on the command line *before* dropping
* privileges in case one of them is a serial device with PPS support
* and we need to set the line discipline, which requires root.
*/
in_restart = false;
for (i = optind; i < argc; i++) {
if (!gpsd_add_device(argv[i], NOWAIT)) {
gpsd_log(&context.errout, LOG_ERROR,
"initial GPS device %s open failed\n",
argv[i]);
}
}
/* drop privileges */
if (0 == getuid()) {
struct passwd *pw;
struct stat stb;
/* make default devices accessible even after we drop privileges */
for (i = optind; i < argc; i++)
/* coverity[toctou] */
if (stat(argv[i], &stb) == 0)
(void)chmod(argv[i], stb.st_mode | S_IRGRP | S_IWGRP);
/*
* Drop privileges. Up to now we've been running as root.
* Instead, set the user ID to 'nobody' (or whatever the gpsd
* user set by thre build is) and the group ID to the owning
* group of a prototypical TTY device. This limits the scope
* of any compromises in the code. It requires that all GPS
* devices have their group read/write permissions set.
*/
if (setgroups(0, NULL) != 0)
gpsd_log(&context.errout, LOG_ERROR,
"setgroups() failed, errno %s\n",
strerror(errno));
#ifdef GPSD_GROUP
{
struct group *grp = getgrnam(GPSD_GROUP);
if (grp)
if (setgid(grp->gr_gid) != 0)
gpsd_log(&context.errout, LOG_ERROR,
"setgid() failed, errno %s\n",
strerror(errno));
}
#else
if ((optind < argc && stat(argv[optind], &stb) == 0)
|| stat(PROTO_TTY, &stb) == 0) {
gpsd_log(&context.errout, LOG_PROG,
"changing to group %d\n", stb.st_gid);
if (setgid(stb.st_gid) != 0)
gpsd_log(&context.errout, LOG_ERROR,
"setgid() failed, errno %s\n",
strerror(errno));
}
#endif
pw = getpwnam(GPSD_USER);
if (pw)
if (setuid(pw->pw_uid) != 0)
gpsd_log(&context.errout, LOG_ERROR,
"setuid() failed, errno %s\n",
strerror(errno));
}
gpsd_log(&context.errout, LOG_INF,
"running with effective group ID %d\n", getegid());
gpsd_log(&context.errout, LOG_INF,
"running with effective user ID %d\n", geteuid());
#ifdef SOCKET_EXPORT_ENABLE
for (i = 0; i < NITEMS(subscribers); i++) {
subscribers[i].fd = UNALLOCATED_FD;
(void)pthread_mutex_init(&subscribers[i].mutex, NULL);
}
#endif /* SOCKET_EXPORT_ENABLE*/
{
struct sigaction sa;
sa.sa_flags = 0;
#ifdef __COVERITY__
/*
* Obsolete and unused. We're only doing this to pacify Coverity
* which otherwise throws an UNINIT event here. Don't swap with the
* handler initialization, they're unioned on some architectures.
*/
sa.sa_restorer = NULL;
#endif /* __COVERITY__ */
sa.sa_handler = onsig;
(void)sigfillset(&sa.sa_mask);
(void)sigaction(SIGHUP, &sa, NULL);
(void)sigaction(SIGINT, &sa, NULL);
(void)sigaction(SIGTERM, &sa, NULL);
(void)sigaction(SIGQUIT, &sa, NULL);
(void)signal(SIGPIPE, SIG_IGN);
}
/* daemon got termination or interrupt signal */
if (setjmp(restartbuf) > 0) {
gpsd_terminate(&context);
in_restart = true;
gpsd_log(&context.errout, LOG_WARN, "gpsd restarted by SIGHUP\n");
}
signalled = 0;
for (i = 0; i < AFCOUNT; i++)
if (msocks[i] >= 0) {
FD_SET(msocks[i], &all_fds);
adjust_max_fd(msocks[i], true);
}
#ifdef CONTROL_SOCKET_ENABLE
FD_ZERO(&control_fds);
#endif /* CONTROL_SOCKET_ENABLE */
/* initialize the GPS context's time fields */
gpsd_time_init(&context, time(NULL));
/*
* If we got here via SIGINT, reopen any command-line devices. PPS
* through these won't work, as we've dropped privileges and can
* no longer change line disciplines.
*/
if (in_restart)
for (i = optind; i < argc; i++) {
if (!gpsd_add_device(argv[i], NOWAIT)) {
gpsd_log(&context.errout, LOG_ERROR,
"GPS device %s open failed\n",
argv[i]);
}
}
while (0 == signalled) {
fd_set efds;
switch(gpsd_await_data(&rfds, &efds, maxfd, &all_fds, &context.errout))
{
case AWAIT_GOT_INPUT:
break;
case AWAIT_NOT_READY:
for (device = devices; device < devices + MAX_DEVICES; device++)
if (allocated_device(device) && FD_ISSET(device->gpsdata.gps_fd, &efds)) {
deactivate_device(device);
free_device(device);
}
continue;
case AWAIT_FAILED:
exit(EXIT_FAILURE);
}
#ifdef SOCKET_EXPORT_ENABLE
/* always be open to new client connections */
for (i = 0; i < AFCOUNT; i++) {
if (msocks[i] >= 0 && FD_ISSET(msocks[i], &rfds)) {
socklen_t alen = (socklen_t) sizeof(fsin);
socket_t ssock =
accept(msocks[i], (struct sockaddr *)&fsin, &alen);
if (BAD_SOCKET(ssock))
gpsd_log(&context.errout, LOG_ERROR,
"accept: %s\n", strerror(errno));
else {
struct subscriber_t *client = NULL;
int opts = fcntl(ssock, F_GETFL);
static struct linger linger = { 1, RELEASE_TIMEOUT };
char *c_ip;
if (opts >= 0)
(void)fcntl(ssock, F_SETFL, opts | O_NONBLOCK);
c_ip = netlib_sock2ip(ssock);
client = allocate_client();
if (client == NULL) {
gpsd_log(&context.errout, LOG_ERROR,
"Client %s connect on fd %d -"
"no subscriber slots available\n", c_ip,
ssock);
(void)close(ssock);
} else
if (setsockopt
(ssock, SOL_SOCKET, SO_LINGER, (char *)&linger,
(int)sizeof(struct linger)) == -1) {
gpsd_log(&context.errout, LOG_ERROR,
"Error: SETSOCKOPT SO_LINGER\n");
(void)close(ssock);
} else {
char announce[GPS_JSON_RESPONSE_MAX];
FD_SET(ssock, &all_fds);
adjust_max_fd(ssock, true);
client->fd = ssock;
client->active = time(NULL);
gpsd_log(&context.errout, LOG_SPIN,
"client %s (%d) connect on fd %d\n", c_ip,
sub_index(client), ssock);
json_version_dump(announce, sizeof(announce));
(void)throttled_write(client, announce,
strlen(announce));
}
}
FD_CLR(msocks[i], &rfds);
}
}
#endif /* SOCKET_EXPORT_ENABLE */
#ifdef CONTROL_SOCKET_ENABLE
/* also be open to new control-socket connections */
if (csock > -1 && FD_ISSET(csock, &rfds)) {
socklen_t alen = (socklen_t) sizeof(fsin);
socket_t ssock = accept(csock, (struct sockaddr *)&fsin, &alen);
if (BAD_SOCKET(ssock))
gpsd_log(&context.errout, LOG_ERROR,
"accept: %s\n", strerror(errno));
else {
gpsd_log(&context.errout, LOG_INF,
"control socket connect on fd %d\n",
ssock);
FD_SET(ssock, &all_fds);
FD_SET(ssock, &control_fds);
adjust_max_fd(ssock, true);
}
FD_CLR(csock, &rfds);
}
/* read any commands that came in over the control socket */
for (cfd = 0; cfd < (int)FD_SETSIZE; cfd++)
if (FD_ISSET(cfd, &control_fds)) {
char buf[BUFSIZ];
ssize_t rd;
while ((rd = read(cfd, buf, sizeof(buf) - 1)) > 0) {
buf[rd] = '\0';
gpsd_log(&context.errout, LOG_CLIENT,
"<= control(%d): %s\n", cfd, buf);
/* coverity[tainted_data] Safe, never handed to exec */
handle_control(cfd, buf);
}
gpsd_log(&context.errout, LOG_SPIN,
"close(%d) of control socket\n", cfd);
(void)close(cfd);
FD_CLR(cfd, &all_fds);
FD_CLR(cfd, &control_fds);
adjust_max_fd(cfd, false);
}
#endif /* CONTROL_SOCKET_ENABLE */
/* poll all active devices */
for (device = devices; device < devices + MAX_DEVICES; device++)
if (allocated_device(device) && device->gpsdata.gps_fd > 0)
switch (gpsd_multipoll(FD_ISSET(device->gpsdata.gps_fd, &rfds),
device, all_reports, DEVICE_REAWAKE))
{
case DEVICE_READY:
FD_SET(device->gpsdata.gps_fd, &all_fds);
adjust_max_fd(device->gpsdata.gps_fd, true);
break;
case DEVICE_UNREADY:
FD_CLR(device->gpsdata.gps_fd, &all_fds);
adjust_max_fd(device->gpsdata.gps_fd, false);
break;
case DEVICE_ERROR:
case DEVICE_EOF:
deactivate_device(device);
break;
default:
break;
}
#ifdef __UNUSED_AUTOCONNECT__
if (context.fixcnt > 0 && !context.autconnect) {
for (device = devices; device < devices + MAX_DEVICES; device++) {
if (device->gpsdata.fix.mode > MODE_NO_FIX) {
netgnss_autoconnect(&context,
device->gpsdata.fix.latitude,
device->gpsdata.fix.longitude);
context.autconnect = True;
break;
}
}
}
#endif /* __UNUSED_AUTOCONNECT__ */
#ifdef SOCKET_EXPORT_ENABLE
/* accept and execute commands for all clients */
for (sub = subscribers; sub < subscribers + MAX_CLIENTS; sub++) {
if (sub->active == 0)
continue;
lock_subscriber(sub);
if (FD_ISSET(sub->fd, &rfds)) {
char buf[BUFSIZ];
int buflen;
unlock_subscriber(sub);
gpsd_log(&context.errout, LOG_PROG,
"checking client(%d)\n",
sub_index(sub));
if ((buflen =
(int)recv(sub->fd, buf, sizeof(buf) - 1, 0)) <= 0) {
detach_client(sub);
} else {
if (buf[buflen - 1] != '\n')
buf[buflen++] = '\n';
buf[buflen] = '\0';
gpsd_log(&context.errout, LOG_CLIENT,
"<= client(%d): %s\n", sub_index(sub), buf);
/*
* When a command comes in, update subscriber.active to
* timestamp() so we don't close the connection
* after COMMAND_TIMEOUT seconds. This makes
* COMMAND_TIMEOUT useful.
*/
sub->active = time(NULL);
if (handle_gpsd_request(sub, buf) < 0)
detach_client(sub);
}
} else {
unlock_subscriber(sub);
if (!sub->policy.watcher
&& time(NULL) - sub->active > COMMAND_TIMEOUT) {
gpsd_log(&context.errout, LOG_WARN,
"client(%d) timed out on command wait.\n",
sub_index(sub));
detach_client(sub);
}
}
}
/*
* Mark devices with an identified packet type but no
* remaining subscribers to be closed in RELEASE_TIME seconds.
* See the explanation of RELEASE_TIME for the reasoning.
*
* Re-poll devices that are disconnected, but have potential
* subscribers in the same cycle.
*/
for (device = devices; device < devices + MAX_DEVICES; device++) {
bool device_needed = NOWAIT;
if (!allocated_device(device))
continue;
if (!device_needed)
for (sub=subscribers; sub<subscribers+MAX_CLIENTS; sub++) {
if (sub->active == 0)
continue;
device_needed = subscribed(sub, device);
if (device_needed)
break;
}
if (!device_needed && device->gpsdata.gps_fd > -1 &&
device->lexer.type != BAD_PACKET) {
if (device->releasetime == 0) {
device->releasetime = time(NULL);
gpsd_log(&context.errout, LOG_PROG,
"device %d (fd %d) released\n",
(int)(device - devices),
device->gpsdata.gps_fd);
} else if (time(NULL) - device->releasetime > RELEASE_TIMEOUT) {
gpsd_log(&context.errout, LOG_PROG,
"device %d closed\n",
(int)(device - devices));
gpsd_log(&context.errout, LOG_RAW,
"unflagging descriptor %d\n",
device->gpsdata.gps_fd);
deactivate_device(device);
}
}
if (device_needed && BAD_SOCKET(device->gpsdata.gps_fd) &&
(device->opentime == 0 ||
time(NULL) - device->opentime > DEVICE_RECONNECT)) {
device->opentime = time(NULL);
gpsd_log(&context.errout, LOG_INF,
"reconnection attempt on device %d\n",
(int)(device - devices));
(void)awaken(device);
}
}
#endif /* SOCKET_EXPORT_ENABLE */
/*
* Might be time for graceful shutdown if no command-line
* devices were specified, there are no subscribers, there are
* no active devices, and there *have been* active
* devices. The goal is to go away and free up text space when
* the daemon was hotplug-activated but there are no
* subscribers and the last GPS has unplugged, and the point
* of the last check is to prevent shutdown when the daemon
* has been launched but not yet received its first device
* over the socket.
*/
if (argc == optind && highwater > 0) {
int subcount = 0, devcount = 0;
#ifdef SOCKET_EXPORT_ENABLE
for (sub = subscribers; sub < subscribers + MAX_CLIENTS; sub++)
if (sub->active != 0)
++subcount;
#endif /* SOCKET_EXPORT_ENABLE */
for (device = devices; device < devices + MAX_DEVICES; device++)
if (allocated_device(device))
++devcount;
if (subcount == 0 && devcount == 0) {
gpsd_log(&context.errout, LOG_SHOUT,
"no subscribers or devices, shutting down.\n");
goto shutdown;
}
}
}
/* if we make it here, we got a signal... deal with it */
/* restart on SIGHUP, clean up and exit otherwise */
if (SIGHUP == (int)signalled)
longjmp(restartbuf, 1);
gpsd_log(&context.errout, LOG_WARN,
"received terminating signal %d.\n", signalled);
shutdown:
gpsd_terminate(&context);
gpsd_log(&context.errout, LOG_WARN, "exiting.\n");
#ifdef SOCKET_EXPORT_ENABLE
/*
* A linger option was set on each client socket when it was
* created. Now, shut them down gracefully, letting I/O drain.
* This is an attempt to avoid the sporadic race errors at the ends
* of our regression tests.
*/
for (sub = subscribers; sub < subscribers + MAX_CLIENTS; sub++) {
if (sub->active != 0)
detach_client(sub);
}
#endif /* SOCKET_EXPORT_ENABLE */
#ifdef SHM_EXPORT_ENABLE
shm_release(&context);
#endif /* SHM_EXPORT_ENABLE */
#ifdef CONTROL_SOCKET_ENABLE
if (control_socket)
(void)unlink(control_socket);
#endif /* CONTROL_SOCKET_ENABLE */
if (pid_file)
(void)unlink(pid_file);
return 0;
}
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