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|
/* dnsmasq is Copyright (c) 2000-2022 Simon Kelley
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 dated June, 1991, or
(at your option) version 3 dated 29 June, 2007.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/* Declare static char *compiler_opts in config.h */
#define DNSMASQ_COMPILE_OPTS
/* dnsmasq.h has to be included first as it sources config.h */
#include "dnsmasq.h"
#if defined(HAVE_IDN) || defined(HAVE_LIBIDN2) || defined(LOCALEDIR)
#include <locale.h>
#endif
struct daemon *daemon;
static volatile pid_t pid = 0;
static volatile int pipewrite;
static void set_dns_listeners(void);
static void check_dns_listeners(time_t now);
static void sig_handler(int sig);
static void async_event(int pipe, time_t now);
static void fatal_event(struct event_desc *ev, char *msg);
static int read_event(int fd, struct event_desc *evp, char **msg);
static void poll_resolv(int force, int do_reload, time_t now);
int main (int argc, char **argv)
{
time_t now;
struct sigaction sigact;
struct iname *if_tmp;
int piperead, pipefd[2], err_pipe[2];
struct passwd *ent_pw = NULL;
#if defined(HAVE_SCRIPT)
uid_t script_uid = 0;
gid_t script_gid = 0;
#endif
struct group *gp = NULL;
long i, max_fd = sysconf(_SC_OPEN_MAX);
char *baduser = NULL;
int log_err;
int chown_warn = 0;
#if defined(HAVE_LINUX_NETWORK)
cap_user_header_t hdr = NULL;
cap_user_data_t data = NULL;
int need_cap_net_admin = 0;
int need_cap_net_raw = 0;
int need_cap_net_bind_service = 0;
char *bound_device = NULL;
int did_bind = 0;
struct server *serv;
char *netlink_warn;
#else
int bind_fallback = 0;
#endif
#if defined(HAVE_DHCP) || defined(HAVE_DHCP6)
struct dhcp_context *context;
struct dhcp_relay *relay;
#endif
#ifdef HAVE_TFTP
int tftp_prefix_missing = 0;
#endif
#if defined(HAVE_IDN) || defined(HAVE_LIBIDN2) || defined(LOCALEDIR)
setlocale(LC_ALL, "");
#endif
#ifdef LOCALEDIR
bindtextdomain("dnsmasq", LOCALEDIR);
textdomain("dnsmasq");
#endif
sigact.sa_handler = sig_handler;
sigact.sa_flags = 0;
sigemptyset(&sigact.sa_mask);
sigaction(SIGUSR1, &sigact, NULL);
sigaction(SIGUSR2, &sigact, NULL);
sigaction(SIGHUP, &sigact, NULL);
sigaction(SIGTERM, &sigact, NULL);
sigaction(SIGALRM, &sigact, NULL);
sigaction(SIGCHLD, &sigact, NULL);
sigaction(SIGINT, &sigact, NULL);
/* ignore SIGPIPE */
sigact.sa_handler = SIG_IGN;
sigaction(SIGPIPE, &sigact, NULL);
umask(022); /* known umask, create leases and pid files as 0644 */
rand_init(); /* Must precede read_opts() */
read_opts(argc, argv, compile_opts);
#ifdef HAVE_LINUX_NETWORK
daemon->kernel_version = kernel_version();
#endif
if (daemon->edns_pktsz < PACKETSZ)
daemon->edns_pktsz = PACKETSZ;
/* Min buffer size: we check after adding each record, so there must be
memory for the largest packet, and the largest record so the
min for DNS is PACKETSZ+MAXDNAME+RRFIXEDSZ which is < 1000.
This might be increased is EDNS packet size if greater than the minimum. */
daemon->packet_buff_sz = daemon->edns_pktsz + MAXDNAME + RRFIXEDSZ;
daemon->packet = safe_malloc(daemon->packet_buff_sz);
if (option_bool(OPT_EXTRALOG))
daemon->addrbuff2 = safe_malloc(ADDRSTRLEN);
#ifdef HAVE_DNSSEC
if (option_bool(OPT_DNSSEC_VALID))
{
/* Note that both /000 and '.' are allowed within labels. These get
represented in presentation format using NAME_ESCAPE as an escape
character when in DNSSEC mode.
In theory, if all the characters in a name were /000 or
'.' or NAME_ESCAPE then all would have to be escaped, so the
presentation format would be twice as long as the spec.
daemon->namebuff was previously allocated by the option-reading
code before we knew if we're in DNSSEC mode, so reallocate here. */
free(daemon->namebuff);
daemon->namebuff = safe_malloc(MAXDNAME * 2);
daemon->keyname = safe_malloc(MAXDNAME * 2);
daemon->workspacename = safe_malloc(MAXDNAME * 2);
/* one char flag per possible RR in answer section (may get extended). */
daemon->rr_status_sz = 64;
daemon->rr_status = safe_malloc(sizeof(*daemon->rr_status) * daemon->rr_status_sz);
}
#endif
#if defined(HAVE_CONNTRACK) && defined(HAVE_UBUS)
/* CONNTRACK UBUS code uses this buffer, so if not allocated above,
we need to allocate it here. */
if (option_bool(OPT_CMARK_ALST_EN) && !daemon->workspacename)
daemon->workspacename = safe_malloc(MAXDNAME);
#endif
#ifdef HAVE_DHCP
if (!daemon->lease_file)
{
if (daemon->dhcp || daemon->dhcp6)
daemon->lease_file = LEASEFILE;
}
#endif
/* Ensure that at least stdin, stdout and stderr (fd 0, 1, 2) exist,
otherwise file descriptors we create can end up being 0, 1, or 2
and then get accidentally closed later when we make 0, 1, and 2
open to /dev/null. Normally we'll be started with 0, 1 and 2 open,
but it's not guaranteed. By opening /dev/null three times, we
ensure that we're not using those fds for real stuff. */
for (i = 0; i < 3; i++)
open("/dev/null", O_RDWR);
/* Close any file descriptors we inherited apart from std{in|out|err} */
close_fds(max_fd, -1, -1, -1);
#ifndef HAVE_LINUX_NETWORK
# if !(defined(IP_RECVDSTADDR) && defined(IP_RECVIF) && defined(IP_SENDSRCADDR))
if (!option_bool(OPT_NOWILD))
{
bind_fallback = 1;
set_option_bool(OPT_NOWILD);
}
# endif
/* -- bind-dynamic not supported on !Linux, fall back to --bind-interfaces */
if (option_bool(OPT_CLEVERBIND))
{
bind_fallback = 1;
set_option_bool(OPT_NOWILD);
reset_option_bool(OPT_CLEVERBIND);
}
#endif
#ifndef HAVE_INOTIFY
if (daemon->dynamic_dirs)
die(_("dhcp-hostsdir, dhcp-optsdir and hostsdir are not supported on this platform"), NULL, EC_BADCONF);
#endif
if (option_bool(OPT_DNSSEC_VALID))
{
#ifdef HAVE_DNSSEC
struct ds_config *ds;
/* Must have at least a root trust anchor, or the DNSSEC code
can loop forever. */
for (ds = daemon->ds; ds; ds = ds->next)
if (ds->name[0] == 0)
break;
if (!ds)
die(_("no root trust anchor provided for DNSSEC"), NULL, EC_BADCONF);
if (daemon->cachesize < CACHESIZ)
die(_("cannot reduce cache size from default when DNSSEC enabled"), NULL, EC_BADCONF);
#else
die(_("DNSSEC not available: set HAVE_DNSSEC in src/config.h"), NULL, EC_BADCONF);
#endif
}
#ifndef HAVE_TFTP
if (option_bool(OPT_TFTP))
die(_("TFTP server not available: set HAVE_TFTP in src/config.h"), NULL, EC_BADCONF);
#endif
#ifdef HAVE_CONNTRACK
if (option_bool(OPT_CONNTRACK))
{
if (daemon->query_port != 0 || daemon->osport)
die (_("cannot use --conntrack AND --query-port"), NULL, EC_BADCONF);
need_cap_net_admin = 1;
}
#else
if (option_bool(OPT_CONNTRACK))
die(_("conntrack support not available: set HAVE_CONNTRACK in src/config.h"), NULL, EC_BADCONF);
#endif
#ifdef HAVE_SOLARIS_NETWORK
if (daemon->max_logs != 0)
die(_("asynchronous logging is not available under Solaris"), NULL, EC_BADCONF);
#endif
#ifdef __ANDROID__
if (daemon->max_logs != 0)
die(_("asynchronous logging is not available under Android"), NULL, EC_BADCONF);
#endif
#ifndef HAVE_AUTH
if (daemon->auth_zones)
die(_("authoritative DNS not available: set HAVE_AUTH in src/config.h"), NULL, EC_BADCONF);
#endif
#ifndef HAVE_LOOP
if (option_bool(OPT_LOOP_DETECT))
die(_("loop detection not available: set HAVE_LOOP in src/config.h"), NULL, EC_BADCONF);
#endif
#ifndef HAVE_UBUS
if (option_bool(OPT_UBUS))
die(_("Ubus not available: set HAVE_UBUS in src/config.h"), NULL, EC_BADCONF);
#endif
/* Handle only one of min_port/max_port being set. */
if (daemon->min_port != 0 && daemon->max_port == 0)
daemon->max_port = MAX_PORT;
if (daemon->max_port != 0 && daemon->min_port == 0)
daemon->min_port = MIN_PORT;
if (daemon->max_port < daemon->min_port)
die(_("max_port cannot be smaller than min_port"), NULL, EC_BADCONF);
if (daemon->max_port != 0 &&
daemon->max_port - daemon->min_port + 1 < daemon->randport_limit)
die(_("port_limit must not be larger than available port range"), NULL, EC_BADCONF);
now = dnsmasq_time();
if (daemon->auth_zones)
{
if (!daemon->authserver)
die(_("--auth-server required when an auth zone is defined."), NULL, EC_BADCONF);
/* Create a serial at startup if not configured. */
#ifdef HAVE_BROKEN_RTC
if (daemon->soa_sn == 0)
die(_("zone serial must be configured in --auth-soa"), NULL, EC_BADCONF);
#else
if (daemon->soa_sn == 0)
daemon->soa_sn = now;
#endif
}
#ifdef HAVE_DHCP6
if (daemon->dhcp6)
{
daemon->doing_ra = option_bool(OPT_RA);
for (context = daemon->dhcp6; context; context = context->next)
{
if (context->flags & CONTEXT_DHCP)
daemon->doing_dhcp6 = 1;
if (context->flags & CONTEXT_RA)
daemon->doing_ra = 1;
#if !defined(HAVE_LINUX_NETWORK) && !defined(HAVE_BSD_NETWORK)
if (context->flags & CONTEXT_TEMPLATE)
die (_("dhcp-range constructor not available on this platform"), NULL, EC_BADCONF);
#endif
}
}
#endif
#ifdef HAVE_DHCP
/* Note that order matters here, we must call lease_init before
creating any file descriptors which shouldn't be leaked
to the lease-script init process. We need to call common_init
before lease_init to allocate buffers it uses.
The script subsystem relies on DHCP buffers, hence the last two
conditions below. */
if (daemon->dhcp || daemon->doing_dhcp6 || daemon->relay4 ||
daemon->relay6 || option_bool(OPT_TFTP) || option_bool(OPT_SCRIPT_ARP))
{
dhcp_common_init();
if (daemon->dhcp || daemon->doing_dhcp6)
lease_init(now);
}
if (daemon->dhcp || daemon->relay4)
{
dhcp_init();
# ifdef HAVE_LINUX_NETWORK
if (!option_bool(OPT_NO_PING))
need_cap_net_raw = 1;
need_cap_net_admin = 1;
# endif
}
# ifdef HAVE_DHCP6
if (daemon->doing_ra || daemon->doing_dhcp6 || daemon->relay6)
{
ra_init(now);
# ifdef HAVE_LINUX_NETWORK
need_cap_net_raw = 1;
need_cap_net_admin = 1;
# endif
}
if (daemon->doing_dhcp6 || daemon->relay6)
dhcp6_init();
# endif
#endif
#ifdef HAVE_IPSET
if (daemon->ipsets)
{
ipset_init();
# ifdef HAVE_LINUX_NETWORK
need_cap_net_admin = 1;
# endif
}
#endif
#ifdef HAVE_NFTSET
if (daemon->nftsets)
{
nftset_init();
# ifdef HAVE_LINUX_NETWORK
need_cap_net_admin = 1;
# endif
}
#endif
#if defined(HAVE_LINUX_NETWORK)
netlink_warn = netlink_init();
#elif defined(HAVE_BSD_NETWORK)
route_init();
#endif
if (option_bool(OPT_NOWILD) && option_bool(OPT_CLEVERBIND))
die(_("cannot set --bind-interfaces and --bind-dynamic"), NULL, EC_BADCONF);
if (!enumerate_interfaces(1) || !enumerate_interfaces(0))
die(_("failed to find list of interfaces: %s"), NULL, EC_MISC);
if (option_bool(OPT_NOWILD) || option_bool(OPT_CLEVERBIND))
{
create_bound_listeners(1);
if (!option_bool(OPT_CLEVERBIND))
for (if_tmp = daemon->if_names; if_tmp; if_tmp = if_tmp->next)
if (if_tmp->name && !if_tmp->used)
die(_("unknown interface %s"), if_tmp->name, EC_BADNET);
#if defined(HAVE_LINUX_NETWORK) && defined(HAVE_DHCP)
/* after enumerate_interfaces() */
bound_device = whichdevice();
if ((did_bind = bind_dhcp_devices(bound_device)) & 2)
die(_("failed to set SO_BINDTODEVICE on DHCP socket: %s"), NULL, EC_BADNET);
#endif
}
else
create_wildcard_listeners();
#ifdef HAVE_DHCP6
/* after enumerate_interfaces() */
if (daemon->doing_dhcp6 || daemon->relay6 || daemon->doing_ra)
join_multicast(1);
/* After netlink_init() and before create_helper() */
lease_make_duid(now);
#endif
if (daemon->port != 0)
{
cache_init();
blockdata_init();
hash_questions_init();
/* Scale random socket pool by ftabsize, but
limit it based on available fds. */
daemon->numrrand = daemon->ftabsize/2;
if (daemon->numrrand > max_fd/3)
daemon->numrrand = max_fd/3;
/* safe_malloc returns zero'd memory */
daemon->randomsocks = safe_malloc(daemon->numrrand * sizeof(struct randfd));
}
#ifdef HAVE_INOTIFY
if ((daemon->port != 0 || daemon->dhcp || daemon->doing_dhcp6)
&& (!option_bool(OPT_NO_RESOLV) || daemon->dynamic_dirs))
inotify_dnsmasq_init();
else
daemon->inotifyfd = -1;
#endif
if (daemon->dump_file)
#ifdef HAVE_DUMPFILE
dump_init();
else
daemon->dumpfd = -1;
#else
die(_("Packet dumps not available: set HAVE_DUMP in src/config.h"), NULL, EC_BADCONF);
#endif
if (option_bool(OPT_DBUS))
#ifdef HAVE_DBUS
{
char *err;
if ((err = dbus_init()))
die(_("DBus error: %s"), err, EC_MISC);
}
#else
die(_("DBus not available: set HAVE_DBUS in src/config.h"), NULL, EC_BADCONF);
#endif
if (option_bool(OPT_UBUS))
#ifdef HAVE_UBUS
{
char *err;
if ((err = ubus_init()))
die(_("UBus error: %s"), err, EC_MISC);
}
#else
die(_("UBus not available: set HAVE_UBUS in src/config.h"), NULL, EC_BADCONF);
#endif
if (daemon->port != 0)
pre_allocate_sfds();
#if defined(HAVE_SCRIPT)
/* Note getpwnam returns static storage */
if ((daemon->dhcp || daemon->dhcp6) &&
daemon->scriptuser &&
(daemon->lease_change_command || daemon->luascript))
{
struct passwd *scr_pw;
if ((scr_pw = getpwnam(daemon->scriptuser)))
{
script_uid = scr_pw->pw_uid;
script_gid = scr_pw->pw_gid;
}
else
baduser = daemon->scriptuser;
}
#endif
if (daemon->username && !(ent_pw = getpwnam(daemon->username)))
baduser = daemon->username;
else if (daemon->groupname && !(gp = getgrnam(daemon->groupname)))
baduser = daemon->groupname;
if (baduser)
die(_("unknown user or group: %s"), baduser, EC_BADCONF);
/* implement group defaults, "dip" if available, or group associated with uid */
if (!daemon->group_set && !gp)
{
if (!(gp = getgrnam(CHGRP)) && ent_pw)
gp = getgrgid(ent_pw->pw_gid);
/* for error message */
if (gp)
daemon->groupname = gp->gr_name;
}
#if defined(HAVE_LINUX_NETWORK)
/* We keep CAP_NETADMIN (for ARP-injection) and
CAP_NET_RAW (for icmp) if we're doing dhcp,
if we have yet to bind ports because of DAD,
or we're doing it dynamically, we need CAP_NET_BIND_SERVICE. */
if ((is_dad_listeners() || option_bool(OPT_CLEVERBIND)) &&
(option_bool(OPT_TFTP) || (daemon->port != 0 && daemon->port <= 1024)))
need_cap_net_bind_service = 1;
/* usptream servers which bind to an interface call SO_BINDTODEVICE
for each TCP connection, so need CAP_NET_RAW */
for (serv = daemon->servers; serv; serv = serv->next)
if (serv->interface[0] != 0)
need_cap_net_raw = 1;
/* If we're doing Dbus or UBus, the above can be set dynamically,
(as can ports) so always (potentially) needed. */
#ifdef HAVE_DBUS
if (option_bool(OPT_DBUS))
{
need_cap_net_bind_service = 1;
need_cap_net_raw = 1;
}
#endif
#ifdef HAVE_UBUS
if (option_bool(OPT_UBUS))
{
need_cap_net_bind_service = 1;
need_cap_net_raw = 1;
}
#endif
/* determine capability API version here, while we can still
call safe_malloc */
int capsize = 1; /* for header version 1 */
char *fail = NULL;
hdr = safe_malloc(sizeof(*hdr));
/* find version supported by kernel */
memset(hdr, 0, sizeof(*hdr));
capget(hdr, NULL);
if (hdr->version != LINUX_CAPABILITY_VERSION_1)
{
/* if unknown version, use largest supported version (3) */
if (hdr->version != LINUX_CAPABILITY_VERSION_2)
hdr->version = LINUX_CAPABILITY_VERSION_3;
capsize = 2;
}
data = safe_malloc(sizeof(*data) * capsize);
capget(hdr, data); /* Get current values, for verification */
if (need_cap_net_admin && !(data->permitted & (1 << CAP_NET_ADMIN)))
fail = "NET_ADMIN";
else if (need_cap_net_raw && !(data->permitted & (1 << CAP_NET_RAW)))
fail = "NET_RAW";
else if (need_cap_net_bind_service && !(data->permitted & (1 << CAP_NET_BIND_SERVICE)))
fail = "NET_BIND_SERVICE";
if (fail)
die(_("process is missing required capability %s"), fail, EC_MISC);
/* Now set bitmaps to set caps after daemonising */
memset(data, 0, sizeof(*data) * capsize);
if (need_cap_net_admin)
data->effective |= (1 << CAP_NET_ADMIN);
if (need_cap_net_raw)
data->effective |= (1 << CAP_NET_RAW);
if (need_cap_net_bind_service)
data->effective |= (1 << CAP_NET_BIND_SERVICE);
data->permitted = data->effective;
#endif
/* Use a pipe to carry signals and other events back to the event loop
in a race-free manner and another to carry errors to daemon-invoking process */
safe_pipe(pipefd, 1);
piperead = pipefd[0];
pipewrite = pipefd[1];
/* prime the pipe to load stuff first time. */
send_event(pipewrite, EVENT_INIT, 0, NULL);
err_pipe[1] = -1;
if (!option_bool(OPT_DEBUG))
{
/* The following code "daemonizes" the process.
See Stevens section 12.4 */
if (chdir("/") != 0)
die(_("cannot chdir to filesystem root: %s"), NULL, EC_MISC);
if (!option_bool(OPT_NO_FORK))
{
pid_t pid;
/* pipe to carry errors back to original process.
When startup is complete we close this and the process terminates. */
safe_pipe(err_pipe, 0);
if ((pid = fork()) == -1)
/* fd == -1 since we've not forked, never returns. */
send_event(-1, EVENT_FORK_ERR, errno, NULL);
if (pid != 0)
{
struct event_desc ev;
char *msg;
/* close our copy of write-end */
close(err_pipe[1]);
/* check for errors after the fork */
if (read_event(err_pipe[0], &ev, &msg))
fatal_event(&ev, msg);
_exit(EC_GOOD);
}
close(err_pipe[0]);
/* NO calls to die() from here on. */
setsid();
if ((pid = fork()) == -1)
send_event(err_pipe[1], EVENT_FORK_ERR, errno, NULL);
if (pid != 0)
_exit(0);
}
/* write pidfile _after_ forking ! */
if (daemon->runfile)
{
int fd, err = 0;
sprintf(daemon->namebuff, "%d\n", (int) getpid());
/* Explanation: Some installations of dnsmasq (eg Debian/Ubuntu) locate the pid-file
in a directory which is writable by the non-privileged user that dnsmasq runs as. This
allows the daemon to delete the file as part of its shutdown. This is a security hole to the
extent that an attacker running as the unprivileged user could replace the pidfile with a
symlink, and have the target of that symlink overwritten as root next time dnsmasq starts.
The following code first deletes any existing file, and then opens it with the O_EXCL flag,
ensuring that the open() fails should there be any existing file (because the unlink() failed,
or an attacker exploited the race between unlink() and open()). This ensures that no symlink
attack can succeed.
Any compromise of the non-privileged user still theoretically allows the pid-file to be
replaced whilst dnsmasq is running. The worst that could allow is that the usual
"shutdown dnsmasq" shell command could be tricked into stopping any other process.
Note that if dnsmasq is started as non-root (eg for testing) it silently ignores
failure to write the pid-file.
*/
unlink(daemon->runfile);
if ((fd = open(daemon->runfile, O_WRONLY|O_CREAT|O_TRUNC|O_EXCL, S_IWUSR|S_IRUSR|S_IRGRP|S_IROTH)) == -1)
{
/* only complain if started as root */
if (getuid() == 0)
err = 1;
}
else
{
/* We're still running as root here. Change the ownership of the PID file
to the user we will be running as. Note that this is not to allow
us to delete the file, since that depends on the permissions
of the directory containing the file. That directory will
need to by owned by the dnsmasq user, and the ownership of the
file has to match, to keep systemd >273 happy. */
if (getuid() == 0 && ent_pw && ent_pw->pw_uid != 0 && fchown(fd, ent_pw->pw_uid, ent_pw->pw_gid) == -1)
chown_warn = errno;
if (!read_write(fd, (unsigned char *)daemon->namebuff, strlen(daemon->namebuff), 0))
err = 1;
else
{
if (close(fd) == -1)
err = 1;
}
}
if (err)
{
send_event(err_pipe[1], EVENT_PIDFILE, errno, daemon->runfile);
_exit(0);
}
}
}
log_err = log_start(ent_pw, err_pipe[1]);
if (!option_bool(OPT_DEBUG))
{
/* open stdout etc to /dev/null */
int nullfd = open("/dev/null", O_RDWR);
if (nullfd != -1)
{
dup2(nullfd, STDOUT_FILENO);
dup2(nullfd, STDERR_FILENO);
dup2(nullfd, STDIN_FILENO);
close(nullfd);
}
}
/* if we are to run scripts, we need to fork a helper before dropping root. */
daemon->helperfd = -1;
#ifdef HAVE_SCRIPT
if ((daemon->dhcp ||
daemon->dhcp6 ||
daemon->relay6 ||
option_bool(OPT_TFTP) ||
option_bool(OPT_SCRIPT_ARP)) &&
(daemon->lease_change_command || daemon->luascript))
daemon->helperfd = create_helper(pipewrite, err_pipe[1], script_uid, script_gid, max_fd);
#endif
if (!option_bool(OPT_DEBUG) && getuid() == 0)
{
int bad_capabilities = 0;
gid_t dummy;
/* remove all supplementary groups */
if (gp &&
(setgroups(0, &dummy) == -1 ||
setgid(gp->gr_gid) == -1))
{
send_event(err_pipe[1], EVENT_GROUP_ERR, errno, daemon->groupname);
_exit(0);
}
if (ent_pw && ent_pw->pw_uid != 0)
{
#if defined(HAVE_LINUX_NETWORK)
/* Need to be able to drop root. */
data->effective |= (1 << CAP_SETUID);
data->permitted |= (1 << CAP_SETUID);
/* Tell kernel to not clear capabilities when dropping root */
if (capset(hdr, data) == -1 || prctl(PR_SET_KEEPCAPS, 1, 0, 0, 0) == -1)
bad_capabilities = errno;
#elif defined(HAVE_SOLARIS_NETWORK)
/* http://developers.sun.com/solaris/articles/program_privileges.html */
priv_set_t *priv_set;
if (!(priv_set = priv_str_to_set("basic", ",", NULL)) ||
priv_addset(priv_set, PRIV_NET_ICMPACCESS) == -1 ||
priv_addset(priv_set, PRIV_SYS_NET_CONFIG) == -1)
bad_capabilities = errno;
if (priv_set && bad_capabilities == 0)
{
priv_inverse(priv_set);
if (setppriv(PRIV_OFF, PRIV_LIMIT, priv_set) == -1)
bad_capabilities = errno;
}
if (priv_set)
priv_freeset(priv_set);
#endif
if (bad_capabilities != 0)
{
send_event(err_pipe[1], EVENT_CAP_ERR, bad_capabilities, NULL);
_exit(0);
}
/* finally drop root */
if (setuid(ent_pw->pw_uid) == -1)
{
send_event(err_pipe[1], EVENT_USER_ERR, errno, daemon->username);
_exit(0);
}
#ifdef HAVE_LINUX_NETWORK
data->effective &= ~(1 << CAP_SETUID);
data->permitted &= ~(1 << CAP_SETUID);
/* lose the setuid capability */
if (capset(hdr, data) == -1)
{
send_event(err_pipe[1], EVENT_CAP_ERR, errno, NULL);
_exit(0);
}
#endif
}
}
#ifdef HAVE_LINUX_NETWORK
free(hdr);
free(data);
if (option_bool(OPT_DEBUG))
prctl(PR_SET_DUMPABLE, 1, 0, 0, 0);
#endif
#ifdef HAVE_TFTP
if (option_bool(OPT_TFTP))
{
DIR *dir;
struct tftp_prefix *p;
if (daemon->tftp_prefix)
{
if (!((dir = opendir(daemon->tftp_prefix))))
{
tftp_prefix_missing = 1;
if (!option_bool(OPT_TFTP_NO_FAIL))
{
send_event(err_pipe[1], EVENT_TFTP_ERR, errno, daemon->tftp_prefix);
_exit(0);
}
}
else
closedir(dir);
}
for (p = daemon->if_prefix; p; p = p->next)
{
p->missing = 0;
if (!((dir = opendir(p->prefix))))
{
p->missing = 1;
if (!option_bool(OPT_TFTP_NO_FAIL))
{
send_event(err_pipe[1], EVENT_TFTP_ERR, errno, p->prefix);
_exit(0);
}
}
else
closedir(dir);
}
}
#endif
if (daemon->port == 0)
my_syslog(LOG_INFO, _("started, version %s DNS disabled"), VERSION);
else
{
if (daemon->cachesize != 0)
{
my_syslog(LOG_INFO, _("started, version %s cachesize %d"), VERSION, daemon->cachesize);
if (daemon->cachesize > 10000)
my_syslog(LOG_WARNING, _("cache size greater than 10000 may cause performance issues, and is unlikely to be useful."));
}
else
my_syslog(LOG_INFO, _("started, version %s cache disabled"), VERSION);
if (option_bool(OPT_LOCAL_SERVICE))
my_syslog(LOG_INFO, _("DNS service limited to local subnets"));
}
my_syslog(LOG_INFO, _("compile time options: %s"), compile_opts);
if (chown_warn != 0)
my_syslog(LOG_WARNING, "chown of PID file %s failed: %s", daemon->runfile, strerror(chown_warn));
#ifdef HAVE_DBUS
if (option_bool(OPT_DBUS))
{
if (daemon->dbus)
my_syslog(LOG_INFO, _("DBus support enabled: connected to system bus"));
else
my_syslog(LOG_INFO, _("DBus support enabled: bus connection pending"));
}
#endif
#ifdef HAVE_UBUS
if (option_bool(OPT_UBUS))
{
if (daemon->ubus)
my_syslog(LOG_INFO, _("UBus support enabled: connected to system bus"));
else
my_syslog(LOG_INFO, _("UBus support enabled: bus connection pending"));
}
#endif
#ifdef HAVE_DNSSEC
if (option_bool(OPT_DNSSEC_VALID))
{
int rc;
struct ds_config *ds;
/* Delay creating the timestamp file until here, after we've changed user, so that
it has the correct owner to allow updating the mtime later.
This means we have to report fatal errors via the pipe. */
if ((rc = setup_timestamp()) == -1)
{
send_event(err_pipe[1], EVENT_TIME_ERR, errno, daemon->timestamp_file);
_exit(0);
}
if (option_bool(OPT_DNSSEC_IGN_NS))
my_syslog(LOG_INFO, _("DNSSEC validation enabled but all unsigned answers are trusted"));
else
my_syslog(LOG_INFO, _("DNSSEC validation enabled"));
daemon->dnssec_no_time_check = option_bool(OPT_DNSSEC_TIME);
if (option_bool(OPT_DNSSEC_TIME) && !daemon->back_to_the_future)
my_syslog(LOG_INFO, _("DNSSEC signature timestamps not checked until receipt of SIGINT"));
if (rc == 1)
my_syslog(LOG_INFO, _("DNSSEC signature timestamps not checked until system time valid"));
for (ds = daemon->ds; ds; ds = ds->next)
my_syslog(LOG_INFO, _("configured with trust anchor for %s keytag %u"),
ds->name[0] == 0 ? "<root>" : ds->name, ds->keytag);
}
#endif
if (log_err != 0)
my_syslog(LOG_WARNING, _("warning: failed to change owner of %s: %s"),
daemon->log_file, strerror(log_err));
#ifndef HAVE_LINUX_NETWORK
if (bind_fallback)
my_syslog(LOG_WARNING, _("setting --bind-interfaces option because of OS limitations"));
#endif
if (option_bool(OPT_NOWILD))
warn_bound_listeners();
else if (!option_bool(OPT_CLEVERBIND))
warn_wild_labels();
warn_int_names();
if (!option_bool(OPT_NOWILD))
for (if_tmp = daemon->if_names; if_tmp; if_tmp = if_tmp->next)
if (if_tmp->name && !if_tmp->used)
my_syslog(LOG_WARNING, _("warning: interface %s does not currently exist"), if_tmp->name);
if (daemon->port != 0 && option_bool(OPT_NO_RESOLV))
{
if (daemon->resolv_files && !daemon->resolv_files->is_default)
my_syslog(LOG_WARNING, _("warning: ignoring resolv-file flag because no-resolv is set"));
daemon->resolv_files = NULL;
if (!daemon->servers)
my_syslog(LOG_WARNING, _("warning: no upstream servers configured"));
}
if (daemon->max_logs != 0)
my_syslog(LOG_INFO, _("asynchronous logging enabled, queue limit is %d messages"), daemon->max_logs);
#ifdef HAVE_DHCP
for (context = daemon->dhcp; context; context = context->next)
log_context(AF_INET, context);
for (relay = daemon->relay4; relay; relay = relay->next)
log_relay(AF_INET, relay);
# ifdef HAVE_DHCP6
for (context = daemon->dhcp6; context; context = context->next)
log_context(AF_INET6, context);
for (relay = daemon->relay6; relay; relay = relay->next)
log_relay(AF_INET6, relay);
if (daemon->doing_dhcp6 || daemon->doing_ra)
dhcp_construct_contexts(now);
if (option_bool(OPT_RA))
my_syslog(MS_DHCP | LOG_INFO, _("IPv6 router advertisement enabled"));
# endif
# ifdef HAVE_LINUX_NETWORK
if (did_bind)
my_syslog(MS_DHCP | LOG_INFO, _("DHCP, sockets bound exclusively to interface %s"), bound_device);
if (netlink_warn)
my_syslog(LOG_WARNING, netlink_warn);
# endif
/* after dhcp_construct_contexts */
if (daemon->dhcp || daemon->doing_dhcp6)
lease_find_interfaces(now);
#endif
#ifdef HAVE_TFTP
if (option_bool(OPT_TFTP))
{
struct tftp_prefix *p;
my_syslog(MS_TFTP | LOG_INFO, "TFTP %s%s %s %s",
daemon->tftp_prefix ? _("root is ") : _("enabled"),
daemon->tftp_prefix ? daemon->tftp_prefix : "",
option_bool(OPT_TFTP_SECURE) ? _("secure mode") : "",
option_bool(OPT_SINGLE_PORT) ? _("single port mode") : "");
if (tftp_prefix_missing)
my_syslog(MS_TFTP | LOG_WARNING, _("warning: %s inaccessible"), daemon->tftp_prefix);
for (p = daemon->if_prefix; p; p = p->next)
if (p->missing)
my_syslog(MS_TFTP | LOG_WARNING, _("warning: TFTP directory %s inaccessible"), p->prefix);
/* This is a guess, it assumes that for small limits,
disjoint files might be served, but for large limits,
a single file will be sent to may clients (the file only needs
one fd). */
max_fd -= 30 + daemon->numrrand; /* use other than TFTP */
if (max_fd < 0)
max_fd = 5;
else if (max_fd < 100 && !option_bool(OPT_SINGLE_PORT))
max_fd = max_fd/2;
else
max_fd = max_fd - 20;
/* if we have to use a limited range of ports,
that will limit the number of transfers */
if (daemon->start_tftp_port != 0 &&
daemon->end_tftp_port - daemon->start_tftp_port + 1 < max_fd)
max_fd = daemon->end_tftp_port - daemon->start_tftp_port + 1;
if (daemon->tftp_max > max_fd)
{
daemon->tftp_max = max_fd;
my_syslog(MS_TFTP | LOG_WARNING,
_("restricting maximum simultaneous TFTP transfers to %d"),
daemon->tftp_max);
}
}
#endif
/* finished start-up - release original process */
if (err_pipe[1] != -1)
close(err_pipe[1]);
if (daemon->port != 0)
check_servers(0);
pid = getpid();
daemon->pipe_to_parent = -1;
for (i = 0; i < MAX_PROCS; i++)
daemon->tcp_pipes[i] = -1;
#ifdef HAVE_INOTIFY
/* Using inotify, have to select a resolv file at startup */
poll_resolv(1, 0, now);
#endif
while (1)
{
int timeout = fast_retry(now);
poll_reset();
/* Whilst polling for the dbus, or doing a tftp transfer, wake every quarter second */
if ((daemon->tftp_trans || (option_bool(OPT_DBUS) && !daemon->dbus)) &&
(timeout == -1 || timeout > 250))
timeout = 250;
/* Wake every second whilst waiting for DAD to complete */
else if (is_dad_listeners() &&
(timeout == -1 || timeout > 1000))
timeout = 1000;
set_dns_listeners();
#ifdef HAVE_DBUS
if (option_bool(OPT_DBUS))
set_dbus_listeners();
#endif
#ifdef HAVE_UBUS
if (option_bool(OPT_UBUS))
set_ubus_listeners();
#endif
#ifdef HAVE_DHCP
# if defined(HAVE_LINUX_NETWORK)
if (bind_dhcp_devices(bound_device) & 2)
{
static int warned = 0;
if (!warned)
{
my_syslog(LOG_ERR, _("error binding DHCP socket to device %s"), bound_device);
warned = 1;
}
}
# endif
if (daemon->dhcp || daemon->relay4)
{
poll_listen(daemon->dhcpfd, POLLIN);
if (daemon->pxefd != -1)
poll_listen(daemon->pxefd, POLLIN);
}
#endif
#ifdef HAVE_DHCP6
if (daemon->doing_dhcp6 || daemon->relay6)
poll_listen(daemon->dhcp6fd, POLLIN);
if (daemon->doing_ra)
poll_listen(daemon->icmp6fd, POLLIN);
#endif
#ifdef HAVE_INOTIFY
if (daemon->inotifyfd != -1)
poll_listen(daemon->inotifyfd, POLLIN);
#endif
#if defined(HAVE_LINUX_NETWORK)
poll_listen(daemon->netlinkfd, POLLIN);
#elif defined(HAVE_BSD_NETWORK)
poll_listen(daemon->routefd, POLLIN);
#endif
poll_listen(piperead, POLLIN);
#ifdef HAVE_SCRIPT
# ifdef HAVE_DHCP
while (helper_buf_empty() && do_script_run(now));
# endif
/* Refresh cache */
if (option_bool(OPT_SCRIPT_ARP))
find_mac(NULL, NULL, 0, now);
while (helper_buf_empty() && do_arp_script_run());
# ifdef HAVE_TFTP
while (helper_buf_empty() && do_tftp_script_run());
# endif
# ifdef HAVE_DHCP6
while (helper_buf_empty() && do_snoop_script_run());
# endif
if (!helper_buf_empty())
poll_listen(daemon->helperfd, POLLOUT);
#else
/* need this for other side-effects */
# ifdef HAVE_DHCP
while (do_script_run(now));
# endif
while (do_arp_script_run());
# ifdef HAVE_TFTP
while (do_tftp_script_run());
# endif
#endif
/* must do this just before do_poll(), when we know no
more calls to my_syslog() can occur */
set_log_writer();
if (do_poll(timeout) < 0)
continue;
now = dnsmasq_time();
check_log_writer(0);
/* prime. */
enumerate_interfaces(1);
/* Check the interfaces to see if any have exited DAD state
and if so, bind the address. */
if (is_dad_listeners())
{
enumerate_interfaces(0);
/* NB, is_dad_listeners() == 1 --> we're binding interfaces */
create_bound_listeners(0);
warn_bound_listeners();
}
#if defined(HAVE_LINUX_NETWORK)
if (poll_check(daemon->netlinkfd, POLLIN))
netlink_multicast();
#elif defined(HAVE_BSD_NETWORK)
if (poll_check(daemon->routefd, POLLIN))
route_sock();
#endif
#ifdef HAVE_INOTIFY
if (daemon->inotifyfd != -1 && poll_check(daemon->inotifyfd, POLLIN) && inotify_check(now))
{
if (daemon->port != 0 && !option_bool(OPT_NO_POLL))
poll_resolv(1, 1, now);
}
#else
/* Check for changes to resolv files once per second max. */
/* Don't go silent for long periods if the clock goes backwards. */
if (daemon->last_resolv == 0 ||
difftime(now, daemon->last_resolv) > 1.0 ||
difftime(now, daemon->last_resolv) < -1.0)
{
/* poll_resolv doesn't need to reload first time through, since
that's queued anyway. */
poll_resolv(0, daemon->last_resolv != 0, now);
daemon->last_resolv = now;
}
#endif
if (poll_check(piperead, POLLIN))
async_event(piperead, now);
#ifdef HAVE_DBUS
/* if we didn't create a DBus connection, retry now. */
if (option_bool(OPT_DBUS))
{
if (!daemon->dbus)
{
char *err = dbus_init();
if (daemon->dbus)
my_syslog(LOG_INFO, _("connected to system DBus"));
else if (err)
{
my_syslog(LOG_ERR, _("DBus error: %s"), err);
reset_option_bool(OPT_DBUS); /* fatal error, stop trying. */
}
}
check_dbus_listeners();
}
#endif
#ifdef HAVE_UBUS
/* if we didn't create a UBus connection, retry now. */
if (option_bool(OPT_UBUS))
{
if (!daemon->ubus)
{
char *err = ubus_init();
if (daemon->ubus)
my_syslog(LOG_INFO, _("connected to system UBus"));
else if (err)
{
my_syslog(LOG_ERR, _("UBus error: %s"), err);
reset_option_bool(OPT_UBUS); /* fatal error, stop trying. */
}
}
check_ubus_listeners();
}
#endif
check_dns_listeners(now);
#ifdef HAVE_TFTP
check_tftp_listeners(now);
#endif
#ifdef HAVE_DHCP
if (daemon->dhcp || daemon->relay4)
{
if (poll_check(daemon->dhcpfd, POLLIN))
dhcp_packet(now, 0);
if (daemon->pxefd != -1 && poll_check(daemon->pxefd, POLLIN))
dhcp_packet(now, 1);
}
#ifdef HAVE_DHCP6
if ((daemon->doing_dhcp6 || daemon->relay6) && poll_check(daemon->dhcp6fd, POLLIN))
dhcp6_packet(now);
if (daemon->doing_ra && poll_check(daemon->icmp6fd, POLLIN))
icmp6_packet(now);
#endif
# ifdef HAVE_SCRIPT
if (daemon->helperfd != -1 && poll_check(daemon->helperfd, POLLOUT))
helper_write();
# endif
#endif
}
}
static void sig_handler(int sig)
{
if (pid == 0)
{
/* ignore anything other than TERM during startup
and in helper proc. (helper ignore TERM too) */
if (sig == SIGTERM || sig == SIGINT)
exit(EC_MISC);
}
else if (pid != getpid())
{
/* alarm is used to kill TCP children after a fixed time. */
if (sig == SIGALRM)
_exit(0);
}
else
{
/* master process */
int event, errsave = errno;
if (sig == SIGHUP)
event = EVENT_RELOAD;
else if (sig == SIGCHLD)
event = EVENT_CHILD;
else if (sig == SIGALRM)
event = EVENT_ALARM;
else if (sig == SIGTERM)
event = EVENT_TERM;
else if (sig == SIGUSR1)
event = EVENT_DUMP;
else if (sig == SIGUSR2)
event = EVENT_REOPEN;
else if (sig == SIGINT)
{
/* Handle SIGINT normally in debug mode, so
ctrl-c continues to operate. */
if (option_bool(OPT_DEBUG))
exit(EC_MISC);
else
event = EVENT_TIME;
}
else
return;
send_event(pipewrite, event, 0, NULL);
errno = errsave;
}
}
/* now == 0 -> queue immediate callback */
void send_alarm(time_t event, time_t now)
{
if (now == 0 || event != 0)
{
/* alarm(0) or alarm(-ve) doesn't do what we want.... */
if ((now == 0 || difftime(event, now) <= 0.0))
send_event(pipewrite, EVENT_ALARM, 0, NULL);
else
alarm((unsigned)difftime(event, now));
}
}
void queue_event(int event)
{
send_event(pipewrite, event, 0, NULL);
}
void send_event(int fd, int event, int data, char *msg)
{
struct event_desc ev;
struct iovec iov[2];
ev.event = event;
ev.data = data;
ev.msg_sz = msg ? strlen(msg) : 0;
iov[0].iov_base = &ev;
iov[0].iov_len = sizeof(ev);
iov[1].iov_base = msg;
iov[1].iov_len = ev.msg_sz;
/* error pipe, debug mode. */
if (fd == -1)
fatal_event(&ev, msg);
else
/* pipe is non-blocking and struct event_desc is smaller than
PIPE_BUF, so this either fails or writes everything */
while (writev(fd, iov, msg ? 2 : 1) == -1 && errno == EINTR);
}
/* NOTE: the memory used to return msg is leaked: use msgs in events only
to describe fatal errors. */
static int read_event(int fd, struct event_desc *evp, char **msg)
{
char *buf;
if (!read_write(fd, (unsigned char *)evp, sizeof(struct event_desc), 1))
return 0;
*msg = NULL;
if (evp->msg_sz != 0 &&
(buf = malloc(evp->msg_sz + 1)) &&
read_write(fd, (unsigned char *)buf, evp->msg_sz, 1))
{
buf[evp->msg_sz] = 0;
*msg = buf;
}
return 1;
}
static void fatal_event(struct event_desc *ev, char *msg)
{
errno = ev->data;
switch (ev->event)
{
case EVENT_DIE:
exit(0);
case EVENT_FORK_ERR:
die(_("cannot fork into background: %s"), NULL, EC_MISC);
/* fall through */
case EVENT_PIPE_ERR:
die(_("failed to create helper: %s"), NULL, EC_MISC);
/* fall through */
case EVENT_CAP_ERR:
die(_("setting capabilities failed: %s"), NULL, EC_MISC);
/* fall through */
case EVENT_USER_ERR:
die(_("failed to change user-id to %s: %s"), msg, EC_MISC);
/* fall through */
case EVENT_GROUP_ERR:
die(_("failed to change group-id to %s: %s"), msg, EC_MISC);
/* fall through */
case EVENT_PIDFILE:
die(_("failed to open pidfile %s: %s"), msg, EC_FILE);
/* fall through */
case EVENT_LOG_ERR:
die(_("cannot open log %s: %s"), msg, EC_FILE);
/* fall through */
case EVENT_LUA_ERR:
die(_("failed to load Lua script: %s"), msg, EC_MISC);
/* fall through */
case EVENT_TFTP_ERR:
die(_("TFTP directory %s inaccessible: %s"), msg, EC_FILE);
/* fall through */
case EVENT_TIME_ERR:
die(_("cannot create timestamp file %s: %s" ), msg, EC_BADCONF);
}
}
static void async_event(int pipe, time_t now)
{
pid_t p;
struct event_desc ev;
int i, check = 0;
char *msg;
/* NOTE: the memory used to return msg is leaked: use msgs in events only
to describe fatal errors. */
if (read_event(pipe, &ev, &msg))
switch (ev.event)
{
case EVENT_RELOAD:
daemon->soa_sn++; /* Bump zone serial, as it may have changed. */
/* fall through */
case EVENT_INIT:
clear_cache_and_reload(now);
if (daemon->port != 0)
{
if (daemon->resolv_files && option_bool(OPT_NO_POLL))
{
reload_servers(daemon->resolv_files->name);
check = 1;
}
if (daemon->servers_file)
{
read_servers_file();
check = 1;
}
if (check)
check_servers(0);
}
#ifdef HAVE_DHCP
rerun_scripts();
#endif
break;
case EVENT_DUMP:
if (daemon->port != 0)
dump_cache(now);
break;
case EVENT_ALARM:
#ifdef HAVE_DHCP
if (daemon->dhcp || daemon->doing_dhcp6)
{
lease_prune(NULL, now);
lease_update_file(now);
}
#ifdef HAVE_DHCP6
else if (daemon->doing_ra)
/* Not doing DHCP, so no lease system, manage alarms for ra only */
send_alarm(periodic_ra(now), now);
#endif
#endif
break;
case EVENT_CHILD:
/* See Stevens 5.10 */
while ((p = waitpid(-1, NULL, WNOHANG)) != 0)
if (p == -1)
{
if (errno != EINTR)
break;
}
else
for (i = 0 ; i < MAX_PROCS; i++)
if (daemon->tcp_pids[i] == p)
daemon->tcp_pids[i] = 0;
break;
#if defined(HAVE_SCRIPT)
case EVENT_KILLED:
my_syslog(LOG_WARNING, _("script process killed by signal %d"), ev.data);
break;
case EVENT_EXITED:
my_syslog(LOG_WARNING, _("script process exited with status %d"), ev.data);
break;
case EVENT_EXEC_ERR:
my_syslog(LOG_ERR, _("failed to execute %s: %s"),
daemon->lease_change_command, strerror(ev.data));
break;
case EVENT_SCRIPT_LOG:
my_syslog(MS_SCRIPT | LOG_DEBUG, "%s", msg ? msg : "");
free(msg);
msg = NULL;
break;
/* necessary for fatal errors in helper */
case EVENT_USER_ERR:
case EVENT_DIE:
case EVENT_LUA_ERR:
fatal_event(&ev, msg);
break;
#endif
case EVENT_REOPEN:
/* Note: this may leave TCP-handling processes with the old file still open.
Since any such process will die in CHILD_LIFETIME or probably much sooner,
we leave them logging to the old file. */
if (daemon->log_file != NULL)
log_reopen(daemon->log_file);
break;
case EVENT_NEWADDR:
newaddress(now);
break;
case EVENT_NEWROUTE:
resend_query();
/* Force re-reading resolv file right now, for luck. */
poll_resolv(0, 1, now);
break;
case EVENT_TIME:
#ifdef HAVE_DNSSEC
if (daemon->dnssec_no_time_check && option_bool(OPT_DNSSEC_VALID) && option_bool(OPT_DNSSEC_TIME))
{
my_syslog(LOG_INFO, _("now checking DNSSEC signature timestamps"));
daemon->dnssec_no_time_check = 0;
clear_cache_and_reload(now);
}
#endif
break;
case EVENT_TERM:
/* Knock all our children on the head. */
for (i = 0; i < MAX_PROCS; i++)
if (daemon->tcp_pids[i] != 0)
kill(daemon->tcp_pids[i], SIGALRM);
#if defined(HAVE_SCRIPT) && defined(HAVE_DHCP)
/* handle pending lease transitions */
if (daemon->helperfd != -1)
{
/* block in writes until all done */
if ((i = fcntl(daemon->helperfd, F_GETFL)) != -1)
while(retry_send(fcntl(daemon->helperfd, F_SETFL, i & ~O_NONBLOCK)));
do {
helper_write();
} while (!helper_buf_empty() || do_script_run(now));
close(daemon->helperfd);
}
#endif
if (daemon->lease_stream)
fclose(daemon->lease_stream);
#ifdef HAVE_DNSSEC
/* update timestamp file on TERM if time is considered valid */
if (daemon->back_to_the_future)
{
if (utimes(daemon->timestamp_file, NULL) == -1)
my_syslog(LOG_ERR, _("failed to update mtime on %s: %s"), daemon->timestamp_file, strerror(errno));
}
#endif
if (daemon->runfile)
unlink(daemon->runfile);
#ifdef HAVE_DUMPFILE
if (daemon->dumpfd != -1)
close(daemon->dumpfd);
#endif
my_syslog(LOG_INFO, _("exiting on receipt of SIGTERM"));
flush_log();
exit(EC_GOOD);
}
}
static void poll_resolv(int force, int do_reload, time_t now)
{
struct resolvc *res, *latest;
struct stat statbuf;
time_t last_change = 0;
/* There may be more than one possible file.
Go through and find the one which changed _last_.
Warn of any which can't be read. */
if (daemon->port == 0 || option_bool(OPT_NO_POLL))
return;
for (latest = NULL, res = daemon->resolv_files; res; res = res->next)
if (stat(res->name, &statbuf) == -1)
{
if (force)
{
res->mtime = 0;
continue;
}
if (!res->logged)
my_syslog(LOG_WARNING, _("failed to access %s: %s"), res->name, strerror(errno));
res->logged = 1;
if (res->mtime != 0)
{
/* existing file evaporated, force selection of the latest
file even if its mtime hasn't changed since we last looked */
poll_resolv(1, do_reload, now);
return;
}
}
else
{
res->logged = 0;
if (force || (statbuf.st_mtime != res->mtime || statbuf.st_ino != res->ino))
{
res->mtime = statbuf.st_mtime;
res->ino = statbuf.st_ino;
if (difftime(statbuf.st_mtime, last_change) > 0.0)
{
last_change = statbuf.st_mtime;
latest = res;
}
}
}
if (latest)
{
static int warned = 0;
if (reload_servers(latest->name))
{
my_syslog(LOG_INFO, _("reading %s"), latest->name);
warned = 0;
check_servers(0);
if (option_bool(OPT_RELOAD) && do_reload)
clear_cache_and_reload(now);
}
else
{
/* If we're delaying things, we don't call check_servers(), but
reload_servers() may have deleted some servers, rendering the server_array
invalid, so just rebuild that here. Once reload_servers() succeeds,
we call check_servers() above, which calls build_server_array itself. */
build_server_array();
latest->mtime = 0;
if (!warned)
{
my_syslog(LOG_WARNING, _("no servers found in %s, will retry"), latest->name);
warned = 1;
}
}
}
}
void clear_cache_and_reload(time_t now)
{
(void)now;
if (daemon->port != 0)
cache_reload();
#ifdef HAVE_DHCP
if (daemon->dhcp || daemon->doing_dhcp6)
{
if (option_bool(OPT_ETHERS))
dhcp_read_ethers();
reread_dhcp();
dhcp_update_configs(daemon->dhcp_conf);
lease_update_from_configs();
lease_update_file(now);
lease_update_dns(1);
}
#ifdef HAVE_DHCP6
else if (daemon->doing_ra)
/* Not doing DHCP, so no lease system, manage
alarms for ra only */
send_alarm(periodic_ra(now), now);
#endif
#endif
}
static void set_dns_listeners(void)
{
struct serverfd *serverfdp;
struct listener *listener;
struct randfd_list *rfl;
int i;
#ifdef HAVE_TFTP
int tftp = 0;
struct tftp_transfer *transfer;
if (!option_bool(OPT_SINGLE_PORT))
for (transfer = daemon->tftp_trans; transfer; transfer = transfer->next)
{
tftp++;
poll_listen(transfer->sockfd, POLLIN);
}
#endif
for (serverfdp = daemon->sfds; serverfdp; serverfdp = serverfdp->next)
poll_listen(serverfdp->fd, POLLIN);
for (i = 0; i < daemon->numrrand; i++)
if (daemon->randomsocks[i].refcount != 0)
poll_listen(daemon->randomsocks[i].fd, POLLIN);
/* Check overflow random sockets too. */
for (rfl = daemon->rfl_poll; rfl; rfl = rfl->next)
poll_listen(rfl->rfd->fd, POLLIN);
/* check to see if we have free tcp process slots. */
for (i = MAX_PROCS - 1; i >= 0; i--)
if (daemon->tcp_pids[i] == 0 && daemon->tcp_pipes[i] == -1)
break;
for (listener = daemon->listeners; listener; listener = listener->next)
{
if (listener->fd != -1)
poll_listen(listener->fd, POLLIN);
/* Only listen for TCP connections when a process slot
is available. Death of a child goes through the select loop, so
we don't need to explicitly arrange to wake up here,
we'll be called again when a slot becomes available. */
if (listener->tcpfd != -1 && i >= 0)
poll_listen(listener->tcpfd, POLLIN);
#ifdef HAVE_TFTP
/* tftp == 0 in single-port mode. */
if (tftp <= daemon->tftp_max && listener->tftpfd != -1)
poll_listen(listener->tftpfd, POLLIN);
#endif
}
if (!option_bool(OPT_DEBUG))
for (i = 0; i < MAX_PROCS; i++)
if (daemon->tcp_pipes[i] != -1)
poll_listen(daemon->tcp_pipes[i], POLLIN);
}
static void check_dns_listeners(time_t now)
{
struct serverfd *serverfdp;
struct listener *listener;
struct randfd_list *rfl;
int i;
int pipefd[2];
for (serverfdp = daemon->sfds; serverfdp; serverfdp = serverfdp->next)
if (poll_check(serverfdp->fd, POLLIN))
reply_query(serverfdp->fd, now);
for (i = 0; i < daemon->numrrand; i++)
if (daemon->randomsocks[i].refcount != 0 &&
poll_check(daemon->randomsocks[i].fd, POLLIN))
reply_query(daemon->randomsocks[i].fd, now);
/* Check overflow random sockets too. */
for (rfl = daemon->rfl_poll; rfl; rfl = rfl->next)
if (poll_check(rfl->rfd->fd, POLLIN))
reply_query(rfl->rfd->fd, now);
/* Races. The child process can die before we read all of the data from the
pipe, or vice versa. Therefore send tcp_pids to zero when we wait() the
process, and tcp_pipes to -1 and close the FD when we read the last
of the data - indicated by cache_recv_insert returning zero.
The order of these events is indeterminate, and both are needed
to free the process slot. Once the child process has gone, poll()
returns POLLHUP, not POLLIN, so have to check for both here. */
if (!option_bool(OPT_DEBUG))
for (i = 0; i < MAX_PROCS; i++)
if (daemon->tcp_pipes[i] != -1 &&
poll_check(daemon->tcp_pipes[i], POLLIN | POLLHUP) &&
!cache_recv_insert(now, daemon->tcp_pipes[i]))
{
close(daemon->tcp_pipes[i]);
daemon->tcp_pipes[i] = -1;
}
for (listener = daemon->listeners; listener; listener = listener->next)
{
if (listener->fd != -1 && poll_check(listener->fd, POLLIN))
receive_query(listener, now);
#ifdef HAVE_TFTP
if (listener->tftpfd != -1 && poll_check(listener->tftpfd, POLLIN))
tftp_request(listener, now);
#endif
/* check to see if we have a free tcp process slot.
Note that we can't assume that because we had
at least one a poll() time, that we still do.
There may be more waiting connections after
poll() returns then free process slots. */
for (i = MAX_PROCS - 1; i >= 0; i--)
if (daemon->tcp_pids[i] == 0 && daemon->tcp_pipes[i] == -1)
break;
if (listener->tcpfd != -1 && i >= 0 && poll_check(listener->tcpfd, POLLIN))
{
int confd, client_ok = 1;
struct irec *iface = NULL;
pid_t p;
union mysockaddr tcp_addr;
socklen_t tcp_len = sizeof(union mysockaddr);
while ((confd = accept(listener->tcpfd, NULL, NULL)) == -1 && errno == EINTR);
if (confd == -1)
continue;
if (getsockname(confd, (struct sockaddr *)&tcp_addr, &tcp_len) == -1)
{
close(confd);
continue;
}
/* Make sure that the interface list is up-to-date.
We do this here as we may need the results below, and
the DNS code needs them for --interface-name stuff.
Multiple calls to enumerate_interfaces() per select loop are
inhibited, so calls to it in the child process (which doesn't select())
have no effect. This avoids two processes reading from the same
netlink fd and screwing the pooch entirely.
*/
enumerate_interfaces(0);
if (option_bool(OPT_NOWILD))
iface = listener->iface; /* May be NULL */
else
{
int if_index;
char intr_name[IF_NAMESIZE];
/* if we can find the arrival interface, check it's one that's allowed */
if ((if_index = tcp_interface(confd, tcp_addr.sa.sa_family)) != 0 &&
indextoname(listener->tcpfd, if_index, intr_name))
{
union all_addr addr;
if (tcp_addr.sa.sa_family == AF_INET6)
addr.addr6 = tcp_addr.in6.sin6_addr;
else
addr.addr4 = tcp_addr.in.sin_addr;
for (iface = daemon->interfaces; iface; iface = iface->next)
if (iface->index == if_index &&
iface->addr.sa.sa_family == tcp_addr.sa.sa_family)
break;
if (!iface && !loopback_exception(listener->tcpfd, tcp_addr.sa.sa_family, &addr, intr_name))
client_ok = 0;
}
if (option_bool(OPT_CLEVERBIND))
iface = listener->iface; /* May be NULL */
else
{
/* Check for allowed interfaces when binding the wildcard address:
we do this by looking for an interface with the same address as
the local address of the TCP connection, then looking to see if that's
an allowed interface. As a side effect, we get the netmask of the
interface too, for localisation. */
for (iface = daemon->interfaces; iface; iface = iface->next)
if (sockaddr_isequal(&iface->addr, &tcp_addr))
break;
if (!iface)
client_ok = 0;
}
}
if (!client_ok)
{
shutdown(confd, SHUT_RDWR);
close(confd);
}
else if (!option_bool(OPT_DEBUG) && pipe(pipefd) == 0 && (p = fork()) != 0)
{
close(pipefd[1]); /* parent needs read pipe end. */
if (p == -1)
close(pipefd[0]);
else
{
#ifdef HAVE_LINUX_NETWORK
/* The child process inherits the netlink socket,
which it never uses, but when the parent (us)
uses it in the future, the answer may go to the
child, resulting in the parent blocking
forever awaiting the result. To avoid this
the child closes the netlink socket, but there's
a nasty race, since the parent may use netlink
before the child has done the close.
To avoid this, the parent blocks here until a
single byte comes back up the pipe, which
is sent by the child after it has closed the
netlink socket. */
unsigned char a;
read_write(pipefd[0], &a, 1, 1);
#endif
/* i holds index of free slot */
daemon->tcp_pids[i] = p;
daemon->tcp_pipes[i] = pipefd[0];
}
close(confd);
/* The child can use up to TCP_MAX_QUERIES ids, so skip that many. */
daemon->log_id += TCP_MAX_QUERIES;
}
else
{
unsigned char *buff;
struct server *s;
int flags;
struct in_addr netmask;
int auth_dns;
if (iface)
{
netmask = iface->netmask;
auth_dns = iface->dns_auth;
}
else
{
netmask.s_addr = 0;
auth_dns = 0;
}
/* Arrange for SIGALRM after CHILD_LIFETIME seconds to
terminate the process. */
if (!option_bool(OPT_DEBUG))
{
#ifdef HAVE_LINUX_NETWORK
/* See comment above re: netlink socket. */
unsigned char a = 0;
close(daemon->netlinkfd);
read_write(pipefd[1], &a, 1, 0);
#endif
alarm(CHILD_LIFETIME);
close(pipefd[0]); /* close read end in child. */
daemon->pipe_to_parent = pipefd[1];
}
/* start with no upstream connections. */
for (s = daemon->servers; s; s = s->next)
s->tcpfd = -1;
/* The connected socket inherits non-blocking
attribute from the listening socket.
Reset that here. */
if ((flags = fcntl(confd, F_GETFL, 0)) != -1)
while(retry_send(fcntl(confd, F_SETFL, flags & ~O_NONBLOCK)));
buff = tcp_request(confd, now, &tcp_addr, netmask, auth_dns);
if (buff)
free(buff);
for (s = daemon->servers; s; s = s->next)
if (s->tcpfd != -1)
{
shutdown(s->tcpfd, SHUT_RDWR);
close(s->tcpfd);
}
if (!option_bool(OPT_DEBUG))
{
close(daemon->pipe_to_parent);
flush_log();
_exit(0);
}
}
}
}
}
#ifdef HAVE_DHCP
int make_icmp_sock(void)
{
int fd;
int zeroopt = 0;
if ((fd = socket (AF_INET, SOCK_RAW, IPPROTO_ICMP)) != -1)
{
if (!fix_fd(fd) ||
setsockopt(fd, SOL_SOCKET, SO_DONTROUTE, &zeroopt, sizeof(zeroopt)) == -1)
{
close(fd);
fd = -1;
}
}
return fd;
}
int icmp_ping(struct in_addr addr)
{
/* Try and get an ICMP echo from a machine. */
int fd;
struct sockaddr_in saddr;
struct {
struct ip ip;
struct icmp icmp;
} packet;
unsigned short id = rand16();
unsigned int i, j;
int gotreply = 0;
#if defined(HAVE_LINUX_NETWORK) || defined (HAVE_SOLARIS_NETWORK)
if ((fd = make_icmp_sock()) == -1)
return 0;
#else
int opt = 2000;
fd = daemon->dhcp_icmp_fd;
setsockopt(fd, SOL_SOCKET, SO_RCVBUF, &opt, sizeof(opt));
#endif
saddr.sin_family = AF_INET;
saddr.sin_port = 0;
saddr.sin_addr = addr;
#ifdef HAVE_SOCKADDR_SA_LEN
saddr.sin_len = sizeof(struct sockaddr_in);
#endif
memset(&packet.icmp, 0, sizeof(packet.icmp));
packet.icmp.icmp_type = ICMP_ECHO;
packet.icmp.icmp_id = id;
for (j = 0, i = 0; i < sizeof(struct icmp) / 2; i++)
j += ((u16 *)&packet.icmp)[i];
while (j>>16)
j = (j & 0xffff) + (j >> 16);
packet.icmp.icmp_cksum = (j == 0xffff) ? j : ~j;
while (retry_send(sendto(fd, (char *)&packet.icmp, sizeof(struct icmp), 0,
(struct sockaddr *)&saddr, sizeof(saddr))));
gotreply = delay_dhcp(dnsmasq_time(), PING_WAIT, fd, addr.s_addr, id);
#if defined(HAVE_LINUX_NETWORK) || defined(HAVE_SOLARIS_NETWORK)
close(fd);
#else
opt = 1;
setsockopt(fd, SOL_SOCKET, SO_RCVBUF, &opt, sizeof(opt));
#endif
return gotreply;
}
int delay_dhcp(time_t start, int sec, int fd, uint32_t addr, unsigned short id)
{
/* Delay processing DHCP packets for "sec" seconds counting from "start".
If "fd" is not -1 it will stop waiting if an ICMP echo reply is received
from "addr" with ICMP ID "id" and return 1 */
/* Note that whilst waiting, we check for
(and service) events on the DNS and TFTP sockets, (so doing that
better not use any resources our caller has in use...)
but we remain deaf to signals or further DHCP packets. */
/* There can be a problem using dnsmasq_time() to end the loop, since
it's not monotonic, and can go backwards if the system clock is
tweaked, leading to the code getting stuck in this loop and
ignoring DHCP requests. To fix this, we check to see if select returned
as a result of a timeout rather than a socket becoming available. We
only allow this to happen as many times as it takes to get to the wait time
in quarter-second chunks. This provides a fallback way to end loop. */
int rc, timeout_count;
time_t now;
for (now = dnsmasq_time(), timeout_count = 0;
(difftime(now, start) <= (float)sec) && (timeout_count < sec * 4);)
{
poll_reset();
if (fd != -1)
poll_listen(fd, POLLIN);
set_dns_listeners();
set_log_writer();
#ifdef HAVE_DHCP6
if (daemon->doing_ra)
poll_listen(daemon->icmp6fd, POLLIN);
#endif
rc = do_poll(250);
if (rc < 0)
continue;
else if (rc == 0)
timeout_count++;
now = dnsmasq_time();
check_log_writer(0);
check_dns_listeners(now);
#ifdef HAVE_DHCP6
if (daemon->doing_ra && poll_check(daemon->icmp6fd, POLLIN))
icmp6_packet(now);
#endif
#ifdef HAVE_TFTP
check_tftp_listeners(now);
#endif
if (fd != -1)
{
struct {
struct ip ip;
struct icmp icmp;
} packet;
struct sockaddr_in faddr;
socklen_t len = sizeof(faddr);
if (poll_check(fd, POLLIN) &&
recvfrom(fd, &packet, sizeof(packet), 0, (struct sockaddr *)&faddr, &len) == sizeof(packet) &&
addr == faddr.sin_addr.s_addr &&
packet.icmp.icmp_type == ICMP_ECHOREPLY &&
packet.icmp.icmp_seq == 0 &&
packet.icmp.icmp_id == id)
return 1;
}
}
return 0;
}
#endif /* HAVE_DHCP */
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