freebsd-skq/contrib/bind/bin/named/ns_ctl.c
2002-02-04 19:12:46 +00:00

1052 lines
25 KiB
C

#if !defined(lint) && !defined(SABER)
static const char rcsid[] = "$Id: ns_ctl.c,v 8.46 2001/12/19 11:53:48 marka Exp $";
#endif /* not lint */
/*
* Copyright (c) 1997-2000 by Internet Software Consortium.
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND INTERNET SOFTWARE CONSORTIUM DISCLAIMS
* ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL INTERNET SOFTWARE
* CONSORTIUM BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
* DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
* PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS
* ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS
* SOFTWARE.
*/
/* Extern. */
#include "port_before.h"
#include <sys/types.h>
#include <sys/param.h>
#include <sys/stat.h>
#include <sys/socket.h>
#include <sys/un.h>
#include <netinet/in.h>
#include <arpa/nameser.h>
#include <arpa/inet.h>
#include <ctype.h>
#include <errno.h>
#include <limits.h>
#include <resolv.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <syslog.h>
#include <time.h>
#include <unistd.h>
#include <fcntl.h>
#include <isc/eventlib.h>
#include <isc/logging.h>
#include <isc/memcluster.h>
#include "port_after.h"
#include "named.h"
/* Defs. */
#define CONTROL_FOUND 0x0001 /* for mark and sweep. */
#define MAX_STR_LEN 500
struct control {
LINK(struct control) link;
enum { t_dead, t_inet, t_unix } type;
struct ctl_sctx *sctx;
u_int flags;
union {
struct {
struct sockaddr_in in;
ip_match_list allow;
} v_inet;
#ifndef NO_SOCKADDR_UN
struct {
struct sockaddr_un un;
mode_t mode;
uid_t owner;
gid_t group;
} v_unix;
#endif
} var;
};
/* Forward. */
static struct ctl_sctx *mksrvr(control, const struct sockaddr *, size_t);
static control new_control(void);
static void free_control(controls *, control);
static void free_controls(controls *);
static int match_control(control, control);
static control find_control(controls, control);
static void propagate_changes(const control, control);
static void install(control);
static void install_inet(control);
static void install_unix(control);
static void logger(enum ctl_severity, const char *fmt, ...)
ISC_FORMAT_PRINTF(2,3);
static void verb_connect(struct ctl_sctx *, struct ctl_sess *,
const struct ctl_verb *,
const char *, u_int, const void *, void *);
static void verb_getpid(struct ctl_sctx *, struct ctl_sess *,
const struct ctl_verb *,
const char *, u_int, const void *, void *);
static void getpid_closure(struct ctl_sctx *, struct ctl_sess *,
void *);
static void verb_status(struct ctl_sctx *, struct ctl_sess *,
const struct ctl_verb *,
const char *, u_int, const void *, void *);
static void status_closure(struct ctl_sctx *, struct ctl_sess *,
void *);
static void verb_stop(struct ctl_sctx *, struct ctl_sess *,
const struct ctl_verb *,
const char *, u_int, const void *, void *);
static void verb_exec(struct ctl_sctx *, struct ctl_sess *,
const struct ctl_verb *,
const char *, u_int, const void *, void *);
static void verb_reload(struct ctl_sctx *, struct ctl_sess *,
const struct ctl_verb *,
const char *, u_int, const void *, void *);
static void verb_reconfig(struct ctl_sctx *, struct ctl_sess *,
const struct ctl_verb *,
const char *, u_int, const void *, void *);
static void verb_dumpdb(struct ctl_sctx *, struct ctl_sess *,
const struct ctl_verb *,
const char *, u_int, const void *, void *);
static void verb_stats(struct ctl_sctx *, struct ctl_sess *,
const struct ctl_verb *,
const char *, u_int, const void *, void *);
static void verb_trace(struct ctl_sctx *, struct ctl_sess *,
const struct ctl_verb *,
const char *, u_int, const void *, void *);
static void trace_closure(struct ctl_sctx *, struct ctl_sess *,
void *);
static void verb_notrace(struct ctl_sctx *, struct ctl_sess *,
const struct ctl_verb *,
const char *, u_int, const void *, void *);
static void verb_querylog(struct ctl_sctx *, struct ctl_sess *,
const struct ctl_verb *,
const char *, u_int, const void *, void *);
static void verb_help(struct ctl_sctx *, struct ctl_sess *,
const struct ctl_verb *,
const char *, u_int, const void *, void *);
static void verb_quit(struct ctl_sctx *, struct ctl_sess *,
const struct ctl_verb *,
const char *, u_int, const void *, void *);
/* Private data. */
static controls server_controls;
static struct ctl_verb verbs[] = {
{ "", verb_connect, ""},
{ "getpid", verb_getpid, "getpid"},
{ "status", verb_status, "status"},
{ "stop", verb_stop, "stop"},
{ "exec", verb_exec, "exec"},
{ "reload", verb_reload, "reload [zone] ..."},
{ "reconfig", verb_reconfig, "reconfig [-noexpired] (just sees new/gone zones)"},
{ "dumpdb", verb_dumpdb, "dumpdb"},
{ "stats", verb_stats, "stats [clear]"},
{ "trace", verb_trace, "trace [level]"},
{ "notrace", verb_notrace, "notrace"},
{ "querylog", verb_querylog, "querylog"},
{ "qrylog", verb_querylog, "qrylog"},
{ "help", verb_help, "help"},
{ "quit", verb_quit, "quit"},
{ NULL, NULL, NULL}
};
/* Public functions. */
void
ns_ctl_initialize(void) {
INIT_LIST(server_controls);
}
void
ns_ctl_shutdown(void) {
if (!EMPTY(server_controls))
free_controls(&server_controls);
}
void
ns_ctl_defaults(controls *list) {
#ifdef NO_SOCKADDR_UN
struct in_addr saddr;
ip_match_list iml;
ip_match_element ime;
/*
* If the operating system does not support local domain sockets,
* connect with ndc on 127.0.0.1, port 101, and only allow
* connections from 127.0.0.1.
*/
saddr.s_addr = htonl (INADDR_LOOPBACK);
iml = new_ip_match_list();
ime = new_ip_match_pattern(saddr, 32);
add_to_ip_match_list(iml, ime);
ns_ctl_add(list, ns_ctl_new_inet(saddr, htons (101), iml));
#else
#ifdef NEED_SECURE_DIRECTORY
ns_ctl_add(list, ns_ctl_new_unix(_PATH_NDCSOCK, 0700, 0, 0));
#else
ns_ctl_add(list, ns_ctl_new_unix(_PATH_NDCSOCK, 0600, 0, 0));
#endif
#endif /*NO_SOCKADDR_UN*/
}
void
ns_ctl_add(controls *list, control new) {
if (!find_control(*list, new))
APPEND(*list, new, link);
}
control
ns_ctl_new_inet(struct in_addr saddr, u_int sport, ip_match_list allow) {
control new = new_control();
INIT_LINK(new, link);
new->type = t_inet;
memset(&new->var.v_inet.in, 0, sizeof new->var.v_inet.in);
new->var.v_inet.in.sin_family = AF_INET;
new->var.v_inet.in.sin_addr = saddr;
new->var.v_inet.in.sin_port = sport;
new->var.v_inet.allow = allow;
return (new);
}
#ifndef NO_SOCKADDR_UN
control
ns_ctl_new_unix(const char *path, mode_t mode, uid_t owner, gid_t group) {
control new = new_control();
INIT_LINK(new, link);
new->type = t_unix;
memset(&new->var.v_unix.un, 0, sizeof new->var.v_unix.un);
new->var.v_unix.un.sun_family = AF_UNIX;
strncpy(new->var.v_unix.un.sun_path, path,
sizeof new->var.v_unix.un.sun_path - 1);
new->var.v_unix.mode = mode;
new->var.v_unix.owner = owner;
new->var.v_unix.group = group;
return (new);
}
#endif
void
ns_ctl_install(controls *new) {
control ctl, old, next;
/* Find all the controls which aren't new or deleted. */
for (ctl = HEAD(server_controls); ctl != NULL; ctl = NEXT(ctl, link))
ctl->flags &= ~CONTROL_FOUND;
for (ctl = HEAD(*new); ctl != NULL; ctl = next) {
next = NEXT(ctl, link);
old = find_control(server_controls, ctl);
if (old != NULL) {
old->flags |= CONTROL_FOUND;
propagate_changes(ctl, old);
if (old->sctx == NULL)
free_control(&server_controls, old);
free_control(new, ctl);
}
}
/* Destroy any old controls which weren't found. */
for (ctl = HEAD(server_controls); ctl != NULL; ctl = next) {
next = NEXT(ctl, link);
if ((ctl->flags & CONTROL_FOUND) == 0)
free_control(&server_controls, ctl);
}
/* Add any new controls which were found. */
for (ctl = HEAD(*new); ctl != NULL; ctl = next) {
next = NEXT(ctl, link);
UNLINK(*new, ctl, link);
APPEND(server_controls, ctl, link);
install(ctl);
if (ctl->sctx == NULL)
free_control(&server_controls, ctl);
}
}
/* Private functions. */
static struct ctl_sctx *
mksrvr(control ctl, const struct sockaddr *sa, size_t salen) {
return (ctl_server(ev, sa, salen, verbs, 500, 222,
600, 5, 10, logger, ctl));
}
static control
new_control(void) {
control new = memget(sizeof *new);
if (new == NULL)
panic("memget failed in new_control()", NULL);
new->type = t_dead;
new->sctx = NULL;
return (new);
}
static void
free_control(controls *list, control this) {
int was_live = 0;
struct stat sb;
if (this->sctx != NULL) {
ctl_endserver(this->sctx);
this->sctx = NULL;
was_live = 1;
}
switch (this->type) {
case t_inet:
if (this->var.v_inet.allow != NULL) {
free_ip_match_list(this->var.v_inet.allow);
this->var.v_inet.allow = NULL;
}
break;
#ifndef NO_SOCKADDR_UN
case t_unix:
/* XXX Race condition. */
if (was_live &&
stat(this->var.v_unix.un.sun_path, &sb) == 0 &&
(S_ISSOCK(sb.st_mode) || S_ISFIFO(sb.st_mode))) {
/* XXX Race condition. */
unlink(this->var.v_unix.un.sun_path);
}
break;
#endif
default:
panic("impossible type in free_control", NULL);
/* NOTREACHED */
}
UNLINK(*list, this, link);
memput(this, sizeof *this);
}
static void
free_controls(controls *list) {
control ctl, next;
for (ctl = HEAD(*list); ctl != NULL; ctl = next) {
next = NEXT(ctl, link);
free_control(list, ctl);
}
INIT_LIST(*list);
}
static int
match_control(control l, control r) {
int match = 1;
if (l->type != r->type)
match = 0;
else
switch (l->type) {
case t_inet:
if (l->var.v_inet.in.sin_family !=
r->var.v_inet.in.sin_family ||
l->var.v_inet.in.sin_port !=
r->var.v_inet.in.sin_port ||
l->var.v_inet.in.sin_addr.s_addr !=
r->var.v_inet.in.sin_addr.s_addr)
match = 0;
break;
#ifndef NO_SOCKADDR_UN
case t_unix:
if (l->var.v_unix.un.sun_family !=
r->var.v_unix.un.sun_family ||
strcmp(l->var.v_unix.un.sun_path,
r->var.v_unix.un.sun_path) != 0)
match = 0;
break;
#endif
default:
panic("impossible type in match_control", NULL);
/* NOTREACHED */
}
ns_debug(ns_log_config, 20, "match_control(): %d", match);
return (match);
}
static control
find_control(controls list, control new) {
control ctl;
for (ctl = HEAD(list); ctl != NULL; ctl = NEXT(ctl, link))
if (match_control(ctl, new))
return (ctl);
return (NULL);
}
static void
propagate_changes(const control diff, control base) {
int need_install = 0;
switch (base->type) {
case t_inet:
if (base->var.v_inet.allow != NULL)
free_ip_match_list(base->var.v_inet.allow);
base->var.v_inet.allow = diff->var.v_inet.allow;
diff->var.v_inet.allow = NULL;
need_install++;
break;
#ifndef NO_SOCKADDR_UN
case t_unix:
if (base->var.v_unix.mode != diff->var.v_unix.mode) {
base->var.v_unix.mode = diff->var.v_unix.mode;
need_install++;
}
if (base->var.v_unix.owner != diff->var.v_unix.owner) {
base->var.v_unix.owner = diff->var.v_unix.owner;
need_install++;
}
if (base->var.v_unix.group != diff->var.v_unix.group) {
base->var.v_unix.group = diff->var.v_unix.group;
need_install++;
}
break;
#endif
default:
panic("impossible type in ns_ctl::propagate_changes", NULL);
/* NOTREACHED */
}
if (need_install)
install(base);
}
static void
install(control ctl) {
switch (ctl->type) {
case t_inet:
install_inet(ctl);
break;
#ifndef NO_SOCKADDR_UN
case t_unix:
install_unix(ctl);
break;
#endif
default:
panic("impossible type in ns_ctl::install", NULL);
/* NOTREACHED */
}
}
static void
install_inet(control ctl) {
if (ctl->sctx == NULL) {
ctl->sctx = mksrvr(ctl,
(struct sockaddr *)&ctl->var.v_inet.in,
sizeof ctl->var.v_inet.in);
}
}
#ifndef NO_SOCKADDR_UN
/*
* Unattach an old unix domain socket if it exists.
*/
static void
unattach(control ctl) {
int s;
struct stat sb;
s = socket(AF_UNIX, SOCK_STREAM, 0);
if (s < 0) {
ns_warning(ns_log_config,
"unix control \"%s\" socket failed: %s",
ctl->var.v_unix.un.sun_path,
strerror(errno));
return;
}
if (stat(ctl->var.v_unix.un.sun_path, &sb) < 0) {
switch (errno) {
case ENOENT: /* We exited cleanly last time */
break;
default:
ns_warning(ns_log_config,
"unix control \"%s\" stat failed: %s",
ctl->var.v_unix.un.sun_path,
strerror(errno));
break;
}
goto cleanup;
}
if (!(S_ISSOCK(sb.st_mode) || S_ISFIFO(sb.st_mode))) {
ns_warning(ns_log_config, "unix control \"%s\" not socket",
ctl->var.v_unix.un.sun_path);
goto cleanup;
}
if (connect(s, (struct sockaddr *)&ctl->var.v_unix.un,
sizeof ctl->var.v_unix.un) < 0) {
switch (errno) {
case ECONNREFUSED:
case ECONNRESET:
if (unlink(ctl->var.v_unix.un.sun_path) < 0)
ns_warning(ns_log_config,
"unix control \"%s\" unlink failed: %s",
ctl->var.v_unix.un.sun_path,
strerror(errno));
break;
default:
ns_warning(ns_log_config,
"unix control \"%s\" connect failed: %s",
ctl->var.v_unix.un.sun_path,
strerror(errno));
break;
}
}
cleanup:
close(s);
}
static void
install_unix(control ctl) {
char *path;
#ifdef NEED_SECURE_DIRECTORY
char *slash;
path = savestr(ctl->var.v_unix.un.sun_path, 1);
slash = strrchr(path, '/');
if (slash != NULL) {
if (slash != path)
*slash = '\0';
else {
(void)freestr(path);
path = savestr("/", 1);
}
} else {
(void)freestr(path);
path = savestr(".", 1);
}
if (mkdir(path, ctl->var.v_unix.mode) < 0) {
if (errno != EEXIST) {
ns_warning(ns_log_config,
"unix control \"%s\" mkdir failed: %s",
path, strerror(errno));
}
}
#else
path = ctl->var.v_unix.un.sun_path;
#endif
if (ctl->sctx == NULL) {
unattach(ctl);
ctl->sctx = mksrvr(ctl,
(struct sockaddr *)&ctl->var.v_unix.un,
sizeof ctl->var.v_unix.un);
}
if (ctl->sctx != NULL) {
/* XXX Race condition. */
if (chmod(path, ctl->var.v_unix.mode) < 0) {
ns_warning(ns_log_config, "chmod(\"%s\", 0%03o): %s",
ctl->var.v_unix.un.sun_path,
ctl->var.v_unix.mode,
strerror(errno));
}
if (chown(path, ctl->var.v_unix.owner,
ctl->var.v_unix.group) < 0) {
ns_warning(ns_log_config, "chown(\"%s\", %d, %d): %s",
ctl->var.v_unix.un.sun_path,
ctl->var.v_unix.owner,
ctl->var.v_unix.group,
strerror(errno));
}
}
#ifdef NEED_SECURE_DIRECTORY
(void)freestr(path);
#endif
}
#endif
static void
logger(enum ctl_severity ctlsev, const char *format, ...) {
va_list args;
int logsev;
switch (ctlsev) {
case ctl_debug: logsev = log_debug(5); break;
case ctl_warning: logsev = log_warning; break;
case ctl_error: logsev = log_error; break;
default: logsev = 0;
panic("invalid ctlsev in logger", NULL);
}
if (!log_ctx_valid)
return;
va_start(args, format);
log_vwrite(log_ctx, ns_log_control, logsev, format, args);
va_end(args);
}
static void
verb_connect(struct ctl_sctx *ctl, struct ctl_sess *sess,
const struct ctl_verb *verb, const char *rest,
u_int respflags, const void *respctx, void *uctx)
{
const struct sockaddr *sa = (const struct sockaddr *)respctx;
control nsctl = (control)uctx;
UNUSED(ctl);
UNUSED(verb);
UNUSED(rest);
UNUSED(respflags);
if (sa->sa_family == AF_INET) {
const struct sockaddr_in *in = (const struct sockaddr_in *)sa;
const ip_match_list acl = nsctl->var.v_inet.allow;
if (!ip_address_allowed(acl, in->sin_addr)) {
ctl_response(sess, 502, "Permission denied.",
CTL_EXIT, NULL, NULL, NULL, NULL, 0);
return;
}
}
ctl_response(sess, 220, server_options->version, 0, NULL, NULL, NULL,
NULL, 0);
}
static void
verb_getpid(struct ctl_sctx *ctl, struct ctl_sess *sess,
const struct ctl_verb *verb, const char *rest,
u_int respflags, const void *respctx, void *uctx)
{
char *msg = memget(MAX_STR_LEN);
UNUSED(ctl);
UNUSED(verb);
UNUSED(rest);
UNUSED(respflags);
UNUSED(respctx);
UNUSED(uctx);
if (msg == NULL) {
ctl_response(sess, 503, "(out of memory)", 0,
NULL, NULL, NULL, NULL, 0);
return;
}
sprintf(msg, "my pid is <%ld>", (long)getpid());
ctl_response(sess, 250, msg, 0, NULL, getpid_closure, msg, NULL, 0);
}
static void
getpid_closure(struct ctl_sctx *sctx, struct ctl_sess *sess, void *uap) {
char *msg = uap;
UNUSED(sctx);
UNUSED(sess);
memput(msg, MAX_STR_LEN);
}
enum state {
e_version = 0,
e_config,
e_nzones,
e_debug,
e_xfersrun,
e_xfersdfr,
e_qserials,
e_qrylog,
e_priming,
e_finito
};
struct pvt_status {
enum state state;
char text[MAX_STR_LEN];
};
static void
verb_status(struct ctl_sctx *ctl, struct ctl_sess *sess,
const struct ctl_verb *verb, const char *rest,
u_int respflags, const void *respctx, void *uctx)
{
struct pvt_status *pvt = ctl_getcsctx(sess);
UNUSED(ctl);
UNUSED(verb);
UNUSED(rest);
UNUSED(respflags);
UNUSED(respctx);
UNUSED(uctx);
if (pvt == NULL) {
pvt = memget(sizeof *pvt);
if (pvt == NULL) {
ctl_response(sess, 505, "(out of memory)",
0, NULL, NULL, NULL, NULL, 0);
return;
}
pvt->state = (enum state)0;
(void)ctl_setcsctx(sess, pvt);
}
switch (pvt->state++) {
case e_version:
strncpy(pvt->text, Version, sizeof pvt->text);
pvt->text[sizeof pvt->text - 1] = '\0';
break;
case e_config:
sprintf(pvt->text, "config (%s) last loaded at age: %24s",
conffile, ctime(&confmtime));
break;
case e_nzones:
sprintf(pvt->text, "number of zones allocated: %d", nzones);
break;
case e_debug:
sprintf(pvt->text, "debug level: %d", debug);
break;
case e_xfersrun:
sprintf(pvt->text, "xfers running: %d", xfers_running);
break;
case e_xfersdfr:
sprintf(pvt->text, "xfers deferred: %d", xfers_deferred);
break;
case e_qserials:
sprintf(pvt->text, "soa queries in progress: %d",
qserials_running);
break;
case e_qrylog:
sprintf(pvt->text, "query logging is %s",
qrylog ? "ON" : "OFF");
break;
case e_priming:
if (priming)
sprintf(pvt->text, "server is initialising itself");
else
sprintf(pvt->text, "server is up and running");
break;
case e_finito:
return;
}
ctl_response(sess, 250, pvt->text,
(pvt->state == e_finito) ? 0 : CTL_MORE,
NULL, status_closure, NULL, NULL, 0);
}
static void
status_closure(struct ctl_sctx *sctx, struct ctl_sess *sess, void *uap) {
struct pvt_status *pvt = ctl_getcsctx(sess);
UNUSED(sctx);
UNUSED(uap);
memput(pvt, sizeof *pvt);
ctl_setcsctx(sess, NULL);
}
static void
verb_stop(struct ctl_sctx *ctl, struct ctl_sess *sess,
const struct ctl_verb *verb, const char *rest,
u_int respflags, const void *respctx, void *uctx)
{
UNUSED(ctl);
UNUSED(verb);
UNUSED(rest);
UNUSED(respflags);
UNUSED(respctx);
UNUSED(uctx);
ns_need(main_need_exit);
ctl_response(sess, 250, "Shutdown initiated.", 0, NULL, NULL, NULL,
NULL, 0);
}
static void
verb_exec(struct ctl_sctx *ctl, struct ctl_sess *sess,
const struct ctl_verb *verb, const char *rest,
u_int respflags, const void *respctx, void *uctx)
{
struct stat sb;
UNUSED(ctl);
UNUSED(verb);
UNUSED(respflags);
UNUSED(respctx);
UNUSED(uctx);
if (rest != NULL && *rest != '\0') {
if (stat(rest, &sb) < 0) {
ctl_response(sess, 503, strerror(errno),
0, NULL, NULL, NULL, NULL, 0);
return;
}
saved_argv[0] = savestr(rest, 1); /* Never strfreed. */
}
if (stat(saved_argv[0], &sb) < 0) {
const char *save = strerror(errno);
ns_warning(ns_log_default, "can't exec, %s: %s",
saved_argv[0], save);
ctl_response(sess, 502, save, 0, NULL, NULL, NULL,
NULL, 0);
} else {
ns_need(main_need_restart);
ctl_response(sess, 250, "Restart initiated.", 0, NULL,
NULL, NULL, NULL, 0);
}
}
static void
verb_reload(struct ctl_sctx *ctl, struct ctl_sess *sess,
const struct ctl_verb *verb, const char *rest,
u_int respflags, const void *respctx, void *uctx)
{
static const char spaces[] = " \t";
struct zoneinfo *zp;
char *tmp = NULL, *x;
const char *cl;
const char *msg;
int class, code, success;
UNUSED(ctl);
UNUSED(verb);
UNUSED(respflags);
UNUSED(respctx);
UNUSED(uctx);
/* If there are no args, this is a classic reload of the config. */
if (rest == NULL || *rest == '\0') {
ns_need(main_need_reload);
code = 250;
msg = "Reload initiated.";
goto respond;
}
/* Look for optional zclass argument. Default is "in". */
tmp = savestr(rest, 1);
x = tmp + strcspn(tmp, spaces);
if (*x != '\0') {
*x++ = '\0';
x += strspn(x, spaces);
}
cl = (x == NULL || *x == '\0') ? "in" : x;
class = res_nametoclass(cl, &success);
if (!success) {
code = 507;
msg = "unrecognized class";
goto respond;
}
/* Look for the zone, and do the right thing to it. */
zp = find_zone(tmp, class);
if (zp == NULL) {
code = 506;
msg = "Zone not found.";
goto respond;
}
switch (zp->z_type) {
case z_master:
ns_stopxfrs(zp);
/*FALLTHROUGH*/
case z_hint:
block_signals();
code = 251;
msg = deferred_reload_unsafe(zp);
unblock_signals();
break;
case z_slave:
case z_stub:
ns_stopxfrs(zp);
if (zonefile_changed_p(zp))
zp->z_serial = 0; /* force xfer */
addxfer(zp);
code = 251;
msg = "Slave transfer queued.";
goto respond;
case z_forward:
case z_cache:
default:
msg = "Non reloadable zone.";
code = 507;
break;
}
respond:
ctl_response(sess, code, msg, 0, NULL, NULL, NULL, NULL, 0);
if (tmp != NULL)
(void)freestr(tmp);
}
static void
verb_reconfig(struct ctl_sctx *ctl, struct ctl_sess *sess,
const struct ctl_verb *verb, const char *rest,
u_int respflags, const void *respctx, void *uctx)
{
UNUSED(ctl);
UNUSED(verb);
UNUSED(respflags);
UNUSED(respctx);
UNUSED(uctx);
if (strcmp(rest, "-noexpired") != 0)
ns_need(main_need_reconfig);
else
ns_need(main_need_noexpired);
ctl_response(sess, 250, "Reconfig initiated.",
0, NULL, NULL, NULL, NULL, 0);
}
static void
verb_dumpdb(struct ctl_sctx *ctl, struct ctl_sess *sess,
const struct ctl_verb *verb, const char *rest,
u_int respflags, const void *respctx, void *uctx)
{
UNUSED(ctl);
UNUSED(verb);
UNUSED(rest);
UNUSED(respflags);
UNUSED(respctx);
UNUSED(uctx);
ns_need(main_need_dump);
ctl_response(sess, 250, "Database dump initiated.", 0, NULL,
NULL, NULL, NULL, 0);
}
static void
verb_stats(struct ctl_sctx *ctl, struct ctl_sess *sess,
const struct ctl_verb *verb, const char *rest,
u_int respflags, const void *respctx, void *uctx)
{
UNUSED(ctl);
UNUSED(verb);
UNUSED(respflags);
UNUSED(respctx);
UNUSED(uctx);
if (rest != NULL && strcmp(rest, "clear") == 0) {
ns_need(main_need_statsdumpandclear);
ctl_response(sess, 250, "Statistics dump and clear initiated.",
0, NULL, NULL, NULL, NULL, 0);
} else {
ns_need(main_need_statsdump);
ctl_response(sess, 250, "Statistics dump initiated.",
0, NULL, NULL, NULL, NULL, 0);
}
}
static void
verb_trace(struct ctl_sctx *ctl, struct ctl_sess *sess,
const struct ctl_verb *verb, const char *rest,
u_int respflags, const void *respctx, void *uctx)
{
int i = atoi(rest);
char *msg = memget(MAX_STR_LEN);
UNUSED(ctl);
UNUSED(verb);
UNUSED(respflags);
UNUSED(respctx);
UNUSED(uctx);
if (msg == NULL) {
ctl_response(sess, 503, "(out of memory)", 0,
NULL, NULL, NULL, NULL, 0);
return;
}
if (isdigit(*(const unsigned char *)rest) && i >= 0)
desired_debug = i;
else
desired_debug++;
ns_need(main_need_debug);
if (desired_debug == 0)
sprintf(msg, "Debugging turned off.");
else
sprintf(msg, "Debug level: %d", desired_debug);
ctl_response(sess, 250, msg, 0, NULL, trace_closure, msg, NULL, 0);
}
static void
trace_closure(struct ctl_sctx *sctx, struct ctl_sess *sess, void *uap) {
char *msg = uap;
UNUSED(sctx);
UNUSED(sess);
memput(msg, MAX_STR_LEN);
}
static void
verb_notrace(struct ctl_sctx *ctl, struct ctl_sess *sess,
const struct ctl_verb *verb, const char *rest,
u_int respflags, const void *respctx, void *uctx)
{
UNUSED(ctl);
UNUSED(verb);
UNUSED(rest);
UNUSED(respflags);
UNUSED(respctx);
UNUSED(uctx);
desired_debug = 0;
ns_need(main_need_debug);
ctl_response(sess, 250, "Debugging turned off.",
0, NULL, NULL, NULL, NULL, 0);
}
static void
verb_querylog(struct ctl_sctx *ctl, struct ctl_sess *sess,
const struct ctl_verb *verb, const char *rest,
u_int respflags, const void *respctx, void *uctx)
{
static const char on[] = "Query logging is now on.",
off[] = "Query logging is now off.";
UNUSED(ctl);
UNUSED(verb);
UNUSED(rest);
UNUSED(respflags);
UNUSED(respctx);
UNUSED(uctx);
toggle_qrylog();
ctl_response(sess, 250, qrylog ? on : off,
0, NULL, NULL, NULL, NULL, 0);
}
static void
verb_help(struct ctl_sctx *ctl, struct ctl_sess *sess,
const struct ctl_verb *verb, const char *rest,
u_int respflags, const void *respctx, void *uctx)
{
UNUSED(ctl);
UNUSED(verb);
UNUSED(rest);
UNUSED(respflags);
UNUSED(respctx);
UNUSED(uctx);
ctl_sendhelp(sess, 214);
}
static void
verb_quit(struct ctl_sctx *ctl, struct ctl_sess *sess,
const struct ctl_verb *verb, const char *rest,
u_int respflags, const void *respctx, void *uctx)
{
UNUSED(ctl);
UNUSED(verb);
UNUSED(rest);
UNUSED(respflags);
UNUSED(respctx);
UNUSED(uctx);
ctl_response(sess, 221, "End of control session.", CTL_EXIT, NULL,
NULL, NULL, NULL, 0);
}