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/*
* xfrd-notify.c - notify sending routines
*
* Copyright (c) 2006, NLnet Labs. All rights reserved.
*
* See LICENSE for the license.
*
*/
#include <config.h>
#include <assert.h>
#include <string.h>
#include <unistd.h>
#include <errno.h>
#include "xfrd-notify.h"
#include "xfrd.h"
#include "xfrd-tcp.h"
#include "packet.h"
#define XFRD_NOTIFY_RETRY_TIMOUT 15 /* seconds between retries sending NOTIFY */
/* start sending notifies */
static void notify_enable(struct notify_zone_t* zone,
struct xfrd_soa* new_soa);
/* stop sending notifies */
static void notify_disable(struct notify_zone_t* zone);
/* setup the notify active state */
static void setup_notify_active(struct notify_zone_t* zone);
/* returns if the notify send is done for the notify_current acl */
static int xfrd_handle_notify_reply(struct notify_zone_t* zone, buffer_type* packet);
/* handle zone notify send */
static void xfrd_handle_notify_send(netio_type *netio,
netio_handler_type *handler, netio_event_types_type event_types);
static void xfrd_notify_next(struct notify_zone_t* zone);
static void xfrd_notify_send_udp(struct notify_zone_t* zone, buffer_type* packet);
static void
notify_disable(struct notify_zone_t* zone)
{
zone->notify_current = 0;
zone->notify_send_handler.timeout = NULL;
if(zone->notify_send_handler.fd != -1) {
close(zone->notify_send_handler.fd);
zone->notify_send_handler.fd = -1;
}
if(xfrd->notify_udp_num == XFRD_MAX_UDP_NOTIFY) {
/* find next waiting and needy zone */
while(xfrd->notify_waiting_first) {
/* snip off */
struct notify_zone_t* wz = xfrd->notify_waiting_first;
assert(wz->is_waiting);
wz->is_waiting = 0;
xfrd->notify_waiting_first = wz->waiting_next;
if(xfrd->notify_waiting_last == wz)
xfrd->notify_waiting_last = NULL;
/* see if this zone needs notify sending */
if(wz->notify_current) {
DEBUG(DEBUG_XFRD,1, (LOG_INFO,
"xfrd: zone %s: notify off waiting list.",
zone->apex_str) );
setup_notify_active(wz);
return;
}
}
}
xfrd->notify_udp_num--;
}
void
init_notify_send(rbtree_t* tree, netio_type* netio, region_type* region,
const dname_type* apex, zone_options_t* options, zone_type* dbzone)
{
struct notify_zone_t* not = (struct notify_zone_t*)
region_alloc(region, sizeof(struct notify_zone_t));
memset(not, 0, sizeof(struct notify_zone_t));
not->apex = apex;
not->apex_str = options->name;
not->node.key = not->apex;
not->options = options;
/* if master zone and have a SOA */
not->current_soa = (struct xfrd_soa*)region_alloc(region,
sizeof(struct xfrd_soa));
memset(not->current_soa, 0, sizeof(struct xfrd_soa));
if(dbzone && dbzone->soa_rrset && dbzone->soa_rrset->rrs) {
xfrd_copy_soa(not->current_soa, dbzone->soa_rrset->rrs);
}
not->is_waiting = 0;
not->notify_send_handler.fd = -1;
not->notify_send_handler.timeout = 0;
not->notify_send_handler.user_data = not;
not->notify_send_handler.event_types =
NETIO_EVENT_READ|NETIO_EVENT_TIMEOUT;
not->notify_send_handler.event_handler = xfrd_handle_notify_send;
netio_add_handler(netio, ¬->notify_send_handler);
#ifdef TSIG
tsig_create_record_custom(¬->notify_tsig, region, 0, 0, 4);
#endif /* TSIG */
not->notify_current = 0;
rbtree_insert(tree, (rbnode_t*)not);
}
static int
xfrd_handle_notify_reply(struct notify_zone_t* zone, buffer_type* packet)
{
if((OPCODE(packet) != OPCODE_NOTIFY) ||
(QR(packet) == 0)) {
log_msg(LOG_ERR, "xfrd: zone %s: received bad notify reply opcode/flags",
zone->apex_str);
return 0;
}
/* we know it is OPCODE NOTIFY, QUERY_REPLY and for this zone */
if(ID(packet) != zone->notify_query_id) {
log_msg(LOG_ERR, "xfrd: zone %s: received notify-ack with bad ID",
zone->apex_str);
return 0;
}
/* could check tsig, but why. The reply does not cause processing. */
if(RCODE(packet) != RCODE_OK) {
log_msg(LOG_ERR, "xfrd: zone %s: received notify response error %s from %s",
zone->apex_str, rcode2str(RCODE(packet)),
zone->notify_current->ip_address_spec);
if(RCODE(packet) == RCODE_IMPL)
return 1; /* rfc1996: notimpl notify reply: consider retries done */
return 0;
}
DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: zone %s: host %s acknowledges notify",
zone->apex_str, zone->notify_current->ip_address_spec));
return 1;
}
static void
xfrd_notify_next(struct notify_zone_t* zone)
{
/* advance to next in acl */
zone->notify_current = zone->notify_current->next;
zone->notify_retry = 0;
if(zone->notify_current == 0) {
DEBUG(DEBUG_XFRD,1, (LOG_INFO,
"xfrd: zone %s: no more notify-send acls. stop notify.",
zone->apex_str));
notify_disable(zone);
return;
}
}
static void
xfrd_notify_send_udp(struct notify_zone_t* zone, buffer_type* packet)
{
if(zone->notify_send_handler.fd != -1)
close(zone->notify_send_handler.fd);
zone->notify_send_handler.fd = -1;
/* Set timeout for next reply */
zone->notify_timeout.tv_sec = xfrd_time() + XFRD_NOTIFY_RETRY_TIMOUT;
/* send NOTIFY to secondary. */
xfrd_setup_packet(packet, TYPE_SOA, CLASS_IN, zone->apex);
zone->notify_query_id = ID(packet);
OPCODE_SET(packet, OPCODE_NOTIFY);
AA_SET(packet);
if(zone->current_soa->serial != 0) {
/* add current SOA to answer section */
ANCOUNT_SET(packet, 1);
xfrd_write_soa_buffer(packet, zone->apex, zone->current_soa);
}
#ifdef TSIG
if(zone->notify_current->key_options) {
xfrd_tsig_sign_request(packet, &zone->notify_tsig, zone->notify_current);
}
#endif /* TSIG */
buffer_flip(packet);
zone->notify_send_handler.fd = xfrd_send_udp(zone->notify_current,
packet, zone->options->outgoing_interface);
if(zone->notify_send_handler.fd == -1) {
log_msg(LOG_ERR, "xfrd: zone %s: could not send notify #%d to %s",
zone->apex_str, zone->notify_retry,
zone->notify_current->ip_address_spec);
return;
}
DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: zone %s: sent notify #%d to %s",
zone->apex_str, zone->notify_retry,
zone->notify_current->ip_address_spec));
}
static void
xfrd_handle_notify_send(netio_type* ATTR_UNUSED(netio),
netio_handler_type *handler, netio_event_types_type event_types)
{
struct notify_zone_t* zone = (struct notify_zone_t*)handler->user_data;
buffer_type* packet = xfrd_get_temp_buffer();
assert(zone->notify_current);
if(zone->is_waiting) {
DEBUG(DEBUG_XFRD,1, (LOG_INFO,
"xfrd: notify waiting, skipped, %s", zone->apex_str));
assert(zone->notify_send_handler.fd == -1);
return;
}
if(event_types & NETIO_EVENT_READ) {
DEBUG(DEBUG_XFRD,1, (LOG_INFO,
"xfrd: zone %s: read notify ACK", zone->apex_str));
assert(handler->fd != -1);
if(xfrd_udp_read_packet(packet, zone->notify_send_handler.fd)) {
if(xfrd_handle_notify_reply(zone, packet))
xfrd_notify_next(zone);
}
} else if(event_types & NETIO_EVENT_TIMEOUT) {
DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: zone %s: notify timeout",
zone->apex_str));
/* timeout, try again */
}
/* see if notify is still enabled */
if(zone->notify_current) {
zone->notify_retry++;
if(zone->notify_retry > zone->options->notify_retry) {
log_msg(LOG_ERR, "xfrd: zone %s: max notify send count reached, %s unreachable",
zone->apex_str, zone->notify_current->ip_address_spec);
xfrd_notify_next(zone);
}
}
if(zone->notify_current) {
/* try again */
xfrd_notify_send_udp(zone, packet);
}
}
static void
setup_notify_active(struct notify_zone_t* zone)
{
zone->notify_retry = 0;
zone->notify_current = zone->options->notify;
zone->notify_send_handler.timeout = &zone->notify_timeout;
zone->notify_timeout.tv_sec = xfrd_time();
zone->notify_timeout.tv_nsec = 0;
}
static void
notify_enable(struct notify_zone_t* zone, struct xfrd_soa* new_soa)
{
if(!zone->options->notify) {
return; /* no notify acl, nothing to do */
}
if(new_soa == NULL)
memset(zone->current_soa, 0, sizeof(xfrd_soa_t));
else
memcpy(zone->current_soa, new_soa, sizeof(xfrd_soa_t));
if(zone->is_waiting)
return;
if(xfrd->notify_udp_num < XFRD_MAX_UDP_NOTIFY) {
setup_notify_active(zone);
xfrd->notify_udp_num++;
return;
}
/* put it in waiting list */
zone->notify_current = zone->options->notify;
zone->is_waiting = 1;
zone->waiting_next = NULL;
if(xfrd->notify_waiting_last) {
xfrd->notify_waiting_last->waiting_next = zone;
} else {
xfrd->notify_waiting_first = zone;
}
xfrd->notify_waiting_last = zone;
zone->notify_send_handler.timeout = NULL;
DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: zone %s: notify on waiting list.",
zone->apex_str));
}
void
xfrd_send_notify(rbtree_t* tree, const dname_type* apex, struct xfrd_soa* new_soa)
{
/* lookup the zone */
struct notify_zone_t* zone = (struct notify_zone_t*)
rbtree_search(tree, apex);
assert(zone);
notify_enable(zone, new_soa);
}
void
notify_handle_master_zone_soainfo(rbtree_t* tree,
const dname_type* apex, struct xfrd_soa* new_soa)
{
/* lookup the zone */
struct notify_zone_t* zone = (struct notify_zone_t*)
rbtree_search(tree, apex);
assert(zone);
/* check if SOA changed */
if( (new_soa == NULL && zone->current_soa->serial == 0) ||
(new_soa && new_soa->serial == zone->current_soa->serial))
return;
notify_enable(zone, new_soa);
}
void close_notify_fds(rbtree_t* tree)
{
struct notify_zone_t* zone;
RBTREE_FOR(zone, struct notify_zone_t*, tree)
{
if(zone->notify_send_handler.fd != -1) {
close(zone->notify_send_handler.fd);
zone->notify_send_handler.fd = -1;
}
}
}
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