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|
/*
* ipc.c - Interprocess communication routines. Handlers read and write.
*
* Copyright (c) 2001-2006, NLnet Labs. All rights reserved.
*
* See LICENSE for the license.
*
*/
#include <config.h>
#include <errno.h>
#include <unistd.h>
#include <stdlib.h>
#include "ipc.h"
#include "buffer.h"
#include "xfrd-tcp.h"
#include "nsd.h"
#include "namedb.h"
#include "xfrd.h"
#include "xfrd-notify.h"
/* set is_ok for the zone according to the zone message */
static zone_type* handle_xfrd_zone_state(struct nsd* nsd, buffer_type* packet);
/* write ipc ZONE_STATE message into the buffer */
static void write_zone_state_packet(buffer_type* packet, zone_type* zone);
/* attempt to send NSD_STATS command to child fd */
static void send_stat_to_child(struct main_ipc_handler_data* data, int fd);
/* write IPC expire notification msg to a buffer */
static void xfrd_write_expire_notification(buffer_type* buffer, xfrd_zone_t* zone);
/* send reload request over the IPC channel */
static void xfrd_send_reload_req(xfrd_state_t* xfrd);
/* send quit request over the IPC channel */
static void xfrd_send_quit_req(xfrd_state_t* xfrd);
/* get SOA INFO out of IPC packet buffer */
static void xfrd_handle_ipc_SOAINFO(xfrd_state_t* xfrd, buffer_type* packet);
/* perform read part of handle ipc for xfrd */
static void xfrd_handle_ipc_read(netio_handler_type *handler, xfrd_state_t* xfrd);
static zone_type*
handle_xfrd_zone_state(struct nsd* nsd, buffer_type* packet)
{
uint8_t ok;
const dname_type *dname;
domain_type *domain;
zone_type *zone;
ok = buffer_read_u8(packet);
dname = (dname_type*)buffer_current(packet);
DEBUG(DEBUG_IPC,1, (LOG_INFO, "handler zone state %s is %s",
dname_to_string(dname, NULL), ok?"ok":"expired"));
/* find in zone_types, if does not exist, we cannot serve anyway */
/* find zone in config, since that one always exists */
domain = domain_table_find(nsd->db->domains, dname);
if(!domain) {
DEBUG(DEBUG_IPC,1, (LOG_INFO, "zone state msg, empty zone (domain %s)",
dname_to_string(dname, NULL)));
return NULL;
}
zone = domain_find_zone(domain);
if(!zone || dname_compare(domain_dname(zone->apex), dname) != 0) {
DEBUG(DEBUG_IPC,1, (LOG_INFO, "zone state msg, empty zone (zone %s)",
dname_to_string(dname, NULL)));
return NULL;
}
assert(zone);
/* only update zone->is_ok if needed to minimize copy-on-write
of memory pages shared after fork() */
if(ok && !zone->is_ok)
zone->is_ok = 1;
if(!ok && zone->is_ok)
zone->is_ok = 0;
return zone;
}
void
child_handle_parent_command(netio_type *ATTR_UNUSED(netio),
netio_handler_type *handler,
netio_event_types_type event_types)
{
sig_atomic_t mode;
int len;
struct ipc_handler_conn_data *data =
(struct ipc_handler_conn_data *) handler->user_data;
if (!(event_types & NETIO_EVENT_READ)) {
return;
}
if(data->conn->is_reading) {
int ret = conn_read(data->conn);
if(ret == -1) {
log_msg(LOG_ERR, "handle_parent_command: error in conn_read: %s",
strerror(errno));
data->conn->is_reading = 0;
return;
}
if(ret == 0) {
return; /* continue later */
}
/* completed */
data->conn->is_reading = 0;
buffer_flip(data->conn->packet);
(void)handle_xfrd_zone_state(data->nsd, data->conn->packet);
return;
}
if ((len = read(handler->fd, &mode, sizeof(mode))) == -1) {
log_msg(LOG_ERR, "handle_parent_command: read: %s",
strerror(errno));
return;
}
if (len == 0)
{
/* parent closed the connection. Quit */
data->nsd->mode = NSD_QUIT;
return;
}
switch (mode) {
case NSD_STATS:
case NSD_QUIT:
data->nsd->mode = mode;
break;
case NSD_ZONE_STATE:
data->conn->is_reading = 1;
data->conn->total_bytes = 0;
data->conn->msglen = 0;
data->conn->fd = handler->fd;
buffer_clear(data->conn->packet);
break;
default:
log_msg(LOG_ERR, "handle_parent_command: bad mode %d",
(int) mode);
break;
}
}
void
parent_handle_xfrd_command(netio_type *ATTR_UNUSED(netio),
netio_handler_type *handler,
netio_event_types_type event_types)
{
sig_atomic_t mode;
int len;
struct ipc_handler_conn_data *data =
(struct ipc_handler_conn_data *) handler->user_data;
if (!(event_types & NETIO_EVENT_READ)) {
return;
}
if(data->conn->is_reading) {
/* handle ZONE_STATE forward to children */
int ret = conn_read(data->conn);
size_t i;
zone_type* zone;
if(ret == -1) {
log_msg(LOG_ERR, "main xfrd listener: error in conn_read: %s",
strerror(errno));
data->conn->is_reading = 0;
return;
}
if(ret == 0) {
return; /* continue later */
}
/* completed */
data->conn->is_reading = 0;
buffer_flip(data->conn->packet);
zone = handle_xfrd_zone_state(data->nsd, data->conn->packet);
if(!zone)
return;
/* forward to all children */
for (i = 0; i < data->nsd->child_count; ++i) {
if(!zone->dirty[i]) {
zone->dirty[i] = 1;
stack_push(data->nsd->children[i].dirty_zones, zone);
data->nsd->children[i].handler->event_types |=
NETIO_EVENT_WRITE;
}
}
return;
}
if ((len = read(handler->fd, &mode, sizeof(mode))) == -1) {
log_msg(LOG_ERR, "handle_xfrd_command: read: %s",
strerror(errno));
return;
}
if (len == 0)
{
DEBUG(DEBUG_IPC,1, (LOG_ERR, "handle_xfrd_command: xfrd closed channel."));
close(handler->fd);
handler->fd = -1;
return;
}
switch (mode) {
case NSD_RELOAD:
data->nsd->signal_hint_reload = 1;
break;
case NSD_QUIT:
data->nsd->mode = mode;
break;
case NSD_REAP_CHILDREN:
data->nsd->signal_hint_child = 1;
break;
case NSD_ZONE_STATE:
data->conn->is_reading = 1;
data->conn->total_bytes = 0;
data->conn->msglen = 0;
data->conn->fd = handler->fd;
buffer_clear(data->conn->packet);
break;
default:
log_msg(LOG_ERR, "handle_xfrd_command: bad mode %d",
(int) mode);
break;
}
}
static void
write_zone_state_packet(buffer_type* packet, zone_type* zone)
{
sig_atomic_t cmd = NSD_ZONE_STATE;
uint8_t ok = zone->is_ok;
uint16_t sz;
if(!zone->apex) {
return;
}
sz = dname_total_size(domain_dname(zone->apex)) + 1;
sz = htons(sz);
buffer_clear(packet);
buffer_write(packet, &cmd, sizeof(cmd));
buffer_write(packet, &sz, sizeof(sz));
buffer_write(packet, &ok, sizeof(ok));
buffer_write(packet, domain_dname(zone->apex),
dname_total_size(domain_dname(zone->apex)));
buffer_flip(packet);
}
static void
send_stat_to_child(struct main_ipc_handler_data* data, int fd)
{
sig_atomic_t cmd = NSD_STATS;
if(write(fd, &cmd, sizeof(cmd)) == -1) {
if(errno == EAGAIN || errno == EINTR)
return; /* try again later */
log_msg(LOG_ERR, "svrmain: problems sending stats to child %d command: %s",
(int)data->child->pid, strerror(errno));
return;
}
data->child->need_to_send_STATS = 0;
}
int packet_read_query_section(buffer_type *packet, uint8_t* dest, uint16_t* qtype, uint16_t* qclass);
static void
debug_print_fwd_name(int ATTR_UNUSED(len), buffer_type* packet, int acl_num)
{
uint8_t qnamebuf[MAXDOMAINLEN];
uint16_t qtype, qclass;
const dname_type* dname;
region_type* tempregion = region_create(xalloc, free);
size_t bufpos = buffer_position(packet);
buffer_rewind(packet);
buffer_skip(packet, 12);
if(packet_read_query_section(packet, qnamebuf, &qtype, &qclass)) {
dname = dname_make(tempregion, qnamebuf, 1);
log_msg(LOG_INFO, "main: fwd packet for %s, acl %d",
dname_to_string(dname,0), acl_num);
} else {
log_msg(LOG_INFO, "main: fwd packet badqname, acl %d", acl_num);
}
buffer_set_position(packet, bufpos);
region_destroy(tempregion);
}
static void
send_quit_to_child(struct main_ipc_handler_data* data, int fd)
{
sig_atomic_t cmd = NSD_QUIT;
if(write(fd, &cmd, sizeof(cmd)) == -1) {
if(errno == EAGAIN || errno == EINTR)
return; /* try again later */
log_msg(LOG_ERR, "svrmain: problems sending quit to child %d command: %s",
(int)data->child->pid, strerror(errno));
return;
}
data->child->need_to_send_QUIT = 0;
DEBUG(DEBUG_IPC,2, (LOG_INFO, "main: sent quit to child %d",
(int)data->child->pid));
}
void
parent_handle_child_command(netio_type *ATTR_UNUSED(netio),
netio_handler_type *handler,
netio_event_types_type event_types)
{
sig_atomic_t mode;
int len;
struct main_ipc_handler_data *data =
(struct main_ipc_handler_data*)handler->user_data;
/* do a nonblocking write to the child if it is ready. */
if (event_types & NETIO_EVENT_WRITE) {
if(!data->busy_writing_zone_state &&
!data->child->need_to_send_STATS &&
!data->child->need_to_send_QUIT &&
!data->child->need_to_exit &&
data->child->dirty_zones->num > 0) {
/* create packet from next dirty zone */
zone_type* zone = (zone_type*)stack_pop(data->child->dirty_zones);
assert(zone);
zone->dirty[data->child_num] = 0;
data->busy_writing_zone_state = 1;
write_zone_state_packet(data->write_conn->packet, zone);
data->write_conn->msglen = buffer_limit(data->write_conn->packet);
data->write_conn->total_bytes = sizeof(uint16_t); /* len bytes already in packet */
data->write_conn->fd = handler->fd;
}
if(data->busy_writing_zone_state) {
/* write more of packet */
int ret = conn_write(data->write_conn);
if(ret == -1) {
log_msg(LOG_ERR, "handle_child_cmd %d: could not write: %s",
(int)data->child->pid, strerror(errno));
data->busy_writing_zone_state = 0;
} else if(ret == 1) {
data->busy_writing_zone_state = 0; /* completed */
}
} else if(data->child->need_to_send_STATS &&
!data->child->need_to_exit) {
send_stat_to_child(data, handler->fd);
} else if(data->child->need_to_send_QUIT) {
send_quit_to_child(data, handler->fd);
if(!data->child->need_to_send_QUIT)
handler->event_types = NETIO_EVENT_READ;
}
if(!data->busy_writing_zone_state &&
!data->child->need_to_send_STATS &&
!data->child->need_to_send_QUIT &&
data->child->dirty_zones->num == 0) {
handler->event_types = NETIO_EVENT_READ;
}
}
if (!(event_types & NETIO_EVENT_READ)) {
return;
}
if (data->forward_mode) {
int got_acl;
/* forward the data to xfrd */
DEBUG(DEBUG_IPC,2, (LOG_INFO,
"main passed packet readup %d", (int)data->got_bytes));
if(data->got_bytes < sizeof(data->total_bytes))
{
if ((len = read(handler->fd,
(char*)&data->total_bytes+data->got_bytes,
sizeof(data->total_bytes)-data->got_bytes)) == -1) {
log_msg(LOG_ERR, "handle_child_command: read: %s",
strerror(errno));
return;
}
if(len == 0) {
/* EOF */
data->forward_mode = 0;
return;
}
data->got_bytes += len;
if(data->got_bytes < sizeof(data->total_bytes))
return;
data->total_bytes = ntohs(data->total_bytes);
buffer_clear(data->packet);
if(data->total_bytes > buffer_capacity(data->packet)) {
log_msg(LOG_ERR, "internal error: ipc too large");
exit(1);
}
return;
}
/* read the packet */
if(data->got_bytes-sizeof(data->total_bytes) < data->total_bytes) {
if((len = read(handler->fd, buffer_current(data->packet),
data->total_bytes - (data->got_bytes-sizeof(data->total_bytes))
)) == -1 ) {
log_msg(LOG_ERR, "handle_child_command: read: %s",
strerror(errno));
return;
}
if(len == 0) {
/* EOF */
data->forward_mode = 0;
return;
}
data->got_bytes += len;
buffer_skip(data->packet, len);
/* read rest later */
return;
}
/* read the acl number */
got_acl = data->got_bytes - sizeof(data->total_bytes) - data->total_bytes;
if((len = read(handler->fd, (char*)&data->acl_num+got_acl,
sizeof(data->acl_num)-got_acl)) == -1 ) {
log_msg(LOG_ERR, "handle_child_command: read: %s",
strerror(errno));
return;
}
if(len == 0) {
/* EOF */
data->forward_mode = 0;
return;
}
got_acl += len;
data->got_bytes += len;
if(got_acl >= (int)sizeof(data->acl_num)) {
uint16_t len = htons(data->total_bytes);
DEBUG(DEBUG_IPC,2, (LOG_INFO,
"main fwd passed packet write %d", (int)data->got_bytes));
#ifndef NDEBUG
if(nsd_debug_level >= 2)
debug_print_fwd_name(len, data->packet, data->acl_num);
#endif
data->forward_mode = 0;
mode = NSD_PASS_TO_XFRD;
if(!write_socket(*data->xfrd_sock, &mode, sizeof(mode)) ||
!write_socket(*data->xfrd_sock, &len, sizeof(len)) ||
!write_socket(*data->xfrd_sock, buffer_begin(data->packet),
data->total_bytes) ||
!write_socket(*data->xfrd_sock, &data->acl_num,
sizeof(data->acl_num))) {
log_msg(LOG_ERR, "error in ipc fwd main2xfrd: %s",
strerror(errno));
}
}
return;
}
/* read command from ipc */
if ((len = read(handler->fd, &mode, sizeof(mode))) == -1) {
log_msg(LOG_ERR, "handle_child_command: read: %s",
strerror(errno));
return;
}
if (len == 0)
{
size_t i;
if(handler->fd > 0) close(handler->fd);
for(i=0; i<data->nsd->child_count; ++i)
if(data->nsd->children[i].child_fd == handler->fd) {
data->nsd->children[i].child_fd = -1;
data->nsd->children[i].has_exited = 1;
DEBUG(DEBUG_IPC,1, (LOG_INFO,
"server %d closed cmd channel",
(int) data->nsd->children[i].pid));
}
handler->fd = -1;
parent_check_all_children_exited(data->nsd);
return;
}
switch (mode) {
case NSD_QUIT:
data->nsd->mode = mode;
break;
case NSD_STATS:
data->nsd->signal_hint_stats = 1;
break;
case NSD_REAP_CHILDREN:
data->nsd->signal_hint_child = 1;
break;
case NSD_PASS_TO_XFRD:
/* set mode for handle_child_command; echo to xfrd. */
data->forward_mode = 1;
data->got_bytes = 0;
data->total_bytes = 0;
break;
default:
log_msg(LOG_ERR, "handle_child_command: bad mode %d",
(int) mode);
break;
}
}
void
parent_check_all_children_exited(struct nsd* nsd)
{
size_t i;
for(i=0; i < nsd->child_count; i++) {
if(!nsd->children[i].need_to_exit)
return;
if(!nsd->children[i].has_exited)
return;
}
nsd->mode = NSD_QUIT_SYNC;
DEBUG(DEBUG_IPC,2, (LOG_INFO, "main: all children exited. quit sync."));
}
void
parent_handle_reload_command(netio_type *ATTR_UNUSED(netio),
netio_handler_type *handler,
netio_event_types_type event_types)
{
sig_atomic_t mode;
int len;
size_t i;
struct nsd *nsd = (struct nsd*) handler->user_data;
if (!(event_types & NETIO_EVENT_READ)) {
return;
}
/* read command from ipc */
if ((len = read(handler->fd, &mode, sizeof(mode))) == -1) {
log_msg(LOG_ERR, "handle_reload_command: read: %s",
strerror(errno));
return;
}
if (len == 0)
{
if(handler->fd > 0) {
close(handler->fd);
handler->fd = -1;
}
log_msg(LOG_ERR, "handle_reload_cmd: reload closed cmd channel");
return;
}
switch (mode) {
case NSD_QUIT_SYNC:
/* set all children to exit, only then notify xfrd. */
/* so that buffered packets to pass to xfrd can arrive. */
for(i=0; i < nsd->child_count; i++) {
nsd->children[i].need_to_exit = 1;
if(nsd->children[i].pid > 0 &&
nsd->children[i].child_fd > 0) {
nsd->children[i].need_to_send_QUIT = 1;
nsd->children[i].handler->event_types
|= NETIO_EVENT_WRITE;
} else {
if(nsd->children[i].child_fd == -1)
nsd->children[i].has_exited = 1;
}
}
parent_check_all_children_exited(nsd);
break;
default:
log_msg(LOG_ERR, "handle_reload_command: bad mode %d",
(int) mode);
break;
}
}
static void
xfrd_write_expire_notification(buffer_type* buffer, xfrd_zone_t* zone)
{
sig_atomic_t cmd = NSD_ZONE_STATE;
uint8_t ok = 1;
uint16_t sz = dname_total_size(zone->apex) + 1;
sz = htons(sz);
if(zone->state == xfrd_zone_expired)
ok = 0;
DEBUG(DEBUG_IPC,1, (LOG_INFO,
"xfrd encoding ipc zone state msg for zone %s state %d.",
zone->apex_str, (int)zone->state));
buffer_clear(buffer);
buffer_write(buffer, &cmd, sizeof(cmd));
buffer_write(buffer, &sz, sizeof(sz));
buffer_write(buffer, &ok, sizeof(ok));
buffer_write(buffer, zone->apex, dname_total_size(zone->apex));
buffer_flip(buffer);
}
static void
xfrd_send_reload_req(xfrd_state_t* xfrd)
{
sig_atomic_t req = NSD_RELOAD;
/* ask server_main for a reload */
if(write(xfrd->ipc_handler.fd, &req, sizeof(req)) == -1) {
if(errno == EAGAIN || errno == EINTR)
return; /* try again later */
log_msg(LOG_ERR, "xfrd: problems sending reload command: %s",
strerror(errno));
return;
}
DEBUG(DEBUG_IPC,1, (LOG_INFO, "xfrd: asked nsd to reload new updates"));
xfrd_prepare_zones_for_reload();
xfrd->reload_cmd_last_sent = xfrd_time();
xfrd->need_to_send_reload = 0;
xfrd->can_send_reload = 0;
}
static void
xfrd_send_quit_req(xfrd_state_t* xfrd)
{
sig_atomic_t cmd = NSD_QUIT;
xfrd->ipc_send_blocked = 1;
xfrd->ipc_handler.event_types &= (~NETIO_EVENT_WRITE);
xfrd->sending_zone_state = 0;
DEBUG(DEBUG_IPC,1, (LOG_INFO, "xfrd: ipc send ackreload(quit)"));
if(write_socket(xfrd->ipc_handler.fd, &cmd, sizeof(cmd)) == -1) {
log_msg(LOG_ERR, "xfrd: error writing ack to main: %s",
strerror(errno));
}
xfrd->need_to_send_quit = 0;
}
static void
xfrd_handle_ipc_SOAINFO(xfrd_state_t* xfrd, buffer_type* packet)
{
xfrd_soa_t soa;
xfrd_soa_t* soa_ptr = &soa;
xfrd_zone_t* zone;
/* dname is sent in memory format */
const dname_type* dname = (const dname_type*)buffer_begin(packet);
/* find zone and decode SOA */
zone = (xfrd_zone_t*)rbtree_search(xfrd->zones, dname);
buffer_skip(packet, dname_total_size(dname));
if(!buffer_available(packet, sizeof(uint32_t)*6 + sizeof(uint8_t)*2)) {
/* NSD has zone without any info */
DEBUG(DEBUG_IPC,1, (LOG_INFO, "SOAINFO for %s lost zone",
dname_to_string(dname,0)));
soa_ptr = NULL;
} else {
/* read soa info */
memset(&soa, 0, sizeof(soa));
/* left out type, klass, count for speed */
soa.type = htons(TYPE_SOA);
soa.klass = htons(CLASS_IN);
soa.ttl = htonl(buffer_read_u32(packet));
soa.rdata_count = htons(7);
soa.prim_ns[0] = buffer_read_u8(packet);
if(!buffer_available(packet, soa.prim_ns[0]))
return;
buffer_read(packet, soa.prim_ns+1, soa.prim_ns[0]);
soa.email[0] = buffer_read_u8(packet);
if(!buffer_available(packet, soa.email[0]))
return;
buffer_read(packet, soa.email+1, soa.email[0]);
soa.serial = htonl(buffer_read_u32(packet));
soa.refresh = htonl(buffer_read_u32(packet));
soa.retry = htonl(buffer_read_u32(packet));
soa.expire = htonl(buffer_read_u32(packet));
soa.minimum = htonl(buffer_read_u32(packet));
DEBUG(DEBUG_IPC,1, (LOG_INFO, "SOAINFO for %s %u",
dname_to_string(dname,0), ntohl(soa.serial)));
}
if(!zone) {
DEBUG(DEBUG_IPC,1, (LOG_INFO, "xfrd: zone %s master zone updated",
dname_to_string(dname,0)));
notify_handle_master_zone_soainfo(xfrd->notify_zones,
dname, soa_ptr);
return;
}
xfrd_handle_incoming_soa(zone, soa_ptr, xfrd_time());
}
void
xfrd_handle_ipc(netio_type* ATTR_UNUSED(netio),
netio_handler_type *handler,
netio_event_types_type event_types)
{
xfrd_state_t* xfrd = (xfrd_state_t*)handler->user_data;
if ((event_types & NETIO_EVENT_READ))
{
/* first attempt to read as a signal from main
* could block further send operations */
xfrd_handle_ipc_read(handler, xfrd);
}
if ((event_types & NETIO_EVENT_WRITE))
{
if(xfrd->ipc_send_blocked) { /* wait for SOA_END */
handler->event_types = NETIO_EVENT_READ;
return;
}
/* if necessary prepare a packet */
if(!(xfrd->can_send_reload && xfrd->need_to_send_reload) &&
!xfrd->need_to_send_quit &&
!xfrd->sending_zone_state &&
xfrd->dirty_zones->num > 0) {
xfrd_zone_t* zone = (xfrd_zone_t*)stack_pop(xfrd->dirty_zones);
assert(zone);
zone->dirty = 0;
xfrd->sending_zone_state = 1;
xfrd_write_expire_notification(xfrd->ipc_conn_write->packet, zone);
xfrd->ipc_conn_write->msglen = buffer_limit(xfrd->ipc_conn_write->packet);
/* skip length bytes; they are encoded in the packet, after cmd */
xfrd->ipc_conn_write->total_bytes = sizeof(uint16_t);
}
/* write a bit */
if(xfrd->sending_zone_state) {
/* call conn_write */
int ret = conn_write(xfrd->ipc_conn_write);
if(ret == -1) {
log_msg(LOG_ERR, "xfrd: error in write ipc: %s", strerror(errno));
xfrd->sending_zone_state = 0;
}
else if(ret == 1) { /* done */
xfrd->sending_zone_state = 0;
}
} else if(xfrd->need_to_send_quit) {
xfrd_send_quit_req(xfrd);
} else if(xfrd->can_send_reload && xfrd->need_to_send_reload) {
xfrd_send_reload_req(xfrd);
}
if(!(xfrd->can_send_reload && xfrd->need_to_send_reload) &&
!xfrd->need_to_send_quit &&
!xfrd->sending_zone_state &&
xfrd->dirty_zones->num == 0) {
handler->event_types = NETIO_EVENT_READ; /* disable writing for now */
}
}
}
static void
xfrd_handle_ipc_read(netio_handler_type *handler, xfrd_state_t* xfrd)
{
sig_atomic_t cmd;
int len;
if(xfrd->ipc_conn->is_reading==2) {
buffer_type* tmp = xfrd->ipc_pass;
uint32_t acl_num;
/* read acl_num */
int ret = conn_read(xfrd->ipc_conn);
if(ret == -1) {
log_msg(LOG_ERR, "xfrd: error in read ipc: %s", strerror(errno));
xfrd->ipc_conn->is_reading = 0;
return;
}
if(ret == 0)
return;
buffer_flip(xfrd->ipc_conn->packet);
xfrd->ipc_pass = xfrd->ipc_conn->packet;
xfrd->ipc_conn->packet = tmp;
xfrd->ipc_conn->is_reading = 0;
acl_num = buffer_read_u32(xfrd->ipc_pass);
xfrd_handle_passed_packet(xfrd->ipc_conn->packet, acl_num);
return;
}
if(xfrd->ipc_conn->is_reading) {
/* reading an IPC message */
int ret = conn_read(xfrd->ipc_conn);
if(ret == -1) {
log_msg(LOG_ERR, "xfrd: error in read ipc: %s", strerror(errno));
xfrd->ipc_conn->is_reading = 0;
return;
}
if(ret == 0)
return;
buffer_flip(xfrd->ipc_conn->packet);
if(xfrd->ipc_is_soa) {
xfrd->ipc_conn->is_reading = 0;
xfrd_handle_ipc_SOAINFO(xfrd, xfrd->ipc_conn->packet);
} else {
/* use ipc_conn to read remaining data as well */
buffer_type* tmp = xfrd->ipc_pass;
xfrd->ipc_conn->is_reading=2;
xfrd->ipc_pass = xfrd->ipc_conn->packet;
xfrd->ipc_conn->packet = tmp;
xfrd->ipc_conn->total_bytes = sizeof(xfrd->ipc_conn->msglen);
xfrd->ipc_conn->msglen = sizeof(uint32_t);
buffer_clear(xfrd->ipc_conn->packet);
buffer_set_limit(xfrd->ipc_conn->packet, xfrd->ipc_conn->msglen);
}
return;
}
if((len = read(handler->fd, &cmd, sizeof(cmd))) == -1) {
log_msg(LOG_ERR, "xfrd_handle_ipc: read: %s",
strerror(errno));
return;
}
if(len == 0)
{
/* parent closed the connection. Quit */
DEBUG(DEBUG_IPC,1, (LOG_INFO, "xfrd: main closed connection."));
xfrd->shutdown = 1;
return;
}
switch(cmd) {
case NSD_QUIT:
case NSD_SHUTDOWN:
DEBUG(DEBUG_IPC,1, (LOG_INFO, "xfrd: main send shutdown cmd."));
xfrd->shutdown = 1;
break;
case NSD_SOA_BEGIN:
DEBUG(DEBUG_IPC,1, (LOG_INFO, "xfrd: ipc recv SOA_BEGIN"));
/* reload starts sending SOA INFOs; don't block */
xfrd->parent_soa_info_pass = 1;
/* reset the nonblocking ipc write;
the new parent does not want half a packet */
xfrd->sending_zone_state = 0;
break;
case NSD_SOA_INFO:
DEBUG(DEBUG_IPC,1, (LOG_INFO, "xfrd: ipc recv SOA_INFO"));
assert(xfrd->parent_soa_info_pass);
xfrd->ipc_is_soa = 1;
xfrd->ipc_conn->is_reading = 1;
break;
case NSD_SOA_END:
/* reload has finished */
DEBUG(DEBUG_IPC,1, (LOG_INFO, "xfrd: ipc recv SOA_END"));
xfrd->can_send_reload = 1;
xfrd->parent_soa_info_pass = 0;
xfrd->ipc_send_blocked = 0;
handler->event_types |= NETIO_EVENT_WRITE;
xfrd_reopen_logfile();
xfrd_check_failed_updates();
xfrd_send_expy_all_zones();
break;
case NSD_PASS_TO_XFRD:
DEBUG(DEBUG_IPC,1, (LOG_INFO, "xfrd: ipc recv PASS_TO_XFRD"));
xfrd->ipc_is_soa = 0;
xfrd->ipc_conn->is_reading = 1;
break;
case NSD_RELOAD:
/* main tells us that reload is done, stop ipc send to main */
DEBUG(DEBUG_IPC,1, (LOG_INFO, "xfrd: ipc recv RELOAD"));
handler->event_types |= NETIO_EVENT_WRITE;
xfrd->need_to_send_quit = 1;
break;
default:
log_msg(LOG_ERR, "xfrd_handle_ipc: bad mode %d (%d)", (int)cmd,
ntohl(cmd));
break;
}
if(xfrd->ipc_conn->is_reading) {
/* setup read of info */
xfrd->ipc_conn->total_bytes = 0;
xfrd->ipc_conn->msglen = 0;
buffer_clear(xfrd->ipc_conn->packet);
}
}
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