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server.c
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server.c
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/*
* server.c -- nsd(8) network input/output
*
* Copyright (c) 2001-2006, NLnet Labs. All rights reserved.
*
* See LICENSE for the license.
*
*/
#include "config.h"
#include <sys/types.h>
#include <sys/param.h>
#include <limits.h>
#include <sys/socket.h>
#include <sys/uio.h>
#include <sys/wait.h>
#include <netinet/in.h>
#ifdef USE_TCP_FASTOPEN
#include <netinet/tcp.h>
#endif
#include <arpa/inet.h>
#include <assert.h>
#include <ctype.h>
#include <errno.h>
#include <fcntl.h>
#include <stddef.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <unistd.h>
#include <signal.h>
#include <netdb.h>
#include <poll.h>
#ifdef HAVE_SYS_RANDOM_H
#include <sys/random.h>
#endif
#ifndef SHUT_WR
#define SHUT_WR 1
#endif
#ifdef HAVE_MMAP
#include <sys/mman.h>
#endif /* HAVE_MMAP */
#ifdef HAVE_OPENSSL_RAND_H
#include <openssl/rand.h>
#endif
#ifdef HAVE_OPENSSL_SSL_H
#include <openssl/ssl.h>
#endif
#ifdef HAVE_OPENSSL_ERR_H
#include <openssl/err.h>
#endif
#ifdef HAVE_OPENSSL_OCSP_H
#include <openssl/ocsp.h>
#endif
#ifndef USE_MINI_EVENT
# ifdef HAVE_EVENT_H
# include <event.h>
# else
# include <event2/event.h>
# include "event2/event_struct.h"
# include "event2/event_compat.h"
# endif
#else
# include "mini_event.h"
#endif
#include "axfr.h"
#include "namedb.h"
#include "netio.h"
#include "xfrd.h"
#include "xfrd-tcp.h"
#include "xfrd-disk.h"
#include "difffile.h"
#include "nsec3.h"
#include "ipc.h"
#include "udb.h"
#include "remote.h"
#include "lookup3.h"
#include "rrl.h"
#include "ixfr.h"
#ifdef USE_DNSTAP
#include "dnstap/dnstap_collector.h"
#endif
#include "verify.h"
#include "util/proxy_protocol.h"
#define RELOAD_SYNC_TIMEOUT 25 /* seconds */
#ifdef USE_DNSTAP
/*
* log_addr() - the function to print sockaddr_in/sockaddr_in6 structures content
* just like its done in Unbound via the same log_addr(VERB_LEVEL, const char*, sockaddr_storage*)
*/
static void
log_addr(const char* descr,
#ifdef INET6
struct sockaddr_storage* addr
#else
struct sockaddr_in* addr
#endif
)
{
char str_buf[64];
if(verbosity < 6)
return;
if(
#ifdef INET6
addr->ss_family == AF_INET
#else
addr->sin_family == AF_INET
#endif
) {
struct sockaddr_in* s = (struct sockaddr_in*)addr;
inet_ntop(AF_INET, &s->sin_addr.s_addr, str_buf, sizeof(str_buf));
VERBOSITY(6, (LOG_INFO, "%s: address is: %s, port is: %d", descr, str_buf, ntohs(s->sin_port)));
#ifdef INET6
} else {
struct sockaddr_in6* s6 = (struct sockaddr_in6*)addr;
inet_ntop(AF_INET6, &s6->sin6_addr.s6_addr, str_buf, sizeof(str_buf));
VERBOSITY(6, (LOG_INFO, "%s: address is: %s, port is: %d", descr, str_buf, ntohs(s6->sin6_port)));
#endif
}
}
#endif /* USE_DNSTAP */
#ifdef USE_TCP_FASTOPEN
#define TCP_FASTOPEN_FILE "/proc/sys/net/ipv4/tcp_fastopen"
#define TCP_FASTOPEN_SERVER_BIT_MASK 0x2
#endif
/* header state for the PROXYv2 header (for TCP) */
enum pp2_header_state {
/* no header encounter yet */
pp2_header_none = 0,
/* read the static part of the header */
pp2_header_init,
/* read the full header */
pp2_header_done
};
/*
* Data for the UDP handlers.
*/
struct udp_handler_data
{
struct nsd *nsd;
struct nsd_socket *socket;
struct event event;
/* if set, PROXYv2 is expected on this connection */
int pp2_enabled;
};
struct tcp_accept_handler_data {
struct nsd *nsd;
struct nsd_socket *socket;
int event_added;
struct event event;
#ifdef HAVE_SSL
/* handler accepts TLS connections on the dedicated port */
int tls_accept;
int tls_auth_accept;
#endif
/* if set, PROXYv2 is expected on this connection */
int pp2_enabled;
};
/*
* These globals are used to enable the TCP accept handlers
* when the number of TCP connection drops below the maximum
* number of TCP connections.
*/
static size_t tcp_accept_handler_count;
static struct tcp_accept_handler_data *tcp_accept_handlers;
static struct event slowaccept_event;
static int slowaccept;
#ifdef HAVE_SSL
static unsigned char *ocspdata = NULL;
static long ocspdata_len = 0;
#endif
#ifdef NONBLOCKING_IS_BROKEN
/* Define NUM_RECV_PER_SELECT to 1 (one) to avoid opportunistically trying to
read multiple times from a socket when reported ready by select. */
# define NUM_RECV_PER_SELECT (1)
#else /* !NONBLOCKING_IS_BROKEN */
# define NUM_RECV_PER_SELECT (100)
#endif /* NONBLOCKING_IS_BROKEN */
#ifndef HAVE_MMSGHDR
struct mmsghdr {
struct msghdr msg_hdr;
unsigned int msg_len;
};
#endif
static struct mmsghdr msgs[NUM_RECV_PER_SELECT];
static struct iovec iovecs[NUM_RECV_PER_SELECT];
static struct query *queries[NUM_RECV_PER_SELECT];
/*
* Data for the TCP connection handlers.
*
* The TCP handlers use non-blocking I/O. This is necessary to avoid
* blocking the entire server on a slow TCP connection, but does make
* reading from and writing to the socket more complicated.
*
* Basically, whenever a read/write would block (indicated by the
* EAGAIN errno variable) we remember the position we were reading
* from/writing to and return from the TCP reading/writing event
* handler. When the socket becomes readable/writable again we
* continue from the same position.
*/
struct tcp_handler_data
{
/*
* The region used to allocate all TCP connection related
* data, including this structure. This region is destroyed
* when the connection is closed.
*/
region_type* region;
/*
* The global nsd structure.
*/
struct nsd* nsd;
/*
* The current query data for this TCP connection.
*/
query_type* query;
/*
* The query_state is used to remember if we are performing an
* AXFR, if we're done processing, or if we should discard the
* query and connection.
*/
query_state_type query_state;
/*
* The event for the file descriptor and tcp timeout
*/
struct event event;
/*
* The bytes_transmitted field is used to remember the number
* of bytes transmitted when receiving or sending a DNS
* packet. The count includes the two additional bytes used
* to specify the packet length on a TCP connection.
*/
size_t bytes_transmitted;
/* If the query is restarted and needs a reset */
int query_needs_reset;
/*
* The number of queries handled by this specific TCP connection.
*/
int query_count;
/*
* The timeout in msec for this tcp connection
*/
int tcp_timeout;
/*
* If the connection is allowed to have further queries on it.
*/
int tcp_no_more_queries;
#ifdef USE_DNSTAP
/* the socket of the accept socket to find proper service (local) address the socket is bound to. */
struct nsd_socket *socket;
#endif /* USE_DNSTAP */
/* if set, PROXYv2 is expected on this connection */
int pp2_enabled;
/* header state for the PROXYv2 header (for TCP) */
enum pp2_header_state pp2_header_state;
#ifdef HAVE_SSL
/*
* TLS objects.
*/
SSL* tls;
SSL* tls_auth;
/*
* TLS handshake state.
*/
enum { tls_hs_none, tls_hs_read, tls_hs_write,
tls_hs_read_event, tls_hs_write_event } shake_state;
#endif
/* list of connections, for service of remaining tcp channels */
struct tcp_handler_data *prev, *next;
};
/* global that is the list of active tcp channels */
static struct tcp_handler_data *tcp_active_list = NULL;
/*
* Handle incoming queries on the UDP server sockets.
*/
static void handle_udp(int fd, short event, void* arg);
/*
* Handle incoming connections on the TCP sockets. These handlers
* usually wait for the NETIO_EVENT_READ event (indicating an incoming
* connection) but are disabled when the number of current TCP
* connections is equal to the maximum number of TCP connections.
* Disabling is done by changing the handler to wait for the
* NETIO_EVENT_NONE type. This is done using the function
* configure_tcp_accept_handlers.
*/
static void handle_tcp_accept(int fd, short event, void* arg);
/*
* Handle incoming queries on a TCP connection. The TCP connections
* are configured to be non-blocking and the handler may be called
* multiple times before a complete query is received.
*/
static void handle_tcp_reading(int fd, short event, void* arg);
/*
* Handle outgoing responses on a TCP connection. The TCP connections
* are configured to be non-blocking and the handler may be called
* multiple times before a complete response is sent.
*/
static void handle_tcp_writing(int fd, short event, void* arg);
#ifdef HAVE_SSL
/* Create SSL object and associate fd */
static SSL* incoming_ssl_fd(SSL_CTX* ctx, int fd);
/*
* Handle TLS handshake. May be called multiple times if incomplete.
*/
static int tls_handshake(struct tcp_handler_data* data, int fd, int writing);
/*
* Handle incoming queries on a TLS over TCP connection. The TLS
* connections are configured to be non-blocking and the handler may
* be called multiple times before a complete query is received.
*/
static void handle_tls_reading(int fd, short event, void* arg);
/*
* Handle outgoing responses on a TLS over TCP connection. The TLS
* connections are configured to be non-blocking and the handler may
* be called multiple times before a complete response is sent.
*/
static void handle_tls_writing(int fd, short event, void* arg);
#endif
/*
* Send all children the quit nonblocking, then close pipe.
*/
static void send_children_quit(struct nsd* nsd);
/* same, for shutdown time, waits for child to exit to avoid restart issues */
static void send_children_quit_and_wait(struct nsd* nsd);
/* set childrens flags to send NSD_STATS to them */
#ifdef BIND8_STATS
static void set_children_stats(struct nsd* nsd);
#endif /* BIND8_STATS */
/*
* Change the event types the HANDLERS are interested in to EVENT_TYPES.
*/
static void configure_handler_event_types(short event_types);
static uint16_t *compressed_dname_offsets = 0;
static uint32_t compression_table_capacity = 0;
static uint32_t compression_table_size = 0;
static domain_type* compressed_dnames[MAXRRSPP];
#ifdef USE_TCP_FASTOPEN
/* Checks to see if the kernel value must be manually changed in order for
TCP Fast Open to support server mode */
static void report_tcp_fastopen_config() {
int tcp_fastopen_fp;
uint8_t tcp_fastopen_value;
if ( (tcp_fastopen_fp = open(TCP_FASTOPEN_FILE, O_RDONLY)) == -1 ) {
log_msg(LOG_INFO,"Error opening " TCP_FASTOPEN_FILE ": %s\n", strerror(errno));
}
if (read(tcp_fastopen_fp, &tcp_fastopen_value, 1) == -1 ) {
log_msg(LOG_INFO,"Error reading " TCP_FASTOPEN_FILE ": %s\n", strerror(errno));
close(tcp_fastopen_fp);
}
if (!(tcp_fastopen_value & TCP_FASTOPEN_SERVER_BIT_MASK)) {
log_msg(LOG_WARNING, "Error: TCP Fast Open support is available and configured in NSD by default.\n");
log_msg(LOG_WARNING, "However the kernel parameters are not configured to support TCP_FASTOPEN in server mode.\n");
log_msg(LOG_WARNING, "To enable TFO use the command:");
log_msg(LOG_WARNING, " 'sudo sysctl -w net.ipv4.tcp_fastopen=2' for pure server mode or\n");
log_msg(LOG_WARNING, " 'sudo sysctl -w net.ipv4.tcp_fastopen=3' for both client and server mode\n");
log_msg(LOG_WARNING, "NSD will not have TCP Fast Open available until this change is made.\n");
close(tcp_fastopen_fp);
}
close(tcp_fastopen_fp);
}
#endif
/*
* Remove the specified pid from the list of child pids. Returns -1 if
* the pid is not in the list, child_num otherwise. The field is set to 0.
*/
static int
delete_child_pid(struct nsd *nsd, pid_t pid)
{
size_t i;
for (i = 0; i < nsd->child_count; ++i) {
if (nsd->children[i].pid == pid) {
nsd->children[i].pid = 0;
if(!nsd->children[i].need_to_exit) {
if(nsd->children[i].child_fd != -1)
close(nsd->children[i].child_fd);
nsd->children[i].child_fd = -1;
if(nsd->children[i].handler)
nsd->children[i].handler->fd = -1;
}
return i;
}
}
return -1;
}
/*
* Restart child servers if necessary.
*/
static int
restart_child_servers(struct nsd *nsd, region_type* region, netio_type* netio,
int* xfrd_sock_p)
{
struct main_ipc_handler_data *ipc_data;
size_t i;
int sv[2];
/* Fork the child processes... */
for (i = 0; i < nsd->child_count; ++i) {
if (nsd->children[i].pid <= 0) {
if (nsd->children[i].child_fd != -1)
close(nsd->children[i].child_fd);
if (socketpair(AF_UNIX, SOCK_STREAM, 0, sv) == -1) {
log_msg(LOG_ERR, "socketpair: %s",
strerror(errno));
return -1;
}
nsd->children[i].child_fd = sv[0];
nsd->children[i].parent_fd = sv[1];
nsd->children[i].pid = fork();
switch (nsd->children[i].pid) {
default: /* SERVER MAIN */
close(nsd->children[i].parent_fd);
nsd->children[i].parent_fd = -1;
if (fcntl(nsd->children[i].child_fd, F_SETFL, O_NONBLOCK) == -1) {
log_msg(LOG_ERR, "cannot fcntl pipe: %s", strerror(errno));
}
if(!nsd->children[i].handler)
{
ipc_data = (struct main_ipc_handler_data*) region_alloc(
region, sizeof(struct main_ipc_handler_data));
ipc_data->nsd = nsd;
ipc_data->child = &nsd->children[i];
ipc_data->child_num = i;
ipc_data->xfrd_sock = xfrd_sock_p;
ipc_data->packet = buffer_create(region, QIOBUFSZ);
ipc_data->forward_mode = 0;
ipc_data->got_bytes = 0;
ipc_data->total_bytes = 0;
ipc_data->acl_num = 0;
nsd->children[i].handler = (struct netio_handler*) region_alloc(
region, sizeof(struct netio_handler));
nsd->children[i].handler->fd = nsd->children[i].child_fd;
nsd->children[i].handler->timeout = NULL;
nsd->children[i].handler->user_data = ipc_data;
nsd->children[i].handler->event_types = NETIO_EVENT_READ;
nsd->children[i].handler->event_handler = parent_handle_child_command;
netio_add_handler(netio, nsd->children[i].handler);
}
/* clear any ongoing ipc */
ipc_data = (struct main_ipc_handler_data*)
nsd->children[i].handler->user_data;
ipc_data->forward_mode = 0;
/* restart - update fd */
nsd->children[i].handler->fd = nsd->children[i].child_fd;
break;
case 0: /* CHILD */
#ifdef MEMCLEAN /* OS collects memory pages */
region_destroy(region);
#endif
nsd->pid = 0;
nsd->child_count = 0;
nsd->server_kind = nsd->children[i].kind;
nsd->this_child = &nsd->children[i];
nsd->this_child->child_num = i;
/* remove signal flags inherited from parent
the parent will handle them. */
nsd->signal_hint_reload_hup = 0;
nsd->signal_hint_reload = 0;
nsd->signal_hint_child = 0;
nsd->signal_hint_quit = 0;
nsd->signal_hint_shutdown = 0;
nsd->signal_hint_stats = 0;
nsd->signal_hint_statsusr = 0;
close(*xfrd_sock_p);
close(nsd->this_child->child_fd);
nsd->this_child->child_fd = -1;
if (fcntl(nsd->this_child->parent_fd, F_SETFL, O_NONBLOCK) == -1) {
log_msg(LOG_ERR, "cannot fcntl pipe: %s", strerror(errno));
}
server_child(nsd);
/* NOTREACH */
exit(0);
case -1:
log_msg(LOG_ERR, "fork failed: %s",
strerror(errno));
return -1;
}
}
}
return 0;
}
#ifdef BIND8_STATS
static void set_bind8_alarm(struct nsd* nsd)
{
/* resync so that the next alarm is on the next whole minute */
if(nsd->st_period > 0) /* % by 0 gives divbyzero error */
alarm(nsd->st_period - (time(NULL) % nsd->st_period));
}
#endif
/* set zone stat ids for zones initially read in */
static void
zonestatid_tree_set(struct nsd* nsd)
{
struct radnode* n;
for(n=radix_first(nsd->db->zonetree); n; n=radix_next(n)) {
zone_type* zone = (zone_type*)n->elem;
zone->zonestatid = getzonestatid(nsd->options, zone->opts);
}
}
#ifdef USE_ZONE_STATS
void
server_zonestat_alloc(struct nsd* nsd)
{
size_t num = (nsd->options->zonestatnames->count==0?1:
nsd->options->zonestatnames->count);
size_t sz = sizeof(struct nsdst)*num;
char tmpfile[256];
uint8_t z = 0;
/* file names */
nsd->zonestatfname[0] = 0;
nsd->zonestatfname[1] = 0;
snprintf(tmpfile, sizeof(tmpfile), "%snsd-xfr-%d/nsd.%u.zstat.0",
nsd->options->xfrdir, (int)getpid(), (unsigned)getpid());
nsd->zonestatfname[0] = region_strdup(nsd->region, tmpfile);
snprintf(tmpfile, sizeof(tmpfile), "%snsd-xfr-%d/nsd.%u.zstat.1",
nsd->options->xfrdir, (int)getpid(), (unsigned)getpid());
nsd->zonestatfname[1] = region_strdup(nsd->region, tmpfile);
/* file descriptors */
nsd->zonestatfd[0] = open(nsd->zonestatfname[0], O_CREAT|O_RDWR, 0600);
if(nsd->zonestatfd[0] == -1) {
log_msg(LOG_ERR, "cannot create %s: %s", nsd->zonestatfname[0],
strerror(errno));
exit(1);
}
nsd->zonestatfd[1] = open(nsd->zonestatfname[1], O_CREAT|O_RDWR, 0600);
if(nsd->zonestatfd[0] == -1) {
log_msg(LOG_ERR, "cannot create %s: %s", nsd->zonestatfname[1],
strerror(errno));
close(nsd->zonestatfd[0]);
unlink(nsd->zonestatfname[0]);
exit(1);
}
#ifdef HAVE_MMAP
if(lseek(nsd->zonestatfd[0], (off_t)sz-1, SEEK_SET) == -1) {
log_msg(LOG_ERR, "lseek %s: %s", nsd->zonestatfname[0],
strerror(errno));
exit(1);
}
if(write(nsd->zonestatfd[0], &z, 1) == -1) {
log_msg(LOG_ERR, "cannot extend stat file %s (%s)",
nsd->zonestatfname[0], strerror(errno));
exit(1);
}
if(lseek(nsd->zonestatfd[1], (off_t)sz-1, SEEK_SET) == -1) {
log_msg(LOG_ERR, "lseek %s: %s", nsd->zonestatfname[1],
strerror(errno));
exit(1);
}
if(write(nsd->zonestatfd[1], &z, 1) == -1) {
log_msg(LOG_ERR, "cannot extend stat file %s (%s)",
nsd->zonestatfname[1], strerror(errno));
exit(1);
}
nsd->zonestat[0] = (struct nsdst*)mmap(NULL, sz, PROT_READ|PROT_WRITE,
MAP_SHARED, nsd->zonestatfd[0], 0);
if(nsd->zonestat[0] == MAP_FAILED) {
log_msg(LOG_ERR, "mmap failed: %s", strerror(errno));
unlink(nsd->zonestatfname[0]);
unlink(nsd->zonestatfname[1]);
exit(1);
}
nsd->zonestat[1] = (struct nsdst*)mmap(NULL, sz, PROT_READ|PROT_WRITE,
MAP_SHARED, nsd->zonestatfd[1], 0);
if(nsd->zonestat[1] == MAP_FAILED) {
log_msg(LOG_ERR, "mmap failed: %s", strerror(errno));
unlink(nsd->zonestatfname[0]);
unlink(nsd->zonestatfname[1]);
exit(1);
}
memset(nsd->zonestat[0], 0, sz);
memset(nsd->zonestat[1], 0, sz);
nsd->zonestatsize[0] = num;
nsd->zonestatsize[1] = num;
nsd->zonestatdesired = num;
nsd->zonestatsizenow = num;
nsd->zonestatnow = nsd->zonestat[0];
#endif /* HAVE_MMAP */
}
void
zonestat_remap(struct nsd* nsd, int idx, size_t sz)
{
#ifdef HAVE_MMAP
#ifdef MREMAP_MAYMOVE
nsd->zonestat[idx] = (struct nsdst*)mremap(nsd->zonestat[idx],
sizeof(struct nsdst)*nsd->zonestatsize[idx], sz,
MREMAP_MAYMOVE);
if(nsd->zonestat[idx] == MAP_FAILED) {
log_msg(LOG_ERR, "mremap failed: %s", strerror(errno));
exit(1);
}
#else /* !HAVE MREMAP */
if(msync(nsd->zonestat[idx],
sizeof(struct nsdst)*nsd->zonestatsize[idx], MS_ASYNC) != 0)
log_msg(LOG_ERR, "msync failed: %s", strerror(errno));
if(munmap(nsd->zonestat[idx],
sizeof(struct nsdst)*nsd->zonestatsize[idx]) != 0)
log_msg(LOG_ERR, "munmap failed: %s", strerror(errno));
nsd->zonestat[idx] = (struct nsdst*)mmap(NULL, sz,
PROT_READ|PROT_WRITE, MAP_SHARED, nsd->zonestatfd[idx], 0);
if(nsd->zonestat[idx] == MAP_FAILED) {
log_msg(LOG_ERR, "mmap failed: %s", strerror(errno));
exit(1);
}
#endif /* MREMAP */
#endif /* HAVE_MMAP */
}
/* realloc the zonestat array for the one that is not currently in use,
* to match the desired new size of the array (if applicable) */
void
server_zonestat_realloc(struct nsd* nsd)
{
#ifdef HAVE_MMAP
uint8_t z = 0;
size_t sz;
int idx = 0; /* index of the zonestat array that is not in use */
if(nsd->zonestatnow == nsd->zonestat[0])
idx = 1;
if(nsd->zonestatsize[idx] == nsd->zonestatdesired)
return;
sz = sizeof(struct nsdst)*nsd->zonestatdesired;
if(lseek(nsd->zonestatfd[idx], (off_t)sz-1, SEEK_SET) == -1) {
log_msg(LOG_ERR, "lseek %s: %s", nsd->zonestatfname[idx],
strerror(errno));
exit(1);
}
if(write(nsd->zonestatfd[idx], &z, 1) == -1) {
log_msg(LOG_ERR, "cannot extend stat file %s (%s)",
nsd->zonestatfname[idx], strerror(errno));
exit(1);
}
zonestat_remap(nsd, idx, sz);
/* zero the newly allocated region */
if(nsd->zonestatdesired > nsd->zonestatsize[idx]) {
memset(((char*)nsd->zonestat[idx])+sizeof(struct nsdst) *
nsd->zonestatsize[idx], 0, sizeof(struct nsdst) *
(nsd->zonestatdesired - nsd->zonestatsize[idx]));
}
nsd->zonestatsize[idx] = nsd->zonestatdesired;
#endif /* HAVE_MMAP */
}
/* switchover to use the other array for the new children, that
* briefly coexist with the old children. And we want to avoid them
* both writing to the same statistics arrays. */
void
server_zonestat_switch(struct nsd* nsd)
{
if(nsd->zonestatnow == nsd->zonestat[0]) {
nsd->zonestatnow = nsd->zonestat[1];
nsd->zonestatsizenow = nsd->zonestatsize[1];
} else {
nsd->zonestatnow = nsd->zonestat[0];
nsd->zonestatsizenow = nsd->zonestatsize[0];
}
}
#endif /* USE_ZONE_STATS */
#ifdef BIND8_STATS
void
server_stat_alloc(struct nsd* nsd)
{
char tmpfile[256];
size_t sz = sizeof(struct nsdst) * nsd->child_count * 2;
uint8_t z = 0;
/* file name */
nsd->statfname = 0;
snprintf(tmpfile, sizeof(tmpfile), "%snsd-xfr-%d/nsd.%u.stat",
nsd->options->xfrdir, (int)getpid(), (unsigned)getpid());
nsd->statfname = region_strdup(nsd->region, tmpfile);
/* file descriptor */
nsd->statfd = open(nsd->statfname, O_CREAT|O_RDWR, 0600);
if(nsd->statfd == -1) {
log_msg(LOG_ERR, "cannot create %s: %s", nsd->statfname,
strerror(errno));
unlink(nsd->zonestatfname[0]);
unlink(nsd->zonestatfname[1]);
exit(1);
}
#ifdef HAVE_MMAP
if(lseek(nsd->statfd, (off_t)sz-1, SEEK_SET) == -1) {
log_msg(LOG_ERR, "lseek %s: %s", nsd->statfname,
strerror(errno));
goto fail_exit;
}
if(write(nsd->statfd, &z, 1) == -1) {
log_msg(LOG_ERR, "cannot extend stat file %s (%s)",
nsd->statfname, strerror(errno));
goto fail_exit;
}
nsd->stat_map = (struct nsdst*)mmap(NULL, sz, PROT_READ|PROT_WRITE,
MAP_SHARED, nsd->statfd, 0);
if(nsd->stat_map == MAP_FAILED) {
log_msg(LOG_ERR, "mmap failed: %s", strerror(errno));
fail_exit:
close(nsd->statfd);
unlink(nsd->statfname);
unlink(nsd->zonestatfname[0]);
unlink(nsd->zonestatfname[1]);
exit(1);
}
memset(nsd->stat_map, 0, sz);
nsd->stats_per_child[0] = nsd->stat_map;
nsd->stats_per_child[1] = &nsd->stat_map[nsd->child_count];
nsd->stat_current = 0;
nsd->st = &nsd->stats_per_child[nsd->stat_current][0];
#endif /* HAVE_MMAP */
}
#endif /* BIND8_STATS */
#ifdef BIND8_STATS
void
server_stat_free(struct nsd* nsd)
{
unlink(nsd->statfname);
}
#endif /* BIND8_STATS */
static void
cleanup_dname_compression_tables(void *ptr)
{
free(ptr);
compressed_dname_offsets = NULL;
compression_table_capacity = 0;
}
static void
initialize_dname_compression_tables(struct nsd *nsd)
{
size_t needed = domain_table_count(nsd->db->domains) + 1;
needed += EXTRA_DOMAIN_NUMBERS;
if(compression_table_capacity < needed) {
if(compressed_dname_offsets) {
region_remove_cleanup(nsd->db->region,
cleanup_dname_compression_tables,
compressed_dname_offsets);
free(compressed_dname_offsets);
}
compressed_dname_offsets = (uint16_t *) xmallocarray(
needed, sizeof(uint16_t));
region_add_cleanup(nsd->db->region, cleanup_dname_compression_tables,
compressed_dname_offsets);
compression_table_capacity = needed;
compression_table_size=domain_table_count(nsd->db->domains)+1;
}
memset(compressed_dname_offsets, 0, needed * sizeof(uint16_t));
compressed_dname_offsets[0] = QHEADERSZ; /* The original query name */
}
static int
set_cloexec(struct nsd_socket *sock)
{
assert(sock != NULL);
if(fcntl(sock->s, F_SETFD, FD_CLOEXEC) == -1) {
const char *socktype =
sock->addr.ai_family == SOCK_DGRAM ? "udp" : "tcp";
log_msg(LOG_ERR, "fcntl(..., O_CLOEXEC) failed for %s: %s",
socktype, strerror(errno));
return -1;
}
return 1;
}
static int
set_reuseport(struct nsd_socket *sock)
{
#ifdef SO_REUSEPORT
int on = 1;
#ifdef SO_REUSEPORT_LB
/* FreeBSD 12 has SO_REUSEPORT_LB that does load balancing like
* SO_REUSEPORT on Linux. This is what the users want with the config
* option in nsd.conf; if we actually need local address and port reuse
* they'll also need to have SO_REUSEPORT set for them, assume it was
* _LB they want.
*/
int opt = SO_REUSEPORT_LB;
static const char optname[] = "SO_REUSEPORT_LB";
#else /* !SO_REUSEPORT_LB */
int opt = SO_REUSEPORT;
static const char optname[] = "SO_REUSEPORT";
#endif /* SO_REUSEPORT_LB */
if (0 == setsockopt(sock->s, SOL_SOCKET, opt, &on, sizeof(on))) {
return 1;
} else if(verbosity >= 3 || errno != ENOPROTOOPT) {
log_msg(LOG_ERR, "setsockopt(..., %s, ...) failed: %s",
optname, strerror(errno));
}
return -1;
#else
(void)sock;
#endif /* SO_REUSEPORT */
return 0;
}
static int
set_reuseaddr(struct nsd_socket *sock)
{
#ifdef SO_REUSEADDR
int on = 1;
if(setsockopt(sock->s, SOL_SOCKET, SO_REUSEADDR, &on, sizeof(on)) == 0) {
return 1;
}
log_msg(LOG_ERR, "setsockopt(..., SO_REUSEADDR, ...) failed: %s",
strerror(errno));
return -1;
#endif /* SO_REUSEADDR */
return 0;
}
static int
set_rcvbuf(struct nsd_socket *sock, int rcv)
{
#ifdef SO_RCVBUF
#ifdef SO_RCVBUFFORCE
if(0 == setsockopt(
sock->s, SOL_SOCKET, SO_RCVBUFFORCE, &rcv, sizeof(rcv)))
{
return 1;
}
if(errno == EPERM || errno == ENOBUFS) {
return 0;
}
log_msg(LOG_ERR, "setsockopt(..., SO_RCVBUFFORCE, ...) failed: %s",
strerror(errno));
return -1;
#else /* !SO_RCVBUFFORCE */
if (0 == setsockopt(
sock->s, SOL_SOCKET, SO_RCVBUF, &rcv, sizeof(rcv)))
{
return 1;
}
if(errno == ENOSYS || errno == ENOBUFS) {
return 0;
}
log_msg(LOG_ERR, "setsockopt(..., SO_RCVBUF, ...) failed: %s",
strerror(errno));
return -1;
#endif /* SO_RCVBUFFORCE */
#endif /* SO_RCVBUF */
return 0;
}
static int
set_sndbuf(struct nsd_socket *sock, int snd)
{
#ifdef SO_SNDBUF
#ifdef SO_SNDBUFFORCE
if(0 == setsockopt(
sock->s, SOL_SOCKET, SO_SNDBUFFORCE, &snd, sizeof(snd)))
{
return 1;
}
if(errno == EPERM || errno == ENOBUFS) {
return 0;
}
log_msg(LOG_ERR, "setsockopt(..., SO_SNDBUFFORCE, ...) failed: %s",
strerror(errno));
return -1;
#else /* !SO_SNDBUFFORCE */
if(0 == setsockopt(
sock->s, SOL_SOCKET, SO_SNDBUF, &snd, sizeof(snd)))
{
return 1;
}
if(errno == ENOSYS || errno == ENOBUFS) {
return 0;
}
log_msg(LOG_ERR, "setsockopt(..., SO_SNDBUF, ...) failed: %s",
strerror(errno));
return -1;
#endif /* SO_SNDBUFFORCE */
#endif /* SO_SNDBUF */
return 0;
}
static int
set_nonblock(struct nsd_socket *sock)
{
const char *socktype =
sock->addr.ai_socktype == SOCK_DGRAM ? "udp" : "tcp";
if(fcntl(sock->s, F_SETFL, O_NONBLOCK) == -1) {
log_msg(LOG_ERR, "fctnl(..., O_NONBLOCK) failed for %s: %s",
socktype, strerror(errno));
return -1;
}
return 1;
}
#ifdef INET6
static int
set_ipv6_v6only(struct nsd_socket *sock)
{
#ifdef IPV6_V6ONLY
int on = 1;
const char *socktype =
sock->addr.ai_socktype == SOCK_DGRAM ? "udp" : "tcp";
if(0 == setsockopt(
sock->s, IPPROTO_IPV6, IPV6_V6ONLY, &on, sizeof(on)))
{
return 1;
}
log_msg(LOG_ERR, "setsockopt(..., IPV6_V6ONLY, ...) failed for %s: %s",
socktype, strerror(errno));
return -1;
#else
(void)sock;
#endif /* IPV6_V6ONLY */
return 0;
}
#endif /* INET6 */
#ifdef INET6
static int
set_ipv6_use_min_mtu(struct nsd_socket *sock)
{
#if defined(IPV6_USE_MIN_MTU) || defined(IPV6_MTU)
#if defined(IPV6_USE_MIN_MTU)
/* There is no fragmentation of IPv6 datagrams during forwarding in the
* network. Therefore we do not send UDP datagrams larger than the
* minimum IPv6 MTU of 1280 octets. The EDNS0 message length can be
* larger if the network stack supports IPV6_USE_MIN_MTU.
*/
int opt = IPV6_USE_MIN_MTU;
int optval = 1;
static const char optname[] = "IPV6_USE_MIN_MTU";
#elif defined(IPV6_MTU)
/* On Linux, PMTUD is disabled by default for datagrams so set the MTU
* to the MIN MTU to get the same.
*/
int opt = IPV6_MTU;
int optval = IPV6_MIN_MTU;
static const char optname[] = "IPV6_MTU";