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|
/*
* dbaccess.c -- access methods for nsd(8) database
*
* Copyright (c) 2001-2006, NLnet Labs. All rights reserved.
*
* See LICENSE for the license.
*
*/
#include "config.h"
#include <sys/types.h>
#include <sys/stat.h>
#include <errno.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <fcntl.h>
#include "dns.h"
#include "namedb.h"
#include "util.h"
#include "options.h"
#include "rdata.h"
#include "udb.h"
#include "udbradtree.h"
#include "udbzone.h"
#include "zonec.h"
#include "nsec3.h"
#include "difffile.h"
#include "nsd.h"
#include "ixfr.h"
#include "ixfrcreate.h"
static time_t udb_time = 0;
static unsigned long udb_rrsets = 0;
static unsigned long udb_rrset_count = 0;
void
namedb_close(struct namedb* db)
{
if(db) {
if(db->udb) {
udb_base_close(db->udb);
udb_base_free(db->udb);
db->udb = NULL;
}
zonec_desetup_parser();
region_destroy(db->region);
}
}
void
namedb_close_udb(struct namedb* db)
{
if(db) {
/* we cannot actually munmap the data, because other
* processes still need to access the udb, so cleanup the
* udb */
udb_base_free_keep_mmap(db->udb);
db->udb = NULL;
}
}
void
namedb_free_ixfr(struct namedb* db)
{
struct radnode* n;
for(n=radix_first(db->zonetree); n; n=radix_next(n)) {
zone_ixfr_free(((zone_type*)n->elem)->ixfr);
}
}
/** read rr */
static void
read_rr(namedb_type* db, rr_type* rr, udb_ptr* urr, domain_type* domain)
{
buffer_type buffer;
ssize_t c;
assert(udb_ptr_get_type(urr) == udb_chunk_type_rr);
rr->owner = domain;
rr->type = RR(urr)->type;
rr->klass = RR(urr)->klass;
rr->ttl = RR(urr)->ttl;
buffer_create_from(&buffer, RR(urr)->wire, RR(urr)->len);
c = rdata_wireformat_to_rdata_atoms(db->region, db->domains,
rr->type, RR(urr)->len, &buffer, &rr->rdatas);
if(c == -1) {
/* safe on error */
rr->rdata_count = 0;
rr->rdatas = NULL;
return;
}
rr->rdata_count = c;
}
/** calculate rr count */
static uint16_t
calculate_rr_count(udb_base* udb, udb_ptr* rrset)
{
udb_ptr rr;
uint16_t num = 0;
udb_ptr_new(&rr, udb, &RRSET(rrset)->rrs);
while(rr.data) {
num++;
udb_ptr_set_rptr(&rr, udb, &RR(&rr)->next);
}
udb_ptr_unlink(&rr, udb);
return num;
}
/** read rrset */
static void
read_rrset(udb_base* udb, namedb_type* db, zone_type* zone,
domain_type* domain, udb_ptr* urrset)
{
rrset_type* rrset;
udb_ptr urr;
unsigned i;
assert(udb_ptr_get_type(urrset) == udb_chunk_type_rrset);
/* if no RRs, do not create anything (robust) */
if(RRSET(urrset)->rrs.data == 0)
return;
rrset = (rrset_type *) region_alloc(db->region, sizeof(rrset_type));
rrset->zone = zone;
rrset->rr_count = calculate_rr_count(udb, urrset);
rrset->rrs = (rr_type *) region_alloc_array(
db->region, rrset->rr_count, sizeof(rr_type));
/* add the RRs */
udb_ptr_new(&urr, udb, &RRSET(urrset)->rrs);
for(i=0; i<rrset->rr_count; i++) {
read_rr(db, &rrset->rrs[i], &urr, domain);
udb_ptr_set_rptr(&urr, udb, &RR(&urr)->next);
}
udb_ptr_unlink(&urr, udb);
domain_add_rrset(domain, rrset);
if(domain == zone->apex)
apex_rrset_checks(db, rrset, domain);
}
/** read one elem from db, of type domain_d */
static void read_node_elem(udb_base* udb, namedb_type* db,
region_type* dname_region, zone_type* zone, struct domain_d* d)
{
const dname_type* dname;
domain_type* domain;
udb_ptr urrset;
dname = dname_make(dname_region, d->name, 0);
if(!dname) return;
domain = domain_table_insert(db->domains, dname);
assert(domain); /* domain_table_insert should always return non-NULL */
/* add rrsets */
udb_ptr_init(&urrset, udb);
udb_ptr_set_rptr(&urrset, udb, &d->rrsets);
while(urrset.data) {
read_rrset(udb, db, zone, domain, &urrset);
udb_ptr_set_rptr(&urrset, udb, &RRSET(&urrset)->next);
if(++udb_rrsets % ZONEC_PCT_COUNT == 0 && time(NULL) > udb_time + ZONEC_PCT_TIME) {
udb_time = time(NULL);
VERBOSITY(1, (LOG_INFO, "read %s %d %%",
zone->opts->name,
(int)(udb_rrsets*((unsigned long)100)/udb_rrset_count)));
}
}
region_free_all(dname_region);
udb_ptr_unlink(&urrset, udb);
}
/** recurse read radix from disk. This radix tree is by domain name, so max of
* 256 depth, and thus the stack usage is small. */
static void read_zone_recurse(udb_base* udb, namedb_type* db,
region_type* dname_region, zone_type* zone, struct udb_radnode_d* node)
{
if(node->elem.data) {
/* pre-order process of node->elem, for radix tree this is
* also in-order processing (identical to order tree_next()) */
read_node_elem(udb, db, dname_region, zone, (struct domain_d*)
((char*)udb->base + node->elem.data));
}
if(node->lookup.data) {
uint16_t i;
struct udb_radarray_d* a = (struct udb_radarray_d*)
((char*)udb->base + node->lookup.data);
/* we do not care for what the exact radix key is, we want
* to add all of them and the read routine does not need
* the radix-key, it has it stored */
for(i=0; i<a->len; i++) {
if(a->array[i].node.data) {
read_zone_recurse(udb, db, dname_region, zone,
(struct udb_radnode_d*)((char*)udb->base +
a->array[i].node.data));
}
}
}
}
/** read zone data */
static void
read_zone_data(udb_base* udb, namedb_type* db, region_type* dname_region,
udb_ptr* z, zone_type* zone)
{
udb_ptr dtree;
/* recursively read domains, we only read so ptrs stay valid */
udb_ptr_new(&dtree, udb, &ZONE(z)->domains);
if(RADTREE(&dtree)->root.data)
read_zone_recurse(udb, db, dname_region, zone,
(struct udb_radnode_d*)
((char*)udb->base + RADTREE(&dtree)->root.data));
udb_ptr_unlink(&dtree, udb);
}
/** create a zone */
zone_type*
namedb_zone_create(namedb_type* db, const dname_type* dname,
struct zone_options* zo)
{
zone_type* zone = (zone_type *) region_alloc(db->region,
sizeof(zone_type));
zone->node = radname_insert(db->zonetree, dname_name(dname),
dname->name_size, zone);
assert(zone->node);
zone->apex = domain_table_insert(db->domains, dname);
zone->apex->usage++; /* the zone.apex reference */
zone->apex->is_apex = 1;
zone->soa_rrset = NULL;
zone->soa_nx_rrset = NULL;
zone->ns_rrset = NULL;
#ifdef NSEC3
zone->nsec3_param = NULL;
zone->nsec3_last = NULL;
zone->nsec3tree = NULL;
zone->hashtree = NULL;
zone->wchashtree = NULL;
zone->dshashtree = NULL;
#endif
zone->opts = zo;
zone->ixfr = NULL;
zone->filename = NULL;
zone->logstr = NULL;
zone->mtime.tv_sec = 0;
zone->mtime.tv_nsec = 0;
zone->zonestatid = 0;
zone->is_secure = 0;
zone->is_changed = 0;
zone->is_updated = 0;
zone->is_skipped = 0;
zone->is_checked = 0;
zone->is_bad = 0;
zone->is_ok = 1;
return zone;
}
void
namedb_zone_delete(namedb_type* db, zone_type* zone)
{
/* RRs and UDB and NSEC3 and so on must be already deleted */
radix_delete(db->zonetree, zone->node);
/* see if apex can be deleted */
if(zone->apex) {
zone->apex->usage --;
zone->apex->is_apex = 0;
if(zone->apex->usage == 0) {
/* delete the apex, possibly */
domain_table_deldomain(db, zone->apex);
}
}
/* soa_rrset is freed when the SOA was deleted */
if(zone->soa_nx_rrset) {
region_recycle(db->region, zone->soa_nx_rrset->rrs,
sizeof(rr_type));
region_recycle(db->region, zone->soa_nx_rrset,
sizeof(rrset_type));
}
#ifdef NSEC3
hash_tree_delete(db->region, zone->nsec3tree);
hash_tree_delete(db->region, zone->hashtree);
hash_tree_delete(db->region, zone->wchashtree);
hash_tree_delete(db->region, zone->dshashtree);
#endif
zone_ixfr_free(zone->ixfr);
if(zone->filename)
region_recycle(db->region, zone->filename,
strlen(zone->filename)+1);
if(zone->logstr)
region_recycle(db->region, zone->logstr,
strlen(zone->logstr)+1);
region_recycle(db->region, zone, sizeof(zone_type));
}
#ifdef HAVE_MMAP
/** read a zone */
static void
read_zone(udb_base* udb, namedb_type* db, struct nsd_options* opt,
region_type* dname_region, udb_ptr* z)
{
/* construct dname */
const dname_type* dname = dname_make(dname_region, ZONE(z)->name, 0);
struct zone_options* zo = dname?zone_options_find(opt, dname):NULL;
zone_type* zone;
if(!dname) return;
if(!zo) {
/* deleted from the options, remove it from the nsd.db too */
VERBOSITY(2, (LOG_WARNING, "zone %s is deleted",
dname_to_string(dname, NULL)));
udb_zone_delete(udb, z);
region_free_all(dname_region);
return;
}
assert(udb_ptr_get_type(z) == udb_chunk_type_zone);
udb_rrsets = 0;
udb_rrset_count = ZONE(z)->rrset_count;
zone = namedb_zone_create(db, dname, zo);
region_free_all(dname_region);
read_zone_data(udb, db, dname_region, z, zone);
zone->is_changed = (ZONE(z)->is_changed != 0);
#ifdef NSEC3
prehash_zone_complete(db, zone);
#endif
}
#endif /* HAVE_MMAP */
#ifdef HAVE_MMAP
/** read zones from nsd.db */
static void
read_zones(udb_base* udb, namedb_type* db, struct nsd_options* opt,
region_type* dname_region)
{
udb_ptr ztree, n, z;
udb_ptr_init(&z, udb);
udb_ptr_new(&ztree, udb, udb_base_get_userdata(udb));
udb_radix_first(udb,&ztree,&n);
udb_time = time(NULL);
while(n.data) {
udb_ptr_set_rptr(&z, udb, &RADNODE(&n)->elem);
udb_radix_next(udb, &n); /* store in case n is deleted */
read_zone(udb, db, opt, dname_region, &z);
udb_ptr_zero(&z, udb);
if(nsd.signal_hint_shutdown) break;
}
udb_ptr_unlink(&ztree, udb);
udb_ptr_unlink(&n, udb);
udb_ptr_unlink(&z, udb);
}
#endif /* HAVE_MMAP */
#ifdef HAVE_MMAP
/** try to read the udb file or fail */
static int
try_read_udb(namedb_type* db, int fd, const char* filename,
struct nsd_options* opt)
{
/*
* Temporary region used while loading domain names from the
* database. The region is freed after each time a dname is
* read from the database.
*/
region_type* dname_region;
assert(fd != -1);
if(!(db->udb=udb_base_create_fd(filename, fd, &namedb_walkfunc,
NULL))) {
/* fd is closed by failed udb create call */
VERBOSITY(1, (LOG_ERR, "can not use %s, "
"will create anew", filename));
return 0;
}
/* sanity check if can be opened */
if(udb_base_get_userflags(db->udb) != 0) {
log_msg(LOG_ERR, "%s was not closed properly, it might "
"be corrupted, will create anew", filename);
udb_base_free(db->udb);
db->udb = NULL;
return 0;
}
/* read if it can be opened */
dname_region = region_create(xalloc, free);
/* this operation does not fail, we end up with
* something, even if that is an empty namedb */
read_zones(db->udb, db, opt, dname_region);
region_destroy(dname_region);
return 1;
}
#endif /* HAVE_MMAP */
struct namedb *
namedb_open (const char* filename, struct nsd_options* opt)
{
namedb_type* db;
/*
* Region used to store the loaded database. The region is
* freed in namedb_close.
*/
region_type* db_region;
int fd;
#ifdef USE_MMAP_ALLOC
db_region = region_create_custom(mmap_alloc, mmap_free, MMAP_ALLOC_CHUNK_SIZE,
MMAP_ALLOC_LARGE_OBJECT_SIZE, MMAP_ALLOC_INITIAL_CLEANUP_SIZE, 1);
#else /* !USE_MMAP_ALLOC */
db_region = region_create_custom(xalloc, free, DEFAULT_CHUNK_SIZE,
DEFAULT_LARGE_OBJECT_SIZE, DEFAULT_INITIAL_CLEANUP_SIZE, 1);
#endif /* !USE_MMAP_ALLOC */
db = (namedb_type *) region_alloc(db_region, sizeof(struct namedb));
db->region = db_region;
db->domains = domain_table_create(db->region);
db->zonetree = radix_tree_create(db->region);
db->diff_skip = 0;
db->diff_pos = 0;
zonec_setup_parser(db);
if (gettimeofday(&(db->diff_timestamp), NULL) != 0) {
log_msg(LOG_ERR, "unable to load %s: cannot initialize"
"timestamp", filename);
region_destroy(db_region);
return NULL;
}
/* in dbless mode there is no file to read or mmap */
if(filename == NULL || filename[0] == 0) {
db->udb = NULL;
return db;
}
#ifndef HAVE_MMAP
/* no mmap() system call, use dbless mode */
VERBOSITY(1, (LOG_INFO, "no mmap(), ignoring database %s", filename));
db->udb = NULL;
(void)fd; (void)opt;
return db;
#else /* HAVE_MMAP */
/* attempt to open, if does not exist, create a new one */
fd = open(filename, O_RDWR);
if(fd == -1) {
if(errno != ENOENT) {
log_msg(LOG_ERR, "%s: %s", filename, strerror(errno));
region_destroy(db_region);
return NULL;
}
}
/* attempt to read the file (if it exists) */
if(fd != -1) {
if(!try_read_udb(db, fd, filename, opt))
fd = -1;
}
/* attempt to create the file (if necessary or failed read) */
if(fd == -1) {
if(!(db->udb=udb_base_create_new(filename, &namedb_walkfunc,
NULL))) {
region_destroy(db_region);
return NULL;
}
if(!udb_dns_init_file(db->udb)) {
region_destroy(db->region);
return NULL;
}
}
return db;
#endif /* HAVE_MMAP */
}
/** get the file mtime stat (or nonexist or error) */
int
file_get_mtime(const char* file, struct timespec* mtime, int* nonexist)
{
struct stat s;
if(stat(file, &s) != 0) {
mtime->tv_sec = 0;
mtime->tv_nsec = 0;
*nonexist = (errno == ENOENT);
return 0;
}
*nonexist = 0;
mtime->tv_sec = s.st_mtime;
#ifdef HAVE_STRUCT_STAT_ST_MTIMENSEC
mtime->tv_nsec = s.st_mtimensec;
#elif defined(HAVE_STRUCT_STAT_ST_MTIM_TV_NSEC)
mtime->tv_nsec = s.st_mtim.tv_nsec;
#else
mtime->tv_nsec = 0;
#endif
return 1;
}
void
namedb_read_zonefile(struct nsd* nsd, struct zone* zone, udb_base* taskudb,
udb_ptr* last_task)
{
struct timespec mtime;
int nonexist = 0;
unsigned int errors;
const char* fname;
struct ixfr_create* ixfrcr = NULL;
int ixfr_create_already_done = 0;
if(!nsd->db || !zone || !zone->opts || !zone->opts->pattern->zonefile)
return;
mtime.tv_sec = 0;
mtime.tv_nsec = 0;
fname = config_make_zonefile(zone->opts, nsd);
assert(fname);
if(!file_get_mtime(fname, &mtime, &nonexist)) {
if(nonexist) {
if(zone_is_slave(zone->opts)) {
/* for slave zones not as bad, no zonefile
* may just mean we have to transfer it */
VERBOSITY(2, (LOG_INFO, "zonefile %s does not exist",
fname));
} else {
/* without a download option, we can never
* serve data, more severe error printout */
log_msg(LOG_ERR, "zonefile %s does not exist", fname);
}
} else
log_msg(LOG_ERR, "zonefile %s: %s",
fname, strerror(errno));
if(taskudb) task_new_soainfo(taskudb, last_task, zone, 0);
return;
} else {
const char* zone_fname = zone->filename;
struct timespec zone_mtime = zone->mtime;
if(nsd->db->udb) {
zone_fname = udb_zone_get_file_str(nsd->db->udb,
dname_name(domain_dname(zone->apex)),
domain_dname(zone->apex)->name_size);
udb_zone_get_mtime(nsd->db->udb,
dname_name(domain_dname(zone->apex)),
domain_dname(zone->apex)->name_size,
&zone_mtime);
}
/* if no zone_fname, then it was acquired in zone transfer,
* see if the file is newer than the zone transfer
* (regardless if this is a different file), because the
* zone transfer is a different content source too */
if(!zone_fname && timespec_compare(&zone_mtime, &mtime) >= 0) {
VERBOSITY(3, (LOG_INFO, "zonefile %s is older than "
"zone transfer in memory", fname));
return;
/* if zone_fname, then the file was acquired from reading it,
* and see if filename changed or mtime newer to read it */
} else if(zone_fname && strcmp(zone_fname, fname) == 0 &&
timespec_compare(&zone_mtime, &mtime) == 0) {
VERBOSITY(3, (LOG_INFO, "zonefile %s is not modified",
fname));
return;
}
}
if(ixfr_create_from_difference(zone, fname,
&ixfr_create_already_done)) {
ixfrcr = ixfr_create_start(zone, fname,
zone->opts->pattern->ixfr_size, 0);
if(!ixfrcr) {
/* leaves the ixfrcr at NULL, so it is not created */
log_msg(LOG_ERR, "out of memory starting ixfr create");
}
}
assert(parser);
/* wipe zone from memory */
#ifdef NSEC3
nsec3_clear_precompile(nsd->db, zone);
zone->nsec3_param = NULL;
#endif
delete_zone_rrs(nsd->db, zone);
errors = zonec_read(zone->opts->name, fname, zone);
if(errors > 0) {
log_msg(LOG_ERR, "zone %s file %s read with %u errors",
zone->opts->name, fname, errors);
/* wipe (partial) zone from memory */
zone->is_ok = 1;
#ifdef NSEC3
nsec3_clear_precompile(nsd->db, zone);
zone->nsec3_param = NULL;
#endif
delete_zone_rrs(nsd->db, zone);
if(nsd->db->udb) {
region_type* dname_region;
udb_ptr z;
/* see if we can revert to the udb stored version */
if(!udb_zone_search(nsd->db->udb, &z, dname_name(domain_dname(
zone->apex)), domain_dname(zone->apex)->name_size)) {
/* tell that zone contents has been lost */
if(taskudb) task_new_soainfo(taskudb, last_task, zone, 0);
ixfr_create_cancel(ixfrcr);
return;
}
/* read from udb */
dname_region = region_create(xalloc, free);
udb_rrsets = 0;
udb_rrset_count = ZONE(&z)->rrset_count;
udb_time = time(NULL);
read_zone_data(nsd->db->udb, nsd->db, dname_region, &z, zone);
region_destroy(dname_region);
udb_ptr_unlink(&z, nsd->db->udb);
} else {
if(zone->filename)
region_recycle(nsd->db->region, zone->filename,
strlen(zone->filename)+1);
zone->filename = NULL;
if(zone->logstr)
region_recycle(nsd->db->region, zone->logstr,
strlen(zone->logstr)+1);
zone->logstr = NULL;
}
} else {
VERBOSITY(1, (LOG_INFO, "zone %s read with success",
zone->opts->name));
zone->is_ok = 1;
zone->is_changed = 0;
/* store zone into udb */
if(nsd->db->udb) {
if(!write_zone_to_udb(nsd->db->udb, zone, &mtime,
fname)) {
log_msg(LOG_ERR, "failed to store zone in db");
} else {
VERBOSITY(2, (LOG_INFO, "zone %s written to db",
zone->opts->name));
}
} else {
zone->mtime = mtime;
if(zone->filename)
region_recycle(nsd->db->region, zone->filename,
strlen(zone->filename)+1);
zone->filename = region_strdup(nsd->db->region, fname);
if(zone->logstr)
region_recycle(nsd->db->region, zone->logstr,
strlen(zone->logstr)+1);
zone->logstr = NULL;
}
if(ixfr_create_already_done) {
ixfr_readup_exist(zone, nsd, fname);
} else if(ixfrcr) {
if(!ixfr_create_perform(ixfrcr, zone, 1, nsd, fname,
zone->opts->pattern->ixfr_number)) {
log_msg(LOG_ERR, "failed to create IXFR");
} else {
VERBOSITY(2, (LOG_INFO, "zone %s created IXFR %s.ixfr",
zone->opts->name, fname));
}
ixfr_create_free(ixfrcr);
} else if(zone_is_ixfr_enabled(zone)) {
ixfr_read_from_file(nsd, zone, fname);
}
}
if(taskudb) task_new_soainfo(taskudb, last_task, zone, 0);
#ifdef NSEC3
prehash_zone_complete(nsd->db, zone);
#endif
}
void namedb_check_zonefile(struct nsd* nsd, udb_base* taskudb,
udb_ptr* last_task, struct zone_options* zopt)
{
zone_type* zone;
const dname_type* dname = (const dname_type*)zopt->node.key;
/* find zone to go with it, or create it */
zone = namedb_find_zone(nsd->db, dname);
if(!zone) {
zone = namedb_zone_create(nsd->db, dname, zopt);
}
namedb_read_zonefile(nsd, zone, taskudb, last_task);
}
void namedb_check_zonefiles(struct nsd* nsd, struct nsd_options* opt,
udb_base* taskudb, udb_ptr* last_task)
{
struct zone_options* zo;
/* check all zones in opt, create if not exist in main db */
RBTREE_FOR(zo, struct zone_options*, opt->zone_options) {
namedb_check_zonefile(nsd, taskudb, last_task, zo);
if(nsd->signal_hint_shutdown) break;
}
}
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