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|
/*
* difffile.c - DIFF file handling source code. Read and write diff files.
*
* Copyright (c) 2001-2006, NLnet Labs. All rights reserved.
*
* See LICENSE for the license.
*
*/
#include <config.h>
#include <assert.h>
#include <string.h>
#include <unistd.h>
#include <stdlib.h>
#include <errno.h>
#include "difffile.h"
#include "util.h"
#include "packet.h"
#include "rdata.h"
static int
write_32(FILE *out, uint32_t val)
{
val = htonl(val);
return write_data(out, &val, sizeof(val));
}
static int
write_16(FILE *out, uint16_t val)
{
val = htons(val);
return write_data(out, &val, sizeof(val));
}
static int
write_8(FILE *out, uint8_t val)
{
return write_data(out, &val, sizeof(val));
}
static int
write_str(FILE *out, const char* str)
{
uint32_t len = strlen(str);
if(!write_32(out, len))
return 0;
return write_data(out, str, len);
}
void
diff_write_packet(const char* zone, uint32_t new_serial, uint16_t id,
uint32_t seq_nr, uint8_t* data, size_t len, nsd_options_t* opt)
{
const char* filename = opt->difffile;
struct timeval tv;
FILE *df;
uint32_t file_len = sizeof(uint32_t) + strlen(zone) +
sizeof(new_serial) + sizeof(id) + sizeof(seq_nr) + len;
if (gettimeofday(&tv, NULL) != 0) {
log_msg(LOG_ERR, "could not set timestamp for %s: %s",
filename, strerror(errno));
return;
}
df = fopen(filename, "a");
if(!df) {
log_msg(LOG_ERR, "could not open file %s for append: %s",
filename, strerror(errno));
return;
}
if(!write_32(df, DIFF_PART_IXFR) ||
!write_32(df, (uint32_t) tv.tv_sec) ||
!write_32(df, (uint32_t) tv.tv_usec) ||
!write_32(df, file_len) ||
!write_str(df, zone) ||
!write_32(df, new_serial) ||
!write_16(df, id) ||
!write_32(df, seq_nr) ||
!write_data(df, data, len) ||
!write_32(df, file_len))
{
log_msg(LOG_ERR, "could not write to file %s: %s",
filename, strerror(errno));
}
fflush(df);
fclose(df);
}
void
diff_write_commit(const char* zone, uint32_t old_serial,
uint32_t new_serial, uint16_t id, uint32_t num_parts,
uint8_t commit, const char* log_str, nsd_options_t* opt)
{
const char* filename = opt->difffile;
struct timeval tv;
FILE *df;
uint32_t len;
if (gettimeofday(&tv, NULL) != 0) {
log_msg(LOG_ERR, "could not set timestamp for %s: %s",
filename, strerror(errno));
return;
}
df = fopen(filename, "a");
if(!df) {
log_msg(LOG_ERR, "could not open file %s for append: %s",
filename, strerror(errno));
return;
}
len = strlen(zone) + sizeof(len) + sizeof(old_serial) +
sizeof(new_serial) + sizeof(id) + sizeof(num_parts) +
sizeof(commit) + strlen(log_str) + sizeof(len);
if(!write_32(df, DIFF_PART_SURE) ||
!write_32(df, (uint32_t) tv.tv_sec) ||
!write_32(df, (uint32_t) tv.tv_usec) ||
!write_32(df, len) ||
!write_str(df, zone) ||
!write_32(df, old_serial) ||
!write_32(df, new_serial) ||
!write_16(df, id) ||
!write_32(df, num_parts) ||
!write_8(df, commit) ||
!write_str(df, log_str) ||
!write_32(df, len))
{
log_msg(LOG_ERR, "could not write to file %s: %s",
filename, strerror(errno));
}
fflush(df);
fclose(df);
}
/*
* Checksum to signal no data change occured (for example, by a
* zonec run.
*/
int
db_crc_different(namedb_type* db)
{
FILE *fd = fopen(db->filename, "r");
uint32_t crc_file;
char buf[NAMEDB_MAGIC_SIZE];
if(fd == NULL) {
log_msg(LOG_ERR, "unable to load %s: %s",
db->filename, strerror(errno));
return -1;
}
/* seek to position of CRC, check it and magic no */
if(fseeko(fd, db->crc_pos, SEEK_SET)==-1) {
log_msg(LOG_ERR, "unable to fseeko %s: %s. db changed?",
db->filename, strerror(errno));
fclose(fd);
return -1;
}
if(fread(&crc_file, sizeof(crc_file), 1, fd) != 1) {
if(!feof(fd))
log_msg(LOG_ERR, "could not read %s CRC: %s. "
"db changed?", db->filename, strerror(errno));
fclose(fd);
return -1;
}
crc_file = ntohl(crc_file);
if(fread(buf, sizeof(char), sizeof(buf), fd) != sizeof(buf)) {
if(!feof(fd))
log_msg(LOG_ERR, "could not read %s magic: %s. "
"db changed?", db->filename, strerror(errno));
fclose(fd);
return -1;
}
if(memcmp(buf, NAMEDB_MAGIC, NAMEDB_MAGIC_SIZE) != 0) {
fclose(fd);
return -1;
}
fclose(fd);
if(db->crc == crc_file)
return 0;
return 1;
}
int
diff_read_32(FILE *in, uint32_t* result)
{
if (fread(result, sizeof(*result), 1, in) == 1) {
*result = ntohl(*result);
return 1;
} else {
return 0;
}
}
int
diff_read_16(FILE *in, uint16_t* result)
{
if (fread(result, sizeof(*result), 1, in) == 1) {
*result = ntohs(*result);
return 1;
} else {
return 0;
}
}
int
diff_read_8(FILE *in, uint8_t* result)
{
if (fread(result, sizeof(*result), 1, in) == 1) {
return 1;
} else {
return 0;
}
}
int
diff_read_str(FILE* in, char* buf, size_t len)
{
uint32_t disklen;
if(!diff_read_32(in, &disklen))
return 0;
if(disklen >= len)
return 0;
if(fread(buf, disklen, 1, in) != 1)
return 0;
buf[disklen] = 0;
return 1;
}
static void
add_rdata_to_recyclebin(namedb_type* db, rr_type* rr)
{
/* add rdatas to recycle bin. */
size_t i;
for(i=0; i<rr->rdata_count; i++)
{
if(!rdata_atom_is_domain(rr->type, i))
region_recycle(db->region, rr->rdatas[i].data,
rdata_atom_size(rr->rdatas[i])
+ sizeof(uint16_t));
}
region_recycle(db->region, rr->rdatas,
sizeof(rdata_atom_type)*rr->rdata_count);
}
/* this routine determines if below a domain there exist names with
* data (is_existing) or no names below the domain have data.
*/
static int
has_data_below(domain_type* top)
{
domain_type* d = top;
assert(d != NULL);
/* in the canonical ordering subdomains are after this name */
d = domain_next(d);
while(d != NULL && dname_is_subdomain(domain_dname(d), domain_dname(top))) {
if(d->is_existing)
return 1;
d = domain_next(d);
}
return 0;
}
static void
rrset_delete(namedb_type* db, domain_type* domain, rrset_type* rrset)
{
int i;
/* find previous */
rrset_type** pp = &domain->rrsets;
while(*pp && *pp != rrset) {
pp = &( (*pp)->next );
}
if(!*pp) {
/* rrset does not exist for domain */
return;
}
*pp = rrset->next;
DEBUG(DEBUG_XFRD,2, (LOG_INFO, "delete rrset of %s type %s",
dname_to_string(domain_dname(domain),0),
rrtype_to_string(rrset_rrtype(rrset))));
/* is this a SOA rrset ? */
if(rrset->zone->soa_rrset == rrset) {
rrset->zone->soa_rrset = 0;
rrset->zone->updated = 1;
}
if(rrset->zone->ns_rrset == rrset) {
rrset->zone->ns_rrset = 0;
}
#ifdef DNSSEC
if(domain == rrset->zone->apex && rrset_rrtype(rrset) == TYPE_RRSIG) {
for (i = 0; i < rrset->rr_count; ++i) {
if (rr_rrsig_type_covered(&rrset->rrs[i]) == TYPE_SOA) {
rrset->zone->is_secure = 0;
break;
}
}
}
#endif
/* recycle the memory space of the rrset */
for (i = 0; i < rrset->rr_count; ++i)
add_rdata_to_recyclebin(db, &rrset->rrs[i]);
region_recycle(db->region, rrset->rrs,
sizeof(rr_type) * rrset->rr_count);
region_recycle(db->region, rrset, sizeof(rrset_type));
/* is the node now an empty node (completely deleted) */
if(domain->rrsets == 0) {
/* if there is no data below it, it becomes non existing.
also empty nonterminals above it become nonexisting */
/* check for data below this node. */
if(!has_data_below(domain)) {
/* nonexist this domain and all parent empty nonterminals */
domain_type* p = domain;
while(p != NULL && p->rrsets == 0) {
p->is_existing = 0;
p = p->parent;
}
}
}
rrset->rr_count = 0;
}
static int
rdatas_equal(rdata_atom_type *a, rdata_atom_type *b, int num, uint16_t type)
{
int k;
for(k = 0; k < num; k++)
{
if(rdata_atom_is_domain(type, k)) {
if(dname_compare(domain_dname(a[k].domain),
domain_dname(b[k].domain))!=0)
return 0;
} else {
/* check length */
if(a[k].data[0] != b[k].data[0])
return 0;
/* check data */
if(memcmp(a[k].data+1, b[k].data+1, a[k].data[0])!=0)
return 0;
}
}
return 1;
}
static int
find_rr_num(rrset_type* rrset,
uint16_t type, uint16_t klass,
rdata_atom_type *rdatas, ssize_t rdata_num)
{
int i;
for(i=0; i < rrset->rr_count; ++i) {
if(rrset->rrs[i].type == type &&
rrset->rrs[i].klass == klass &&
rrset->rrs[i].rdata_count == rdata_num &&
rdatas_equal(rdatas, rrset->rrs[i].rdatas, rdata_num, type))
{
return i;
}
}
return -1;
}
static int
delete_RR(namedb_type* db, const dname_type* dname,
uint16_t type, uint16_t klass,
buffer_type* packet, size_t rdatalen, zone_type *zone,
region_type* temp_region)
{
domain_type *domain;
rrset_type *rrset;
domain = domain_table_find(db->domains, dname);
if(!domain) {
log_msg(LOG_WARNING, "diff: domain %s does not exist",
dname_to_string(dname,0));
buffer_skip(packet, rdatalen);
return 1; /* not fatal error */
}
rrset = domain_find_rrset(domain, zone, type);
if(!rrset) {
log_msg(LOG_WARNING, "diff: rrset %s does not exist",
dname_to_string(dname,0));
buffer_skip(packet, rdatalen);
return 1; /* not fatal error */
} else {
/* find the RR in the rrset */
domain_table_type *temptable;
rdata_atom_type *rdatas;
ssize_t rdata_num;
int rrnum;
temptable = domain_table_create(temp_region);
/* This will ensure that the dnames in rdata are
* normalized, conform RFC 4035, section 6.2
*/
rdata_num = rdata_wireformat_to_rdata_atoms(
temp_region, temptable, type, rdatalen, packet, &rdatas);
if(rdata_num == -1) {
log_msg(LOG_ERR, "diff: bad rdata for %s",
dname_to_string(dname,0));
return 0;
}
rrnum = find_rr_num(rrset, type, klass, rdatas, rdata_num);
if(rrnum == -1) {
log_msg(LOG_WARNING, "diff: RR %s does not exist",
dname_to_string(dname,0));
return 1; /* not fatal error */
}
if(rrset->rr_count == 1) {
/* delete entire rrset */
rrset_delete(db, domain, rrset);
} else {
/* swap out the bad RR and decrease the count */
rr_type* rrs_orig = rrset->rrs;
add_rdata_to_recyclebin(db, &rrset->rrs[rrnum]);
if(rrnum < rrset->rr_count-1)
rrset->rrs[rrnum] = rrset->rrs[rrset->rr_count-1];
memset(&rrset->rrs[rrset->rr_count-1], 0, sizeof(rr_type));
/* realloc the rrs array one smaller */
rrset->rrs = region_alloc_init(db->region, rrs_orig,
sizeof(rr_type) * (rrset->rr_count-1));
if(!rrset->rrs) {
log_msg(LOG_ERR, "out of memory, %s:%d", __FILE__, __LINE__);
exit(1);
}
region_recycle(db->region, rrs_orig,
sizeof(rr_type) * rrset->rr_count);
rrset->rr_count --;
}
}
return 1;
}
static int
add_RR(namedb_type* db, const dname_type* dname,
uint16_t type, uint16_t klass, uint32_t ttl,
buffer_type* packet, size_t rdatalen, zone_type *zone)
{
domain_type* domain;
rrset_type* rrset;
rdata_atom_type *rdatas;
rr_type *rrs_old;
ssize_t rdata_num;
int rrnum;
domain = domain_table_find(db->domains, dname);
if(!domain) {
/* create the domain */
domain = domain_table_insert(db->domains, dname);
}
rrset = domain_find_rrset(domain, zone, type);
if(!rrset) {
/* create the rrset */
rrset = region_alloc(db->region, sizeof(rrset_type));
if(!rrset) {
log_msg(LOG_ERR, "out of memory, %s:%d", __FILE__, __LINE__);
exit(1);
}
rrset->zone = zone;
rrset->rrs = 0;
rrset->rr_count = 0;
domain_add_rrset(domain, rrset);
}
/* dnames in rdata are normalized, conform RFC 4035,
* Section 6.2
*/
rdata_num = rdata_wireformat_to_rdata_atoms(
db->region, db->domains, type, rdatalen, packet, &rdatas);
if(rdata_num == -1) {
log_msg(LOG_ERR, "diff: bad rdata for %s",
dname_to_string(dname,0));
return 0;
}
rrnum = find_rr_num(rrset, type, klass, rdatas, rdata_num);
if(rrnum != -1) {
DEBUG(DEBUG_XFRD, 2, (LOG_ERR, "diff: RR %s already exists",
dname_to_string(dname,0)));
/* ignore already existing RR: lenient accepting of messages */
return 1;
}
/* re-alloc the rrs and add the new */
rrs_old = rrset->rrs;
rrset->rrs = region_alloc(db->region,
(rrset->rr_count+1) * sizeof(rr_type));
if(!rrset->rrs) {
log_msg(LOG_ERR, "out of memory, %s:%d", __FILE__, __LINE__);
exit(1);
}
if(rrs_old)
memcpy(rrset->rrs, rrs_old, rrset->rr_count * sizeof(rr_type));
region_recycle(db->region, rrs_old, sizeof(rr_type) * rrset->rr_count);
rrset->rr_count ++;
rrset->rrs[rrset->rr_count - 1].owner = domain;
rrset->rrs[rrset->rr_count - 1].rdatas = rdatas;
rrset->rrs[rrset->rr_count - 1].ttl = ttl;
rrset->rrs[rrset->rr_count - 1].type = type;
rrset->rrs[rrset->rr_count - 1].klass = klass;
rrset->rrs[rrset->rr_count - 1].rdata_count = rdata_num;
/* see if it is a SOA */
if(domain == zone->apex) {
if(type == TYPE_SOA) {
uint32_t soa_minimum;
zone->soa_rrset = rrset;
zone->updated = 1;
/* BUG #103 tweaked SOA ttl value */
if(zone->soa_nx_rrset == 0) {
zone->soa_nx_rrset = region_alloc(db->region,
sizeof(rrset_type));
if(!zone->soa_nx_rrset) {
log_msg(LOG_ERR, "out of memory, %s:%d",
__FILE__, __LINE__);
exit(1);
}
zone->soa_nx_rrset->rr_count = 1;
zone->soa_nx_rrset->next = 0;
zone->soa_nx_rrset->zone = zone;
zone->soa_nx_rrset->rrs = region_alloc(db->region,
sizeof(rr_type));
if(!zone->soa_nx_rrset->rrs) {
log_msg(LOG_ERR, "out of memory, %s:%d",
__FILE__, __LINE__);
exit(1);
}
}
memcpy(zone->soa_nx_rrset->rrs, rrset->rrs, sizeof(rr_type));
memcpy(&soa_minimum, rdata_atom_data(rrset->rrs->rdatas[6]),
rdata_atom_size(rrset->rrs->rdatas[6]));
if (rrset->rrs->ttl > ntohl(soa_minimum)) {
rrset->zone->soa_nx_rrset->rrs[0].ttl = ntohl(soa_minimum);
}
}
if(type == TYPE_NS) {
zone->ns_rrset = rrset;
}
#ifdef DNSSEC
if(type == TYPE_RRSIG) {
int i;
for (i = 0; i < rrset->rr_count; ++i) {
if (rr_rrsig_type_covered(&rrset->rrs[i]) == TYPE_SOA) {
zone->is_secure = 1;
break;
}
}
}
#endif
}
return 1;
}
static zone_type*
find_zone(namedb_type* db, const dname_type* zone_name, nsd_options_t* opt,
size_t child_count)
{
domain_type *domain;
zone_type* zone;
domain = domain_table_find(db->domains, zone_name);
if(!domain) {
DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfr: creating domain %s",
dname_to_string(zone_name,0)));
/* create the zone and domain of apex (zone has config options) */
domain = domain_table_insert(db->domains, zone_name);
} else {
/* O(1) if SOA exists */
zone = domain_find_zone(domain);
/* if domain was empty (no rrsets, empty zone) search in zonelist */
/* check apex to make sure we don't find a parent zone */
if(!zone || zone->apex != domain)
zone = namedb_find_zone(db, domain);
if(zone) {
assert(zone->apex == domain);
return zone;
}
}
/* create the zone */
DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfr: creating zone_type %s",
dname_to_string(zone_name,0)));
zone = (zone_type *) region_alloc(db->region, sizeof(zone_type));
if(!zone) {
log_msg(LOG_ERR, "out of memory, %s:%d", __FILE__, __LINE__);
exit(1);
}
zone->next = db->zones;
db->zones = zone;
db->zone_count++;
zone->apex = domain;
zone->soa_rrset = 0;
zone->soa_nx_rrset = 0;
zone->ns_rrset = 0;
#ifdef NSEC3
zone->nsec3_soa_rr = NULL;
zone->nsec3_last = NULL;
#endif
zone->dirty = region_alloc(db->region, sizeof(uint8_t)*child_count);
if(!zone->dirty) {
log_msg(LOG_ERR, "out of memory, %s:%d", __FILE__, __LINE__);
exit(1);
}
memset(zone->dirty, 0, sizeof(uint8_t)*child_count);
zone->opts = zone_options_find(opt, domain_dname(zone->apex));
if(!zone->opts) {
log_msg(LOG_ERR, "xfr: zone %s not in config.",
dname_to_string(zone_name,0));
return 0;
}
zone->number = db->zone_count;
zone->is_secure = 0;
zone->updated = 1;
zone->is_ok = 0;
return zone;
}
static void
delete_zone_rrs(namedb_type* db, zone_type* zone)
{
rrset_type *rrset;
domain_type *domain = zone->apex;
/* go through entire tree below the zone apex (incl subzones) */
while(domain && dname_is_subdomain(
domain_dname(domain), domain_dname(zone->apex)))
{
DEBUG(DEBUG_XFRD,2, (LOG_INFO, "delete zone visit %s",
dname_to_string(domain_dname(domain),0)));
/* delete all rrsets of the zone */
while((rrset = domain_find_any_rrset(domain, zone))) {
rrset_delete(db, domain, rrset);
}
domain = domain_next(domain);
}
DEBUG(DEBUG_XFRD, 1, (LOG_INFO, "axfrdel: recyclebin holds %lu bytes",
(unsigned long) region_get_recycle_size(db->region)));
#ifndef NDEBUG
if(nsd_debug_level >= 1)
region_log_stats(db->region);
#endif
assert(zone->soa_rrset == 0);
/* keep zone->soa_nx_rrset alloced */
assert(zone->ns_rrset == 0);
assert(zone->is_secure == 0);
assert(zone->updated == 1);
}
static int
apply_ixfr(namedb_type* db, FILE *in, const off_t* startpos,
const char* zone, uint32_t serialno, nsd_options_t* opt,
uint16_t id, uint32_t seq_nr, uint32_t seq_total,
int* is_axfr, int* delete_mode, int* rr_count,
size_t child_count)
{
uint32_t filelen, msglen, pkttype, timestamp[2];
int qcount, ancount, counter;
buffer_type* packet;
region_type* region;
int i;
uint16_t rrlen;
const dname_type *dname_zone, *dname;
zone_type* zone_db;
char file_zone_name[3072];
uint32_t file_serial, file_seq_nr;
uint16_t file_id;
off_t mempos;
memmove(&mempos, startpos, sizeof(off_t));
if(fseeko(in, mempos, SEEK_SET) == -1) {
log_msg(LOG_INFO, "could not fseeko: %s.", strerror(errno));
return 0;
}
/* read ixfr packet RRs and apply to in memory db */
if(!diff_read_32(in, &pkttype) || pkttype != DIFF_PART_IXFR) {
log_msg(LOG_ERR, "could not read type or wrong type");
return 0;
}
if(!diff_read_32(in, ×tamp[0]) ||
!diff_read_32(in, ×tamp[1])) {
log_msg(LOG_ERR, "could not read timestamp");
return 0;
}
if(!diff_read_32(in, &filelen)) {
log_msg(LOG_ERR, "could not read len");
return 0;
}
/* read header */
if(filelen < QHEADERSZ + sizeof(uint32_t)*3 + sizeof(uint16_t)) {
log_msg(LOG_ERR, "msg too short");
return 0;
}
region = region_create(xalloc, free);
if(!region) {
log_msg(LOG_ERR, "out of memory");
return 0;
}
if(!diff_read_str(in, file_zone_name, sizeof(file_zone_name)) ||
!diff_read_32(in, &file_serial) ||
!diff_read_16(in, &file_id) ||
!diff_read_32(in, &file_seq_nr))
{
log_msg(LOG_ERR, "could not part data");
region_destroy(region);
return 0;
}
if(strcmp(file_zone_name, zone) != 0 || serialno != file_serial ||
id != file_id || seq_nr != file_seq_nr) {
log_msg(LOG_ERR, "internal error: reading part with changed id");
region_destroy(region);
return 0;
}
msglen = filelen - sizeof(uint32_t)*3 - sizeof(uint16_t)
- strlen(file_zone_name);
packet = buffer_create(region, QIOBUFSZ);
dname_zone = dname_parse(region, zone);
zone_db = find_zone(db, dname_zone, opt, child_count);
if(!zone_db) {
log_msg(LOG_ERR, "no zone exists");
region_destroy(region);
return 0;
}
if(msglen > QIOBUFSZ) {
log_msg(LOG_ERR, "msg too long");
region_destroy(region);
return 0;
}
buffer_clear(packet);
if(fread(buffer_begin(packet), msglen, 1, in) != 1) {
log_msg(LOG_ERR, "short fread: %s", strerror(errno));
region_destroy(region);
return 0;
}
buffer_set_limit(packet, msglen);
/* only answer section is really used, question, additional and
authority section RRs are skipped */
qcount = QDCOUNT(packet);
ancount = ANCOUNT(packet);
buffer_skip(packet, QHEADERSZ);
/* skip queries */
for(i=0; i<qcount; ++i)
if(!packet_skip_rr(packet, 1)) {
log_msg(LOG_ERR, "bad RR in question section");
region_destroy(region);
return 0;
}
DEBUG(DEBUG_XFRD,2, (LOG_INFO, "diff: started packet for zone %s",
dname_to_string(dname_zone, 0)));
/* first RR: check if SOA and correct zone & serialno */
if(*rr_count == 0) {
DEBUG(DEBUG_XFRD,2, (LOG_INFO, "diff: %s parse first RR",
dname_to_string(dname_zone, 0)));
dname = dname_make_from_packet(region, packet, 1, 1);
if(!dname) {
log_msg(LOG_ERR, "could not parse dname");
region_destroy(region);
return 0;
}
if(dname_compare(dname_zone, dname) != 0) {
log_msg(LOG_ERR, "SOA dname %s not equal to zone",
dname_to_string(dname,0));
log_msg(LOG_ERR, "zone dname is %s",
dname_to_string(dname_zone,0));
region_destroy(region);
return 0;
}
if(!buffer_available(packet, 10)) {
log_msg(LOG_ERR, "bad SOA RR");
region_destroy(region);
return 0;
}
if(buffer_read_u16(packet) != TYPE_SOA ||
buffer_read_u16(packet) != CLASS_IN) {
log_msg(LOG_ERR, "first RR not SOA IN");
region_destroy(region);
return 0;
}
buffer_skip(packet, sizeof(uint32_t)); /* ttl */
if(!buffer_available(packet, buffer_read_u16(packet)) ||
!packet_skip_dname(packet) /* skip prim_ns */ ||
!packet_skip_dname(packet) /* skip email */) {
log_msg(LOG_ERR, "bad SOA RR");
region_destroy(region);
return 0;
}
if(buffer_read_u32(packet) != serialno) {
buffer_skip(packet, -4);
log_msg(LOG_ERR, "SOA serial %d different from commit %d",
buffer_read_u32(packet), serialno);
region_destroy(region);
return 0;
}
buffer_skip(packet, sizeof(uint32_t)*4);
counter = 1;
*rr_count = 1;
*is_axfr = 0;
*delete_mode = 0;
DEBUG(DEBUG_XFRD,2, (LOG_INFO, "diff: %s start count %d, ax %d, delmode %d",
dname_to_string(dname_zone, 0), *rr_count, *is_axfr, *delete_mode));
}
else counter = 0;
for(; counter < ancount; ++counter,++(*rr_count))
{
uint16_t type, klass;
uint32_t ttl;
if(!(dname=dname_make_from_packet(region, packet, 1,1))) {
log_msg(LOG_ERR, "bad xfr RR dname %d", *rr_count);
region_destroy(region);
return 0;
}
if(!buffer_available(packet, 10)) {
log_msg(LOG_ERR, "bad xfr RR format %d", *rr_count);
region_destroy(region);
return 0;
}
type = buffer_read_u16(packet);
klass = buffer_read_u16(packet);
ttl = buffer_read_u32(packet);
rrlen = buffer_read_u16(packet);
if(!buffer_available(packet, rrlen)) {
log_msg(LOG_ERR, "bad xfr RR rdata %d, len %d have %d",
*rr_count, rrlen, (int)buffer_remaining(packet));
region_destroy(region);
return 0;
}
DEBUG(DEBUG_XFRD,2, (LOG_INFO, "diff: %s parsed count %d, ax %d, delmode %d",
dname_to_string(dname_zone, 0), *rr_count, *is_axfr, *delete_mode));
if(*rr_count == 1 && type != TYPE_SOA) {
/* second RR: if not SOA: this is an AXFR; delete all zone contents */
delete_zone_rrs(db, zone_db);
/* add everything else (incl end SOA) */
*delete_mode = 0;
*is_axfr = 1;
DEBUG(DEBUG_XFRD,2, (LOG_INFO, "diff: %s sawAXFR count %d, ax %d, delmode %d",
dname_to_string(dname_zone, 0), *rr_count, *is_axfr, *delete_mode));
}
if(*rr_count == 1 && type == TYPE_SOA) {
/* if the serial no of the SOA equals the serialno, then AXFR */
size_t bufpos = buffer_position(packet);
uint32_t thisserial;
if(!packet_skip_dname(packet) ||
!packet_skip_dname(packet) ||
buffer_remaining(packet) < sizeof(uint32_t)*5)
{
log_msg(LOG_ERR, "bad xfr SOA RR formerr.");
region_destroy(region);
return 0;
}
thisserial = buffer_read_u32(packet);
if(thisserial == serialno) {
/* AXFR */
delete_zone_rrs(db, zone_db);
*delete_mode = 0;
*is_axfr = 1;
}
buffer_set_position(packet, bufpos);
}
if(type == TYPE_SOA && !*is_axfr) {
/* switch from delete-part to add-part and back again,
just before soa - so it gets deleted and added too */
/* this means we switch to delete mode for the final SOA */
*delete_mode = !*delete_mode;
DEBUG(DEBUG_XFRD,2, (LOG_INFO, "diff: %s IXFRswapdel count %d, ax %d, delmode %d",
dname_to_string(dname_zone, 0), *rr_count, *is_axfr, *delete_mode));
}
if(type == TYPE_TSIG || type == TYPE_OPT) {
/* ignore pseudo RRs */
buffer_skip(packet, rrlen);
continue;
}
DEBUG(DEBUG_XFRD,2, (LOG_INFO, "xfr %s RR dname is %s type %s",
*delete_mode?"del":"add",
dname_to_string(dname,0), rrtype_to_string(type)));
if(*delete_mode) {
/* delete this rr */
if(!*is_axfr && type == TYPE_SOA && counter==ancount-1
&& seq_nr == seq_total-1) {
continue; /* do not delete final SOA RR for IXFR */
}
if(!delete_RR(db, dname, type, klass, packet,
rrlen, zone_db, region)) {
region_destroy(region);
return 0;
}
}
else
{
/* add this rr */
if(!add_RR(db, dname, type, klass, ttl, packet,
rrlen, zone_db)) {
region_destroy(region);
return 0;
}
}
}
region_destroy(region);
return 1;
}
static int
check_for_bad_serial(namedb_type* db, const char* zone_str, uint32_t old_serial)
{
/* see if serial OK with in-memory serial */
domain_type* domain;
region_type* region = region_create(xalloc, free);
const dname_type* zone_name = dname_parse(region, zone_str);
zone_type* zone = 0;
domain = domain_table_find(db->domains, zone_name);
if(domain)
zone = domain_find_zone(domain);
if(zone && zone->apex == domain && zone->soa_rrset && old_serial)
{
uint32_t memserial;
memcpy(&memserial, rdata_atom_data(zone->soa_rrset->rrs[0].rdatas[2]),
sizeof(uint32_t));
if(old_serial != ntohl(memserial)) {
region_destroy(region);
return 1;
}
}
region_destroy(region);
return 0;
}
/* for multiple tcp packets use a data structure that has
* a rbtree (zone_names) with for each zone:
* has a rbtree by sequence number
* with inside a serial_number and ID (for checking only)
* and contains a off_t to the IXFR packet in the file.
* so when you get a commit for a zone, get zone obj, find sequence,
* then check if you have all sequence numbers available. Apply all packets.
*/
struct diff_read_data {
/* rbtree of struct diff_zone*/
rbtree_t* zones;
/* region for allocation */
region_type* region;
};
struct diff_zone {
/* key is dname of zone */
rbnode_t node;
/* rbtree of struct diff_xfrpart */
rbtree_t* parts;
};
struct diff_xfrpart {
/* key is sequence number */
rbnode_t node;
uint32_t seq_nr;
uint32_t new_serial;
uint16_t id;
off_t file_pos;
};
static struct diff_read_data*
diff_read_data_create()
{
region_type* region = region_create(xalloc, free);
struct diff_read_data* data = (struct diff_read_data*)
region_alloc(region, sizeof(struct diff_read_data));
if(!data) {
log_msg(LOG_ERR, "out of memory, %s:%d", __FILE__, __LINE__);
exit(1);
}
data->region = region;
data->zones = rbtree_create(region,
(int (*)(const void *, const void *)) dname_compare);
return data;
}
static struct diff_zone*
diff_read_find_zone(struct diff_read_data* data, const char* name)
{
const dname_type* dname = dname_parse(data->region, name);
struct diff_zone* zp = (struct diff_zone*)
rbtree_search(data->zones, dname);
return zp;
}
static int intcompf(const void* a, const void* b)
{
if(*(uint32_t*)a < *(uint32_t*)b)
return -1;
if(*(uint32_t*)a > *(uint32_t*)b)
return +1;
return 0;
}
static struct diff_zone*
diff_read_insert_zone(struct diff_read_data* data, const char* name)
{
const dname_type* dname = dname_parse(data->region, name);
struct diff_zone* zp = region_alloc(data->region,
sizeof(struct diff_zone));
if(!zp) {
log_msg(LOG_ERR, "out of memory, %s:%d", __FILE__, __LINE__);
exit(1);
}
zp->node = *RBTREE_NULL;
zp->node.key = dname;
zp->parts = rbtree_create(data->region, intcompf);
rbtree_insert(data->zones, (rbnode_t*)zp);
return zp;
}
static struct diff_xfrpart*
diff_read_find_part(struct diff_zone* zp, uint32_t seq_nr)
{
struct diff_xfrpart* xp = (struct diff_xfrpart*)
rbtree_search(zp->parts, &seq_nr);
return xp;
}
static struct diff_xfrpart*
diff_read_insert_part(struct diff_read_data* data,
struct diff_zone* zp, uint32_t seq_nr)
{
struct diff_xfrpart* xp = region_alloc(data->region,
sizeof(struct diff_xfrpart));
if(!xp) {
log_msg(LOG_ERR, "out of memory, %s:%d", __FILE__, __LINE__);
exit(1);
}
xp->node = *RBTREE_NULL;
xp->node.key = &xp->seq_nr;
xp->seq_nr = seq_nr;
rbtree_insert(zp->parts, (rbnode_t*)xp);
return xp;
}
/* mark commit as rollback and close inputfile, fatal exits */
static void
mark_and_exit(nsd_options_t* opt, FILE* f, off_t commitpos, const char* desc)
{
const char* filename = opt->difffile;
fclose(f);
if(!(f = fopen(filename, "r+"))) {
log_msg(LOG_ERR, "mark xfr, failed to re-open difffile %s: %s",
filename, strerror(errno));
} else if(fseeko(f, commitpos, SEEK_SET) == -1) {
log_msg(LOG_INFO, "could not fseeko: %s.", strerror(errno));
fclose(f);
} else {
uint8_t c = 0;
(void)write_data(f, &c, sizeof(c));
fclose(f);
log_msg(LOG_ERR, "marked xfr as failed: %s", desc);
log_msg(LOG_ERR, "marked xfr so that next reload can succeed");
}
exit(1);
}
static int
read_sure_part(namedb_type* db, FILE *in, nsd_options_t* opt,
struct diff_read_data* data, struct diff_log** log,
size_t child_count)
{
char zone_buf[3072];
char log_buf[5120];
uint32_t old_serial, new_serial, num_parts;
uint16_t id;
uint8_t committed;
struct diff_zone *zp;
uint32_t i;
int have_all_parts = 1;
struct diff_log* thislog = 0;
off_t commitpos;
/* read zone name and serial */
if(!diff_read_str(in, zone_buf, sizeof(zone_buf)) ||
!diff_read_32(in, &old_serial) ||
!diff_read_32(in, &new_serial) ||
!diff_read_16(in, &id) ||
!diff_read_32(in, &num_parts)) {
log_msg(LOG_ERR, "diff file bad commit part");
return 0;
}
commitpos = ftello(in); /* position of commit byte */
if(commitpos == -1) {
log_msg(LOG_INFO, "could not ftello: %s.", strerror(errno));
return 0;
}
if(!diff_read_8(in, &committed) ||
!diff_read_str(in, log_buf, sizeof(log_buf)) )
{
log_msg(LOG_ERR, "diff file bad commit part");
return 0;
}
if(log) {
thislog = (struct diff_log*)region_alloc(db->region, sizeof(struct diff_log));
if(!thislog) {
log_msg(LOG_ERR, "out of memory, %s:%d", __FILE__, __LINE__);
exit(1);
}
thislog->zone_name = region_strdup(db->region, zone_buf);
thislog->comment = region_strdup(db->region, log_buf);
thislog->error = 0;
thislog->next = *log;
*log = thislog;
}
/* has been read in completely */
zp = diff_read_find_zone(data, zone_buf);
if(!zp) {
log_msg(LOG_ERR, "diff file commit without IXFR");
if(thislog)
thislog->error = "error no IXFR parts";
return 1;
}
if(committed && check_for_bad_serial(db, zone_buf, old_serial)) {
DEBUG(DEBUG_XFRD,1, (LOG_ERR,
"skipping diff file commit with bad serial"));
zp->parts->root = RBTREE_NULL;
zp->parts->count = 0;
if(thislog)
thislog->error = "error bad serial";
return 1;
}
for(i=0; i<num_parts; i++) {
struct diff_xfrpart *xp = diff_read_find_part(zp, i);
if(!xp || xp->id != id || xp->new_serial != new_serial) {
have_all_parts = 0;
}
}
if(!have_all_parts) {
DEBUG(DEBUG_XFRD,1, (LOG_ERR,
"skipping diff file commit without all parts"));
if(thislog)
thislog->error = "error missing parts";
}
if(committed && have_all_parts)
{
int is_axfr=0, delete_mode=0, rr_count=0;
off_t resume_pos;
DEBUG(DEBUG_XFRD,1, (LOG_INFO, "processing xfr: %s", log_buf));
resume_pos = ftello(in);
if(resume_pos == -1) {
log_msg(LOG_INFO, "could not ftello: %s.", strerror(errno));
return 0;
}
for(i=0; i<num_parts; i++) {
struct diff_xfrpart *xp = diff_read_find_part(zp, i);
DEBUG(DEBUG_XFRD,2, (LOG_INFO, "processing xfr: apply part %d", (int)i));
if(!apply_ixfr(db, in, &xp->file_pos, zone_buf, new_serial, opt,
id, xp->seq_nr, num_parts, &is_axfr, &delete_mode,
&rr_count, child_count)) {
log_msg(LOG_ERR, "bad ixfr packet part %d in %s", (int)i,
opt->difffile);
mark_and_exit(opt, in, commitpos, log_buf);
}
}
if(fseeko(in, resume_pos, SEEK_SET) == -1) {
log_msg(LOG_INFO, "could not fseeko: %s.", strerror(errno));
return 0;
}
}
else {
DEBUG(DEBUG_XFRD,1, (LOG_INFO, "skipping xfr: %s", log_buf));
}
/* clean out the parts for the zone after the commit/rollback */
zp->parts->root = RBTREE_NULL;
zp->parts->count = 0;
return 1;
}
static int
store_ixfr_data(FILE *in, uint32_t len, struct diff_read_data* data, off_t* startpos)
{
char zone_name[3072];
struct diff_zone* zp;
struct diff_xfrpart* xp;
uint32_t new_serial, seq;
uint16_t id;
if(!diff_read_str(in, zone_name, sizeof(zone_name)) ||
!diff_read_32(in, &new_serial) ||
!diff_read_16(in, &id) ||
!diff_read_32(in, &seq)) {
log_msg(LOG_INFO, "could not read ixfr store info: file format error");
return 0;
}
len -= sizeof(uint32_t)*3 + sizeof(uint16_t) + strlen(zone_name);
if(fseeko(in, len, SEEK_CUR) == -1)
log_msg(LOG_INFO, "fseek failed: %s", strerror(errno));
/* store the info */
zp = diff_read_find_zone(data, zone_name);
if(!zp)
zp = diff_read_insert_zone(data, zone_name);
xp = diff_read_find_part(zp, seq);
if(xp) {
log_msg(LOG_INFO, "discarding partial xfr part: %s %d", zone_name, seq);
/* overwrite with newer value (which probably relates to next commit) */
}
else {
xp = diff_read_insert_part(data, zp, seq);
}
xp->new_serial = new_serial;
xp->id = id;
memmove(&xp->file_pos, startpos, sizeof(off_t));
return 1;
}
static int
read_process_part(namedb_type* db, FILE *in, uint32_t type,
nsd_options_t* opt, struct diff_read_data* data,
struct diff_log** log, size_t child_count, off_t* startpos)
{
uint32_t len, len2;
/* read length */
if(!diff_read_32(in, &len))
return 1;
/* read content */
if(type == DIFF_PART_IXFR) {
DEBUG(DEBUG_XFRD,2, (LOG_INFO, "part IXFR len %d", len));
if(!store_ixfr_data(in, len, data, startpos))
return 0;
}
else if(type == DIFF_PART_SURE) {
DEBUG(DEBUG_XFRD,2, (LOG_INFO, "part SURE len %d", len));
if(!read_sure_part(db, in, opt, data, log, child_count))
return 0;
} else {
DEBUG(DEBUG_XFRD,1, (LOG_INFO, "unknown part %x len %d", type, len));
return 0;
}
/* read length */
if(!diff_read_32(in, &len2))
return 1; /* short read is OK */
/* verify length */
if(len != len2)
return 0; /* bad data is wrong */
return 1;
}
/*
* Finds smallest offset in data structs
* returns 0 if no offsets in the data structs.
*/
static int
find_smallest_offset(struct diff_read_data* data, off_t* offset)
{
int found_any = 0;
struct diff_zone* dz;
struct diff_xfrpart* dx;
off_t mem_offset, mem_fpos;
if(!data || !data->zones)
return 0;
RBTREE_FOR(dz, struct diff_zone*, data->zones)
{
if(!dz->parts)
continue;
RBTREE_FOR(dx, struct diff_xfrpart*, dz->parts)
{
memmove(&mem_fpos, &dx->file_pos, sizeof(off_t));
if(found_any) {
memmove(&mem_offset, offset, sizeof(off_t));
if(mem_fpos < mem_offset)
memmove(offset, &mem_fpos, sizeof(off_t));
} else {
found_any = 1;
memmove(offset, &mem_fpos, sizeof(off_t));
}
}
}
return found_any;
}
int
diff_read_file(namedb_type* db, nsd_options_t* opt, struct diff_log** log,
size_t child_count)
{
const char* filename = opt->difffile;
FILE *df;
uint32_t type, timestamp[2], curr_timestamp[2];
struct diff_read_data* data = diff_read_data_create();
off_t startpos;
df = fopen(filename, "r");
if(!df) {
DEBUG(DEBUG_XFRD,1, (LOG_INFO, "could not open file %s for reading: %s",
filename, strerror(errno)));
region_destroy(data->region);
return 1;
}
/* check timestamp */
curr_timestamp[0] = (uint32_t) db->diff_timestamp.tv_sec;
curr_timestamp[1] = (uint32_t) db->diff_timestamp.tv_usec;
if(!diff_read_32(df, &type)) {
DEBUG(DEBUG_XFRD,1, (LOG_INFO, "difffile %s is empty",
filename));
db->diff_skip = 0;
db->diff_pos = 0;
}
else if (!diff_read_32(df, ×tamp[0]) ||
!diff_read_32(df, ×tamp[1])) {
log_msg(LOG_ERR, "difffile %s bad first part: no timestamp",
filename);
region_destroy(data->region);
return 0;
}
else if (curr_timestamp[0] != timestamp[0] ||
curr_timestamp[1] != timestamp[1]) {
/* new timestamp, no skipping */
db->diff_timestamp.tv_sec = (time_t) timestamp[0];
db->diff_timestamp.tv_usec = (suseconds_t) timestamp[1];
if (db->diff_skip) {
DEBUG(DEBUG_XFRD,1, (LOG_INFO, "new timestamp on "
"difffile %s, restoring diff_skip and diff_pos "
"[old timestamp: %u.%u; new timestamp: %u.%u]",
filename, curr_timestamp[0], curr_timestamp[1],
timestamp[0], timestamp[1]));
db->diff_skip = 0;
db->diff_pos = 0;
}
}
/* Always seek, to diff_pos or to beginning of the file. */
if (fseeko(df, 0, SEEK_SET)==-1) {
log_msg(LOG_INFO, "could not fseeko file %s: %s.", filename,
strerror(errno));
region_destroy(data->region);
return 0;
}
if(db->diff_skip) {
DEBUG(DEBUG_XFRD,1, (LOG_INFO, "skip diff file"));
if(fseeko(df, db->diff_pos, SEEK_SET)==-1) {
log_msg(LOG_INFO, "could not fseeko file %s: %s. "
"Reread from start.", filename,
strerror(errno));
}
}
startpos = ftello(df);
if(startpos == -1) {
log_msg(LOG_INFO, "could not ftello: %s.", strerror(errno));
region_destroy(data->region);
return 0;
}
DEBUG(DEBUG_XFRD,1, (LOG_INFO, "start of diff file read at pos %u",
(uint32_t) db->diff_pos));
while(diff_read_32(df, &type))
{
DEBUG(DEBUG_XFRD,2, (LOG_INFO, "iter loop"));
/* read timestamp */
if(!diff_read_32(df, ×tamp[0]) ||
!diff_read_32(df, ×tamp[1])) {
log_msg(LOG_INFO, "could not read timestamp: %s.",
strerror(errno));
region_destroy(data->region);
return 0;
}
if(!read_process_part(db, df, type, opt, data, log,
child_count, &startpos))
{
log_msg(LOG_INFO, "error processing diff file");
region_destroy(data->region);
return 0;
}
startpos = ftello(df);
if(startpos == -1) {
log_msg(LOG_INFO, "could not ftello: %s.", strerror(errno));
region_destroy(data->region);
return 0;
}
}
DEBUG(DEBUG_XFRD,1, (LOG_INFO, "end of diff file read"));
if(find_smallest_offset(data, &db->diff_pos)) {
/* can skip to the first unused element */
DEBUG(DEBUG_XFRD,2, (LOG_INFO, "next time skip diff file"));
db->diff_skip = 1;
} else {
/* all processed, can skip to here next time */
DEBUG(DEBUG_XFRD,2, (LOG_INFO, "next time skip diff file"));
db->diff_skip = 1;
db->diff_pos = ftello(df);
if(db->diff_pos == -1) {
log_msg(LOG_INFO, "could not ftello: %s.",
strerror(errno));
db->diff_skip = 0;
}
}
region_destroy(data->region);
fclose(df);
return 1;
}
static int diff_broken(FILE *df, off_t* break_pos)
{
uint32_t type, len, len2;
*break_pos = ftello(df);
/* try to read and validate parts of the file */
while(diff_read_32(df, &type)) /* cannot read type is no error, normal EOF */
{
/* check type */
if(type != DIFF_PART_IXFR && type != DIFF_PART_SURE)
return 1;
/* check length */
if(!diff_read_32(df, &len))
return 1; /* EOF inside the part is error */
if(fseeko(df, len, SEEK_CUR) == -1)
{
log_msg(LOG_INFO, "fseeko failed: %s", strerror(errno));
return 1;
}
/* fseek clears EOF flag, but try reading length value,
if EOF, the part is truncated */
if(!diff_read_32(df, &len2))
return 1;
if(len != len2)
return 1; /* bad part, lengths must agree */
/* this part is ok */
*break_pos = ftello(df);
}
return 0;
}
void diff_snip_garbage(namedb_type* db, nsd_options_t* opt)
{
off_t break_pos;
const char* filename = opt->difffile;
FILE *df;
/* open file here and keep open, so it cannot change under our nose */
df = fopen(filename, "r+");
if(!df) {
DEBUG(DEBUG_XFRD,1, (LOG_INFO, "could not open file %s for garbage collecting: %s",
filename, strerror(errno)));
return;
}
/* and skip into file, since nsd does not read anything before the pos */
if(db->diff_skip) {
DEBUG(DEBUG_XFRD,1, (LOG_INFO, "garbage collect skip diff file"));
if(fseeko(df, db->diff_pos, SEEK_SET)==-1) {
log_msg(LOG_INFO, "could not fseeko file %s: %s.",
filename, strerror(errno));
fclose(df);
return;
}
}
/* detect break point */
if(diff_broken(df, &break_pos))
{
/* snip off at break_pos */
DEBUG(DEBUG_XFRD,1, (LOG_INFO, "snipping off trailing partial part of %s",
filename));
if(ftruncate(fileno(df), break_pos) == -1)
log_msg(LOG_ERR, "ftruncate %s failed: %s",
filename, strerror(errno));
}
fclose(df);
}
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