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|
/*
Linux DNS client library implementation
Copyright (C) 2006 Gerald Carter <jerry@samba.org>
** NOTE! The following LGPL license applies to the libaddns
** library. This does NOT imply that all of Samba is released
** under the LGPL
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, see <http://www.gnu.org/licenses/>.
*/
#include "dns.h"
#include "assert.h"
struct dns_buffer *dns_create_buffer(TALLOC_CTX *mem_ctx)
{
struct dns_buffer *result;
if (!(result = talloc_zero(mem_ctx, struct dns_buffer))) {
return NULL;
}
result->offset = 0;
result->error = ERROR_DNS_SUCCESS;
/*
* Small initial size to exercise the realloc code
*/
result->size = 2;
if (!(result->data = talloc_zero_array(result, uint8_t, result->size))) {
TALLOC_FREE(result);
return NULL;
}
return result;
}
void dns_marshall_buffer(struct dns_buffer *buf, const uint8_t *data,
size_t len)
{
if (!ERR_DNS_IS_OK(buf->error)) return;
if (buf->offset + len < buf->offset) {
/*
* Wraparound!
*/
buf->error = ERROR_DNS_INVALID_PARAMETER;
return;
}
if ((buf->offset + len) > 0xffff) {
/*
* Only 64k possible
*/
buf->error = ERROR_DNS_INVALID_PARAMETER;
return;
}
if (buf->offset + len > buf->size) {
size_t new_size = buf->offset + len;
uint8_t *new_data;
/*
* Don't do too many reallocs, round up to some multiple
*/
new_size += (64 - (new_size % 64));
if (!(new_data = talloc_realloc(buf, buf->data, uint8_t,
new_size))) {
buf->error = ERROR_DNS_NO_MEMORY;
return;
}
buf->size = new_size;
buf->data = new_data;
}
memcpy(buf->data + buf->offset, data, len);
buf->offset += len;
return;
}
void dns_marshall_uint16(struct dns_buffer *buf, uint16_t val)
{
uint16_t n_val = htons(val);
dns_marshall_buffer(buf, (uint8_t *)&n_val, sizeof(n_val));
}
void dns_marshall_uint32(struct dns_buffer *buf, uint32_t val)
{
uint32_t n_val = htonl(val);
dns_marshall_buffer(buf, (uint8_t *)&n_val, sizeof(n_val));
}
void dns_unmarshall_buffer(struct dns_buffer *buf, uint8_t *data,
size_t len)
{
if (!(ERR_DNS_IS_OK(buf->error))) return;
if ((len > buf->size) || (buf->offset + len > buf->size)) {
buf->error = ERROR_DNS_INVALID_MESSAGE;
return;
}
memcpy((void *)data, (const void *)(buf->data + buf->offset), len);
buf->offset += len;
return;
}
void dns_unmarshall_uint16(struct dns_buffer *buf, uint16_t *val)
{
uint16_t n_val;
dns_unmarshall_buffer(buf, (uint8_t *)&n_val, sizeof(n_val));
if (!(ERR_DNS_IS_OK(buf->error))) return;
*val = ntohs(n_val);
}
void dns_unmarshall_uint32(struct dns_buffer *buf, uint32_t *val)
{
uint32_t n_val;
dns_unmarshall_buffer(buf, (uint8_t *)&n_val, sizeof(n_val));
if (!(ERR_DNS_IS_OK(buf->error))) return;
*val = ntohl(n_val);
}
void dns_marshall_domain_name(struct dns_buffer *buf,
const struct dns_domain_name *name)
{
struct dns_domain_label *label;
char end_char = '\0';
/*
* TODO: Implement DNS compression
*/
for (label = name->pLabelList; label != NULL; label = label->next) {
uint8_t len = label->len;
dns_marshall_buffer(buf, (uint8_t *)&len, sizeof(len));
if (!ERR_DNS_IS_OK(buf->error)) return;
dns_marshall_buffer(buf, (uint8_t *)label->label, len);
if (!ERR_DNS_IS_OK(buf->error)) return;
}
dns_marshall_buffer(buf, (uint8_t *)&end_char, 1);
}
static void dns_unmarshall_label(TALLOC_CTX *mem_ctx,
int level,
struct dns_buffer *buf,
struct dns_domain_label **plabel)
{
struct dns_domain_label *label;
uint8_t len;
if (!ERR_DNS_IS_OK(buf->error)) return;
if (level > 128) {
/*
* Protect against recursion
*/
buf->error = ERROR_DNS_INVALID_MESSAGE;
return;
}
dns_unmarshall_buffer(buf, &len, sizeof(len));
if (!ERR_DNS_IS_OK(buf->error)) return;
if (len == 0) {
*plabel = NULL;
return;
}
if ((len & 0xc0) == 0xc0) {
/*
* We've got a compressed name. Build up a new "fake" buffer
* and using the calculated offset.
*/
struct dns_buffer new_buf;
uint8_t low;
dns_unmarshall_buffer(buf, &low, sizeof(low));
if (!ERR_DNS_IS_OK(buf->error)) return;
new_buf = *buf;
new_buf.offset = len & 0x3f;
new_buf.offset <<= 8;
new_buf.offset |= low;
dns_unmarshall_label(mem_ctx, level+1, &new_buf, plabel);
buf->error = new_buf.error;
return;
}
if ((len & 0xc0) != 0) {
buf->error = ERROR_DNS_INVALID_NAME;
return;
}
if (!(label = talloc_zero(mem_ctx, struct dns_domain_label))) {
buf->error = ERROR_DNS_NO_MEMORY;
return;
}
label->len = len;
if (!(label->label = talloc_zero_array(label, char, len+1))) {
buf->error = ERROR_DNS_NO_MEMORY;
goto error;
}
dns_unmarshall_buffer(buf, (uint8_t *)label->label, len);
if (!ERR_DNS_IS_OK(buf->error)) goto error;
dns_unmarshall_label(label, level+1, buf, &label->next);
if (!ERR_DNS_IS_OK(buf->error)) goto error;
*plabel = label;
return;
error:
TALLOC_FREE(label);
return;
}
void dns_unmarshall_domain_name(TALLOC_CTX *mem_ctx,
struct dns_buffer *buf,
struct dns_domain_name **pname)
{
struct dns_domain_name *name;
if (!ERR_DNS_IS_OK(buf->error)) return;
if (!(name = talloc_zero(mem_ctx, struct dns_domain_name))) {
buf->error = ERROR_DNS_NO_MEMORY;
return;
}
dns_unmarshall_label(name, 0, buf, &name->pLabelList);
if (!ERR_DNS_IS_OK(buf->error)) {
return;
}
*pname = name;
return;
}
static void dns_marshall_question(struct dns_buffer *buf,
const struct dns_question *q)
{
dns_marshall_domain_name(buf, q->name);
dns_marshall_uint16(buf, q->q_type);
dns_marshall_uint16(buf, q->q_class);
}
static void dns_unmarshall_question(TALLOC_CTX *mem_ctx,
struct dns_buffer *buf,
struct dns_question **pq)
{
struct dns_question *q;
if (!(ERR_DNS_IS_OK(buf->error))) return;
if (!(q = talloc_zero(mem_ctx, struct dns_question))) {
buf->error = ERROR_DNS_NO_MEMORY;
return;
}
dns_unmarshall_domain_name(q, buf, &q->name);
dns_unmarshall_uint16(buf, &q->q_type);
dns_unmarshall_uint16(buf, &q->q_class);
if (!(ERR_DNS_IS_OK(buf->error))) return;
*pq = q;
}
static void dns_marshall_rr(struct dns_buffer *buf,
const struct dns_rrec *r)
{
dns_marshall_domain_name(buf, r->name);
dns_marshall_uint16(buf, r->type);
dns_marshall_uint16(buf, r->r_class);
dns_marshall_uint32(buf, r->ttl);
dns_marshall_uint16(buf, r->data_length);
dns_marshall_buffer(buf, r->data, r->data_length);
}
static void dns_unmarshall_rr(TALLOC_CTX *mem_ctx,
struct dns_buffer *buf,
struct dns_rrec **pr)
{
struct dns_rrec *r;
if (!(ERR_DNS_IS_OK(buf->error))) return;
if (!(r = talloc_zero(mem_ctx, struct dns_rrec))) {
buf->error = ERROR_DNS_NO_MEMORY;
return;
}
dns_unmarshall_domain_name(r, buf, &r->name);
dns_unmarshall_uint16(buf, &r->type);
dns_unmarshall_uint16(buf, &r->r_class);
dns_unmarshall_uint32(buf, &r->ttl);
dns_unmarshall_uint16(buf, &r->data_length);
r->data = NULL;
if (!(ERR_DNS_IS_OK(buf->error))) return;
if (r->data_length != 0) {
if (!(r->data = talloc_zero_array(r, uint8_t, r->data_length))) {
buf->error = ERROR_DNS_NO_MEMORY;
return;
}
dns_unmarshall_buffer(buf, r->data, r->data_length);
}
if (!(ERR_DNS_IS_OK(buf->error))) return;
*pr = r;
}
DNS_ERROR dns_marshall_request(TALLOC_CTX *mem_ctx,
const struct dns_request *req,
struct dns_buffer **pbuf)
{
struct dns_buffer *buf;
uint16_t i;
if (!(buf = dns_create_buffer(mem_ctx))) {
return ERROR_DNS_NO_MEMORY;
}
dns_marshall_uint16(buf, req->id);
dns_marshall_uint16(buf, req->flags);
dns_marshall_uint16(buf, req->num_questions);
dns_marshall_uint16(buf, req->num_answers);
dns_marshall_uint16(buf, req->num_auths);
dns_marshall_uint16(buf, req->num_additionals);
for (i=0; i<req->num_questions; i++) {
dns_marshall_question(buf, req->questions[i]);
}
for (i=0; i<req->num_answers; i++) {
dns_marshall_rr(buf, req->answers[i]);
}
for (i=0; i<req->num_auths; i++) {
dns_marshall_rr(buf, req->auths[i]);
}
for (i=0; i<req->num_additionals; i++) {
dns_marshall_rr(buf, req->additionals[i]);
}
if (!ERR_DNS_IS_OK(buf->error)) {
DNS_ERROR err = buf->error;
TALLOC_FREE(buf);
return err;
}
*pbuf = buf;
return ERROR_DNS_SUCCESS;
}
DNS_ERROR dns_unmarshall_request(TALLOC_CTX *mem_ctx,
struct dns_buffer *buf,
struct dns_request **preq)
{
struct dns_request *req;
uint16_t i;
DNS_ERROR err = ERROR_DNS_NO_MEMORY;
if (!(req = talloc_zero(mem_ctx, struct dns_request))) {
return err;
}
dns_unmarshall_uint16(buf, &req->id);
dns_unmarshall_uint16(buf, &req->flags);
dns_unmarshall_uint16(buf, &req->num_questions);
dns_unmarshall_uint16(buf, &req->num_answers);
dns_unmarshall_uint16(buf, &req->num_auths);
dns_unmarshall_uint16(buf, &req->num_additionals);
if (!ERR_DNS_IS_OK(buf->error)){
err = buf->error;
goto error;
}
err = ERROR_DNS_NO_MEMORY;
if ((req->num_questions != 0) &&
!(req->questions = talloc_zero_array(req, struct dns_question *,
req->num_questions))) {
goto error;
}
if ((req->num_answers != 0) &&
!(req->answers = talloc_zero_array(req, struct dns_rrec *,
req->num_answers))) {
goto error;
}
if ((req->num_auths != 0) &&
!(req->auths = talloc_zero_array(req, struct dns_rrec *,
req->num_auths))) {
goto error;
}
if ((req->num_additionals != 0) &&
!(req->additionals = talloc_zero_array(req, struct dns_rrec *,
req->num_additionals))) {
goto error;
}
for (i=0; i<req->num_questions; i++) {
dns_unmarshall_question(req->questions, buf,
&req->questions[i]);
}
for (i=0; i<req->num_answers; i++) {
dns_unmarshall_rr(req->answers, buf,
&req->answers[i]);
}
for (i=0; i<req->num_auths; i++) {
dns_unmarshall_rr(req->auths, buf,
&req->auths[i]);
}
for (i=0; i<req->num_additionals; i++) {
dns_unmarshall_rr(req->additionals, buf,
&req->additionals[i]);
}
if (!ERR_DNS_IS_OK(buf->error)) {
err = buf->error;
goto error;
}
*preq = req;
return ERROR_DNS_SUCCESS;
error:
TALLOC_FREE(req);
return err;
}
struct dns_request *dns_update2request(struct dns_update_request *update)
{
struct dns_request *req;
/*
* This is a non-specified construct that happens to work on Linux/gcc
* and I would expect it to work everywhere else. dns_request and
* dns_update_request are essentially the same structures with
* different names, so any difference would mean that the compiler
* applied two different variations of padding given the same types in
* the structures.
*/
req = (struct dns_request *)(void *)update;
/*
* The assert statement here looks like we could do the equivalent
* assignments to get portable, but it would mean that we have to
* allocate the dns_question record for the dns_zone records. We
* assume that if this assert works then the same holds true for
* dns_zone<>dns_question as well.
*/
#ifdef DEVELOPER
assert((req->id == update->id) && (req->flags == update->flags) &&
(req->num_questions == update->num_zones) &&
(req->num_answers == update->num_preqs) &&
(req->num_auths == update->num_updates) &&
(req->num_additionals == update->num_additionals) &&
(req->questions ==
(struct dns_question **)(void *)update->zones) &&
(req->answers == update->preqs) &&
(req->auths == update->updates) &&
(req->additionals == update->additionals));
#endif
return req;
}
struct dns_update_request *dns_request2update(struct dns_request *request)
{
/*
* For portability concerns see dns_update2request;
*/
return (struct dns_update_request *)(void *)request;
}
DNS_ERROR dns_marshall_update_request(TALLOC_CTX *mem_ctx,
struct dns_update_request *update,
struct dns_buffer **pbuf)
{
return dns_marshall_request(mem_ctx, dns_update2request(update), pbuf);
}
DNS_ERROR dns_unmarshall_update_request(TALLOC_CTX *mem_ctx,
struct dns_buffer *buf,
struct dns_update_request **pupreq)
{
/*
* See comments above about portability. If the above works, this will
* as well.
*/
return dns_unmarshall_request(mem_ctx, buf,
(struct dns_request **)(void *)pupreq);
}
uint16_t dns_response_code(uint16_t flags)
{
return flags & 0xF;
}
|