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|
/*
* $Id$
*
* Enum and E164 related functions
*
* Copyright (C) 2002-2010 Juha Heinanen
*
* This file is part of Kamailio, a free SIP server.
*
* Kamailio is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version
*
* Kamailio 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
*/
/*!
* \file
* \brief SIP-router enum :: Enum and E164 related functions (module interface)
* \ingroup enum
* Module: \ref enum
*/
/*! \defgroup enum Enum and E.164-related functions
* Enum module implements [i_]enum_query functions that make an enum query
* based on the user part of the current Request-URI. These functions
* assume that the Request URI user part consists of an international
* phone number of the form +decimal-digits, where the number of digits is
* at least 2 and at most 15. Out of this number enum_query forms a domain
* name, where the digits are in reverse order and separated by dots
* followed by domain suffix that by default is "e164.arpa.". For example,
* if the user part is +35831234567, the domain name will be
* "7.6.5.4.3.2.1.3.8.5.3.e164.arpa.". i_enum_query operates in a similar
* fashion. The only difference is that it adds a label (default "i") to
* branch off from the default, user-ENUM tree to an infrastructure ENUM
* tree.
*/
#include <stdlib.h>
#include "enum.h"
#include "../../sr_module.h"
#include "../../parser/parse_uri.h"
#include "../../parser/parse_from.h"
#include "../../ut.h"
#include "../../resolve.h"
#include "../../mem/mem.h"
#include "../../dset.h"
#include "../../qvalue.h"
#include "enum_mod.h"
#include "../../lib/kcore/regexp.h"
#include "../../pvar.h"
/*
* Input: E.164 number w/o leading +
*
* Output: number of digits in the country code
* 0 on invalid number
*
* convention:
* 3 digits is the default length of a country code.
* country codes 1 and 7 are a single digit.
* the following country codes are two digits: 20, 27, 30-34, 36, 39,
* 40, 41, 43-49, 51-58, 60-66, 81, 82, 84, 86, 90-95, 98.
*/
static int cclen(const char *number)
{
char d1,d2;
if (!number || (strlen(number) < 3))
return(0);
d1 = number[0];
d2 = number[1];
if (!isdigit((int)d2))
return(0);
switch(d1) {
case '1':
case '7':
return(1);
case '2':
if ((d2 == '0') || (d1 == '7'))
return(2);
break;
case '3':
if ((d2 >= '0') && (d1 <= '4'))
return(2);
if ((d2 == '6') || (d1 == '9'))
return(2);
break;
case '4':
if (d2 != '2')
return(2);
break;
case '5':
if ((d2 >= '1') && (d1 <= '8'))
return(2);
break;
case '6':
if (d1 <= '6')
return(2);
break;
case '8':
if ((d2 == '1') || (d1 == '2') || (d1 == '4') || (d1 == '6'))
return(2);
break;
case '9':
if (d1 <= '5')
return(2);
if (d2 == '8')
return(2);
break;
default:
return(0);
}
return(3);
}
/* return the length of the string until c, if not found returns n */
static inline int findchr(char* p, int c, unsigned int size)
{
int len=0;
for(;len<size;p++){
if (*p==(unsigned char)c) {
return len;
}
len++;
}
return len;
}
/* Parse NAPTR regexp field of the form !pattern!replacement! and return its
* components in pattern and replacement parameters. Regexp field starts at
* address first and is len characters long.
*/
static inline int parse_naptr_regexp(char* first, int len, str* pattern,
str* replacement)
{
char *second, *third;
if (len > 0) {
if (*first == '!') {
second = (char *)memchr((void *)(first + 1), '!', len - 1);
if (second) {
len = len - (second - first + 1);
if (len > 0) {
third = memchr(second + 1, '!', len);
if (third) {
pattern->len = second - first - 1;
pattern->s = first + 1;
replacement->len = third - second - 1;
replacement->s = second + 1;
return 1;
} else {
LM_ERR("Third ! missing from regexp\n");
return -1;
}
} else {
LM_ERR("Third ! missing from regexp\n");
return -2;
}
} else {
LM_ERR("Second ! missing from regexp\n");
return -3;
}
} else {
LM_ERR("First ! missing from regexp\n");
return -4;
}
} else {
LM_ERR("Regexp missing\n");
return -5;
}
}
/* Checks if NAPTR record has flag u and its services field
* e2u+[service:]sip or
* e2u+service[+service[+service[+...]]]
*/
static inline int sip_match( struct naptr_rdata* naptr, str* service)
{
if (service->len == 0) {
return (naptr->flags_len == 1) &&
((naptr->flags[0] == 'u') || (naptr->flags[0] == 'U')) &&
(naptr->services_len == 7) &&
((strncasecmp(naptr->services, "e2u+sip", 7) == 0) ||
(strncasecmp(naptr->services, "sip+e2u", 7) == 0));
} else if (service->s[0] != '+') {
return (naptr->flags_len == 1) &&
((naptr->flags[0] == 'u') || (naptr->flags[0] == 'U')) &&
(naptr->services_len == service->len + 8) &&
(strncasecmp(naptr->services, "e2u+", 4) == 0) &&
(strncasecmp(naptr->services + 4, service->s, service->len) == 0) &&
(strncasecmp(naptr->services + 4 + service->len, ":sip", 4) == 0);
} else { /* handle compound NAPTRs and multiple services */
str bakservice, baknaptr; /* we bakup the str */
int naptrlen, len; /* length of the extracted service */
/* RFC 3761, NAPTR service field must start with E2U+ */
if (strncasecmp(naptr->services, "e2u+", 4) != 0) {
return 0;
}
baknaptr.s = naptr->services + 4; /* leading 'e2u+' */
baknaptr.len = naptr->services_len - 4;
for (;;) { /* iterate over services in NAPTR */
bakservice.s = service->s + 1; /* leading '+' */
bakservice.len = service->len - 1;
naptrlen = findchr(baknaptr.s,'+',baknaptr.len);
for (;;) { /* iterate over services in enum_query */
len = findchr(bakservice.s,'+',bakservice.len);
if ((naptrlen == len ) && !strncasecmp(baknaptr.s, bakservice.s, len)){
return 1;
}
if ( (bakservice.len -= len+1) > 0) {
bakservice.s += len+1;
continue;
}
break;
}
if ( (baknaptr.len -= naptrlen+1) > 0) {
baknaptr.s += naptrlen+1;
continue;
}
break;
}
/* no matching service found */
return 0;
}
}
/*
* Checks if argument is an e164 number starting with +
*/
static inline int is_e164(str* _user)
{
int i;
char c;
if ((_user->len > 2) && (_user->len < MAX_NUM_LEN) && ((_user->s)[0] == '+')) {
for (i = 1; i < _user->len; i++) {
c = (_user->s)[i];
if ((c < '0') || (c > '9')) return -1;
}
return 1;
} else {
return -1;
}
}
/*
* Call is_from_user_enum_2 with module parameter suffix and default service.
*/
int is_from_user_enum_0(struct sip_msg* _msg, char* _str1, char* _str2)
{
return is_from_user_enum_2(_msg, (char *)(&suffix), (char *)(&service));
}
/*
* Call is_from_user_enum_2 with given suffix and default service.
*/
int is_from_user_enum_1(struct sip_msg* _msg, char* _suffix, char* _str2)
{
return is_from_user_enum_2(_msg, _suffix, (char *)(&service));
}
/*
* Check if from user is a valid enum based user, and check to make sure
* that the src_ip == an srv record that maps to the enum from user.
*/
int is_from_user_enum_2(struct sip_msg* _msg, char* _suffix, char* _service)
{
struct ip_addr addr;
struct hostent* he;
unsigned short zp;
char proto;
char *user_s;
int user_len, i, j;
char name[MAX_DOMAIN_SIZE];
char uri[MAX_URI_SIZE];
struct sip_uri *furi;
struct sip_uri luri;
struct rdata* head;
str* suffix;
str* service;
struct rdata* l;
struct naptr_rdata* naptr;
str pattern, replacement, result;
char string[MAX_NUM_LEN];
if (parse_from_header(_msg) < 0) {
LM_ERR("Failed to parse From header\n");
return -1;
}
if(_msg->from==NULL || get_from(_msg)==NULL) {
LM_DBG("No From header\n");
return -1;
}
if ((furi = parse_from_uri(_msg)) == NULL) {
LM_ERR("Failed to parse From URI\n");
return -1;
}
suffix = (str*)_suffix;
service = (str*)_service;
if (is_e164(&(furi->user)) == -1) {
LM_ERR("From URI user is not an E164 number\n");
return -1;
}
/* assert: the from user is a valid formatted e164 string */
user_s = furi->user.s;
user_len = furi->user.len;
j = 0;
for (i = user_len - 1; i > 0; i--) {
name[j] = user_s[i];
name[j + 1] = '.';
j = j + 2;
}
memcpy(name + j, suffix->s, suffix->len + 1);
head = get_record(name, T_NAPTR, RES_ONLY_TYPE);
if (head == 0) {
LM_DBG("No NAPTR record found for %s.\n", name);
return -3;
}
/* we have the naptr records, loop and find an srv record with */
/* same ip address as source ip address, if we do then true is returned */
for (l = head; l; l = l->next) {
if (l->type != T_NAPTR) continue; /*should never happen*/
naptr = (struct naptr_rdata*)l->rdata;
if (naptr == 0) {
LM_ERR("Null rdata in DNS response\n");
free_rdata_list(head);
return -4;
}
LM_DBG("ENUM query on %s: order %u, pref %u, flen %u, flags "
"'%.*s', slen %u, services '%.*s', rlen %u, "
"regexp '%.*s'\n",
name, naptr->order, naptr->pref,
naptr->flags_len, (int)(naptr->flags_len), ZSW(naptr->flags), naptr->services_len,
(int)(naptr->services_len), ZSW(naptr->services), naptr->regexp_len,
(int)(naptr->regexp_len), ZSW(naptr->regexp));
if (sip_match(naptr, service) != 0) {
if (parse_naptr_regexp(&(naptr->regexp[0]), naptr->regexp_len,
&pattern, &replacement) < 0) {
free_rdata_list(head); /*clean up*/
LM_ERR("Parsing of NAPTR regexp failed\n");
return -5;
}
#ifdef LATER
if ((pattern.len == 4) && (strncmp(pattern.s, "^.*$", 4) == 0)) {
LM_DBG("Resulted in replacement: '%.*s'\n",
replacement.len, ZSW(replacement.s));
retval = set_uri(_msg, replacement.s, replacement.len);
free_rdata_list(head); /*clean up*/
return retval;
}
#endif
result.s = &(uri[0]);
result.len = MAX_URI_SIZE;
/* Avoid making copies of pattern and replacement */
pattern.s[pattern.len] = (char)0;
replacement.s[replacement.len] = (char)0;
/* We have already checked the size of
_msg->parsed_uri.user.s */
memcpy(&(string[0]), user_s, user_len);
string[user_len] = (char)0;
if (reg_replace(pattern.s, replacement.s, &(string[0]),
&result) < 0) {
pattern.s[pattern.len] = '!';
replacement.s[replacement.len] = '!';
LM_ERR("Regexp replace failed\n");
free_rdata_list(head); /*clean up*/
return -6;
}
LM_DBG("Resulted in replacement: '%.*s'\n",
result.len, ZSW(result.s));
if(parse_uri(result.s, result.len, &luri) < 0)
{
LM_ERR("Parsing of URI <%.*s> failed\n",
result.len, result.s);
free_rdata_list(head); /*clean up*/
return -7;
}
pattern.s[pattern.len] = '!';
replacement.s[replacement.len] = '!';
zp = 0;
proto = PROTO_NONE;
he = sip_resolvehost(&luri.host, &zp, &proto);
hostent2ip_addr(&addr, he, 0);
if(ip_addr_cmp(&addr, &_msg->rcv.src_ip))
{
free_rdata_list(head);
return(1);
}
}
}
free_rdata_list(head); /*clean up*/
LM_DBG("FAIL\n");
/* must not have found the record */
return(-8);
}
/*
* Add parameter to URI.
*/
int add_uri_param(str *uri, str *param, str *new_uri)
{
struct sip_uri puri;
char *at;
if (parse_uri(uri->s, uri->len, &puri) < 0) {
return 0;
}
/* if current uri has no headers, pad param to the end of uri */
if (puri.headers.len == 0) {
memcpy(uri->s + uri->len, param->s, param->len);
uri->len = uri->len + param->len;
new_uri->len = 0;
return 1;
}
/* otherwise take the long path and create new_uri */
at = new_uri->s;
switch (puri.type) {
case SIP_URI_T:
memcpy(at, "sip:", 4);
at = at + 4;
break;
case SIPS_URI_T:
memcpy(at, "sips:", 5);
at = at + 5;
break;
case TEL_URI_T:
memcpy(at, "tel:", 4);
at = at + 4;
break;
case TELS_URI_T:
memcpy(at, "tels:", 5);
at = at + 5;
break;
default:
LM_ERR("Unknown URI scheme <%d>\n", puri.type);
return 0;
}
if (puri.user.len) {
memcpy(at, puri.user.s, puri.user.len);
at = at + puri.user.len;
if (puri.passwd.len) {
*at = ':';
at = at + 1;
memcpy(at, puri.passwd.s, puri.passwd.len);
at = at + puri.passwd.len;
};
*at = '@';
at = at + 1;
}
memcpy(at, puri.host.s, puri.host.len);
at = at + puri.host.len;
if (puri.port.len) {
*at = ':';
at = at + 1;
memcpy(at, puri.port.s, puri.port.len);
at = at + puri.port.len;
}
if (puri.params.len) {
*at = ';';
at = at + 1;
memcpy(at, puri.params.s, puri.params.len);
at = at + puri.params.len;
}
memcpy(at, param->s, param->len);
at = at + param->len;
*at = '?';
at = at + 1;
memcpy(at, puri.headers.s, puri.headers.len);
at = at + puri.headers.len;
new_uri->len = at - new_uri->s;
return 1;
}
/*
* Tests if one result record is "greater" that the other. Non-NAPTR records
* greater that NAPTR record. An invalid NAPTR record is greater than a
* valid one. Valid NAPTR records are compared based on their
* (order,preference).
*/
static inline int naptr_greater(struct rdata* a, struct rdata* b)
{
struct naptr_rdata *na, *nb;
if (a->type != T_NAPTR) return 1;
if (b->type != T_NAPTR) return 0;
na = (struct naptr_rdata*)a->rdata;
if (na == 0) return 1;
nb = (struct naptr_rdata*)b->rdata;
if (nb == 0) return 0;
return (((na->order) << 16) + na->pref) >
(((nb->order) << 16) + nb->pref);
}
/*
* Bubble sorts result record list according to naptr (order,preference).
*/
static inline void naptr_sort(struct rdata** head)
{
struct rdata *p, *q, *r, *s, *temp, *start;
/* r precedes p and s points to the node up to which comparisons
are to be made */
s = NULL;
start = *head;
while ( s != start -> next ) {
r = p = start ;
q = p -> next ;
while ( p != s ) {
if ( naptr_greater(p, q) ) {
if ( p == start ) {
temp = q -> next ;
q -> next = p ;
p -> next = temp ;
start = q ;
r = q ;
} else {
temp = q -> next ;
q -> next = p ;
p -> next = temp ;
r -> next = q ;
r = q ;
}
} else {
r = p ;
p = p -> next ;
}
q = p -> next ;
if ( q == s ) s = p ;
}
}
*head = start;
}
/*
* Makes enum query on name. On success, rewrites user part and
* replaces Request-URI.
*/
int do_query(struct sip_msg* _msg, char *user, char *name, str *service) {
char uri[MAX_URI_SIZE];
char new_uri[MAX_URI_SIZE];
unsigned int priority, curr_prio, first;
qvalue_t q;
struct rdata* head;
struct rdata* l;
struct naptr_rdata* naptr;
str pattern, replacement, result, new_result;
head = get_record(name, T_NAPTR, RES_ONLY_TYPE);
if (head == 0) {
LM_DBG("No NAPTR record found for %s.\n", name);
return -1;
}
naptr_sort(&head);
q = MAX_Q - 10;
curr_prio = 0;
first = 1;
for (l = head; l; l = l->next) {
if (l->type != T_NAPTR) continue; /*should never happen*/
naptr = (struct naptr_rdata*)l->rdata;
if (naptr == 0) {
LM_ERR("Null rdata in DNS response\n");
continue;
}
LM_DBG("ENUM query on %s: order %u, pref %u, flen %u, flags '%.*s', "
"slen %u, services '%.*s', rlen %u, regexp '%.*s'\n",
name, naptr->order, naptr->pref,
naptr->flags_len, (int)(naptr->flags_len), ZSW(naptr->flags),
naptr->services_len,
(int)(naptr->services_len), ZSW(naptr->services), naptr->regexp_len,
(int)(naptr->regexp_len), ZSW(naptr->regexp));
if (sip_match(naptr, service) == 0) continue;
if (parse_naptr_regexp(&(naptr->regexp[0]), naptr->regexp_len,
&pattern, &replacement) < 0) {
LM_ERR("Parsing of NAPTR regexp failed\n");
continue;
}
result.s = &(uri[0]);
result.len = MAX_URI_SIZE;
/* Avoid making copies of pattern and replacement */
pattern.s[pattern.len] = (char)0;
replacement.s[replacement.len] = (char)0;
if (reg_replace(pattern.s, replacement.s, user, &result) < 0) {
pattern.s[pattern.len] = '!';
replacement.s[replacement.len] = '!';
LM_ERR("Regexp replace failed\n");
continue;
}
LM_DBG("Resulted in replacement: '%.*s'\n", result.len, ZSW(result.s));
pattern.s[pattern.len] = '!';
replacement.s[replacement.len] = '!';
if (param.len > 0) {
if (result.len + param.len > MAX_URI_SIZE - 1) {
LM_ERR("URI is too long\n");
continue;
}
new_result.s = &(new_uri[0]);
new_result.len = MAX_URI_SIZE;
if (add_uri_param(&result, ¶m, &new_result) == 0) {
LM_ERR("Parsing of URI <%.*s> failed\n",
result.len, result.s);
continue;
}
if (new_result.len > 0) {
result = new_result;
}
}
if (first) {
if (rewrite_uri(_msg, &result) == -1) {
goto done;
}
set_ruri_q(q);
first = 0;
curr_prio = ((naptr->order) << 16) + naptr->pref;
} else {
priority = ((naptr->order) << 16) + naptr->pref;
if (priority > curr_prio) {
q = q - 10;
curr_prio = priority;
}
if (append_branch(_msg, &result, 0, 0, q, 0, 0, 0, 0, 0, 0) == -1) {
goto done;
}
}
}
done:
free_rdata_list(head);
return first ? -1 : 1;
}
/*
* Call enum_query_2 with module parameter suffix and default service.
*/
int enum_query_0(struct sip_msg* _msg, char* _str1, char* _str2)
{
return enum_query(_msg, &suffix, &service);
}
/*
* Call enum_query_2 with given suffix and default service.
*/
int enum_query_1(struct sip_msg* _msg, char* _suffix, char* _str2)
{
str suffix;
if (get_str_fparam(&suffix, _msg, (fparam_t*)_suffix) != 0) {
LM_ERR("unable to get suffix\n");
return -1;
}
return enum_query(_msg, &suffix, &service);
}
/*
* Call enum_query_2 with given suffix and service.
*/
int enum_query_2(struct sip_msg* _msg, char* _suffix, char* _service)
{
str suffix, *service;
if (get_str_fparam(&suffix, _msg, (fparam_t*)_suffix) != 0) {
LM_ERR("unable to get suffix\n");
return -1;
}
service = (str*)_service;
if ((service == NULL) || (service->len == 0)) {
LM_ERR("invalid service parameter");
return -1;
}
return enum_query(_msg, &suffix, service);
}
/*
* See documentation in README file.
*/
int enum_query(struct sip_msg* _msg, str* suffix, str* service)
{
char *user_s;
int user_len, i, j;
char name[MAX_DOMAIN_SIZE];
char string[MAX_NUM_LEN];
LM_DBG("enum_query on suffix <%.*s> service <%.*s>\n",
suffix->len, suffix->s, service->len, service->s);
if (parse_sip_msg_uri(_msg) < 0) {
LM_ERR("Parsing of R-URI failed\n");
return -1;
}
if (is_e164(&(_msg->parsed_uri.user)) == -1) {
LM_ERR("R-URI user is not an E164 number\n");
return -1;
}
user_s = _msg->parsed_uri.user.s;
user_len = _msg->parsed_uri.user.len;
memcpy(&(string[0]), user_s, user_len);
string[user_len] = (char)0;
j = 0;
for (i = user_len - 1; i > 0; i--) {
name[j] = user_s[i];
name[j + 1] = '.';
j = j + 2;
}
memcpy(name + j, suffix->s, suffix->len + 1);
return do_query(_msg, string, name, service);
}
/*********** INFRASTRUCTURE ENUM ***************/
/*
* Call enum_query_2 with default suffix and service.
*/
int i_enum_query_0(struct sip_msg* _msg, char* _suffix, char* _service)
{
return i_enum_query_2(_msg, (char *)(&i_suffix), (char *)(&service));
}
/*
* Call enum_query_2 with given suffix and default service.
*/
int i_enum_query_1(struct sip_msg* _msg, char* _suffix, char* _service)
{
return i_enum_query_2(_msg, _suffix, (char *)(&service));
}
int i_enum_query_2(struct sip_msg* _msg, char* _suffix, char* _service)
{
char *user_s;
int user_len, i, j;
char name[MAX_DOMAIN_SIZE];
char apex[MAX_COMPONENT_SIZE + 1];
char separator[MAX_COMPONENT_SIZE + 1];
int sdl = 0; /* subdomain location: infrastructure enum offset */
int cc_len;
struct rdata* head;
char string[MAX_NUM_LEN];
str *suffix, *service;
suffix = (str*)_suffix;
service = (str*)_service;
if (parse_sip_msg_uri(_msg) < 0) {
LM_ERR("Parsing of R-URI failed\n");
return -1;
}
if (is_e164(&(_msg->parsed_uri.user)) == -1) {
LM_ERR("R-URI user is not an E164 number\n");
return -1;
}
user_s = _msg->parsed_uri.user.s;
user_len = _msg->parsed_uri.user.len;
/* make sure we don't run out of space in strings */
if (( 2*user_len + MAX_COMPONENT_SIZE + MAX_COMPONENT_SIZE + 4) > MAX_DOMAIN_SIZE) {
LM_ERR("Strings too long\n");
return -1;
}
if ( i_branchlabel.len > MAX_COMPONENT_SIZE ) {
LM_ERR("i_branchlabel too long\n");
return -1;
}
if ( suffix->len > MAX_COMPONENT_SIZE ) {
LM_ERR("Suffix too long\n");
return -1;
}
memcpy(&(string[0]), user_s, user_len);
string[user_len] = (char)0;
/* Set up parameters as for user-enum */
memcpy(apex, suffix->s , suffix->len);
apex[suffix->len] = (char)0;
sdl = 0; /* where to insert i-enum separator */
separator[0] = 0; /* don't insert anything */
cc_len = cclen(string + 1);
if (!strncasecmp(i_bl_alg.s,"ebl",i_bl_alg.len)) {
sdl = cc_len; /* default */
j = 0;
memcpy(name, i_branchlabel.s, i_branchlabel.len);
j += i_branchlabel.len;
name[j++] = '.';
for (i = cc_len ; i > 0; i--) {
name[j++] = user_s[i];
name[j++] = '.';
}
memcpy(name + j, suffix->s, suffix->len + 1);
LM_DBG("Looking for EBL record for %s.\n", name);
head = get_record(name, T_EBL, RES_ONLY_TYPE);
if (head == 0) {
LM_DBG("No EBL found for %s. Defaulting to user ENUM.\n",name);
} else {
struct ebl_rdata* ebl;
ebl = (struct ebl_rdata *) head->rdata;
LM_DBG("EBL record for %s is %d / %.*s / %.*s.\n",
name, ebl->position, (int)ebl->separator_len,
ebl->separator,(int)ebl->apex_len, ebl->apex);
if ((ebl->apex_len > MAX_COMPONENT_SIZE) || (ebl->separator_len > MAX_COMPONENT_SIZE)) {
LM_ERR("EBL strings too long\n");
return -1;
}
if (ebl->position > 15) {
LM_ERR("EBL position too large (%d)\n",
ebl->position);
return -1;
}
sdl = ebl->position;
memcpy(separator, ebl->separator, ebl->separator_len);
separator[ebl->separator_len] = 0;
memcpy(apex, ebl->apex, ebl->apex_len);
apex[ebl->apex_len] = 0;
free_rdata_list(head);
}
} else if (!strncasecmp(i_bl_alg.s,"txt",i_bl_alg.len)) {
sdl = cc_len; /* default */
memcpy(separator, i_branchlabel.s, i_branchlabel.len);
separator[i_branchlabel.len] = 0;
/* no change to apex */
j = 0;
memcpy(name, i_branchlabel.s, i_branchlabel.len);
j += i_branchlabel.len;
name[j++] = '.';
for (i = cc_len ; i > 0; i--) {
name[j++] = user_s[i];
name[j++] = '.';
}
memcpy(name + j, suffix->s, suffix->len + 1);
head = get_record(name, T_TXT, RES_ONLY_TYPE);
if (head == 0) {
LM_DBG("TXT found for %s. Defaulting to %d\n",
name, cc_len);
} else {
sdl = atoi(((struct txt_rdata*)head->rdata)->txt[0].cstr);
LM_DBG("TXT record for %s is %d.\n", name, sdl);
if ((sdl < 0) || (sdl > 10)) {
LM_ERR("Sdl %d out of bounds. Set back to cc_len.\n", sdl);
sdl = cc_len;
}
free_rdata_list(head);
}
} else { /* defaults to CC */
sdl = cc_len;
memcpy(separator, i_branchlabel.s, i_branchlabel.len);
separator[i_branchlabel.len] = 0;
/* no change to apex */
}
j = 0;
sdl++; /* to avoid comparing i to (sdl+1) */
for (i = user_len - 1; i > 0; i--) {
name[j] = user_s[i];
name[j + 1] = '.';
j = j + 2;
if (separator[0] && (i == sdl)) { /* insert the I-ENUM separator here? */
strcpy(name + j, separator); /* we've checked string sizes. */
j += strlen(separator);
name[j++] = '.';
}
}
memcpy(name + j, apex, strlen(apex)+1);
return do_query(_msg, string, name, service);
}
/******************* FQUERY *******************/
/*
* Call enum_pv_query_3 with pv arg, module parameter suffix,
* and default service.
*/
int enum_pv_query_1(struct sip_msg* _msg, char* _sp)
{
return enum_pv_query_3(_msg, _sp, (char *)(&suffix), (char *)(&service));
}
/*
* Call enum_pv_query_3 with pv and suffix args and default service.
*/
int enum_pv_query_2(struct sip_msg* _msg, char* _sp, char* _suffix)
{
return enum_pv_query_3(_msg, _sp, _suffix, (char *)(&service));
}
/*
* See documentation in README file.
*/
int enum_pv_query_3(struct sip_msg* _msg, char* _sp, char* _suffix,
char* _service)
{
char *user_s;
int user_len, i, j, first;
char name[MAX_DOMAIN_SIZE];
char uri[MAX_URI_SIZE];
char new_uri[MAX_URI_SIZE];
unsigned int priority, curr_prio;
qvalue_t q;
struct rdata* head;
struct rdata* l;
struct naptr_rdata* naptr;
str pattern, replacement, result, new_result;
str *suffix, *service;
char string[17];
pv_spec_t *sp;
pv_value_t pv_val;
sp = (pv_spec_t *)_sp;
suffix = (str*)_suffix;
service = (str*)_service;
/*
* Get E.164 number from pseudo variable
*/
if (sp && (pv_get_spec_value(_msg, sp, &pv_val) == 0)) {
if (pv_val.flags & PV_VAL_STR) {
if (pv_val.rs.len == 0 || pv_val.rs.s == NULL) {
LM_DBG("Missing E.164 number\n");
return -1;
}
} else {
LM_DBG("Pseudo variable value is not string\n");
return -1;
}
} else {
LM_DBG("Cannot get pseudo variable value\n");
return -1;
}
if (is_e164(&(pv_val.rs)) == -1) {
LM_ERR("pseudo variable does not contain an E164 number\n");
return -1;
}
user_s = pv_val.rs.s;
user_len = pv_val.rs.len;
memcpy(&(string[0]), user_s, user_len);
string[user_len] = (char)0;
j = 0;
for (i = user_len - 1; i > 0; i--) {
name[j] = user_s[i];
name[j + 1] = '.';
j = j + 2;
}
memcpy(name + j, suffix->s, suffix->len + 1);
head = get_record(name, T_NAPTR, RES_ONLY_TYPE);
if (head == 0) {
LM_DBG("No NAPTR record found for %s.\n", name);
return -1;
}
naptr_sort(&head);
q = MAX_Q - 10;
curr_prio = 0;
first = 1;
for (l = head; l; l = l->next) {
if (l->type != T_NAPTR) continue; /*should never happen*/
naptr = (struct naptr_rdata*)l->rdata;
if (naptr == 0) {
LM_ERR("Null rdata in DNS response\n");
continue;
}
LM_DBG("ENUM query on %s: order %u, pref %u, flen %u, flags "
"'%.*s', slen %u, services '%.*s', rlen %u, "
"regexp '%.*s'\n",
name, naptr->order, naptr->pref,
naptr->flags_len, (int)(naptr->flags_len), ZSW(naptr->flags),
naptr->services_len,
(int)(naptr->services_len), ZSW(naptr->services), naptr->regexp_len,
(int)(naptr->regexp_len), ZSW(naptr->regexp));
if (sip_match(naptr, service) == 0) continue;
if (parse_naptr_regexp(&(naptr->regexp[0]), naptr->regexp_len,
&pattern, &replacement) < 0) {
LM_ERR("Parsing of NAPTR regexp failed\n");
continue;
}
result.s = &(uri[0]);
result.len = MAX_URI_SIZE;
/* Avoid making copies of pattern and replacement */
pattern.s[pattern.len] = (char)0;
replacement.s[replacement.len] = (char)0;
if (reg_replace(pattern.s, replacement.s, &(string[0]),
&result) < 0) {
pattern.s[pattern.len] = '!';
replacement.s[replacement.len] = '!';
LM_ERR("Regexp replace failed\n");
continue;
}
LM_DBG("Resulted in replacement: '%.*s'\n",
result.len, ZSW(result.s));
pattern.s[pattern.len] = '!';
replacement.s[replacement.len] = '!';
if (param.len > 0) {
if (result.len + param.len > MAX_URI_SIZE - 1) {
LM_ERR("URI is too long\n");
continue;
}
new_result.s = &(new_uri[0]);
new_result.len = MAX_URI_SIZE;
if (add_uri_param(&result, ¶m, &new_result) == 0) {
LM_ERR("Parsing of URI <%.*s> failed\n",
result.len, result.s);
continue;
}
if (new_result.len > 0) {
result = new_result;
}
}
if (first) {
if (rewrite_uri(_msg, &result) == -1) {
goto done;
}
set_ruri_q(q);
first = 0;
curr_prio = ((naptr->order) << 16) + naptr->pref;
} else {
priority = ((naptr->order) << 16) + naptr->pref;
if (priority > curr_prio) {
q = q - 10;
curr_prio = priority;
}
if (append_branch(_msg, &result, 0, 0, q, 0, 0, 0, 0, 0, 0)
== -1) {
goto done;
}
}
}
done:
free_rdata_list(head);
return first ? -1 : 1;
}
|
