/*
* $Id$
*
*
* Copyright (C) 2001-2003 Fhg Fokus
*
* This file is part of ser, a free SIP server.
*
* ser 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
*
* For a license to use the ser software under conditions
* other than those described here, or to purchase support for this
* software, please contact iptel.org by e-mail at the following addresses:
* info@iptel.org
*
* ser 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include <sys/types.h>
#include <sys/socket.h>
#include <netdb.h>
#include <string.h>
#include <stdio.h>
#include <stdlib.h>
#include "msg_translator.h"
#include "globals.h"
#include "error.h"
#include "mem/mem.h"
#include "dprint.h"
#include "config.h"
#include "md5utils.h"
#include "data_lump_rpl.h"
#include "ip_addr.h"
#include "resolve.h"
#include "ut.h"
#include "pt.h"
#define append_str(_dest,_src,_len,_msg) \
do{\
memcpy( (_dest) , (_src) , (_len) );\
(_dest) += (_len) ;\
}while(0);
#define append_str_trans(_dest,_src,_len,_msg) \
do{\
memcpy( (_dest) , (_msg)->orig+((_src)-(_msg)->buf) , (_len) );\
(_dest) += (_len) ;\
}while(0);
extern char version[];
extern int version_len;
/* checks if ip is in host(name) and ?host(ip)=name?
* ip must be in network byte order!
* resolver = DO_DNS | DO_REV_DNS; if 0 no dns check is made
* return 0 if equal */
int check_address(struct ip_addr* ip, char *name, int resolver)
{
struct hostent* he;
int i;
char* s;
/* maybe we are lucky and name it's an ip */
s=ip_addr2a(ip);
if (s){
DBG("check_address(%s, %s, %d)\n", s, name, resolver);
#ifdef USE_IPV6
if ((ip->af==AF_INET6) && (strcasecmp(name, s)==0))
return 0;
else
#endif
if (strcmp(name, s)==0)
return 0;
}else{
LOG(L_CRIT, "check_address: BUG: could not convert ip address\n");
return -1;
}
if (resolver&DO_DNS){
DBG("check_address: doing dns lookup\n");
/* try all names ips */
he=resolvehost(name);
if (he && ip->af==he->h_addrtype){
for(i=0;he && he->h_addr_list[i];i++){
if ( memcmp(&he->h_addr_list[i], ip->u.addr, ip->len)==0)
return 0;
}
}
}
if (resolver&DO_REV_DNS){
DBG("check_address: doing rev. dns lookup\n");
/* try reverse dns */
he=rev_resolvehost(ip);
if (he && (strcmp(he->h_name, name)==0))
return 0;
for (i=0; he && he->h_aliases[i];i++){
if (strcmp(he->h_aliases[i],name)==0)
return 0;
}
}
return -1;
}
char * warning_builder( struct sip_msg *msg, unsigned int *returned_len)
{
static char buf[MAX_WARNING_LEN];
static unsigned int fix_len=0;
str *foo;
int print_len;
if (!fix_len)
{
memcpy(buf+fix_len,"Warning: 392 ",13);
fix_len +=13;
memcpy(buf+fix_len, sock_info[0].name.s,sock_info[0].name.len);
fix_len += sock_info[0].name.len;
//*(buf+fix_len++) = ':';
memcpy(buf+fix_len,sock_info[0].port_no_str.s,
sock_info[0].port_no_str.len);
fix_len += sock_info[0].port_no_str.len;
memcpy(buf+fix_len, " \"Noisy feedback tells: ",24);
fix_len += 24;
}
/*adding out_uri*/
if (msg->new_uri.s)
foo=&(msg->new_uri);
else
foo=&(msg->first_line.u.request.uri);
print_len=snprintf(buf+fix_len, MAX_WARNING_LEN-fix_len,
"pid=%d req_src_ip=%s in_uri=%.*s out_uri=%.*s via_cnt%c=%d\"",
my_pid(),
ip_addr2a(&msg->src_ip),
msg->first_line.u.request.uri.len, msg->first_line.u.request.uri.s,
foo->len, foo->s,
msg->parsed_flag & HDR_EOH ? '=' : '>', /* should be = */
via_cnt );
if (print_len==-1) {
*returned_len=0;
return 0;
} else {
*returned_len=fix_len+print_len;
return buf;
}
}
char* received_builder(struct sip_msg *msg, unsigned int *received_len)
{
char *buf;
int len;
struct ip_addr *source_ip;
char *tmp;
int tmp_len;
int extra_len;
extra_len = 0;
source_ip=&msg->src_ip;
buf = 0;
buf=pkg_malloc(sizeof(char)*MAX_RECEIVED_SIZE);
if (buf==0){
ser_error=E_OUT_OF_MEM;
LOG(L_ERR, "ERROR: received_builder: out of memory\n");
return 0;
}
/*
received_len=snprintf(buf, MAX_RECEIVED_SIZE,
";received=%s",
inet_ntoa(*(struct in_addr *)&source_ip));
*/
memcpy(buf, RECEIVED, RECEIVED_LEN);
if ( (tmp=ip_addr2a(source_ip))==0)
return 0; /* error*/
tmp_len=strlen(tmp);
len=RECEIVED_LEN+tmp_len;
if(source_ip->af==AF_INET6){
len+=2;
buf[RECEIVED_LEN]='[';
buf[RECEIVED_LEN+tmp_len+1]=']';
extra_len=1;
}
memcpy(buf+RECEIVED_LEN+extra_len, tmp, tmp_len);
buf[len]=0; /*null terminate it */
*received_len = len;
return buf;
}
/* computes the "unpacked" len of a lump list,
code moved from build_req_from_req */
static inline int lumps_len(struct lump* l)
{
int s_offset;
int new_len;
struct lump* t;
struct lump* r;
s_offset=0;
new_len=0;
for(t=l;t;t=t->next){
for(r=t->before;r;r=r->before){
switch(r->op){
case LUMP_ADD:
new_len+=r->len;
break;
default:
/* only ADD allowed for before/after */
LOG(L_CRIT, "BUG: lumps_len: invalid op "
"for data lump (%x)\n", r->op);
}
}
switch(t->op){
case LUMP_ADD:
new_len+=t->len;
break;
case LUMP_DEL:
/* fix overlapping deleted zones */
if (t->u.offset < s_offset){
/* change len */
if (t->len>s_offset-t->u.offset)
t->len-=s_offset-t->u.offset;
else t->len=0;
t->u.offset=s_offset;
}
s_offset=t->u.offset+t->len;
new_len-=t->len;
break;
case LUMP_NOP:
/* fix offset if overlapping on a deleted zone */
if (t->u.offset < s_offset){
t->u.offset=s_offset;
}else
s_offset=t->u.offset;
/* do nothing */
break;
default:
LOG(L_CRIT,"BUG:lumps_len: invalid"
" op for data lump (%x)\n", r->op);
}
for (r=t->after;r;r=r->after){
switch(r->op){
case LUMP_ADD:
new_len+=r->len;
break;
default:
/* only ADD allowed for before/after */
LOG(L_CRIT, "BUG:lumps_len: invalid"
" op for data lump (%x)\n", r->op);
}
}
}
return new_len;
}
/* another helper functions, adds/Removes the lump,
code moved form build_req_from_req */
static inline void process_lumps( struct lump* l, char* new_buf,
unsigned int* new_buf_offs, char* orig,
unsigned int* orig_offs)
{
struct lump *t;
struct lump *r;
int size;
int offset;
int s_offset;
offset=*new_buf_offs;
s_offset=*orig_offs;
for (t=l;t;t=t->next){
switch(t->op){
case LUMP_ADD:
/* just add it here! */
/* process before */
for(r=t->before;r;r=r->before){
switch (r->op){
case LUMP_ADD:
/*just add it here*/
memcpy(new_buf+offset, r->u.value, r->len);
offset+=r->len;
break;
default:
/* only ADD allowed for before/after */
LOG(L_CRIT, "BUG:process_lumps: "
"invalid op for data lump (%x)\n", r->op);
}
}
/* copy "main" part */
memcpy(new_buf+offset, t->u.value, t->len);
offset+=t->len;
/* process after */
for(r=t->after;r;r=r->after){
switch (r->op){
case LUMP_ADD:
/*just add it here*/
memcpy(new_buf+offset, r->u.value, r->len);
offset+=r->len;
break;
default:
/* only ADD allowed for before/after */
LOG(L_CRIT, "BUG:process_lumps: "
"invalid op for data lump (%x)\n", r->op);
}
}
break;
case LUMP_NOP:
case LUMP_DEL:
/* copy till offset */
if (s_offset>t->u.offset){
DBG("Warning: (%d) overlapped lumps offsets,"
" ignoring(%x, %x)\n", t->op, s_offset,t->u.offset);
/* this should've been fixed above (when computing len) */
/* just ignore it*/
break;
}
size=t->u.offset-s_offset;
if (size){
memcpy(new_buf+offset, orig+s_offset,size);
offset+=size;
s_offset+=size;
}
/* process before */
for(r=t->before;r;r=r->before){
switch (r->op){
case LUMP_ADD:
/*just add it here*/
memcpy(new_buf+offset, r->u.value, r->len);
offset+=r->len;
break;
default:
/* only ADD allowed for before/after */
LOG(L_CRIT, "BUG:process_lumps: "
"invalid op for data lump (%x)\n",r->op);
}
}
/* process main (del only) */
if (t->op==LUMP_DEL){
/* skip len bytes from orig msg */
s_offset+=t->len;
}
/* process after */
for(r=t->after;r;r=r->after){
switch (r->op){
case LUMP_ADD:
/*just add it here*/
memcpy(new_buf+offset, r->u.value, r->len);
offset+=r->len;
break;
default:
/* only ADD allowed for before/after */
LOG(L_CRIT, "BUG:process_lumps: "
"invalid op for data lump (%x)\n", r->op);
}
}
break;
default:
LOG(L_CRIT, "BUG: process_lumps: "
"unknown op (%x)\n", t->op);
}
}
*new_buf_offs=offset;
*orig_offs=s_offset;
}
char * build_req_buf_from_sip_req( struct sip_msg* msg,
unsigned int *returned_len,
struct socket_info* send_sock)
{
unsigned int len, new_len, received_len, uri_len, via_len;
char* line_buf;
char* received_buf;
char* new_buf;
char* orig;
char* buf;
char backup;
unsigned int offset, s_offset, size;
struct lump* anchor;
int r;
uri_len=0;
orig=msg->orig;
buf=msg->buf;
len=msg->len;
received_len=0;
new_buf=0;
received_buf=0;
line_buf = via_builder( &via_len, send_sock,
msg->add_to_branch_s, msg->add_to_branch_len);
if (!line_buf){
LOG(L_ERR,"ERROR: build_req_buf_from_sip_req: no via received!\n");
goto error00;
}
/* check if received needs to be added */
backup = msg->via1->host.s[msg->via1->host.len];
msg->via1->host.s[msg->via1->host.len] = 0;
r=check_address(&msg->src_ip, msg->via1->host.s, received_dns);
msg->via1->host.s[msg->via1->host.len] = backup;
if (r!=0){
if ((received_buf=received_builder(msg,&received_len))==0)
goto error01; /* free also line_buf */
}
/* add via header to the list */
/* try to add it before msg. 1st via */
/* add first via, as an anchor for second via*/
anchor=anchor_lump(&(msg->add_rm), msg->via1->hdr.s-buf, 0, HDR_VIA);
if (anchor==0) goto error01;
if (insert_new_lump_before(anchor, line_buf, via_len, HDR_VIA)==0)
goto error01;
/* if received needs to be added, add anchor after host and add it */
if (received_len){
if (msg->via1->params.s){
size= msg->via1->params.s-msg->via1->hdr.s-1; /*compensate
for ';' */
}else{
size= msg->via1->host.s-msg->via1->hdr.s+msg->via1->host.len;
if (msg->via1->port!=0){
/*size+=strlen(msg->via1->hdr.s+size+1)+1;*/
size += msg->via1->port_str.len + 1; /* +1 for ':'*/
}
#ifdef USE_IPV6
if(send_sock->address.af==AF_INET6) size+=1; /* +1 for ']'*/
#endif
}
anchor=anchor_lump(&(msg->add_rm),msg->via1->hdr.s-buf+size,0,
HDR_VIA);
if (anchor==0) goto error02; /* free also line_buf */
if (insert_new_lump_after(anchor, received_buf, received_len, HDR_VIA)
==0 ) goto error02; /* free also line_buf */
}
/* compute new msg len and fix overlapping zones*/
new_len=len+lumps_len(msg->add_rm);
if (msg->new_uri.s){
uri_len=msg->new_uri.len;
new_len=new_len-msg->first_line.u.request.uri.len+uri_len;
}
new_buf=(char*)pkg_malloc(new_len+1);
if (new_buf==0){
ser_error=E_OUT_OF_MEM;
LOG(L_ERR, "ERROR: build_req_buf_from_sip_req: out of memory\n");
goto error00;
}
offset=s_offset=0;
if (msg->new_uri.s){
/* copy message up to uri */
size=msg->first_line.u.request.uri.s-buf;
memcpy(new_buf, orig, size);
offset+=size;
s_offset+=size;
/* add our uri */
memcpy(new_buf+offset, msg->new_uri.s, uri_len);
offset+=uri_len;
s_offset+=msg->first_line.u.request.uri.len; /* skip original uri */
}
new_buf[new_len]=0;
/* copy msg adding/removing lumps */
process_lumps(msg->add_rm, new_buf, &offset, orig, &s_offset);
/* copy the rest of the message */
memcpy(new_buf+offset, orig+s_offset, len-s_offset);
new_buf[new_len]=0;
#ifdef DBG_MSG_QA
if (new_buf[new_len-1]==0) {
LOG(L_ERR, "ERROR: build_req_buf_from_sip_req: 0 in the end\n");
abort();
}
#endif
*returned_len=new_len;
return new_buf;
error01:
pkg_free(line_buf);
error02:
if (received_buf) pkg_free(received_buf);
error00:
*returned_len=0;
return 0;
}
char * build_res_buf_from_sip_res( struct sip_msg* msg,
unsigned int *returned_len)
{
unsigned int new_len, via_len;
char* new_buf;
unsigned offset, s_offset, via_offset;
char* orig;
char* buf;
unsigned int len;
orig=msg->orig;
buf=msg->buf;
len=msg->len;
new_buf=0;
/* we must remove the first via */
via_len=msg->via1->bsize;
via_offset=msg->via1->hdr.s-buf;
DBG("via len: %d, initial via offset: %d\n", via_len, via_offset);
if (msg->via1->next){
/* add hdr size*/
via_offset+=msg->via1->hdr.len+1;
DBG(" adjusted via len: %d, initial offset: %d\n",
via_len, via_offset);
}else{
/* add hdr size ("Via:")*/
via_len+=msg->via1->hdr.len+1;
}
/* remove the first via*/
if (del_lump( &(msg->repl_add_rm), via_offset, via_len, HDR_VIA)==0){
LOG(L_ERR, "build_res_buf_from_sip_res: error trying to remove first"
"via\n");
goto error;
}
new_len=len+lumps_len(msg->repl_add_rm);
DBG(" old size: %d, new size: %d\n", len, new_len);
new_buf=(char*)pkg_malloc(new_len+1); /* +1 is for debugging
(\0 to print it )*/
if (new_buf==0){
LOG(L_ERR, "ERROR: build_res_buf_from_sip_res: out of mem\n");
goto error;
}
new_buf[new_len]=0; /* debug: print the message */
offset=s_offset=0;
process_lumps(msg->repl_add_rm, new_buf, &offset, orig, &s_offset);
/* copy the rest of the message */
memcpy(new_buf+offset,orig+s_offset, len-s_offset);
/* send it! */
DBG(" copied size: orig:%d, new: %d, rest: %d\n",
s_offset, offset,
len-s_offset );
*returned_len=new_len;
return new_buf;
error:
*returned_len=0;
return 0;
}
char * build_res_buf_from_sip_req( unsigned int code, char *text,
char *new_tag, unsigned int new_tag_len,
struct sip_msg* msg, unsigned int *returned_len)
{
char *buf, *p;
unsigned int len,foo;
struct hdr_field *hdr;
struct lump_rpl *lump;
int i;
char backup;
char *received_buf;
unsigned int received_len;
char *warning;
unsigned int warning_len;
int r;
str to_tag;
received_buf=0;
received_len=0;
buf=0;
/* make -Wall happy */
warning=0;
/* force parsing all headers -- we want to return all
Via's in the reply and they may be scattered down to the
end of header (non-block Vias are a really poor property
of SIP :( ) */
if (parse_headers( msg, HDR_EOH, 0 )==-1) {
LOG(L_ERR, "ERROR: build_res_buf_from_sip_req: "
"alas, parse_headers failed\n");
goto error00;
}
/* check if received needs to be added */
backup = msg->via1->host.s[msg->via1->host.len];
msg->via1->host.s[msg->via1->host.len] = 0;
r=check_address(&msg->src_ip, msg->via1->host.s, received_dns);
msg->via1->host.s[msg->via1->host.len] = backup;
if (r!=0) {
if ((received_buf=received_builder(msg,&received_len))==0) {
LOG(L_ERR, "ERROR: build_res_buf_from_sip_req: "
"alas, received_builder failed\n");
goto error00;
}
}
/*computes the lenght of the new response buffer*/
len = 0;
/* first line */
len += SIP_VERSION_LEN + 1/*space*/ + 3/*code*/ + 1/*space*/ +
strlen(text) + CRLF_LEN/*new line*/;
/*headers that will be copied (TO, FROM, CSEQ,CALLID,VIA)*/
for ( hdr=msg->headers ; hdr ; hdr=hdr->next )
switch (hdr->type)
{
case HDR_TO:
if (new_tag)
{
to_tag=get_to(msg)->tag_value;
if (to_tag.s )
len+=new_tag_len-to_tag.len;
else
len+=new_tag_len+5/*";tag="*/;
}
case HDR_VIA:
if (hdr==msg->h_via1) len += received_len;
case HDR_FROM:
case HDR_CALLID:
case HDR_CSEQ:
case HDR_RECORDROUTE:
len += ((hdr->body.s+hdr->body.len )-hdr->name.s )+CRLF_LEN;
}
/*lumps length*/
for(lump=msg->reply_lump;lump;lump=lump->next)
len += lump->text.len;
if (server_signature) {
/*server header*/
len += SERVER_HDR_LEN + CRLF_LEN;
/*content length header*/
len +=CONTENT_LEN_LEN + CRLF_LEN;
}
if (sip_warning) {
warning = warning_builder(msg,&warning_len);
if (warning==0) {
LOG(L_ERR, "ERROR: warning too big\n");
goto error01;
}
len += warning_len + CRLF_LEN;
}
/* end of message */
len += CRLF_LEN; /*new line*/
/*allocating mem*/
buf = (char*) pkg_malloc( len+1 );
if (!buf)
{
LOG(L_ERR, "ERROR: build_res_buf_from_sip_req: out of memory "
" ; needs %d\n",len);
goto error01;
}
/* filling the buffer*/
p=buf;
/* first line */
memcpy( p , SIP_VERSION , SIP_VERSION_LEN );
p += SIP_VERSION_LEN;
*(p++) = ' ' ;
/*code*/
for ( i=2 , foo = code ; i>=0 ; i-- , foo=foo/10 )
*(p+i) = '0' + foo - ( foo/10 )*10;
p += 3;
*(p++) = ' ' ;
memcpy( p , text , strlen(text) );
p += strlen(text);
memcpy( p, CRLF, CRLF_LEN );
p+=CRLF_LEN;
/* headers*/
for ( hdr=msg->headers ; hdr ; hdr=hdr->next )
switch (hdr->type)
{
case HDR_TO:
if (new_tag){
if (to_tag.s ) {
append_str_trans( p, hdr->name.s ,
to_tag.s-hdr->name.s,msg);
append_str( p, new_tag,new_tag_len,msg);
append_str_trans( p,to_tag.s+to_tag.len,
((hdr->body.s+hdr->body.len )-
(to_tag.s+to_tag.len)),msg);
append_str( p, CRLF,CRLF_LEN,msg);
}else{
append_str_trans( p, hdr->name.s ,
((hdr->body.s+hdr->body.len )-hdr->name.s ),
msg);
append_str( p, ";tag=",5,msg);
append_str( p, new_tag,new_tag_len,msg);
append_str( p, CRLF,CRLF_LEN,msg);
}
break;
}
case HDR_VIA:
append_str_trans( p, hdr->name.s ,
((hdr->body.s+hdr->body.len )-hdr->name.s ),msg);
if (hdr==msg->h_via1 && received_buf)
append_str( p, received_buf, received_len, msg);
append_str( p, CRLF,CRLF_LEN,msg);
break;
case HDR_FROM:
case HDR_CALLID:
case HDR_CSEQ:
case HDR_RECORDROUTE:
append_str_trans( p, hdr->name.s ,
((hdr->body.s+hdr->body.len )-hdr->name.s ),msg);
append_str( p, CRLF,CRLF_LEN,msg);
}
/*lumps*/
for(lump=msg->reply_lump;lump;lump=lump->next)
{
memcpy(p,lump->text.s,lump->text.len);
p += lump->text.len;
}
if (server_signature) {
/*server header*/
memcpy( p, SERVER_HDR , SERVER_HDR_LEN );
p+=SERVER_HDR_LEN;
memcpy( p, CRLF, CRLF_LEN );
p+=CRLF_LEN;
/* content length header*/
memcpy( p, CONTENT_LEN , CONTENT_LEN_LEN );
p+=CONTENT_LEN_LEN;
memcpy( p, CRLF, CRLF_LEN );
p+=CRLF_LEN;
}
if (sip_warning) {
memcpy( p, warning, warning_len);
p+=warning_len;
memcpy( p, CRLF, CRLF_LEN);
p+=CRLF_LEN;
}
/*end of message*/
memcpy( p, CRLF, CRLF_LEN );
p+=CRLF_LEN;
*(p) = 0;
*returned_len = len;
/* in req2reply, received_buf is not introduced to lumps and
needs to be deleted here
*/
if (received_buf) pkg_free(received_buf);
return buf;
error01:
if (received_buf) pkg_free(received_buf);
error00:
*returned_len=0;
return 0;
}
/* return number of chars printed or 0 if space exceeded;
assumes buffer sace of at least MAX_BRANCH_PARAM_LEN
*/
int branch_builder( unsigned int hash_index,
/* only either parameter useful */
unsigned int label, char * char_v,
int branch,
char *branch_str, int *len )
{
char *begin;
int size;
/* no hash_id --- whoever called me wants to have
very simple branch_id
*/
if (hash_index==0) {
*branch_str='0';
*len=1;
return *len;
}
/* hash id provided ... start with it */
size=MAX_BRANCH_PARAM_LEN;
begin=branch_str;
*len=0;
if (int2reverse_hex( &begin, &size, hash_index)==-1)
return 0;
if (size) {
*begin=BRANCH_SEPARATOR;
begin++; size--;
} else return 0;
/* label is set -- use it ... */
if (label) {
if (int2reverse_hex( &begin, &size, label )==-1)
return 0;
} else { /* ... no label -- char value is used */
if (memcpy(begin,char_v,MD5_LEN)) {
begin+=MD5_LEN; size-=MD5_LEN;
} else return 0;
}
if (size) {
*begin=BRANCH_SEPARATOR;
begin++; size--;
} else return 0;
if (int2reverse_hex( &begin, &size, branch)==-1)
return 0;
*len=MAX_BRANCH_PARAM_LEN-size;
return size;
}
char* via_builder( unsigned int *len,
struct socket_info* send_sock,
char *branch, int branch_len )
{
unsigned int via_len, extra_len;
char *line_buf;
int max_len;
max_len=MY_VIA_LEN+send_sock->address_str.len /* space in MY_VIA */
+2 /* just in case it it a v6 address ... [ ] */
+send_sock->port_no_str.len
+MY_BRANCH_LEN+branch_len+CRLF_LEN+1;
line_buf=pkg_malloc( max_len );
if (line_buf==0){
ser_error=E_OUT_OF_MEM;
LOG(L_ERR, "ERROR: via_builder: out of memory\n");
return 0;
}
extra_len=0;
via_len=MY_VIA_LEN+send_sock->address_str.len; /*space included in MY_VIA*/
memcpy(line_buf, MY_VIA, MY_VIA_LEN);
# ifdef USE_IPV6
if (send_sock->address.af==AF_INET6) {
line_buf[MY_VIA_LEN]='[';
line_buf[MY_VIA_LEN+1+send_sock->address_str.len]=']';
extra_len=1;
via_len+=2; /* [ ]*/
}
# endif
memcpy(line_buf+MY_VIA_LEN+extra_len, send_sock->address_str.s,
send_sock->address_str.len);
if (send_sock->port_no!=SIP_PORT){
memcpy(line_buf+via_len, send_sock->port_no_str.s,
send_sock->port_no_str.len);
via_len+=send_sock->port_no_str.len;
}
/* branch parameter */
memcpy(line_buf+via_len, MY_BRANCH, MY_BRANCH_LEN );
via_len+=MY_BRANCH_LEN;
memcpy(line_buf+via_len, branch, branch_len );
via_len+=branch_len;
memcpy(line_buf+via_len, CRLF, CRLF_LEN);
via_len+=CRLF_LEN;
line_buf[via_len]=0; /* null terminate the string*/
*len = via_len;
return line_buf;
}