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ip_addr.h
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ip_addr.h
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/*
* ip address family related structures
*
* Copyright (C) 2001-2003 FhG Fokus
*
* This file is part of opensips, a free SIP server.
*
* opensips 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
*
* opensips 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
*
* History:
* --------
* 2003-02-13 added struct dest_info (andrei)
* 2003-04-06 all ports are stored/passed in host byte order now (andrei)
*/
/*!
* \file
* \brief ip address family related structures
*/
#ifndef ip_addr_h
#define ip_addr_h
#include <string.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <netdb.h>
#include "str.h"
#include "dprint.h"
#define MAX_RECV_BUFFER_SIZE 256*1024
#define MAX_SEND_BUFFER_SIZE 512*1024
#define BUFFER_INCREMENT 2048
#define HEX2I(c) \
( (((c)>='0') && ((c)<='9'))? (c)-'0' : \
(((c)>='A') && ((c)<='F'))? ((c)-'A')+10 : \
(((c)>='a') && ((c)<='f'))? ((c)-'a')+10 : -1 )
enum sip_protos { PROTO_NONE = 0, PROTO_FIRST = 1, PROTO_UDP = 1, \
PROTO_TCP, PROTO_TLS, PROTO_SCTP, PROTO_WS, PROTO_WSS, PROTO_BIN,
PROTO_BINS, PROTO_HEP_UDP, PROTO_HEP_TCP, PROTO_HEP_TLS, PROTO_SMPP, PROTO_MSRP,
PROTO_MSRPS, PROTO_OTHER };
#define PROTO_LAST PROTO_OTHER
struct ip_addr{
unsigned int af; /*!< address family: AF_INET6 or AF_INET */
unsigned int len; /*!< address len, 16 or 4 */
/*! \brief 64 bits aligned address */
union {
unsigned long addrl[16/sizeof(long)]; /*!< long format*/
unsigned int addr32[4];
unsigned short addr16[8];
unsigned char addr[16];
}u;
};
struct net{
struct ip_addr ip;
struct ip_addr mask;
};
union sockaddr_union{
struct sockaddr s;
struct sockaddr_in sin;
struct sockaddr_in6 sin6;
};
enum si_flags { SI_NONE=0, SI_IS_IP=1, SI_IS_LO=2, SI_IS_MCAST=4,
SI_IS_ANYCAST=8, SI_FRAG=16, SI_REUSEPORT=32 };
struct receive_info {
struct ip_addr src_ip;
struct ip_addr dst_ip;
unsigned short src_port; /*!< host byte order */
unsigned short dst_port; /*!< host byte order */
int proto;
unsigned int proto_reserved1; /*!< tcp stores the connection id here */
unsigned int proto_reserved2;
union sockaddr_union src_su; /*!< useful for replies*/
const struct socket_info* bind_address; /*!< sock_info structure on which the msg was received*/
/* no need for dst_su yet */
};
struct dest_info {
int proto;
unsigned int proto_reserved1; /*!< tcp stores the connection id here */
union sockaddr_union to;
const struct socket_info* send_sock;
};
struct socket_id {
char* name;
char* adv_name;
char* tag;
char* auto_scaling_profile;
int adv_port;
int proto;
int port;
int workers;
enum si_flags flags;
struct socket_id* next;
};
/* len of the sockaddr */
#ifdef HAVE_SOCKADDR_SA_LEN
#define sockaddru_len(su) ((su).s.sa_len)
#else
#define sockaddru_len(su) \
(((su).s.sa_family==AF_INET6)?sizeof(struct sockaddr_in6):\
sizeof(struct sockaddr_in))
#endif /* HAVE_SOCKADDR_SA_LEN*/
/*! \brief inits an ip_addr with the addr. info from a hostent structure
* ip = struct ip_addr*
* he= struct hostent*
*/
#define hostent2ip_addr(ip, he, addr_no) \
do{ \
(ip)->af=(he)->h_addrtype; \
(ip)->len=(he)->h_length; \
memcpy((ip)->u.addr, (he)->h_addr_list[(addr_no)], (ip)->len); \
}while(0)
#define get_su_info(_su, _ip_char, _port_no) \
do { \
struct ip_addr __ip; \
sockaddr2ip_addr( &__ip, (struct sockaddr*)_su ); \
_ip_char = ip_addr2a(&__ip); \
_port_no = su_getport( (union sockaddr_union*)(void *)_su); \
} while(0)
/* gets the protocol family corresponding to a specific address family
* ( PF_INET - AF_INET, PF_INET6 - AF_INET6, af for others)
*/
#define AF2PF(af) (((af)==AF_INET)?PF_INET:((af)==AF_INET6)?PF_INET6:(af))
/* check if a socket_info is marked as anycast */
#define is_anycast(_si) (_si->flags & SI_IS_ANYCAST)
/* checks if the given protocol is a SIP one (versus HEP, BIN, SMPP, etc)
* we rely here on the fact at all the SIP protos are in a sequance */
#define is_sip_proto(_proto) (PROTO_UDP<=(_proto) && (_proto)<=PROTO_WSS)
struct net* mk_net(const struct ip_addr* ip, struct ip_addr* mask);
struct net* mk_net_bitlen(const struct ip_addr* ip, unsigned int bitlen);
/* parse a (struct net) out of a CIDR v4 or v6 address such as 1.2.3.4/28 */
int mk_net_cidr(const str *cidr, struct net *out_net);
void print_ip(char* prefix, const struct ip_addr* ip, char* suffix);
void stdout_print_ip(struct ip_addr* ip);
void print_net(struct net* net);
int ip_addr_is_1918(str *s_ip, int check_rfc_6333);
#ifdef USE_MCAST
/*! \brief Returns 1 if the given address is a multicast address */
int is_mcast(struct ip_addr* ip);
#endif /* USE_MCAST */
/*! \brief returns 1 if ip & net.mask == net.ip ; 0 otherwise & -1 on error
[ diff. address families ]) */
inline static int matchnet(struct ip_addr* ip, struct net* net)
{
unsigned int r;
/* int ret;
ret=-1; */
if (ip->af == net->ip.af){
for(r=0; r<ip->len/4; r++){ /* ipv4 & ipv6 addresses are
all multiple of 4*/
if ((ip->u.addr32[r]&net->mask.u.addr32[r])!=
net->ip.u.addr32[r]){
return 0;
}
}
return 1;
};
return -1;
}
/*! \brief inits an ip_addr pointer from a sockaddr structure*/
static inline void sockaddr2ip_addr(struct ip_addr* ip, const struct sockaddr* sa)
{
void *copyfrom;
switch(sa->sa_family){
case AF_INET:
ip->af=AF_INET;
ip->len=4;
copyfrom = &((struct sockaddr_in*)(void *)sa)->sin_addr;
break;
case AF_INET6:
ip->af=AF_INET6;
ip->len=16;
copyfrom = &((struct sockaddr_in6*)(void *)sa)->sin6_addr;
break;
default:
LM_CRIT("unknown address family %d\n", sa->sa_family);
/* clear the structure to prevent uninitialized warnings */
ip->af=sa->sa_family;
return;
}
memcpy(ip->u.addr, copyfrom, ip->len);
}
/*! \brief compare 2 ip_addrs (both args are pointers)*/
#define ip_addr_cmp(ip1, ip2) \
(((ip1)->af==(ip2)->af)&& \
(memcmp((ip1)->u.addr, (ip2)->u.addr, (ip1)->len)==0))
/*! \brief compare 2 sockaddr_unions */
static inline int su_cmp(union sockaddr_union* s1, union sockaddr_union* s2)
{
if (s1->s.sa_family!=s2->s.sa_family) return 0;
switch(s1->s.sa_family){
case AF_INET:
return (s1->sin.sin_port==s2->sin.sin_port)&&
(memcmp(&s1->sin.sin_addr, &s2->sin.sin_addr, 4)==0);
case AF_INET6:
return (s1->sin6.sin6_port==s2->sin6.sin6_port)&&
(memcmp(&s1->sin6.sin6_addr, &s2->sin6.sin6_addr, 16)==0);
default:
LM_CRIT("unknown address family %d\n",
s1->s.sa_family);
return 0;
}
}
/*! \brief gets the port number (host byte order) */
static inline unsigned short su_getport(const union sockaddr_union* su)
{
if(su==0)
return 0;
switch(su->s.sa_family){
case AF_INET:
return ntohs(su->sin.sin_port);
case AF_INET6:
return ntohs(su->sin6.sin6_port);
default:
LM_CRIT("unknown address family %d\n", su->s.sa_family);
return 0;
}
}
/*! \brief sets the port number (host byte order) */
static inline void su_setport(union sockaddr_union* su, unsigned short port)
{
switch(su->s.sa_family){
case AF_INET:
su->sin.sin_port=htons(port);
break;
case AF_INET6:
su->sin6.sin6_port=htons(port);
break;
default:
LM_CRIT("unknown address family %d\n", su->s.sa_family);
}
}
/*! \brief inits an ip_addr pointer from a sockaddr_union ip address */
static inline void su2ip_addr(struct ip_addr* ip, const union sockaddr_union* su)
{
switch(su->s.sa_family){
case AF_INET:
ip->af=AF_INET;
ip->len=4;
memcpy(ip->u.addr, &su->sin.sin_addr, 4);
break;
case AF_INET6:
ip->af=AF_INET6;
ip->len=16;
memcpy(ip->u.addr, &su->sin6.sin6_addr, 16);
break;
default:
LM_CRIT("Unknown address family %d\n", su->s.sa_family);
ip->af=0;
ip->len=0;
}
}
/*! \brief ip_addr2su -> the same as \ref init_su() */
#define ip_addr2su init_su
/*! \brief inits a struct sockaddr_union from a struct ip_addr and a port no
* \return 0 if ok, -1 on error (unknown address family)
* \note the port number is in host byte order */
static inline int init_su( union sockaddr_union* su,
const struct ip_addr* ip,
unsigned short port )
{
memset(su, 0, sizeof(union sockaddr_union));/*needed on freebsd*/
su->s.sa_family=ip->af;
switch(ip->af){
case AF_INET6:
memcpy(&su->sin6.sin6_addr, ip->u.addr, ip->len);
#ifdef HAVE_SOCKADDR_SA_LEN
su->sin6.sin6_len=sizeof(struct sockaddr_in6);
#endif
su->sin6.sin6_port=htons(port);
break;
case AF_INET:
memcpy(&su->sin.sin_addr, ip->u.addr, ip->len);
#ifdef HAVE_SOCKADDR_SA_LEN
su->sin.sin_len=sizeof(struct sockaddr_in);
#endif
su->sin.sin_port=htons(port);
break;
default:
LM_CRIT("unknown address family %d\n", ip->af);
return -1;
}
return 0;
}
/*! \brief inits a struct sockaddr_union from a struct hostent, an address index in
* the hostent structure and a port no. (host byte order)
* WARNING: no index overflow checks!
* \return 0 if ok, -1 on error (unknown address family) */
static inline int hostent2su( union sockaddr_union* su,
const struct hostent* he,
unsigned int idx,
unsigned short port )
{
memset(su, 0, sizeof(union sockaddr_union)); /*needed on freebsd*/
su->s.sa_family=he->h_addrtype;
switch(he->h_addrtype){
case AF_INET6:
memcpy(&su->sin6.sin6_addr, he->h_addr_list[idx], he->h_length);
#ifdef HAVE_SOCKADDR_SA_LEN
su->sin6.sin6_len=sizeof(struct sockaddr_in6);
#endif
su->sin6.sin6_port=htons(port);
break;
case AF_INET:
memcpy(&su->sin.sin_addr, he->h_addr_list[idx], he->h_length);
#ifdef HAVE_SOCKADDR_SA_LEN
su->sin.sin_len=sizeof(struct sockaddr_in);
#endif
su->sin.sin_port=htons(port);
break;
default:
LM_CRIT("unknown address family %d\n", he->h_addrtype);
return -1;
}
return 0;
}
/*! \brief maximum size of a str returned by ip_addr2a (including \\0') */
#define IP_ADDR_MAX_STR_SIZE 40 /* 1234:5678:9012:3456:7890:1234:5678:9012\0 */
#define IP_ADDR2STR_BUF_NO 4
/*! \brief fast ip_addr -> string converter;
* it uses an internal buffer
*/
extern char _ip_addr_A_buffs[IP_ADDR2STR_BUF_NO][IP_ADDR_MAX_STR_SIZE];
static inline char* ip_addr2a(struct ip_addr* ip)
{
static unsigned int it = 0;
int offset;
register unsigned char a,b,c;
register unsigned char d;
register unsigned short hex4;
int r;
char *_ip_addr_A_buff;
#define HEXDIG(x) (((x)>=10)?(x)-10+'A':(x)+'0')
if ((++it)==IP_ADDR2STR_BUF_NO) it = 0;
_ip_addr_A_buff = _ip_addr_A_buffs[it];
offset=0;
switch(ip->af){
case AF_INET6:
for(r=0;r<7;r++){
hex4=ntohs(ip->u.addr16[r]);
a=hex4>>12;
b=(hex4>>8)&0xf;
c=(hex4>>4)&0xf;
d=hex4&0xf;
if (a){
_ip_addr_A_buff[offset]=HEXDIG(a);
_ip_addr_A_buff[offset+1]=HEXDIG(b);
_ip_addr_A_buff[offset+2]=HEXDIG(c);
_ip_addr_A_buff[offset+3]=HEXDIG(d);
_ip_addr_A_buff[offset+4]=':';
offset+=5;
}else if(b){
_ip_addr_A_buff[offset]=HEXDIG(b);
_ip_addr_A_buff[offset+1]=HEXDIG(c);
_ip_addr_A_buff[offset+2]=HEXDIG(d);
_ip_addr_A_buff[offset+3]=':';
offset+=4;
}else if(c){
_ip_addr_A_buff[offset]=HEXDIG(c);
_ip_addr_A_buff[offset+1]=HEXDIG(d);
_ip_addr_A_buff[offset+2]=':';
offset+=3;
}else{
_ip_addr_A_buff[offset]=HEXDIG(d);
_ip_addr_A_buff[offset+1]=':';
offset+=2;
}
}
/* last int16*/
hex4=ntohs(ip->u.addr16[r]);
a=hex4>>12;
b=(hex4>>8)&0xf;
c=(hex4>>4)&0xf;
d=hex4&0xf;
if (a){
_ip_addr_A_buff[offset]=HEXDIG(a);
_ip_addr_A_buff[offset+1]=HEXDIG(b);
_ip_addr_A_buff[offset+2]=HEXDIG(c);
_ip_addr_A_buff[offset+3]=HEXDIG(d);
_ip_addr_A_buff[offset+4]=0;
}else if(b){
_ip_addr_A_buff[offset]=HEXDIG(b);
_ip_addr_A_buff[offset+1]=HEXDIG(c);
_ip_addr_A_buff[offset+2]=HEXDIG(d);
_ip_addr_A_buff[offset+3]=0;
}else if(c){
_ip_addr_A_buff[offset]=HEXDIG(c);
_ip_addr_A_buff[offset+1]=HEXDIG(d);
_ip_addr_A_buff[offset+2]=0;
}else{
_ip_addr_A_buff[offset]=HEXDIG(d);
_ip_addr_A_buff[offset+1]=0;
}
break;
case AF_INET:
for(r=0;r<3;r++){
a=ip->u.addr[r]/100;
c=ip->u.addr[r]%10;
b=ip->u.addr[r]%100/10;
if (a){
_ip_addr_A_buff[offset]=a+'0';
_ip_addr_A_buff[offset+1]=b+'0';
_ip_addr_A_buff[offset+2]=c+'0';
_ip_addr_A_buff[offset+3]='.';
offset+=4;
}else if (b){
_ip_addr_A_buff[offset]=b+'0';
_ip_addr_A_buff[offset+1]=c+'0';
_ip_addr_A_buff[offset+2]='.';
offset+=3;
}else{
_ip_addr_A_buff[offset]=c+'0';
_ip_addr_A_buff[offset+1]='.';
offset+=2;
}
}
/* last number */
a=ip->u.addr[r]/100;
c=ip->u.addr[r]%10;
b=ip->u.addr[r]%100/10;
if (a){
_ip_addr_A_buff[offset]=a+'0';
_ip_addr_A_buff[offset+1]=b+'0';
_ip_addr_A_buff[offset+2]=c+'0';
_ip_addr_A_buff[offset+3]=0;
}else if (b){
_ip_addr_A_buff[offset]=b+'0';
_ip_addr_A_buff[offset+1]=c+'0';
_ip_addr_A_buff[offset+2]=0;
}else{
_ip_addr_A_buff[offset]=c+'0';
_ip_addr_A_buff[offset+1]=0;
}
break;
default:
LM_CRIT("unknown address family %d\n", ip->af);
_ip_addr_A_buff[0] = '\0';
}
return _ip_addr_A_buff;
}
/*! \brief converts a str to an ipv4 address, returns the address or 0 on error
Warning: the result is a pointer to a statically allocated structure */
static inline struct ip_addr* str2ip(str* st)
{
int i, j;
unsigned char *limit;
static struct ip_addr ip;
unsigned char *s;
if (st == NULL || st->s == NULL) goto error_null;
s=(unsigned char*)st->s;
/*init*/
ip.u.addr32[0]=0;
i=j=0;
limit=(unsigned char*)(st->s + st->len);
/* first char must be different than '0' */
if ((*s > '9' ) || (*s < '0')) goto error_char;
ip.u.addr[i]=ip.u.addr[i]*10+*s-'0';
s++;
j++;
for(;s<limit ;s++){
if (*s=='.'){
i++;
j=0;
if (i>3) goto error_dots;
s++;
if (s==limit) break;
if ( (*s <= '9' ) && (*s >= '0') ){
j++;
ip.u.addr[i]=ip.u.addr[i]*10+*s-'0';
} else {
goto error_char;
}
}else if ( (j==1) && (*s <= '9' ) && (*s >= '0') ){
/* if first char is '0' then fail conversion */
if (ip.u.addr[i]==0) goto error_char;
j++;
ip.u.addr[i]=ip.u.addr[i]*10+*s-'0';
}else if ( (j==2) && (*s <= '9' ) && (*s >= '0') ){
/* if first two chars are bigger then '25' then fail conversion */
if (ip.u.addr[i]>25) goto error_char;
/* if first three chars are bigger then '255' then fail conversion */
if (ip.u.addr[i]==25 && *s > '5') goto error_char;
j++;
ip.u.addr[i]=ip.u.addr[i]*10+*s-'0';
}else{
//error unknown char
goto error_char;
}
}
if (i<3) goto error_dots;
ip.af=AF_INET;
ip.len=4;
return &ip;
error_null:
LM_DBG("Null pointer detected\n");
return NULL;
error_dots:
LM_DBG("too %s dots in [%.*s]\n", (i>3)?"many":"few",
st->len, st->s);
return NULL;
error_char:
/*
LM_ERR("unexpected char [%p]->[%c] in [%p]->[%.*s] while i=[%d] j=[%d]\n",
s, *s, st->s, st->len, st->s, i, j);
*/
return NULL;
}
/*! \brief returns an ip_addr struct.; on error returns 0
* the ip_addr struct is static, so subsequent calls will destroy its content*/
static inline struct ip_addr* str2ip6(str* st)
{
int i, idx1, rest;
int no_colons;
int double_colon;
int hex;
static struct ip_addr ip;
unsigned short* addr_start;
unsigned short addr_end[8];
unsigned short* addr;
unsigned char* limit;
unsigned char* s;
if (st == NULL || st->s == NULL) goto error_char;
/* init */
if ((st->len) && (st->s[0]=='[')){
/* skip over [ ] */
if (st->s[st->len-1]!=']') goto error_char;
s=(unsigned char*)(st->s+1);
limit=(unsigned char*)(st->s+st->len-1);
}else{
s=(unsigned char*)st->s;
limit=(unsigned char*)(st->s+st->len);
}
i=idx1=rest=0;
double_colon=0;
no_colons=0;
ip.af=AF_INET6;
ip.len=16;
addr_start=ip.u.addr16;
addr=addr_start;
memset(addr_start, 0 , 8*sizeof(unsigned short));
memset(addr_end, 0 , 8*sizeof(unsigned short));
for (; s<limit; s++){
if (*s==':'){
no_colons++;
if (no_colons>7) goto error_too_many_colons;
if (double_colon){
idx1=i;
i=0;
if (addr==addr_end) goto error_colons;
addr=addr_end;
}else{
double_colon=1;
addr[i]=htons(addr[i]);
i++;
}
}else if ((hex=HEX2I(*s))>=0){
addr[i]=addr[i]*16+hex;
double_colon=0;
}else{
/* error, unknown char */
goto error_char;
}
}
if (!double_colon){ /* not ending in ':' */
addr[i]=htons(addr[i]);
i++;
}
/* if address contained '::' fix it */
if (addr==addr_end){
rest=8-i-idx1;
memcpy(addr_start+idx1+rest, addr_end, i*sizeof(unsigned short));
}else{
/* no double colons inside */
if (no_colons<7) goto error_too_few_colons;
}
/*
DBG("str2ip6: idx1=%d, rest=%d, no_colons=%d, hex=%x\n",
idx1, rest, no_colons, hex);
DBG("str2ip6: address %x:%x:%x:%x:%x:%x:%x:%x\n",
addr_start[0], addr_start[1], addr_start[2],
addr_start[3], addr_start[4], addr_start[5],
addr_start[6], addr_start[7] );
*/
return &ip;
error_too_many_colons:
LM_DBG("too many colons in [%.*s]\n", st->len, st->s);
return 0;
error_too_few_colons:
LM_DBG("too few colons in [%.*s]\n", st->len, st->s);
return 0;
error_colons:
LM_DBG("too many double colons in [%.*s]\n", st->len, st->s);
return 0;
error_char:
/*
DBG("str2ip6: WARNING: unexpected char %c in [%.*s]\n", *s, st->len,
st->s);*/
return 0;
}
/*! \brief converts an ip_addr structure to a hostent
* \return pointer to internal statical structure */
static inline struct hostent* ip_addr2he(str* name, struct ip_addr* ip)
{
static struct hostent he;
static char hostname[256];
static char* p_aliases[1];
static char* p_addr[2];
static char address[16];
int len;
p_aliases[0]=0; /* no aliases*/
p_addr[1]=0; /* only one address*/
p_addr[0]=address;
len = (name->len < 255) ? name->len : 255;
strncpy(hostname, name->s, len);
hostname[len] = 0;
if (ip->len>16) return 0;
memcpy(address, ip->u.addr, ip->len);
he.h_addrtype=ip->af;
he.h_length=ip->len;
he.h_addr_list=p_addr;
he.h_aliases=p_aliases;
he.h_name=hostname;
return &he;
}
#endif