tor-android/tor-android-binary/src/main/jni/pdnsd/src/ipvers.h

/* ipvers.h - definitions for IPv4 and IPv6

   Copyright (C) 2000, 2001 Thomas Moestl
   Copyright (C) 2003, 2007, 2009 Paul A. Rombouts

  This file is part of the pdnsd package.

  pdnsd 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 3 of the License, or
  (at your option) any later version.

  pdnsd 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 pdnsd; see the file COPYING. If not, see
  <http://www.gnu.org/licenses/>.
*/


#ifndef IPVERS_H
#define IPVERS_H

#include <config.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include "rr_types.h"

#if defined(ENABLE_IPV4) && !defined(ENABLE_IPV6)
# ifdef DEFAULT_IPV4
#  undef DEFAULT_IPV4
# endif
# define DEFAULT_IPV4 1
#endif

#if !defined(ENABLE_IPV4) && defined(ENABLE_IPV6)
# ifdef DEFAULT_IPV4
#  undef DEFAULT_IPV4
# endif
# define DEFAULT_IPV4 0
#endif

#if defined(ENABLE_IPV4) && defined(ENABLE_IPV6)
# define ELSE_IPV6 else
#else
# define ELSE_IPV6
#endif

/* From main.c */
#ifdef ENABLE_IPV4
# ifdef ENABLE_IPV6
extern short int run_ipv4;
extern short int cmdlineipv;
#  define SEL_IPVER(a4,a6)  (run_ipv4? a4: a6)
# else
#  define run_ipv4 1
#  define SEL_IPVER(a4,a6)  (a4)
# endif
#else
#  define run_ipv4 0
#  define SEL_IPVER(a4,a6)  (a6)
#endif
#ifdef ENABLE_IPV6
#define DEFAULT_IPV4_6_PREFIX "::ffff:0.0.0.0"
/* extern short int cmdlineprefix; */
#endif

#if (TARGET==TARGET_LINUX) && !defined(HAVE_STRUCT_IN_PKTINFO)
struct in_pktinfo
{
	int		ipi_ifindex;
	struct in_addr	ipi_spec_dst;
	struct in_addr	ipi_addr;
};
#endif

#if (TARGET==TARGET_LINUX)
/* some older glibc versions seem to lack this. */
# ifndef IP_PKTINFO
#  define IP_PKTINFO 8
# endif
# ifndef CMSG_LEN
/* ---- from glibc 2.1.2 */

/* Ancillary data object manipulation macros.  */
#  if !defined __STRICT_ANSI__ && defined __GNUC__ && __GNUC__ >= 2
#   define CMSG_DATA(cmsg) ((cmsg)->__cmsg_data)
#  else
#   define CMSG_DATA(cmsg) ((unsigned char *) ((struct cmsghdr *) (cmsg) + 1))
#  endif
#  define CMSG_NXTHDR(mhdr, cmsg) __cmsg_nxthdr (mhdr, cmsg)
#  define CMSG_FIRSTHDR(mhdr) \
  ((size_t) (mhdr)->msg_controllen >= sizeof (struct cmsghdr)		      \
   ? (struct cmsghdr *) (mhdr)->msg_control : (struct cmsghdr *) NULL)
#  define CMSG_ALIGN(len) (((len) + sizeof (size_t) - 1) \
			 & ~(sizeof (size_t) - 1))
#  define CMSG_SPACE(len) (CMSG_ALIGN (len) \
			 + CMSG_ALIGN (sizeof (struct cmsghdr)))
#  define CMSG_LEN(len)   (CMSG_ALIGN (sizeof (struct cmsghdr)) + (len))
extern struct cmsghdr *__cmsg_nxthdr __P ((struct msghdr *__mhdr,
					   struct cmsghdr *__cmsg));
#  ifdef __USE_EXTERN_INLINES
#   ifndef _EXTERN_INLINE
#    define _EXTERN_INLINE extern __inline
#   endif
_EXTERN_INLINE struct cmsghdr *
__cmsg_nxthdr (struct msghdr *__mhdr, struct cmsghdr *__cmsg) __THROW
{
  if ((size_t) __cmsg->cmsg_len < sizeof (struct cmsghdr))
    /* The kernel header does this so there may be a reason.  */
    return 0;

  __cmsg = (struct cmsghdr *) ((unsigned char *) __cmsg
			       + CMSG_ALIGN (__cmsg->cmsg_len));
  if ((unsigned char *) (__cmsg + 1) >= ((unsigned char *) __mhdr->msg_control
					 + __mhdr->msg_controllen)
      || ((unsigned char *) __cmsg + CMSG_ALIGN (__cmsg->cmsg_len)
	  >= ((unsigned char *) __mhdr->msg_control + __mhdr->msg_controllen)))
    /* No more entries.  */
    return 0;
  return __cmsg;
}
#  endif	/* Use `extern inline'.  */
/* ---- */
# endif
#endif

#if defined(ENABLE_IPV4) && !defined(SIN_LEN) && (TARGET==TARGET_BSD)
# define SIN_LEN
#endif

#if defined(ENABLE_IPV6) && (TARGET==TARGET_LINUX)

/* Some glibc versions (I know of 2.1.2) get this wrong, so we define our own. To be exact, this is fixed
 * glibc code. */
#ifdef IN6_ARE_ADDR_EQUAL
# undef IN6_ARE_ADDR_EQUAL
#endif
#define IN6_ARE_ADDR_EQUAL(a,b) \
	((((uint32_t *) (a))[0] == ((uint32_t *) (b))[0]) && \
	 (((uint32_t *) (a))[1] == ((uint32_t *) (b))[1]) && \
	 (((uint32_t *) (a))[2] == ((uint32_t *) (b))[2]) && \
	 (((uint32_t *) (a))[3] == ((uint32_t *) (b))[3]))

#endif

/* This is the IPv6 flowid that we pass on to the IPv6 protocol stack. This value was not currently defined
 * at the time of writing. Should this change, define a appropriate flowinfo here. */
#ifndef IPV6_FLOWINFO
#define IPV6_FLOWINFO 0
#endif

/* There does not seem to be a function/macro to generate IPv6-mapped IPv4-Adresses. So here comes mine.
 * Pass an in_addr* and an in6_addr* */
#define IPV6_MAPIPV4(a,b) {((uint32_t *)(b))[3]=(a)->s_addr;		\
			   ((uint32_t *)(b))[2]=htonl(0xffff);		\
			   ((uint32_t *)(b))[1]=((uint32_t *)(b))[0]=0; }

/* A macro to extract the pointer to the address of a struct sockaddr (_in or _in6) */

#define SOCKA_A4(a) ((pdnsd_a *)&((struct sockaddr_in *)(a))->sin_addr)
#define SOCKA_A6(a) ((pdnsd_a *)&((struct sockaddr_in6 *)(a))->sin6_addr)

#define SOCKA_A(a) SEL_IPVER(SOCKA_A4(a),SOCKA_A6(a))
#define PDNSD_PF_INET SEL_IPVER(PF_INET,PF_INET6)
#define PDNSD_AF_INET SEL_IPVER(AF_INET,AF_INET6)

/* This is to compare two addresses. This is a macro because it may change due to the more complex IPv6 adressing architecture
 * (there are, for example, two equivalent addresses of the loopback device)
 * Pass this two addresses as in_addr or in6_addr. pdnsd_a is ok (it is a union) */

#define ADDR_EQUIV4(a,b) (((struct in_addr *)(a))->s_addr==((struct in_addr *)(b))->s_addr)
#define ADDR_EQUIV6(a,b) IN6_ARE_ADDR_EQUAL(((struct in6_addr *)(a)),((struct in6_addr *)(b)))

#define ADDR_EQUIV(a,b) SEL_IPVER(ADDR_EQUIV4(a,b), ADDR_EQUIV6(a,b))

/* Compare an IPv6 adress with an IPv4 one. b should have type struct in_addr*.
   Note the similarity with the IPV6_MAPIPV4 macro. */
#define ADDR_EQUIV6_4(a,b) (((uint32_t *)(a))[3]==(b)->s_addr &&	\
			    ((uint32_t *)(a))[2]==htonl(0xffff) &&	\
			    ((uint32_t *)(a))[1]==0 &&			\
			    ((uint32_t *)(a))[0]==0)

/* Compare two address a and b in combination with a netmask m.
   Only the bits coresponding to those set in the netmask are matched, the rest are ignored.
   Pass in_addr* or in6_addr* arguments, respectively. */
#define ADDR4MASK_EQUIV(a,b,m) ((((a)->s_addr^(b)->s_addr)&(m)->s_addr)==0)
#define ADDR6MASK_EQUIV(a,b,m) (((((uint32_t *)(a))[0]^((uint32_t *)(b))[0])&((uint32_t *)(m))[0])==0 && \
				((((uint32_t *)(a))[1]^((uint32_t *)(b))[1])&((uint32_t *)(m))[1])==0 && \
				((((uint32_t *)(a))[2]^((uint32_t *)(b))[2])&((uint32_t *)(m))[2])==0 && \
				((((uint32_t *)(a))[3]^((uint32_t *)(b))[3])&((uint32_t *)(m))[3])==0)

/* See if we need 4.4BSD style sockaddr_* structures and define some macros that set the length field.
 * The non-4.4BSD behaviour is the only one that is POSIX-conformant.*/
#if defined(SIN6_LEN) || defined(SIN_LEN)
# define BSD44_SOCKA
# define SET_SOCKA_LEN4(socka) (socka.sin_len=sizeof(struct sockaddr_in))
# define SET_SOCKA_LEN6(socka) (socka.sin6_len=sizeof(struct sockaddr_in6))
#else
# define SET_SOCKA_LEN4(socka)
# define SET_SOCKA_LEN6(socka)
#endif

#ifdef ENABLE_IPV6
# define ADDRSTR_MAXLEN INET6_ADDRSTRLEN
#else
# ifdef INET_ADDRSTRLEN
#  define ADDRSTR_MAXLEN INET_ADDRSTRLEN
# else
#  define ADDRSTR_MAXLEN 16
# endif
#endif

#if (TARGET==TARGET_BSD) || (TARGET==TARGET_CYGWIN)
# define SOL_IPV6 IPPROTO_IPV6
#endif

#ifdef ENABLE_IPV6
# ifndef IPV6_RECVPKTINFO
/* This appears to be needed e.g. on Darwin (Mac OS X). */
#  define IPV6_RECVPKTINFO IPV6_PKTINFO
# endif
#endif

typedef union {
#ifdef ENABLE_IPV4
	struct in_addr   ipv4;
#endif
#ifdef ENABLE_IPV6
	struct in6_addr  ipv6;
#endif
} pdnsd_a;

#ifdef ENABLE_IPV4
#define  PDNSD_A_INITIALIZER {{INADDR_ANY}}
#else
#define  PDNSD_A_INITIALIZER {IN6ADDR_ANY_INIT}
#endif


/* The pdnsd_a2 type is very similar to pdnsd_a, but can hold
   both an IPv4 and an IPv6 address at the same time,
   i.e. a struct instead of a union.
*/
typedef struct {
#ifdef ENABLE_IPV6
	struct in6_addr  ipv6;
#endif
	struct in_addr   ipv4;
} pdnsd_a2;

/* Macros/functions for assigning/converting a pdnsd_a* to a pdnsd_a2* type,
   and vice versa.
*/
#ifdef ENABLE_IPV6
inline static void SET_PDNSD_A2(pdnsd_a2 *a2, pdnsd_a *a) __attribute__((always_inline));
inline static void SET_PDNSD_A2(pdnsd_a2 *a2, pdnsd_a *a)
{
#ifdef ENABLE_IPV4
	if(run_ipv4)
		a2->ipv4=a->ipv4;
	else
#endif
	{
		a2->ipv6=a->ipv6;
		a2->ipv4.s_addr=INADDR_ANY;
	}
}
#else
# define SET_PDNSD_A2(a2,a) ((a2)->ipv4=(a)->ipv4)
#endif

#define PDNSD_A2_TO_A(a2) SEL_IPVER(((pdnsd_a *)&(a2)->ipv4),((pdnsd_a *)&(a2)->ipv6))

/* Do we have sufficient support in the C libraries to allow local AAAA records
   to be defined? */
#if defined(HAVE_STRUCT_IN6_ADDR) && defined(HAVE_INET_PTON)
# define ALLOW_LOCAL_AAAA IS_CACHED_AAAA
#else
# define ALLOW_LOCAL_AAAA 0
#endif

/* Used to enter local records */
typedef	union {
	struct in_addr ipv4;
#if ALLOW_LOCAL_AAAA
	struct in6_addr ipv6;
#endif
} pdnsd_ca;


#endif