diff options
Diffstat (limited to 'sys/contrib/ipfilter/netinet/fil.c')
-rw-r--r-- | sys/contrib/ipfilter/netinet/fil.c | 7319 |
1 files changed, 7319 insertions, 0 deletions
diff --git a/sys/contrib/ipfilter/netinet/fil.c b/sys/contrib/ipfilter/netinet/fil.c new file mode 100644 index 0000000..014fb0f --- /dev/null +++ b/sys/contrib/ipfilter/netinet/fil.c @@ -0,0 +1,7319 @@ +/* $FreeBSD$ */ + +/* + * Copyright (C) 1993-2003 by Darren Reed. + * + * See the IPFILTER.LICENCE file for details on licencing. + */ +#if defined(KERNEL) || defined(_KERNEL) +# undef KERNEL +# undef _KERNEL +# define KERNEL 1 +# define _KERNEL 1 +#endif +#include <sys/errno.h> +#include <sys/types.h> +#include <sys/param.h> +#include <sys/time.h> +#if defined(__NetBSD__) +# if (NetBSD >= 199905) && !defined(IPFILTER_LKM) && defined(_KERNEL) +# if (__NetBSD_Version__ < 399001400) +# include "opt_ipfilter_log.h" +# else +# include "opt_ipfilter.h" +# endif +# endif +#endif +#if defined(_KERNEL) && defined(__FreeBSD_version) && \ + (__FreeBSD_version >= 220000) +# if (__FreeBSD_version >= 400000) +# if !defined(IPFILTER_LKM) +# include "opt_inet6.h" +# endif +# if (__FreeBSD_version == 400019) +# define CSUM_DELAY_DATA +# endif +# endif +# include <sys/filio.h> +#else +# include <sys/ioctl.h> +#endif +#if (defined(__SVR4) || defined(__svr4__)) && defined(sun) +# include <sys/filio.h> +#endif +#if !defined(_AIX51) +# include <sys/fcntl.h> +#endif +#if defined(_KERNEL) +# include <sys/systm.h> +# include <sys/file.h> +#else +# include <stdio.h> +# include <string.h> +# include <stdlib.h> +# include <stddef.h> +# include <sys/file.h> +# define _KERNEL +# ifdef __OpenBSD__ +struct file; +# endif +# include <sys/uio.h> +# undef _KERNEL +#endif +#if !defined(__SVR4) && !defined(__svr4__) && !defined(__hpux) && \ + !defined(linux) +# include <sys/mbuf.h> +#else +# if !defined(linux) +# include <sys/byteorder.h> +# endif +# if (SOLARIS2 < 5) && defined(sun) +# include <sys/dditypes.h> +# endif +#endif +#ifdef __hpux +# define _NET_ROUTE_INCLUDED +#endif +#if !defined(linux) +# include <sys/protosw.h> +#endif +#include <sys/socket.h> +#include <net/if.h> +#ifdef sun +# include <net/af.h> +#endif +#if !defined(_KERNEL) && defined(__FreeBSD__) +# if (__FreeBSD_version >= 504000) +# undef _RADIX_H_ +# endif +# include "radix_ipf.h" +#endif +#ifdef __osf__ +# include "radix_ipf.h" +#else +# include <net/route.h> +#endif +#include <netinet/in.h> +#include <netinet/in_systm.h> +#include <netinet/ip.h> +#if !defined(linux) +# include <netinet/ip_var.h> +#endif +#if defined(__sgi) && defined(IFF_DRVRLOCK) /* IRIX 6 */ +# include <sys/hashing.h> +# include <netinet/in_var.h> +#endif +#include <netinet/tcp.h> +#if (!defined(__sgi) && !defined(AIX)) || defined(_KERNEL) +# include <netinet/udp.h> +# include <netinet/ip_icmp.h> +#endif +#ifdef __hpux +# undef _NET_ROUTE_INCLUDED +#endif +#ifdef __osf__ +# undef _RADIX_H_ +#endif +#include "netinet/ip_compat.h" +#ifdef USE_INET6 +# include <netinet/icmp6.h> +# if !SOLARIS && defined(_KERNEL) && !defined(__osf__) && !defined(__hpux) +# include <netinet6/in6_var.h> +# endif +#endif +#include <netinet/tcpip.h> +#include "netinet/ip_fil.h" +#include "netinet/ip_nat.h" +#include "netinet/ip_frag.h" +#include "netinet/ip_state.h" +#include "netinet/ip_proxy.h" +#include "netinet/ip_auth.h" +#ifdef IPFILTER_SCAN +# include "netinet/ip_scan.h" +#endif +#ifdef IPFILTER_SYNC +# include "netinet/ip_sync.h" +#endif +#include "netinet/ip_pool.h" +#include "netinet/ip_htable.h" +#ifdef IPFILTER_COMPILED +# include "netinet/ip_rules.h" +#endif +#if defined(IPFILTER_BPF) && defined(_KERNEL) +# include <net/bpf.h> +#endif +#if defined(__FreeBSD_version) && (__FreeBSD_version >= 300000) +# include <sys/malloc.h> +# if defined(_KERNEL) && !defined(IPFILTER_LKM) +# include "opt_ipfilter.h" +# endif +#endif +#include "netinet/ipl.h" +/* END OF INCLUDES */ + +#include <machine/in_cksum.h> + +#if !defined(lint) +static const char sccsid[] = "@(#)fil.c 1.36 6/5/96 (C) 1993-2000 Darren Reed"; +static const char rcsid[] = "@(#)$FreeBSD$"; +/* static const char rcsid[] = "@(#)$Id: fil.c,v 2.243.2.78 2006/03/29 11:19:54 darrenr Exp $"; */ +#endif + +#ifndef _KERNEL +# include "ipf.h" +# include "ipt.h" +# include "bpf-ipf.h" +extern int opts; +#endif /* _KERNEL */ + + +fr_info_t frcache[2][8]; +struct filterstats frstats[2]; +struct frentry *ipfilter[2][2] = { { NULL, NULL }, { NULL, NULL } }, + *ipfilter6[2][2] = { { NULL, NULL }, { NULL, NULL } }, + *ipacct6[2][2] = { { NULL, NULL }, { NULL, NULL } }, + *ipacct[2][2] = { { NULL, NULL }, { NULL, NULL } }, + *ipnatrules[2][2] = { { NULL, NULL }, { NULL, NULL } }; +struct frgroup *ipfgroups[IPL_LOGSIZE][2]; +char ipfilter_version[] = IPL_VERSION; +int fr_refcnt = 0; +/* + * For fr_running: + * 0 == loading, 1 = running, -1 = disabled, -2 = unloading + */ +int fr_running = 0; +int fr_flags = IPF_LOGGING; +int fr_active = 0; +int fr_control_forwarding = 0; +int fr_update_ipid = 0; +u_short fr_ip_id = 0; +int fr_chksrc = 0; /* causes a system crash if enabled */ +int fr_minttl = 4; +int fr_icmpminfragmtu = 68; +u_long fr_frouteok[2] = {0, 0}; +u_long fr_userifqs = 0; +u_long fr_badcoalesces[2] = {0, 0}; +u_char ipf_iss_secret[32]; +#if defined(IPFILTER_DEFAULT_BLOCK) +int fr_pass = FR_BLOCK|FR_NOMATCH; +#else +int fr_pass = (IPF_DEFAULT_PASS)|FR_NOMATCH; +#endif +int fr_features = 0 +#ifdef IPFILTER_LKM + | IPF_FEAT_LKM +#endif +#ifdef IPFILTER_LOG + | IPF_FEAT_LOG +#endif +#ifdef IPFILTER_LOOKUP + | IPF_FEAT_LOOKUP +#endif +#ifdef IPFILTER_BPF + | IPF_FEAT_BPF +#endif +#ifdef IPFILTER_COMPILED + | IPF_FEAT_COMPILED +#endif +#ifdef IPFILTER_CKSUM + | IPF_FEAT_CKSUM +#endif +#ifdef IPFILTER_SYNC + | IPF_FEAT_SYNC +#endif +#ifdef IPFILTER_SCAN + | IPF_FEAT_SCAN +#endif +#ifdef USE_INET6 + | IPF_FEAT_IPV6 +#endif + ; + +static INLINE int fr_ipfcheck __P((fr_info_t *, frentry_t *, int)); +static int fr_portcheck __P((frpcmp_t *, u_short *)); +static int frflushlist __P((int, minor_t, int *, frentry_t **)); +static ipfunc_t fr_findfunc __P((ipfunc_t)); +static frentry_t *fr_firewall __P((fr_info_t *, u_32_t *)); +static int fr_funcinit __P((frentry_t *fr)); +static INLINE void frpr_ah __P((fr_info_t *)); +static INLINE void frpr_esp __P((fr_info_t *)); +static INLINE void frpr_gre __P((fr_info_t *)); +static INLINE void frpr_udp __P((fr_info_t *)); +static INLINE void frpr_tcp __P((fr_info_t *)); +static INLINE void frpr_icmp __P((fr_info_t *)); +static INLINE void frpr_ipv4hdr __P((fr_info_t *)); +static INLINE int frpr_pullup __P((fr_info_t *, int)); +static INLINE void frpr_short __P((fr_info_t *, int)); +static INLINE int frpr_tcpcommon __P((fr_info_t *)); +static INLINE int frpr_udpcommon __P((fr_info_t *)); +static int fr_updateipid __P((fr_info_t *)); +#ifdef IPFILTER_LOOKUP +static int fr_grpmapinit __P((frentry_t *fr)); +static INLINE void *fr_resolvelookup __P((u_int, u_int, i6addr_t *, lookupfunc_t *)); +#endif +static void frsynclist __P((frentry_t *, void *)); +static ipftuneable_t *fr_findtunebyname __P((const char *)); +static ipftuneable_t *fr_findtunebycookie __P((void *, void **)); +static int ipf_geniter __P((ipftoken_t *, ipfgeniter_t *)); +static int ipf_frruleiter __P((void *, int, void *)); +static void ipf_unlinktoken __P((ipftoken_t *)); + + +/* + * bit values for identifying presence of individual IP options + * All of these tables should be ordered by increasing key value on the left + * hand side to allow for binary searching of the array and include a trailer + * with a 0 for the bitmask for linear searches to easily find the end with. + */ +const struct optlist ipopts[20] = { + { IPOPT_NOP, 0x000001 }, + { IPOPT_RR, 0x000002 }, + { IPOPT_ZSU, 0x000004 }, + { IPOPT_MTUP, 0x000008 }, + { IPOPT_MTUR, 0x000010 }, + { IPOPT_ENCODE, 0x000020 }, + { IPOPT_TS, 0x000040 }, + { IPOPT_TR, 0x000080 }, + { IPOPT_SECURITY, 0x000100 }, + { IPOPT_LSRR, 0x000200 }, + { IPOPT_E_SEC, 0x000400 }, + { IPOPT_CIPSO, 0x000800 }, + { IPOPT_SATID, 0x001000 }, + { IPOPT_SSRR, 0x002000 }, + { IPOPT_ADDEXT, 0x004000 }, + { IPOPT_VISA, 0x008000 }, + { IPOPT_IMITD, 0x010000 }, + { IPOPT_EIP, 0x020000 }, + { IPOPT_FINN, 0x040000 }, + { 0, 0x000000 } +}; + +#ifdef USE_INET6 +struct optlist ip6exthdr[] = { + { IPPROTO_HOPOPTS, 0x000001 }, + { IPPROTO_IPV6, 0x000002 }, + { IPPROTO_ROUTING, 0x000004 }, + { IPPROTO_FRAGMENT, 0x000008 }, + { IPPROTO_ESP, 0x000010 }, + { IPPROTO_AH, 0x000020 }, + { IPPROTO_NONE, 0x000040 }, + { IPPROTO_DSTOPTS, 0x000080 }, + { IPPROTO_MOBILITY, 0x000100 }, + { 0, 0 } +}; +#endif + +struct optlist tcpopts[] = { + { TCPOPT_NOP, 0x000001 }, + { TCPOPT_MAXSEG, 0x000002 }, + { TCPOPT_WINDOW, 0x000004 }, + { TCPOPT_SACK_PERMITTED, 0x000008 }, + { TCPOPT_SACK, 0x000010 }, + { TCPOPT_TIMESTAMP, 0x000020 }, + { 0, 0x000000 } +}; + +/* + * bit values for identifying presence of individual IP security options + */ +const struct optlist secopt[8] = { + { IPSO_CLASS_RES4, 0x01 }, + { IPSO_CLASS_TOPS, 0x02 }, + { IPSO_CLASS_SECR, 0x04 }, + { IPSO_CLASS_RES3, 0x08 }, + { IPSO_CLASS_CONF, 0x10 }, + { IPSO_CLASS_UNCL, 0x20 }, + { IPSO_CLASS_RES2, 0x40 }, + { IPSO_CLASS_RES1, 0x80 } +}; + + +/* + * Table of functions available for use with call rules. + */ +static ipfunc_resolve_t fr_availfuncs[] = { +#ifdef IPFILTER_LOOKUP + { "fr_srcgrpmap", fr_srcgrpmap, fr_grpmapinit }, + { "fr_dstgrpmap", fr_dstgrpmap, fr_grpmapinit }, +#endif + { "", NULL, NULL } +}; + + +/* + * The next section of code is a a collection of small routines that set + * fields in the fr_info_t structure passed based on properties of the + * current packet. There are different routines for the same protocol + * for each of IPv4 and IPv6. Adding a new protocol, for which there + * will "special" inspection for setup, is now more easily done by adding + * a new routine and expanding the frpr_ipinit*() function rather than by + * adding more code to a growing switch statement. + */ +#ifdef USE_INET6 +static INLINE int frpr_ah6 __P((fr_info_t *)); +static INLINE void frpr_esp6 __P((fr_info_t *)); +static INLINE void frpr_gre6 __P((fr_info_t *)); +static INLINE void frpr_udp6 __P((fr_info_t *)); +static INLINE void frpr_tcp6 __P((fr_info_t *)); +static INLINE void frpr_icmp6 __P((fr_info_t *)); +static INLINE int frpr_ipv6hdr __P((fr_info_t *)); +static INLINE void frpr_short6 __P((fr_info_t *, int)); +static INLINE int frpr_hopopts6 __P((fr_info_t *)); +static INLINE int frpr_mobility6 __P((fr_info_t *)); +static INLINE int frpr_routing6 __P((fr_info_t *)); +static INLINE int frpr_dstopts6 __P((fr_info_t *)); +static INLINE void frpr_fragment6 __P((fr_info_t *)); +static INLINE int frpr_ipv6exthdr __P((fr_info_t *, int, int)); + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_short6 */ +/* Returns: void */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* IPv6 Only */ +/* This is function enforces the 'is a packet too short to be legit' rule */ +/* for IPv6 and marks the packet with FI_SHORT if so. See function comment */ +/* for frpr_short() for more details. */ +/* ------------------------------------------------------------------------ */ +static INLINE void frpr_short6(fin, xmin) +fr_info_t *fin; +int xmin; +{ + + if (fin->fin_dlen < xmin) + fin->fin_flx |= FI_SHORT; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_ipv6hdr */ +/* Returns: int - 0 = IPv6 packet intact, -1 = packet lost */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* IPv6 Only */ +/* Copy values from the IPv6 header into the fr_info_t struct and call the */ +/* per-protocol analyzer if it exists. In validating the packet, a protocol*/ +/* analyzer may pullup or free the packet itself so we need to be vigiliant */ +/* of that possibility arising. */ +/* ------------------------------------------------------------------------ */ +static INLINE int frpr_ipv6hdr(fin) +fr_info_t *fin; +{ + ip6_t *ip6 = (ip6_t *)fin->fin_ip; + int p, go = 1, i, hdrcount; + fr_ip_t *fi = &fin->fin_fi; + + fin->fin_off = 0; + + fi->fi_tos = 0; + fi->fi_optmsk = 0; + fi->fi_secmsk = 0; + fi->fi_auth = 0; + + p = ip6->ip6_nxt; + fi->fi_ttl = ip6->ip6_hlim; + fi->fi_src.in6 = ip6->ip6_src; + fi->fi_dst.in6 = ip6->ip6_dst; + fin->fin_id = (u_short)(ip6->ip6_flow & 0xffff); + + hdrcount = 0; + while (go && !(fin->fin_flx & (FI_BAD|FI_SHORT))) { + switch (p) + { + case IPPROTO_UDP : + frpr_udp6(fin); + go = 0; + break; + + case IPPROTO_TCP : + frpr_tcp6(fin); + go = 0; + break; + + case IPPROTO_ICMPV6 : + frpr_icmp6(fin); + go = 0; + break; + + case IPPROTO_GRE : + frpr_gre6(fin); + go = 0; + break; + + case IPPROTO_HOPOPTS : + p = frpr_hopopts6(fin); + break; + + case IPPROTO_MOBILITY : + p = frpr_mobility6(fin); + break; + + case IPPROTO_DSTOPTS : + p = frpr_dstopts6(fin); + break; + + case IPPROTO_ROUTING : + p = frpr_routing6(fin); + break; + + case IPPROTO_AH : + p = frpr_ah6(fin); + break; + + case IPPROTO_ESP : + frpr_esp6(fin); + go = 0; + break; + + case IPPROTO_IPV6 : + for (i = 0; ip6exthdr[i].ol_bit != 0; i++) + if (ip6exthdr[i].ol_val == p) { + fin->fin_flx |= ip6exthdr[i].ol_bit; + break; + } + go = 0; + break; + + case IPPROTO_NONE : + go = 0; + break; + + case IPPROTO_FRAGMENT : + frpr_fragment6(fin); + go = 0; + break; + + default : + go = 0; + break; + } + hdrcount++; + + /* + * It is important to note that at this point, for the + * extension headers (go != 0), the entire header may not have + * been pulled up when the code gets to this point. This is + * only done for "go != 0" because the other header handlers + * will all pullup their complete header. The other indicator + * of an incomplete packet is that this was just an extension + * header. + */ + if ((go != 0) && (p != IPPROTO_NONE) && + (frpr_pullup(fin, 0) == -1)) { + p = IPPROTO_NONE; + go = 0; + } + } + fi->fi_p = p; + + /* + * Some of the above functions, like frpr_esp6(), can call fr_pullup + * and destroy whatever packet was here. The caller of this function + * expects us to return -1 if there is a problem with fr_pullup. + */ + if (fin->fin_m == NULL) + return -1; + + return 0; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_ipv6exthdr */ +/* Returns: int - value of the next header or IPPROTO_NONE if error */ +/* Parameters: fin(I) - pointer to packet information */ +/* multiple(I) - flag indicating yes/no if multiple occurances */ +/* of this extension header are allowed. */ +/* proto(I) - protocol number for this extension header */ +/* */ +/* IPv6 Only */ +/* ------------------------------------------------------------------------ */ +static INLINE int frpr_ipv6exthdr(fin, multiple, proto) +fr_info_t *fin; +int multiple, proto; +{ + struct ip6_ext *hdr; + u_short shift; + int i; + + fin->fin_flx |= FI_V6EXTHDR; + + /* 8 is default length of extension hdr */ + if ((fin->fin_dlen - 8) < 0) { + fin->fin_flx |= FI_SHORT; + return IPPROTO_NONE; + } + + if (frpr_pullup(fin, 8) == -1) + return IPPROTO_NONE; + + hdr = fin->fin_dp; + switch (proto) + { + case IPPROTO_FRAGMENT : + shift = 8; + break; + default : + shift = 8 + (hdr->ip6e_len << 3); + break; + } + + if (shift > fin->fin_dlen) { /* Nasty extension header length? */ + fin->fin_flx |= FI_BAD; + return IPPROTO_NONE; + } + + for (i = 0; ip6exthdr[i].ol_bit != 0; i++) + if (ip6exthdr[i].ol_val == proto) { + /* + * Most IPv6 extension headers are only allowed once. + */ + if ((multiple == 0) && + ((fin->fin_optmsk & ip6exthdr[i].ol_bit) != 0)) + fin->fin_flx |= FI_BAD; + else + fin->fin_optmsk |= ip6exthdr[i].ol_bit; + break; + } + + fin->fin_exthdr = fin->fin_dp; + fin->fin_dp = (char *)fin->fin_dp + shift; + fin->fin_dlen -= shift; + + return hdr->ip6e_nxt; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_hopopts6 */ +/* Returns: int - value of the next header or IPPROTO_NONE if error */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* IPv6 Only */ +/* This is function checks pending hop by hop options extension header */ +/* ------------------------------------------------------------------------ */ +static INLINE int frpr_hopopts6(fin) +fr_info_t *fin; +{ + return frpr_ipv6exthdr(fin, 0, IPPROTO_HOPOPTS); +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_mobility6 */ +/* Returns: int - value of the next header or IPPROTO_NONE if error */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* IPv6 Only */ +/* This is function checks the IPv6 mobility extension header */ +/* ------------------------------------------------------------------------ */ +static INLINE int frpr_mobility6(fin) +fr_info_t *fin; +{ + return frpr_ipv6exthdr(fin, 0, IPPROTO_MOBILITY); +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_routing6 */ +/* Returns: int - value of the next header or IPPROTO_NONE if error */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* IPv6 Only */ +/* This is function checks pending routing extension header */ +/* ------------------------------------------------------------------------ */ +static INLINE int frpr_routing6(fin) +fr_info_t *fin; +{ + struct ip6_ext *hdr; + + if (frpr_ipv6exthdr(fin, 0, IPPROTO_ROUTING) == IPPROTO_NONE) + return IPPROTO_NONE; + hdr = fin->fin_exthdr; + + if ((hdr->ip6e_len & 1) != 0) { + /* + * The routing header data is made up of 128 bit IPv6 addresses + * which means it must be a multiple of 2 lots of 8 in length. + */ + fin->fin_flx |= FI_BAD; + /* + * Compensate for the changes made in frpr_ipv6exthdr() + */ + fin->fin_dlen += 8 + (hdr->ip6e_len << 3); + fin->fin_dp = hdr; + return IPPROTO_NONE; + } + + return hdr->ip6e_nxt; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_fragment6 */ +/* Returns: void */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* IPv6 Only */ +/* Examine the IPv6 fragment header and extract fragment offset information.*/ +/* */ +/* We don't know where the transport layer header (or whatever is next is), */ +/* as it could be behind destination options (amongst others). Because */ +/* there is no fragment cache, there is no knowledge about whether or not an*/ +/* upper layer header has been seen (or where it ends) and thus we are not */ +/* able to continue processing beyond this header with any confidence. */ +/* ------------------------------------------------------------------------ */ +static INLINE void frpr_fragment6(fin) +fr_info_t *fin; +{ + struct ip6_frag *frag; + int extoff; + + fin->fin_flx |= FI_FRAG; + + if (frpr_ipv6exthdr(fin, 0, IPPROTO_FRAGMENT) == IPPROTO_NONE) + return; + + extoff = (char *)fin->fin_exthdr - (char *)fin->fin_dp; + + if (frpr_pullup(fin, sizeof(*frag)) == -1) + return; + + fin->fin_exthdr = (char *)fin->fin_dp + extoff; + frag = fin->fin_exthdr; + /* + * Fragment but no fragmentation info set? Bad packet... + */ + if (frag->ip6f_offlg == 0) { + fin->fin_flx |= FI_BAD; + return; + } + + fin->fin_off = frag->ip6f_offlg & IP6F_OFF_MASK; + fin->fin_off <<= 3; + if (fin->fin_off != 0) + fin->fin_flx |= FI_FRAGBODY; + + fin->fin_dp = (char *)fin->fin_dp + sizeof(*frag); + fin->fin_dlen -= sizeof(*frag); +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_dstopts6 */ +/* Returns: int - value of the next header or IPPROTO_NONE if error */ +/* Parameters: fin(I) - pointer to packet information */ +/* nextheader(I) - stores next header value */ +/* */ +/* IPv6 Only */ +/* This is function checks pending destination options extension header */ +/* ------------------------------------------------------------------------ */ +static INLINE int frpr_dstopts6(fin) +fr_info_t *fin; +{ + return frpr_ipv6exthdr(fin, 1, IPPROTO_DSTOPTS); +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_icmp6 */ +/* Returns: void */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* IPv6 Only */ +/* This routine is mainly concerned with determining the minimum valid size */ +/* for an ICMPv6 packet. */ +/* ------------------------------------------------------------------------ */ +static INLINE void frpr_icmp6(fin) +fr_info_t *fin; +{ + int minicmpsz = sizeof(struct icmp6_hdr); + struct icmp6_hdr *icmp6; + + if (frpr_pullup(fin, ICMP6ERR_MINPKTLEN - sizeof(ip6_t)) == -1) + return; + + if (fin->fin_dlen > 1) { + ip6_t *ip6; + + icmp6 = fin->fin_dp; + + fin->fin_data[0] = *(u_short *)icmp6; + + switch (icmp6->icmp6_type) + { + case ICMP6_ECHO_REPLY : + case ICMP6_ECHO_REQUEST : + minicmpsz = ICMP6ERR_MINPKTLEN - sizeof(ip6_t); + break; + case ICMP6_DST_UNREACH : + case ICMP6_PACKET_TOO_BIG : + case ICMP6_TIME_EXCEEDED : + case ICMP6_PARAM_PROB : + fin->fin_flx |= FI_ICMPERR; + if ((fin->fin_m != NULL) && + (M_LEN(fin->fin_m) < fin->fin_plen)) { + if (fr_coalesce(fin) != 1) + return; + } + + if (frpr_pullup(fin, ICMP6ERR_MINPKTLEN) == -1) + return; + + /* + * If the destination of this packet doesn't match the + * source of the original packet then this packet is + * not correct. + */ + icmp6 = fin->fin_dp; + ip6 = (ip6_t *)((char *)icmp6 + ICMPERR_ICMPHLEN); + if (IP6_NEQ(&fin->fin_fi.fi_dst, + (i6addr_t *)&ip6->ip6_src)) + fin->fin_flx |= FI_BAD; + + minicmpsz = ICMP6ERR_IPICMPHLEN - sizeof(ip6_t); + break; + default : + break; + } + } + + frpr_short6(fin, minicmpsz); +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_udp6 */ +/* Returns: void */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* IPv6 Only */ +/* Analyse the packet for IPv6/UDP properties. */ +/* Is not expected to be called for fragmented packets. */ +/* ------------------------------------------------------------------------ */ +static INLINE void frpr_udp6(fin) +fr_info_t *fin; +{ + + frpr_short6(fin, sizeof(struct udphdr)); + + if (frpr_udpcommon(fin) == 0) { + u_char p = fin->fin_p; + + fin->fin_p = IPPROTO_UDP; + fr_checkv6sum(fin); + fin->fin_p = p; + } +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_tcp6 */ +/* Returns: void */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* IPv6 Only */ +/* Analyse the packet for IPv6/TCP properties. */ +/* Is not expected to be called for fragmented packets. */ +/* ------------------------------------------------------------------------ */ +static INLINE void frpr_tcp6(fin) +fr_info_t *fin; +{ + + frpr_short6(fin, sizeof(struct tcphdr)); + + if (frpr_tcpcommon(fin) == 0) { + u_char p = fin->fin_p; + + fin->fin_p = IPPROTO_TCP; + fr_checkv6sum(fin); + fin->fin_p = p; + } +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_esp6 */ +/* Returns: void */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* IPv6 Only */ +/* Analyse the packet for ESP properties. */ +/* The minimum length is taken to be the SPI (32bits) plus a tail (32bits) */ +/* even though the newer ESP packets must also have a sequence number that */ +/* is 32bits as well, it is not possible(?) to determine the version from a */ +/* simple packet header. */ +/* ------------------------------------------------------------------------ */ +static INLINE void frpr_esp6(fin) +fr_info_t *fin; +{ + + frpr_short6(fin, sizeof(grehdr_t)); + + (void) frpr_pullup(fin, 8); +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_ah6 */ +/* Returns: void */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* IPv6 Only */ +/* Analyse the packet for AH properties. */ +/* The minimum length is taken to be the combination of all fields in the */ +/* header being present and no authentication data (null algorithm used.) */ +/* ------------------------------------------------------------------------ */ +static INLINE int frpr_ah6(fin) +fr_info_t *fin; +{ + authhdr_t *ah; + + frpr_short6(fin, 12); + + if (frpr_pullup(fin, sizeof(*ah)) == -1) + return IPPROTO_NONE; + + ah = (authhdr_t *)fin->fin_dp; + return ah->ah_next; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_gre6 */ +/* Returns: void */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* Analyse the packet for GRE properties. */ +/* ------------------------------------------------------------------------ */ +static INLINE void frpr_gre6(fin) +fr_info_t *fin; +{ + grehdr_t *gre; + + frpr_short6(fin, sizeof(grehdr_t)); + + if (frpr_pullup(fin, sizeof(grehdr_t)) == -1) + return; + + gre = fin->fin_dp; + if (GRE_REV(gre->gr_flags) == 1) + fin->fin_data[0] = gre->gr_call; +} +#endif /* USE_INET6 */ + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_pullup */ +/* Returns: int - 0 == pullup succeeded, -1 == failure */ +/* Parameters: fin(I) - pointer to packet information */ +/* plen(I) - length (excluding L3 header) to pullup */ +/* */ +/* Short inline function to cut down on code duplication to perform a call */ +/* to fr_pullup to ensure there is the required amount of data, */ +/* consecutively in the packet buffer. */ +/* ------------------------------------------------------------------------ */ +static INLINE int frpr_pullup(fin, plen) +fr_info_t *fin; +int plen; +{ + if (fin->fin_m != NULL) { + if (fin->fin_dp != NULL) + plen += (char *)fin->fin_dp - + ((char *)fin->fin_ip + fin->fin_hlen); + plen += fin->fin_hlen; + if (M_LEN(fin->fin_m) < plen) { +#if defined(_KERNEL) + if (fr_pullup(fin->fin_m, fin, plen) == NULL) + return -1; +#else + /* + * Fake fr_pullup failing + */ + *fin->fin_mp = NULL; + fin->fin_m = NULL; + fin->fin_ip = NULL; + return -1; +#endif + } + } + return 0; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_short */ +/* Returns: void */ +/* Parameters: fin(I) - pointer to packet information */ +/* xmin(I) - minimum header size */ +/* */ +/* Check if a packet is "short" as defined by xmin. The rule we are */ +/* applying here is that the packet must not be fragmented within the layer */ +/* 4 header. That is, it must not be a fragment that has its offset set to */ +/* start within the layer 4 header (hdrmin) or if it is at offset 0, the */ +/* entire layer 4 header must be present (min). */ +/* ------------------------------------------------------------------------ */ +static INLINE void frpr_short(fin, xmin) +fr_info_t *fin; +int xmin; +{ + + if (fin->fin_off == 0) { + if (fin->fin_dlen < xmin) + fin->fin_flx |= FI_SHORT; + } else if (fin->fin_off < xmin) { + fin->fin_flx |= FI_SHORT; + } +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_icmp */ +/* Returns: void */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* IPv4 Only */ +/* Do a sanity check on the packet for ICMP (v4). In nearly all cases, */ +/* except extrememly bad packets, both type and code will be present. */ +/* The expected minimum size of an ICMP packet is very much dependent on */ +/* the type of it. */ +/* */ +/* XXX - other ICMP sanity checks? */ +/* ------------------------------------------------------------------------ */ +static INLINE void frpr_icmp(fin) +fr_info_t *fin; +{ + int minicmpsz = sizeof(struct icmp); + icmphdr_t *icmp; + ip_t *oip; + + if (fin->fin_off != 0) { + frpr_short(fin, ICMPERR_ICMPHLEN); + return; + } + + if (frpr_pullup(fin, ICMPERR_ICMPHLEN) == -1) + return; + + if (fin->fin_dlen > 1) { + icmp = fin->fin_dp; + + fin->fin_data[0] = *(u_short *)icmp; + + switch (icmp->icmp_type) + { + case ICMP_ECHOREPLY : + case ICMP_ECHO : + /* Router discovery messaes - RFC 1256 */ + case ICMP_ROUTERADVERT : + case ICMP_ROUTERSOLICIT : + minicmpsz = ICMP_MINLEN; + break; + /* + * type(1) + code(1) + cksum(2) + id(2) seq(2) + + * 3 * timestamp(3 * 4) + */ + case ICMP_TSTAMP : + case ICMP_TSTAMPREPLY : + minicmpsz = 20; + break; + /* + * type(1) + code(1) + cksum(2) + id(2) seq(2) + + * mask(4) + */ + case ICMP_MASKREQ : + case ICMP_MASKREPLY : + minicmpsz = 12; + break; + /* + * type(1) + code(1) + cksum(2) + id(2) seq(2) + ip(20+) + */ + case ICMP_UNREACH : +#ifdef icmp_nextmtu + if (icmp->icmp_code == ICMP_UNREACH_NEEDFRAG) { + if (icmp->icmp_nextmtu < fr_icmpminfragmtu) + fin->fin_flx |= FI_BAD; + } +#endif + case ICMP_SOURCEQUENCH : + case ICMP_REDIRECT : + case ICMP_TIMXCEED : + case ICMP_PARAMPROB : + fin->fin_flx |= FI_ICMPERR; + if (fr_coalesce(fin) != 1) + return; + /* + * ICMP error packets should not be generated for IP + * packets that are a fragment that isn't the first + * fragment. + */ + oip = (ip_t *)((char *)fin->fin_dp + ICMPERR_ICMPHLEN); + if ((ntohs(oip->ip_off) & IP_OFFMASK) != 0) + fin->fin_flx |= FI_BAD; + + /* + * If the destination of this packet doesn't match the + * source of the original packet then this packet is + * not correct. + */ + if (oip->ip_src.s_addr != fin->fin_daddr) + fin->fin_flx |= FI_BAD; + + /* + * If the destination of this packet doesn't match the + * source of the original packet then this packet is + * not correct. + */ + if (oip->ip_src.s_addr != fin->fin_daddr) + fin->fin_flx |= FI_BAD; + break; + default : + break; + } + + if (fin->fin_dlen >= 6) /* ID field */ + fin->fin_data[1] = icmp->icmp_id; + } + + frpr_short(fin, minicmpsz); + + fr_checkv4sum(fin); +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_tcpcommon */ +/* Returns: int - 0 = header ok, 1 = bad packet, -1 = buffer error */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* TCP header sanity checking. Look for bad combinations of TCP flags, */ +/* and make some checks with how they interact with other fields. */ +/* If compiled with IPFILTER_CKSUM, check to see if the TCP checksum is */ +/* valid and mark the packet as bad if not. */ +/* ------------------------------------------------------------------------ */ +static INLINE int frpr_tcpcommon(fin) +fr_info_t *fin; +{ + int flags, tlen; + tcphdr_t *tcp; + + fin->fin_flx |= FI_TCPUDP; + if (fin->fin_off != 0) + return 0; + + if (frpr_pullup(fin, sizeof(*tcp)) == -1) + return -1; + tcp = fin->fin_dp; + + if (fin->fin_dlen > 3) { + fin->fin_sport = ntohs(tcp->th_sport); + fin->fin_dport = ntohs(tcp->th_dport); + } + + if ((fin->fin_flx & FI_SHORT) != 0) + return 1; + + /* + * Use of the TCP data offset *must* result in a value that is at + * least the same size as the TCP header. + */ + tlen = TCP_OFF(tcp) << 2; + if (tlen < sizeof(tcphdr_t)) { + fin->fin_flx |= FI_BAD; + return 1; + } + + flags = tcp->th_flags; + fin->fin_tcpf = tcp->th_flags; + + /* + * If the urgent flag is set, then the urgent pointer must + * also be set and vice versa. Good TCP packets do not have + * just one of these set. + */ + if ((flags & TH_URG) != 0 && (tcp->th_urp == 0)) { + fin->fin_flx |= FI_BAD; +#if 0 + } else if ((flags & TH_URG) == 0 && (tcp->th_urp != 0)) { + /* + * Ignore this case (#if 0) as it shows up in "real" + * traffic with bogus values in the urgent pointer field. + */ + fin->fin_flx |= FI_BAD; +#endif + } else if (((flags & (TH_SYN|TH_FIN)) != 0) && + ((flags & (TH_RST|TH_ACK)) == TH_RST)) { + /* TH_FIN|TH_RST|TH_ACK seems to appear "naturally" */ + fin->fin_flx |= FI_BAD; +#if 1 + } else if (((flags & TH_SYN) != 0) && + ((flags & (TH_URG|TH_PUSH)) != 0)) { + /* + * SYN with URG and PUSH set is not for normal TCP but it is + * possible(?) with T/TCP...but who uses T/TCP? + */ + fin->fin_flx |= FI_BAD; +#endif + } else if (!(flags & TH_ACK)) { + /* + * If the ack bit isn't set, then either the SYN or + * RST bit must be set. If the SYN bit is set, then + * we expect the ACK field to be 0. If the ACK is + * not set and if URG, PSH or FIN are set, consdier + * that to indicate a bad TCP packet. + */ + if ((flags == TH_SYN) && (tcp->th_ack != 0)) { + /* + * Cisco PIX sets the ACK field to a random value. + * In light of this, do not set FI_BAD until a patch + * is available from Cisco to ensure that + * interoperability between existing systems is + * achieved. + */ + /*fin->fin_flx |= FI_BAD*/; + } else if (!(flags & (TH_RST|TH_SYN))) { + fin->fin_flx |= FI_BAD; + } else if ((flags & (TH_URG|TH_PUSH|TH_FIN)) != 0) { + fin->fin_flx |= FI_BAD; + } + } + + /* + * At this point, it's not exactly clear what is to be gained by + * marking up which TCP options are and are not present. The one we + * are most interested in is the TCP window scale. This is only in + * a SYN packet [RFC1323] so we don't need this here...? + * Now if we were to analyse the header for passive fingerprinting, + * then that might add some weight to adding this... + */ + if (tlen == sizeof(tcphdr_t)) + return 0; + + if (frpr_pullup(fin, tlen) == -1) + return -1; + +#if 0 + ip = fin->fin_ip; + s = (u_char *)(tcp + 1); + off = IP_HL(ip) << 2; +# ifdef _KERNEL + if (fin->fin_mp != NULL) { + mb_t *m = *fin->fin_mp; + + if (off + tlen > M_LEN(m)) + return; + } +# endif + for (tlen -= (int)sizeof(*tcp); tlen > 0; ) { + opt = *s; + if (opt == '\0') + break; + else if (opt == TCPOPT_NOP) + ol = 1; + else { + if (tlen < 2) + break; + ol = (int)*(s + 1); + if (ol < 2 || ol > tlen) + break; + } + + for (i = 9, mv = 4; mv >= 0; ) { + op = ipopts + i; + if (opt == (u_char)op->ol_val) { + optmsk |= op->ol_bit; + break; + } + } + tlen -= ol; + s += ol; + } +#endif /* 0 */ + + return 0; +} + + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_udpcommon */ +/* Returns: int - 0 = header ok, 1 = bad packet */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* Extract the UDP source and destination ports, if present. If compiled */ +/* with IPFILTER_CKSUM, check to see if the UDP checksum is valid. */ +/* ------------------------------------------------------------------------ */ +static INLINE int frpr_udpcommon(fin) +fr_info_t *fin; +{ + udphdr_t *udp; + + fin->fin_flx |= FI_TCPUDP; + + if (!fin->fin_off && (fin->fin_dlen > 3)) { + if (frpr_pullup(fin, sizeof(*udp)) == -1) { + fin->fin_flx |= FI_SHORT; + return 1; + } + + udp = fin->fin_dp; + + fin->fin_sport = ntohs(udp->uh_sport); + fin->fin_dport = ntohs(udp->uh_dport); + } + + return 0; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_tcp */ +/* Returns: void */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* IPv4 Only */ +/* Analyse the packet for IPv4/TCP properties. */ +/* ------------------------------------------------------------------------ */ +static INLINE void frpr_tcp(fin) +fr_info_t *fin; +{ + + frpr_short(fin, sizeof(tcphdr_t)); + + if (frpr_tcpcommon(fin) == 0) + fr_checkv4sum(fin); +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_udp */ +/* Returns: void */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* IPv4 Only */ +/* Analyse the packet for IPv4/UDP properties. */ +/* ------------------------------------------------------------------------ */ +static INLINE void frpr_udp(fin) +fr_info_t *fin; +{ + + frpr_short(fin, sizeof(udphdr_t)); + + if (frpr_udpcommon(fin) == 0) + fr_checkv4sum(fin); +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_esp */ +/* Returns: void */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* Analyse the packet for ESP properties. */ +/* The minimum length is taken to be the SPI (32bits) plus a tail (32bits) */ +/* even though the newer ESP packets must also have a sequence number that */ +/* is 32bits as well, it is not possible(?) to determine the version from a */ +/* simple packet header. */ +/* ------------------------------------------------------------------------ */ +static INLINE void frpr_esp(fin) +fr_info_t *fin; +{ + + if (fin->fin_off == 0) { + frpr_short(fin, 8); + (void) frpr_pullup(fin, 8); + } + +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_ah */ +/* Returns: void */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* Analyse the packet for AH properties. */ +/* The minimum length is taken to be the combination of all fields in the */ +/* header being present and no authentication data (null algorithm used.) */ +/* ------------------------------------------------------------------------ */ +static INLINE void frpr_ah(fin) +fr_info_t *fin; +{ + authhdr_t *ah; + int len; + + frpr_short(fin, sizeof(*ah)); + + if (((fin->fin_flx & FI_SHORT) != 0) || (fin->fin_off != 0)) + return; + + if (frpr_pullup(fin, sizeof(*ah)) == -1) + return; + + ah = (authhdr_t *)fin->fin_dp; + + len = (ah->ah_plen + 2) << 2; + frpr_short(fin, len); +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_gre */ +/* Returns: void */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* Analyse the packet for GRE properties. */ +/* ------------------------------------------------------------------------ */ +static INLINE void frpr_gre(fin) +fr_info_t *fin; +{ + grehdr_t *gre; + + frpr_short(fin, sizeof(*gre)); + + if (fin->fin_off != 0) + return; + + if (frpr_pullup(fin, sizeof(*gre)) == -1) + return; + + if (fin->fin_off == 0) { + gre = fin->fin_dp; + if (GRE_REV(gre->gr_flags) == 1) + fin->fin_data[0] = gre->gr_call; + } +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frpr_ipv4hdr */ +/* Returns: void */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* IPv4 Only */ +/* Analyze the IPv4 header and set fields in the fr_info_t structure. */ +/* Check all options present and flag their presence if any exist. */ +/* ------------------------------------------------------------------------ */ +static INLINE void frpr_ipv4hdr(fin) +fr_info_t *fin; +{ + u_short optmsk = 0, secmsk = 0, auth = 0; + int hlen, ol, mv, p, i; + const struct optlist *op; + u_char *s, opt; + u_short off; + fr_ip_t *fi; + ip_t *ip; + + fi = &fin->fin_fi; + hlen = fin->fin_hlen; + + ip = fin->fin_ip; + p = ip->ip_p; + fi->fi_p = p; + fi->fi_tos = ip->ip_tos; + fin->fin_id = ip->ip_id; + off = ip->ip_off; + + /* Get both TTL and protocol */ + fi->fi_p = ip->ip_p; + fi->fi_ttl = ip->ip_ttl; +#if 0 + (*(((u_short *)fi) + 1)) = (*(((u_short *)ip) + 4)); +#endif + + /* Zero out bits not used in IPv6 address */ + fi->fi_src.i6[1] = 0; + fi->fi_src.i6[2] = 0; + fi->fi_src.i6[3] = 0; + fi->fi_dst.i6[1] = 0; + fi->fi_dst.i6[2] = 0; + fi->fi_dst.i6[3] = 0; + + fi->fi_saddr = ip->ip_src.s_addr; + fi->fi_daddr = ip->ip_dst.s_addr; + + /* + * set packet attribute flags based on the offset and + * calculate the byte offset that it represents. + */ + off &= IP_MF|IP_OFFMASK; + if (off != 0) { + int morefrag = off & IP_MF; + + fi->fi_flx |= FI_FRAG; + off &= IP_OFFMASK; + if (off != 0) { + fin->fin_flx |= FI_FRAGBODY; + off <<= 3; + if ((off + fin->fin_dlen > 65535) || + (fin->fin_dlen == 0) || + ((morefrag != 0) && ((fin->fin_dlen & 7) != 0))) { + /* + * The length of the packet, starting at its + * offset cannot exceed 65535 (0xffff) as the + * length of an IP packet is only 16 bits. + * + * Any fragment that isn't the last fragment + * must have a length greater than 0 and it + * must be an even multiple of 8. + */ + fi->fi_flx |= FI_BAD; + } + } + } + fin->fin_off = off; + + /* + * Call per-protocol setup and checking + */ + switch (p) + { + case IPPROTO_UDP : + frpr_udp(fin); + break; + case IPPROTO_TCP : + frpr_tcp(fin); + break; + case IPPROTO_ICMP : + frpr_icmp(fin); + break; + case IPPROTO_AH : + frpr_ah(fin); + break; + case IPPROTO_ESP : + frpr_esp(fin); + break; + case IPPROTO_GRE : + frpr_gre(fin); + break; + } + + ip = fin->fin_ip; + if (ip == NULL) + return; + + /* + * If it is a standard IP header (no options), set the flag fields + * which relate to options to 0. + */ + if (hlen == sizeof(*ip)) { + fi->fi_optmsk = 0; + fi->fi_secmsk = 0; + fi->fi_auth = 0; + return; + } + + /* + * So the IP header has some IP options attached. Walk the entire + * list of options present with this packet and set flags to indicate + * which ones are here and which ones are not. For the somewhat out + * of date and obscure security classification options, set a flag to + * represent which classification is present. + */ + fi->fi_flx |= FI_OPTIONS; + + for (s = (u_char *)(ip + 1), hlen -= (int)sizeof(*ip); hlen > 0; ) { + opt = *s; + if (opt == '\0') + break; + else if (opt == IPOPT_NOP) + ol = 1; + else { + if (hlen < 2) + break; + ol = (int)*(s + 1); + if (ol < 2 || ol > hlen) + break; + } + for (i = 9, mv = 4; mv >= 0; ) { + op = ipopts + i; + if ((opt == (u_char)op->ol_val) && (ol > 4)) { + optmsk |= op->ol_bit; + if (opt == IPOPT_SECURITY) { + const struct optlist *sp; + u_char sec; + int j, m; + + sec = *(s + 2); /* classification */ + for (j = 3, m = 2; m >= 0; ) { + sp = secopt + j; + if (sec == sp->ol_val) { + secmsk |= sp->ol_bit; + auth = *(s + 3); + auth *= 256; + auth += *(s + 4); + break; + } + if (sec < sp->ol_val) + j -= m; + else + j += m; + m--; + } + } + break; + } + if (opt < op->ol_val) + i -= mv; + else + i += mv; + mv--; + } + hlen -= ol; + s += ol; + } + + /* + * + */ + if (auth && !(auth & 0x0100)) + auth &= 0xff00; + fi->fi_optmsk = optmsk; + fi->fi_secmsk = secmsk; + fi->fi_auth = auth; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_makefrip */ +/* Returns: void */ +/* Parameters: hlen(I) - length of IP packet header */ +/* ip(I) - pointer to the IP header */ +/* fin(IO) - pointer to packet information */ +/* */ +/* Compact the IP header into a structure which contains just the info. */ +/* which is useful for comparing IP headers with and store this information */ +/* in the fr_info_t structure pointer to by fin. At present, it is assumed */ +/* this function will be called with either an IPv4 or IPv6 packet. */ +/* ------------------------------------------------------------------------ */ +int fr_makefrip(hlen, ip, fin) +int hlen; +ip_t *ip; +fr_info_t *fin; +{ + int v; + + fin->fin_nat = NULL; + fin->fin_state = NULL; + fin->fin_depth = 0; + fin->fin_hlen = (u_short)hlen; + fin->fin_ip = ip; + fin->fin_rule = 0xffffffff; + fin->fin_group[0] = -1; + fin->fin_group[1] = '\0'; + fin->fin_dp = (char *)ip + hlen; + + v = fin->fin_v; + if (v == 4) { + fin->fin_plen = ip->ip_len; + fin->fin_dlen = fin->fin_plen - hlen; + + frpr_ipv4hdr(fin); +#ifdef USE_INET6 + } else if (v == 6) { + fin->fin_plen = ntohs(((ip6_t *)ip)->ip6_plen); + fin->fin_dlen = fin->fin_plen; + fin->fin_plen += hlen; + + if (frpr_ipv6hdr(fin) == -1) + return -1; +#endif + } + if (fin->fin_ip == NULL) + return -1; + return 0; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_portcheck */ +/* Returns: int - 1 == port matched, 0 == port match failed */ +/* Parameters: frp(I) - pointer to port check `expression' */ +/* pop(I) - pointer to port number to evaluate */ +/* */ +/* Perform a comparison of a port number against some other(s), using a */ +/* structure with compare information stored in it. */ +/* ------------------------------------------------------------------------ */ +static INLINE int fr_portcheck(frp, pop) +frpcmp_t *frp; +u_short *pop; +{ + u_short tup, po; + int err = 1; + + tup = *pop; + po = frp->frp_port; + + /* + * Do opposite test to that required and continue if that succeeds. + */ + switch (frp->frp_cmp) + { + case FR_EQUAL : + if (tup != po) /* EQUAL */ + err = 0; + break; + case FR_NEQUAL : + if (tup == po) /* NOTEQUAL */ + err = 0; + break; + case FR_LESST : + if (tup >= po) /* LESSTHAN */ + err = 0; + break; + case FR_GREATERT : + if (tup <= po) /* GREATERTHAN */ + err = 0; + break; + case FR_LESSTE : + if (tup > po) /* LT or EQ */ + err = 0; + break; + case FR_GREATERTE : + if (tup < po) /* GT or EQ */ + err = 0; + break; + case FR_OUTRANGE : + if (tup >= po && tup <= frp->frp_top) /* Out of range */ + err = 0; + break; + case FR_INRANGE : + if (tup <= po || tup >= frp->frp_top) /* In range */ + err = 0; + break; + case FR_INCRANGE : + if (tup < po || tup > frp->frp_top) /* Inclusive range */ + err = 0; + break; + default : + break; + } + return err; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_tcpudpchk */ +/* Returns: int - 1 == protocol matched, 0 == check failed */ +/* Parameters: fin(I) - pointer to packet information */ +/* ft(I) - pointer to structure with comparison data */ +/* */ +/* Compares the current pcket (assuming it is TCP/UDP) information with a */ +/* structure containing information that we want to match against. */ +/* ------------------------------------------------------------------------ */ +int fr_tcpudpchk(fin, ft) +fr_info_t *fin; +frtuc_t *ft; +{ + int err = 1; + + /* + * Both ports should *always* be in the first fragment. + * So far, I cannot find any cases where they can not be. + * + * compare destination ports + */ + if (ft->ftu_dcmp) + err = fr_portcheck(&ft->ftu_dst, &fin->fin_dport); + + /* + * compare source ports + */ + if (err && ft->ftu_scmp) + err = fr_portcheck(&ft->ftu_src, &fin->fin_sport); + + /* + * If we don't have all the TCP/UDP header, then how can we + * expect to do any sort of match on it ? If we were looking for + * TCP flags, then NO match. If not, then match (which should + * satisfy the "short" class too). + */ + if (err && (fin->fin_p == IPPROTO_TCP)) { + if (fin->fin_flx & FI_SHORT) + return !(ft->ftu_tcpf | ft->ftu_tcpfm); + /* + * Match the flags ? If not, abort this match. + */ + if (ft->ftu_tcpfm && + ft->ftu_tcpf != (fin->fin_tcpf & ft->ftu_tcpfm)) { + FR_DEBUG(("f. %#x & %#x != %#x\n", fin->fin_tcpf, + ft->ftu_tcpfm, ft->ftu_tcpf)); + err = 0; + } + } + return err; +} + + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_ipfcheck */ +/* Returns: int - 0 == match, 1 == no match */ +/* Parameters: fin(I) - pointer to packet information */ +/* fr(I) - pointer to filter rule */ +/* portcmp(I) - flag indicating whether to attempt matching on */ +/* TCP/UDP port data. */ +/* */ +/* Check to see if a packet matches an IPFilter rule. Checks of addresses, */ +/* port numbers, etc, for "standard" IPFilter rules are all orchestrated in */ +/* this function. */ +/* ------------------------------------------------------------------------ */ +static INLINE int fr_ipfcheck(fin, fr, portcmp) +fr_info_t *fin; +frentry_t *fr; +int portcmp; +{ + u_32_t *ld, *lm, *lip; + fripf_t *fri; + fr_ip_t *fi; + int i; + + fi = &fin->fin_fi; + fri = fr->fr_ipf; + lip = (u_32_t *)fi; + lm = (u_32_t *)&fri->fri_mip; + ld = (u_32_t *)&fri->fri_ip; + + /* + * first 32 bits to check coversion: + * IP version, TOS, TTL, protocol + */ + i = ((*lip & *lm) != *ld); + FR_DEBUG(("0. %#08x & %#08x != %#08x\n", + ntohl(*lip), ntohl(*lm), ntohl(*ld))); + if (i) + return 1; + + /* + * Next 32 bits is a constructed bitmask indicating which IP options + * are present (if any) in this packet. + */ + lip++, lm++, ld++; + i |= ((*lip & *lm) != *ld); + FR_DEBUG(("1. %#08x & %#08x != %#08x\n", + ntohl(*lip), ntohl(*lm), ntohl(*ld))); + if (i) + return 1; + + lip++, lm++, ld++; + /* + * Unrolled loops (4 each, for 32 bits) for address checks. + */ + /* + * Check the source address. + */ +#ifdef IPFILTER_LOOKUP + if (fr->fr_satype == FRI_LOOKUP) { + i = (*fr->fr_srcfunc)(fr->fr_srcptr, fi->fi_v, lip); + if (i == -1) + return 1; + lip += 3; + lm += 3; + ld += 3; + } else { +#endif + i = ((*lip & *lm) != *ld); + FR_DEBUG(("2a. %#08x & %#08x != %#08x\n", + ntohl(*lip), ntohl(*lm), ntohl(*ld))); + if (fi->fi_v == 6) { + lip++, lm++, ld++; + i |= ((*lip & *lm) != *ld); + FR_DEBUG(("2b. %#08x & %#08x != %#08x\n", + ntohl(*lip), ntohl(*lm), ntohl(*ld))); + lip++, lm++, ld++; + i |= ((*lip & *lm) != *ld); + FR_DEBUG(("2c. %#08x & %#08x != %#08x\n", + ntohl(*lip), ntohl(*lm), ntohl(*ld))); + lip++, lm++, ld++; + i |= ((*lip & *lm) != *ld); + FR_DEBUG(("2d. %#08x & %#08x != %#08x\n", + ntohl(*lip), ntohl(*lm), ntohl(*ld))); + } else { + lip += 3; + lm += 3; + ld += 3; + } +#ifdef IPFILTER_LOOKUP + } +#endif + i ^= (fr->fr_flags & FR_NOTSRCIP) >> 6; + if (i) + return 1; + + /* + * Check the destination address. + */ + lip++, lm++, ld++; +#ifdef IPFILTER_LOOKUP + if (fr->fr_datype == FRI_LOOKUP) { + i = (*fr->fr_dstfunc)(fr->fr_dstptr, fi->fi_v, lip); + if (i == -1) + return 1; + lip += 3; + lm += 3; + ld += 3; + } else { +#endif + i = ((*lip & *lm) != *ld); + FR_DEBUG(("3a. %#08x & %#08x != %#08x\n", + ntohl(*lip), ntohl(*lm), ntohl(*ld))); + if (fi->fi_v == 6) { + lip++, lm++, ld++; + i |= ((*lip & *lm) != *ld); + FR_DEBUG(("3b. %#08x & %#08x != %#08x\n", + ntohl(*lip), ntohl(*lm), ntohl(*ld))); + lip++, lm++, ld++; + i |= ((*lip & *lm) != *ld); + FR_DEBUG(("3c. %#08x & %#08x != %#08x\n", + ntohl(*lip), ntohl(*lm), ntohl(*ld))); + lip++, lm++, ld++; + i |= ((*lip & *lm) != *ld); + FR_DEBUG(("3d. %#08x & %#08x != %#08x\n", + ntohl(*lip), ntohl(*lm), ntohl(*ld))); + } else { + lip += 3; + lm += 3; + ld += 3; + } +#ifdef IPFILTER_LOOKUP + } +#endif + i ^= (fr->fr_flags & FR_NOTDSTIP) >> 7; + if (i) + return 1; + /* + * IP addresses matched. The next 32bits contains: + * mast of old IP header security & authentication bits. + */ + lip++, lm++, ld++; + i |= ((*lip & *lm) != *ld); + FR_DEBUG(("4. %#08x & %#08x != %#08x\n", + *lip, *lm, *ld)); + + /* + * Next we have 32 bits of packet flags. + */ + lip++, lm++, ld++; + i |= ((*lip & *lm) != *ld); + FR_DEBUG(("5. %#08x & %#08x != %#08x\n", + *lip, *lm, *ld)); + + if (i == 0) { + /* + * If a fragment, then only the first has what we're + * looking for here... + */ + if (portcmp) { + if (!fr_tcpudpchk(fin, &fr->fr_tuc)) + i = 1; + } else { + if (fr->fr_dcmp || fr->fr_scmp || + fr->fr_tcpf || fr->fr_tcpfm) + i = 1; + if (fr->fr_icmpm || fr->fr_icmp) { + if (((fi->fi_p != IPPROTO_ICMP) && + (fi->fi_p != IPPROTO_ICMPV6)) || + fin->fin_off || (fin->fin_dlen < 2)) + i = 1; + else if ((fin->fin_data[0] & fr->fr_icmpm) != + fr->fr_icmp) { + FR_DEBUG(("i. %#x & %#x != %#x\n", + fin->fin_data[0], + fr->fr_icmpm, fr->fr_icmp)); + i = 1; + } + } + } + } + return i; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_scanlist */ +/* Returns: int - result flags of scanning filter list */ +/* Parameters: fin(I) - pointer to packet information */ +/* pass(I) - default result to return for filtering */ +/* */ +/* Check the input/output list of rules for a match to the current packet. */ +/* If a match is found, the value of fr_flags from the rule becomes the */ +/* return value and fin->fin_fr points to the matched rule. */ +/* */ +/* This function may be called recusively upto 16 times (limit inbuilt.) */ +/* When unwinding, it should finish up with fin_depth as 0. */ +/* */ +/* Could be per interface, but this gets real nasty when you don't have, */ +/* or can't easily change, the kernel source code to . */ +/* ------------------------------------------------------------------------ */ +int fr_scanlist(fin, pass) +fr_info_t *fin; +u_32_t pass; +{ + int rulen, portcmp, off, logged, skip; + struct frentry *fr, *fnext; + u_32_t passt, passo; + + /* + * Do not allow nesting deeper than 16 levels. + */ + if (fin->fin_depth >= 16) + return pass; + + fr = fin->fin_fr; + + /* + * If there are no rules in this list, return now. + */ + if (fr == NULL) + return pass; + + skip = 0; + logged = 0; + portcmp = 0; + fin->fin_depth++; + fin->fin_fr = NULL; + off = fin->fin_off; + + if ((fin->fin_flx & FI_TCPUDP) && (fin->fin_dlen > 3) && !off) + portcmp = 1; + + for (rulen = 0; fr; fr = fnext, rulen++) { + fnext = fr->fr_next; + if (skip != 0) { + FR_VERBOSE(("%d (%#x)\n", skip, fr->fr_flags)); + skip--; + continue; + } + + /* + * In all checks below, a null (zero) value in the + * filter struture is taken to mean a wildcard. + * + * check that we are working for the right interface + */ +#ifdef _KERNEL + if (fr->fr_ifa && fr->fr_ifa != fin->fin_ifp) + continue; +#else + if (opts & (OPT_VERBOSE|OPT_DEBUG)) + printf("\n"); + FR_VERBOSE(("%c", FR_ISSKIP(pass) ? 's' : + FR_ISPASS(pass) ? 'p' : + FR_ISACCOUNT(pass) ? 'A' : + FR_ISAUTH(pass) ? 'a' : + (pass & FR_NOMATCH) ? 'n' :'b')); + if (fr->fr_ifa && fr->fr_ifa != fin->fin_ifp) + continue; + FR_VERBOSE((":i")); +#endif + + switch (fr->fr_type) + { + case FR_T_IPF : + case FR_T_IPF|FR_T_BUILTIN : + if (fr_ipfcheck(fin, fr, portcmp)) + continue; + break; +#if defined(IPFILTER_BPF) + case FR_T_BPFOPC : + case FR_T_BPFOPC|FR_T_BUILTIN : + { + u_char *mc; + + if (*fin->fin_mp == NULL) + continue; + if (fin->fin_v != fr->fr_v) + continue; + mc = (u_char *)fin->fin_m; + if (!bpf_filter(fr->fr_data, mc, fin->fin_plen, 0)) + continue; + break; + } +#endif + case FR_T_CALLFUNC|FR_T_BUILTIN : + { + frentry_t *f; + + f = (*fr->fr_func)(fin, &pass); + if (f != NULL) + fr = f; + else + continue; + break; + } + default : + break; + } + + if ((fin->fin_out == 0) && (fr->fr_nattag.ipt_num[0] != 0)) { + if (fin->fin_nattag == NULL) + continue; + if (fr_matchtag(&fr->fr_nattag, fin->fin_nattag) == 0) + continue; + } + FR_VERBOSE(("=%s.%d *", fr->fr_group, rulen)); + + passt = fr->fr_flags; + + /* + * Allowing a rule with the "keep state" flag set to match + * packets that have been tagged "out of window" by the TCP + * state tracking is foolish as the attempt to add a new + * state entry to the table will fail. + */ + if ((passt & FR_KEEPSTATE) && (fin->fin_flx & FI_OOW)) + continue; + + /* + * If the rule is a "call now" rule, then call the function + * in the rule, if it exists and use the results from that. + * If the function pointer is bad, just make like we ignore + * it, except for increasing the hit counter. + */ + if ((passt & FR_CALLNOW) != 0) { + frentry_t *frs; + + ATOMIC_INC64(fr->fr_hits); + if ((fr->fr_func != NULL) && + (fr->fr_func == (ipfunc_t)-1)) + continue; + + frs = fin->fin_fr; + fin->fin_fr = fr; + fr = (*fr->fr_func)(fin, &passt); + if (fr == NULL) { + fin->fin_fr = frs; + continue; + } + passt = fr->fr_flags; + } + fin->fin_fr = fr; + +#ifdef IPFILTER_LOG + /* + * Just log this packet... + */ + if ((passt & FR_LOGMASK) == FR_LOG) { + if (ipflog(fin, passt) == -1) { + if (passt & FR_LOGORBLOCK) { + passt &= ~FR_CMDMASK; + passt |= FR_BLOCK|FR_QUICK; + } + ATOMIC_INCL(frstats[fin->fin_out].fr_skip); + } + ATOMIC_INCL(frstats[fin->fin_out].fr_pkl); + logged = 1; + } +#endif /* IPFILTER_LOG */ + fr->fr_bytes += (U_QUAD_T)fin->fin_plen; + passo = pass; + if (FR_ISSKIP(passt)) + skip = fr->fr_arg; + else if ((passt & FR_LOGMASK) != FR_LOG) + pass = passt; + if (passt & (FR_RETICMP|FR_FAKEICMP)) + fin->fin_icode = fr->fr_icode; + FR_DEBUG(("pass %#x\n", pass)); + ATOMIC_INC64(fr->fr_hits); + fin->fin_rule = rulen; + (void) strncpy(fin->fin_group, fr->fr_group, FR_GROUPLEN); + if (fr->fr_grp != NULL) { + fin->fin_fr = *fr->fr_grp; + passt = fr_scanlist(fin, pass); + if (fin->fin_fr == NULL) { + fin->fin_rule = rulen; + (void) strncpy(fin->fin_group, fr->fr_group, + FR_GROUPLEN); + fin->fin_fr = fr; + passt = pass; + } + if (fin->fin_flx & FI_DONTCACHE) + logged = 1; + pass = passt; + } + + if (passt & FR_QUICK) { + /* + * Finally, if we've asked to track state for this + * packet, set it up. Add state for "quick" rules + * here so that if the action fails we can consider + * the rule to "not match" and keep on processing + * filter rules. + */ + if ((pass & FR_KEEPSTATE) && + !(fin->fin_flx & FI_STATE)) { + int out = fin->fin_out; + + fin->fin_fr = fr; + if (fr_addstate(fin, NULL, 0) != NULL) { + ATOMIC_INCL(frstats[out].fr_ads); + } else { + ATOMIC_INCL(frstats[out].fr_bads); + pass = passo; + continue; + } + } + break; + } + } + if (logged) + fin->fin_flx |= FI_DONTCACHE; + fin->fin_depth--; + return pass; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_acctpkt */ +/* Returns: frentry_t* - always returns NULL */ +/* Parameters: fin(I) - pointer to packet information */ +/* passp(IO) - pointer to current/new filter decision (unused) */ +/* */ +/* Checks a packet against accounting rules, if there are any for the given */ +/* IP protocol version. */ +/* */ +/* N.B.: this function returns NULL to match the prototype used by other */ +/* functions called from the IPFilter "mainline" in fr_check(). */ +/* ------------------------------------------------------------------------ */ +frentry_t *fr_acctpkt(fin, passp) +fr_info_t *fin; +u_32_t *passp; +{ + char group[FR_GROUPLEN]; + frentry_t *fr, *frsave; + u_32_t pass, rulen; + + passp = passp; +#ifdef USE_INET6 + if (fin->fin_v == 6) + fr = ipacct6[fin->fin_out][fr_active]; + else +#endif + fr = ipacct[fin->fin_out][fr_active]; + + if (fr != NULL) { + frsave = fin->fin_fr; + bcopy(fin->fin_group, group, FR_GROUPLEN); + rulen = fin->fin_rule; + fin->fin_fr = fr; + pass = fr_scanlist(fin, FR_NOMATCH); + if (FR_ISACCOUNT(pass)) { + ATOMIC_INCL(frstats[0].fr_acct); + } + fin->fin_fr = frsave; + bcopy(group, fin->fin_group, FR_GROUPLEN); + fin->fin_rule = rulen; + } + return NULL; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_firewall */ +/* Returns: frentry_t* - returns pointer to matched rule, if no matches */ +/* were found, returns NULL. */ +/* Parameters: fin(I) - pointer to packet information */ +/* passp(IO) - pointer to current/new filter decision (unused) */ +/* */ +/* Applies an appropriate set of firewall rules to the packet, to see if */ +/* there are any matches. The first check is to see if a match can be seen */ +/* in the cache. If not, then search an appropriate list of rules. Once a */ +/* matching rule is found, take any appropriate actions as defined by the */ +/* rule - except logging. */ +/* ------------------------------------------------------------------------ */ +static frentry_t *fr_firewall(fin, passp) +fr_info_t *fin; +u_32_t *passp; +{ + frentry_t *fr; + fr_info_t *fc; + u_32_t pass; + int out; + + out = fin->fin_out; + pass = *passp; + + /* + * If a packet is found in the auth table, then skip checking + * the access lists for permission but we do need to consider + * the result as if it were from the ACL's. + */ + fc = &frcache[out][CACHE_HASH(fin)]; + READ_ENTER(&ipf_frcache); + if (!bcmp((char *)fin, (char *)fc, FI_CSIZE)) { + /* + * copy cached data so we can unlock the mutexes earlier. + */ + bcopy((char *)fc, (char *)fin, FI_COPYSIZE); + RWLOCK_EXIT(&ipf_frcache); + ATOMIC_INCL(frstats[out].fr_chit); + + if ((fr = fin->fin_fr) != NULL) { + ATOMIC_INC64(fr->fr_hits); + pass = fr->fr_flags; + } + } else { + RWLOCK_EXIT(&ipf_frcache); + +#ifdef USE_INET6 + if (fin->fin_v == 6) + fin->fin_fr = ipfilter6[out][fr_active]; + else +#endif + fin->fin_fr = ipfilter[out][fr_active]; + if (fin->fin_fr != NULL) + pass = fr_scanlist(fin, fr_pass); + + if (((pass & FR_KEEPSTATE) == 0) && + ((fin->fin_flx & FI_DONTCACHE) == 0)) { + WRITE_ENTER(&ipf_frcache); + bcopy((char *)fin, (char *)fc, FI_COPYSIZE); + RWLOCK_EXIT(&ipf_frcache); + } + if ((pass & FR_NOMATCH)) { + ATOMIC_INCL(frstats[out].fr_nom); + } + fr = fin->fin_fr; + } + + /* + * Apply packets per second rate-limiting to a rule as required. + */ + if ((fr != NULL) && (fr->fr_pps != 0) && + !ppsratecheck(&fr->fr_lastpkt, &fr->fr_curpps, fr->fr_pps)) { + pass &= ~(FR_CMDMASK|FR_DUP|FR_RETICMP|FR_RETRST); + pass |= FR_BLOCK; + ATOMIC_INCL(frstats[out].fr_ppshit); + } + + /* + * If we fail to add a packet to the authorization queue, then we + * drop the packet later. However, if it was added then pretend + * we've dropped it already. + */ + if (FR_ISAUTH(pass)) { + if (fr_newauth(fin->fin_m, fin) != 0) { +#ifdef _KERNEL + if ((pass & FR_RETMASK) == 0) + fin->fin_m = *fin->fin_mp = NULL; +#else + ; +#endif + fin->fin_error = 0; + } else + fin->fin_error = ENOSPC; + } + + if ((fr != NULL) && (fr->fr_func != NULL) && + (fr->fr_func != (ipfunc_t)-1) && !(pass & FR_CALLNOW)) + (void) (*fr->fr_func)(fin, &pass); + + /* + * If a rule is a pre-auth rule, check again in the list of rules + * loaded for authenticated use. It does not particulary matter + * if this search fails because a "preauth" result, from a rule, + * is treated as "not a pass", hence the packet is blocked. + */ + if (FR_ISPREAUTH(pass)) { + if ((fin->fin_fr = ipauth) != NULL) + pass = fr_scanlist(fin, fr_pass); + } + + /* + * If the rule has "keep frag" and the packet is actually a fragment, + * then create a fragment state entry. + */ + if ((pass & (FR_KEEPFRAG|FR_KEEPSTATE)) == FR_KEEPFRAG) { + if (fin->fin_flx & FI_FRAG) { + if (fr_newfrag(fin, pass) == -1) { + ATOMIC_INCL(frstats[out].fr_bnfr); + } else { + ATOMIC_INCL(frstats[out].fr_nfr); + } + } else { + ATOMIC_INCL(frstats[out].fr_cfr); + } + } + + fr = fin->fin_fr; + + if (passp != NULL) + *passp = pass; + + return fr; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_check */ +/* Returns: int - 0 == packet allowed through, */ +/* User space: */ +/* -1 == packet blocked */ +/* 1 == packet not matched */ +/* -2 == requires authentication */ +/* Kernel: */ +/* > 0 == filter error # for packet */ +/* Parameters: ip(I) - pointer to start of IPv4/6 packet */ +/* hlen(I) - length of header */ +/* ifp(I) - pointer to interface this packet is on */ +/* out(I) - 0 == packet going in, 1 == packet going out */ +/* mp(IO) - pointer to caller's buffer pointer that holds this */ +/* IP packet. */ +/* Solaris & HP-UX ONLY : */ +/* qpi(I) - pointer to STREAMS queue information for this */ +/* interface & direction. */ +/* */ +/* fr_check() is the master function for all IPFilter packet processing. */ +/* It orchestrates: Network Address Translation (NAT), checking for packet */ +/* authorisation (or pre-authorisation), presence of related state info., */ +/* generating log entries, IP packet accounting, routing of packets as */ +/* directed by firewall rules and of course whether or not to allow the */ +/* packet to be further processed by the kernel. */ +/* */ +/* For packets blocked, the contents of "mp" will be NULL'd and the buffer */ +/* freed. Packets passed may be returned with the pointer pointed to by */ +/* by "mp" changed to a new buffer. */ +/* ------------------------------------------------------------------------ */ +int fr_check(ip, hlen, ifp, out +#if defined(_KERNEL) && defined(MENTAT) +, qif, mp) +void *qif; +#else +, mp) +#endif +mb_t **mp; +ip_t *ip; +int hlen; +void *ifp; +int out; +{ + /* + * The above really sucks, but short of writing a diff + */ + fr_info_t frinfo; + fr_info_t *fin = &frinfo; + u_32_t pass = fr_pass; + frentry_t *fr = NULL; + int v = IP_V(ip); + mb_t *mc = NULL; + mb_t *m; + /* + * The first part of fr_check() deals with making sure that what goes + * into the filtering engine makes some sense. Information about the + * the packet is distilled, collected into a fr_info_t structure and + * the an attempt to ensure the buffer the packet is in is big enough + * to hold all the required packet headers. + */ +#ifdef _KERNEL +# ifdef MENTAT + qpktinfo_t *qpi = qif; + + if ((u_int)ip & 0x3) + return 2; +# else + SPL_INT(s); +# endif + + READ_ENTER(&ipf_global); + + if (fr_running <= 0) { + RWLOCK_EXIT(&ipf_global); + return 0; + } + + bzero((char *)fin, sizeof(*fin)); + +# ifdef MENTAT + if (qpi->qpi_flags & QF_GROUP) + fin->fin_flx |= FI_MBCAST; + m = qpi->qpi_m; + fin->fin_qfm = m; + fin->fin_qpi = qpi; +# else /* MENTAT */ + + m = *mp; + +# if defined(M_MCAST) + if ((m->m_flags & M_MCAST) != 0) + fin->fin_flx |= FI_MBCAST|FI_MULTICAST; +# endif +# if defined(M_MLOOP) + if ((m->m_flags & M_MLOOP) != 0) + fin->fin_flx |= FI_MBCAST|FI_MULTICAST; +# endif +# if defined(M_BCAST) + if ((m->m_flags & M_BCAST) != 0) + fin->fin_flx |= FI_MBCAST|FI_BROADCAST; +# endif +# ifdef M_CANFASTFWD + /* + * XXX For now, IP Filter and fast-forwarding of cached flows + * XXX are mutually exclusive. Eventually, IP Filter should + * XXX get a "can-fast-forward" filter rule. + */ + m->m_flags &= ~M_CANFASTFWD; +# endif /* M_CANFASTFWD */ +# ifdef CSUM_DELAY_DATA + /* + * disable delayed checksums. + */ + if (m->m_pkthdr.csum_flags & CSUM_DELAY_DATA) { + in_delayed_cksum(m); + m->m_pkthdr.csum_flags &= ~CSUM_DELAY_DATA; + } +# endif /* CSUM_DELAY_DATA */ +# endif /* MENTAT */ +#else + READ_ENTER(&ipf_global); + + bzero((char *)fin, sizeof(*fin)); + m = *mp; +#endif /* _KERNEL */ + + fin->fin_v = v; + fin->fin_m = m; + fin->fin_ip = ip; + fin->fin_mp = mp; + fin->fin_out = out; + fin->fin_ifp = ifp; + fin->fin_error = ENETUNREACH; + fin->fin_hlen = (u_short)hlen; + fin->fin_dp = (char *)ip + hlen; + + fin->fin_ipoff = (char *)ip - MTOD(m, char *); + + SPL_NET(s); + +#ifdef USE_INET6 + if (v == 6) { + ATOMIC_INCL(frstats[out].fr_ipv6); + /* + * Jumbo grams are quite likely too big for internal buffer + * structures to handle comfortably, for now, so just drop + * them. + */ + if (((ip6_t *)ip)->ip6_plen == 0) { + pass = FR_BLOCK|FR_NOMATCH; + goto finished; + } + } else +#endif + { +#if (defined(OpenBSD) && OpenBSD >= 200311) && defined(_KERNEL) + ip->ip_len = ntohs(ip->ip_len); + ip->ip_off = ntohs(ip->ip_off); +#endif + } + + if (fr_makefrip(hlen, ip, fin) == -1) { + pass = FR_BLOCK|FR_NOMATCH; + goto finished; + } + + /* + * For at least IPv6 packets, if a m_pullup() fails then this pointer + * becomes NULL and so we have no packet to free. + */ + if (*fin->fin_mp == NULL) + goto finished; + + if (!out) { + if (v == 4) { +#ifdef _KERNEL + if (fr_chksrc && !fr_verifysrc(fin)) { + ATOMIC_INCL(frstats[0].fr_badsrc); + fin->fin_flx |= FI_BADSRC; + } +#endif + if (fin->fin_ip->ip_ttl < fr_minttl) { + ATOMIC_INCL(frstats[0].fr_badttl); + fin->fin_flx |= FI_LOWTTL; + } + } +#ifdef USE_INET6 + else if (v == 6) { + if (((ip6_t *)ip)->ip6_hlim < fr_minttl) { + ATOMIC_INCL(frstats[0].fr_badttl); + fin->fin_flx |= FI_LOWTTL; + } + } +#endif + } + + if (fin->fin_flx & FI_SHORT) { + ATOMIC_INCL(frstats[out].fr_short); + } + + READ_ENTER(&ipf_mutex); + + /* + * Check auth now. This, combined with the check below to see if apass + * is 0 is to ensure that we don't count the packet twice, which can + * otherwise occur when we reprocess it. As it is, we only count it + * after it has no auth. table matchup. This also stops NAT from + * occuring until after the packet has been auth'd. + */ + fr = fr_checkauth(fin, &pass); + if (!out) { + if (fr_checknatin(fin, &pass) == -1) { + goto filterdone; + } + } + if (!out) + (void) fr_acctpkt(fin, NULL); + + if (fr == NULL) + if ((fin->fin_flx & (FI_FRAG|FI_BAD)) == FI_FRAG) + fr = fr_knownfrag(fin, &pass); + if (fr == NULL) + fr = fr_checkstate(fin, &pass); + + if ((pass & FR_NOMATCH) || (fr == NULL)) + fr = fr_firewall(fin, &pass); + + /* + * If we've asked to track state for this packet, set it up. + * Here rather than fr_firewall because fr_checkauth may decide + * to return a packet for "keep state" + */ + if ((pass & FR_KEEPSTATE) && !(fin->fin_flx & FI_STATE)) { + if (fr_addstate(fin, NULL, 0) != NULL) { + ATOMIC_INCL(frstats[out].fr_ads); + } else { + ATOMIC_INCL(frstats[out].fr_bads); + if (FR_ISPASS(pass)) { + pass &= ~FR_CMDMASK; + pass |= FR_BLOCK; + } + } + } + + fin->fin_fr = fr; + + /* + * Only count/translate packets which will be passed on, out the + * interface. + */ + if (out && FR_ISPASS(pass)) { + (void) fr_acctpkt(fin, NULL); + + if (fr_checknatout(fin, &pass) == -1) { + ; + } else if ((fr_update_ipid != 0) && (v == 4)) { + if (fr_updateipid(fin) == -1) { + ATOMIC_INCL(frstats[1].fr_ipud); + pass &= ~FR_CMDMASK; + pass |= FR_BLOCK; + } else { + ATOMIC_INCL(frstats[0].fr_ipud); + } + } + } + +filterdone: +#ifdef IPFILTER_LOG + if ((fr_flags & FF_LOGGING) || (pass & FR_LOGMASK)) { + (void) fr_dolog(fin, &pass); + } +#endif + + /* + * The FI_STATE flag is cleared here so that calling fr_checkstate + * will work when called from inside of fr_fastroute. Although + * there is a similar flag, FI_NATED, for NAT, it does have the same + * impact on code execution. + */ + if (fin->fin_state != NULL) { + fr_statederef((ipstate_t **)&fin->fin_state); + fin->fin_flx ^= FI_STATE; + } + + if (fin->fin_nat != NULL) { + fr_natderef((nat_t **)&fin->fin_nat); + } + + /* + * Up the reference on fr_lock and exit ipf_mutex. fr_fastroute + * only frees up the lock on ipf_global and the generation of a + * packet below could cause a recursive call into IPFilter. + * Hang onto the filter rule just in case someone decides to remove + * or flush it in the meantime. + */ + if (fr != NULL) { + MUTEX_ENTER(&fr->fr_lock); + fr->fr_ref++; + MUTEX_EXIT(&fr->fr_lock); + } + + RWLOCK_EXIT(&ipf_mutex); + + if ((pass & FR_RETMASK) != 0) { + /* + * Should we return an ICMP packet to indicate error + * status passing through the packet filter ? + * WARNING: ICMP error packets AND TCP RST packets should + * ONLY be sent in repsonse to incoming packets. Sending them + * in response to outbound packets can result in a panic on + * some operating systems. + */ + if (!out) { + if (pass & FR_RETICMP) { + int dst; + + if ((pass & FR_RETMASK) == FR_FAKEICMP) + dst = 1; + else + dst = 0; + (void) fr_send_icmp_err(ICMP_UNREACH, fin, dst); + ATOMIC_INCL(frstats[0].fr_ret); + } else if (((pass & FR_RETMASK) == FR_RETRST) && + !(fin->fin_flx & FI_SHORT)) { + if (((fin->fin_flx & FI_OOW) != 0) || + (fr_send_reset(fin) == 0)) { + ATOMIC_INCL(frstats[1].fr_ret); + } + } + + /* + * When using return-* with auth rules, the auth code + * takes over disposing of this packet. + */ + if (FR_ISAUTH(pass) && (fin->fin_m != NULL)) { + fin->fin_m = *fin->fin_mp = NULL; + } + } else { + if (pass & FR_RETRST) + fin->fin_error = ECONNRESET; + } + } + + /* + * If we didn't drop off the bottom of the list of rules (and thus + * the 'current' rule fr is not NULL), then we may have some extra + * instructions about what to do with a packet. + * Once we're finished return to our caller, freeing the packet if + * we are dropping it (* BSD ONLY *). + */ + if (fr != NULL) { + frdest_t *fdp; + + fdp = &fr->fr_tifs[fin->fin_rev]; + + if (!out && (pass & FR_FASTROUTE)) { + /* + * For fastroute rule, no destioation interface defined + * so pass NULL as the frdest_t parameter + */ + (void) fr_fastroute(fin->fin_m, mp, fin, NULL); + m = *mp = NULL; + } else if ((fdp->fd_ifp != NULL) && + (fdp->fd_ifp != (struct ifnet *)-1)) { + /* this is for to rules: */ + (void) fr_fastroute(fin->fin_m, mp, fin, fdp); + m = *mp = NULL; + } + + /* + * Generate a duplicated packet. + */ + if ((pass & FR_DUP) != 0) { + mc = M_DUPLICATE(fin->fin_m); + if (mc != NULL) + (void) fr_fastroute(mc, &mc, fin, &fr->fr_dif); + } + + (void) fr_derefrule(&fr); + } + +finished: + if (!FR_ISPASS(pass)) { + ATOMIC_INCL(frstats[out].fr_block); + if (*mp != NULL) { + FREE_MB_T(*mp); + m = *mp = NULL; + } + } else { + ATOMIC_INCL(frstats[out].fr_pass); +#if defined(_KERNEL) && defined(__sgi) + if ((fin->fin_hbuf != NULL) && + (mtod(fin->fin_m, struct ip *) != fin->fin_ip)) { + COPYBACK(fin->fin_m, 0, fin->fin_plen, fin->fin_hbuf); + } +#endif + } + + SPL_X(s); + RWLOCK_EXIT(&ipf_global); + +#ifdef _KERNEL +# if defined(OpenBSD) && OpenBSD >= 200311 + if (FR_ISPASS(pass) && (v == 4)) { + ip = fin->fin_ip; + ip->ip_len = ntohs(ip->ip_len); + ip->ip_off = ntohs(ip->ip_off); + } +# endif + return (FR_ISPASS(pass)) ? 0 : fin->fin_error; +#else /* _KERNEL */ + FR_VERBOSE(("fin_flx %#x pass %#x ", fin->fin_flx, pass)); + if ((pass & FR_NOMATCH) != 0) + return 1; + + if ((pass & FR_RETMASK) != 0) + switch (pass & FR_RETMASK) + { + case FR_RETRST : + return 3; + case FR_RETICMP : + return 4; + case FR_FAKEICMP : + return 5; + } + + switch (pass & FR_CMDMASK) + { + case FR_PASS : + return 0; + case FR_BLOCK : + return -1; + case FR_AUTH : + return -2; + case FR_ACCOUNT : + return -3; + case FR_PREAUTH : + return -4; + } + return 2; +#endif /* _KERNEL */ +} + + +#ifdef IPFILTER_LOG +/* ------------------------------------------------------------------------ */ +/* Function: fr_dolog */ +/* Returns: frentry_t* - returns contents of fin_fr (no change made) */ +/* Parameters: fin(I) - pointer to packet information */ +/* passp(IO) - pointer to current/new filter decision (unused) */ +/* */ +/* Checks flags set to see how a packet should be logged, if it is to be */ +/* logged. Adjust statistics based on its success or not. */ +/* ------------------------------------------------------------------------ */ +frentry_t *fr_dolog(fin, passp) +fr_info_t *fin; +u_32_t *passp; +{ + u_32_t pass; + int out; + + out = fin->fin_out; + pass = *passp; + + if ((fr_flags & FF_LOGNOMATCH) && (pass & FR_NOMATCH)) { + pass |= FF_LOGNOMATCH; + ATOMIC_INCL(frstats[out].fr_npkl); + goto logit; + } else if (((pass & FR_LOGMASK) == FR_LOGP) || + (FR_ISPASS(pass) && (fr_flags & FF_LOGPASS))) { + if ((pass & FR_LOGMASK) != FR_LOGP) + pass |= FF_LOGPASS; + ATOMIC_INCL(frstats[out].fr_ppkl); + goto logit; + } else if (((pass & FR_LOGMASK) == FR_LOGB) || + (FR_ISBLOCK(pass) && (fr_flags & FF_LOGBLOCK))) { + if ((pass & FR_LOGMASK) != FR_LOGB) + pass |= FF_LOGBLOCK; + ATOMIC_INCL(frstats[out].fr_bpkl); +logit: + if (ipflog(fin, pass) == -1) { + ATOMIC_INCL(frstats[out].fr_skip); + + /* + * If the "or-block" option has been used then + * block the packet if we failed to log it. + */ + if ((pass & FR_LOGORBLOCK) && + FR_ISPASS(pass)) { + pass &= ~FR_CMDMASK; + pass |= FR_BLOCK; + } + } + *passp = pass; + } + + return fin->fin_fr; +} +#endif /* IPFILTER_LOG */ + + +/* ------------------------------------------------------------------------ */ +/* Function: ipf_cksum */ +/* Returns: u_short - IP header checksum */ +/* Parameters: addr(I) - pointer to start of buffer to checksum */ +/* len(I) - length of buffer in bytes */ +/* */ +/* Calculate the two's complement 16 bit checksum of the buffer passed. */ +/* */ +/* N.B.: addr should be 16bit aligned. */ +/* ------------------------------------------------------------------------ */ +u_short ipf_cksum(addr, len) +u_short *addr; +int len; +{ + u_32_t sum = 0; + + for (sum = 0; len > 1; len -= 2) + sum += *addr++; + + /* mop up an odd byte, if necessary */ + if (len == 1) + sum += *(u_char *)addr; + + /* + * add back carry outs from top 16 bits to low 16 bits + */ + sum = (sum >> 16) + (sum & 0xffff); /* add hi 16 to low 16 */ + sum += (sum >> 16); /* add carry */ + return (u_short)(~sum); +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_cksum */ +/* Returns: u_short - layer 4 checksum */ +/* Parameters: m(I ) - pointer to buffer holding packet */ +/* ip(I) - pointer to IP header */ +/* l4proto(I) - protocol to caclulate checksum for */ +/* l4hdr(I) - pointer to layer 4 header */ +/* l3len(I) - length of layer 4 data plus layer 3 header */ +/* */ +/* Calculates the TCP checksum for the packet held in "m", using the data */ +/* in the IP header "ip" to seed it. */ +/* */ +/* NB: This function assumes we've pullup'd enough for all of the IP header */ +/* and the TCP header. We also assume that data blocks aren't allocated in */ +/* odd sizes. */ +/* */ +/* For IPv6, l3len excludes extension header size. */ +/* */ +/* Expects ip_len to be in host byte order when called. */ +/* ------------------------------------------------------------------------ */ +u_short fr_cksum(m, ip, l4proto, l4hdr, l3len) +mb_t *m; +ip_t *ip; +int l4proto, l3len; +void *l4hdr; +{ + u_short *sp, slen, sumsave, l4hlen, *csump; + u_int sum, sum2; + int hlen; +#ifdef USE_INET6 + ip6_t *ip6; +#endif + + csump = NULL; + sumsave = 0; + l4hlen = 0; + sp = NULL; + slen = 0; + hlen = 0; + sum = 0; + + /* + * Add up IP Header portion + */ +#ifdef USE_INET6 + if (IP_V(ip) == 4) { +#endif + hlen = IP_HL(ip) << 2; + slen = l3len - hlen; + sum = htons((u_short)l4proto); + sum += htons(slen); + sp = (u_short *)&ip->ip_src; + sum += *sp++; /* ip_src */ + sum += *sp++; + sum += *sp++; /* ip_dst */ + sum += *sp++; +#ifdef USE_INET6 + } else if (IP_V(ip) == 6) { + ip6 = (ip6_t *)ip; + hlen = sizeof(*ip6); + slen = l3len - hlen; + sum = htons((u_short)l4proto); + sum += htons(slen); + sp = (u_short *)&ip6->ip6_src; + sum += *sp++; /* ip6_src */ + sum += *sp++; + sum += *sp++; + sum += *sp++; + sum += *sp++; + sum += *sp++; + sum += *sp++; + sum += *sp++; + sum += *sp++; /* ip6_dst */ + sum += *sp++; + sum += *sp++; + sum += *sp++; + sum += *sp++; + sum += *sp++; + sum += *sp++; + sum += *sp++; + } +#endif + + switch (l4proto) + { + case IPPROTO_UDP : + csump = &((udphdr_t *)l4hdr)->uh_sum; + l4hlen = sizeof(udphdr_t); + break; + + case IPPROTO_TCP : + csump = &((tcphdr_t *)l4hdr)->th_sum; + l4hlen = sizeof(tcphdr_t); + break; + case IPPROTO_ICMP : + csump = &((icmphdr_t *)l4hdr)->icmp_cksum; + l4hlen = 4; + sum = 0; + break; + default : + break; + } + + if (csump != NULL) { + sumsave = *csump; + *csump = 0; + } + + l4hlen = l4hlen; /* LINT */ + +#ifdef _KERNEL +# ifdef MENTAT + { + void *rp = m->b_rptr; + + if ((unsigned char *)ip > m->b_rptr && (unsigned char *)ip < m->b_wptr) + m->b_rptr = (u_char *)ip; + sum2 = ip_cksum(m, hlen, sum); /* hlen == offset */ + m->b_rptr = rp; + sum2 = (u_short)(~sum2 & 0xffff); + } +# else /* MENTAT */ +# if defined(BSD) || defined(sun) +# if BSD >= 199103 + m->m_data += hlen; +# else + m->m_off += hlen; +# endif + m->m_len -= hlen; + sum2 = in_cksum(m, slen); + m->m_len += hlen; +# if BSD >= 199103 + m->m_data -= hlen; +# else + m->m_off -= hlen; +# endif + /* + * Both sum and sum2 are partial sums, so combine them together. + */ + sum += ~sum2 & 0xffff; + while (sum > 0xffff) + sum = (sum & 0xffff) + (sum >> 16); + sum2 = ~sum & 0xffff; +# else /* defined(BSD) || defined(sun) */ +{ + union { + u_char c[2]; + u_short s; + } bytes; + u_short len = ip->ip_len; +# if defined(__sgi) + int add; +# endif + + /* + * Add up IP Header portion + */ + if (sp != (u_short *)l4hdr) + sp = (u_short *)l4hdr; + + switch (l4proto) + { + case IPPROTO_UDP : + sum += *sp++; /* sport */ + sum += *sp++; /* dport */ + sum += *sp++; /* udp length */ + sum += *sp++; /* checksum */ + break; + + case IPPROTO_TCP : + sum += *sp++; /* sport */ + sum += *sp++; /* dport */ + sum += *sp++; /* seq */ + sum += *sp++; + sum += *sp++; /* ack */ + sum += *sp++; + sum += *sp++; /* off */ + sum += *sp++; /* win */ + sum += *sp++; /* checksum */ + sum += *sp++; /* urp */ + break; + case IPPROTO_ICMP : + sum = *sp++; /* type/code */ + sum += *sp++; /* checksum */ + break; + } + +# ifdef __sgi + /* + * In case we had to copy the IP & TCP header out of mbufs, + * skip over the mbuf bits which are the header + */ + if ((caddr_t)ip != mtod(m, caddr_t)) { + hlen = (caddr_t)sp - (caddr_t)ip; + while (hlen) { + add = MIN(hlen, m->m_len); + sp = (u_short *)(mtod(m, caddr_t) + add); + hlen -= add; + if (add == m->m_len) { + m = m->m_next; + if (!hlen) { + if (!m) + break; + sp = mtod(m, u_short *); + } + PANIC((!m),("fr_cksum(1): not enough data")); + } + } + } +# endif + + len -= (l4hlen + hlen); + if (len <= 0) + goto nodata; + + while (len > 1) { + if (((caddr_t)sp - mtod(m, caddr_t)) >= m->m_len) { + m = m->m_next; + PANIC((!m),("fr_cksum(2): not enough data")); + sp = mtod(m, u_short *); + } + if (((caddr_t)(sp + 1) - mtod(m, caddr_t)) > m->m_len) { + bytes.c[0] = *(u_char *)sp; + m = m->m_next; + PANIC((!m),("fr_cksum(3): not enough data")); + sp = mtod(m, u_short *); + bytes.c[1] = *(u_char *)sp; + sum += bytes.s; + sp = (u_short *)((u_char *)sp + 1); + } + if ((u_long)sp & 1) { + bcopy((char *)sp++, (char *)&bytes.s, sizeof(bytes.s)); + sum += bytes.s; + } else + sum += *sp++; + len -= 2; + } + + if (len != 0) + sum += ntohs(*(u_char *)sp << 8); +nodata: + while (sum > 0xffff) + sum = (sum & 0xffff) + (sum >> 16); + sum2 = (u_short)(~sum & 0xffff); +} +# endif /* defined(BSD) || defined(sun) */ +# endif /* MENTAT */ +#else /* _KERNEL */ + /* + * Add up IP Header portion + */ + if (sp != (u_short *)l4hdr) + sp = (u_short *)l4hdr; + + for (; slen > 1; slen -= 2) + sum += *sp++; + if (slen) + sum += ntohs(*(u_char *)sp << 8); + while (sum > 0xffff) + sum = (sum & 0xffff) + (sum >> 16); + sum2 = (u_short)(~sum & 0xffff); +#endif /* _KERNEL */ + if (csump != NULL) + *csump = sumsave; + return sum2; +} + + +#if defined(_KERNEL) && ( ((BSD < 199103) && !defined(MENTAT)) || \ + defined(__sgi) ) && !defined(linux) && !defined(_AIX51) +/* + * Copyright (c) 1982, 1986, 1988, 1991, 1993 + * The Regents of the University of California. All rights reserved. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions + * are met: + * 1. Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in the + * documentation and/or other materials provided with the distribution. + * 3. Neither the name of the University nor the names of its contributors + * may be used to endorse or promote products derived from this software + * without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE + * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE + * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE + * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL + * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS + * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) + * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT + * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY + * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF + * SUCH DAMAGE. + * + * @(#)uipc_mbuf.c 8.2 (Berkeley) 1/4/94 + * $Id: fil.c,v 2.243.2.109 2007/05/31 12:27:33 darrenr Exp $ + */ +/* + * Copy data from an mbuf chain starting "off" bytes from the beginning, + * continuing for "len" bytes, into the indicated buffer. + */ +void +m_copydata(m, off, len, cp) + mb_t *m; + int off; + int len; + caddr_t cp; +{ + unsigned count; + + if (off < 0 || len < 0) + panic("m_copydata"); + while (off > 0) { + if (m == 0) + panic("m_copydata"); + if (off < m->m_len) + break; + off -= m->m_len; + m = m->m_next; + } + while (len > 0) { + if (m == 0) + panic("m_copydata"); + count = MIN(m->m_len - off, len); + bcopy(mtod(m, caddr_t) + off, cp, count); + len -= count; + cp += count; + off = 0; + m = m->m_next; + } +} + + +/* + * Copy data from a buffer back into the indicated mbuf chain, + * starting "off" bytes from the beginning, extending the mbuf + * chain if necessary. + */ +void +m_copyback(m0, off, len, cp) + struct mbuf *m0; + int off; + int len; + caddr_t cp; +{ + int mlen; + struct mbuf *m = m0, *n; + int totlen = 0; + + if (m0 == 0) + return; + while (off > (mlen = m->m_len)) { + off -= mlen; + totlen += mlen; + if (m->m_next == 0) { + n = m_getclr(M_DONTWAIT, m->m_type); + if (n == 0) + goto out; + n->m_len = min(MLEN, len + off); + m->m_next = n; + } + m = m->m_next; + } + while (len > 0) { + mlen = min(m->m_len - off, len); + bcopy(cp, off + mtod(m, caddr_t), (unsigned)mlen); + cp += mlen; + len -= mlen; + mlen += off; + off = 0; + totlen += mlen; + if (len == 0) + break; + if (m->m_next == 0) { + n = m_get(M_DONTWAIT, m->m_type); + if (n == 0) + break; + n->m_len = min(MLEN, len); + m->m_next = n; + } + m = m->m_next; + } +out: +#if 0 + if (((m = m0)->m_flags & M_PKTHDR) && (m->m_pkthdr.len < totlen)) + m->m_pkthdr.len = totlen; +#endif + return; +} +#endif /* (_KERNEL) && ( ((BSD < 199103) && !MENTAT) || __sgi) */ + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_findgroup */ +/* Returns: frgroup_t * - NULL = group not found, else pointer to group */ +/* Parameters: group(I) - group name to search for */ +/* unit(I) - device to which this group belongs */ +/* set(I) - which set of rules (inactive/inactive) this is */ +/* fgpp(O) - pointer to place to store pointer to the pointer */ +/* to where to add the next (last) group or where */ +/* to delete group from. */ +/* */ +/* Search amongst the defined groups for a particular group number. */ +/* ------------------------------------------------------------------------ */ +frgroup_t *fr_findgroup(group, unit, set, fgpp) +char *group; +minor_t unit; +int set; +frgroup_t ***fgpp; +{ + frgroup_t *fg, **fgp; + + /* + * Which list of groups to search in is dependent on which list of + * rules are being operated on. + */ + fgp = &ipfgroups[unit][set]; + + while ((fg = *fgp) != NULL) { + if (strncmp(group, fg->fg_name, FR_GROUPLEN) == 0) + break; + else + fgp = &fg->fg_next; + } + if (fgpp != NULL) + *fgpp = fgp; + return fg; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_addgroup */ +/* Returns: frgroup_t * - NULL == did not create group, */ +/* != NULL == pointer to the group */ +/* Parameters: num(I) - group number to add */ +/* head(I) - rule pointer that is using this as the head */ +/* flags(I) - rule flags which describe the type of rule it is */ +/* unit(I) - device to which this group will belong to */ +/* set(I) - which set of rules (inactive/inactive) this is */ +/* Write Locks: ipf_mutex */ +/* */ +/* Add a new group head, or if it already exists, increase the reference */ +/* count to it. */ +/* ------------------------------------------------------------------------ */ +frgroup_t *fr_addgroup(group, head, flags, unit, set) +char *group; +void *head; +u_32_t flags; +minor_t unit; +int set; +{ + frgroup_t *fg, **fgp; + u_32_t gflags; + + if (group == NULL) + return NULL; + + if (unit == IPL_LOGIPF && *group == '\0') + return NULL; + + fgp = NULL; + gflags = flags & FR_INOUT; + + fg = fr_findgroup(group, unit, set, &fgp); + if (fg != NULL) { + if (fg->fg_flags == 0) + fg->fg_flags = gflags; + else if (gflags != fg->fg_flags) + return NULL; + fg->fg_ref++; + return fg; + } + KMALLOC(fg, frgroup_t *); + if (fg != NULL) { + fg->fg_head = head; + fg->fg_start = NULL; + fg->fg_next = *fgp; + bcopy(group, fg->fg_name, FR_GROUPLEN); + fg->fg_flags = gflags; + fg->fg_ref = 1; + *fgp = fg; + } + return fg; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_delgroup */ +/* Returns: Nil */ +/* Parameters: group(I) - group name to delete */ +/* unit(I) - device to which this group belongs */ +/* set(I) - which set of rules (inactive/inactive) this is */ +/* Write Locks: ipf_mutex */ +/* */ +/* Attempt to delete a group head. */ +/* Only do this when its reference count reaches 0. */ +/* ------------------------------------------------------------------------ */ +void fr_delgroup(group, unit, set) +char *group; +minor_t unit; +int set; +{ + frgroup_t *fg, **fgp; + + fg = fr_findgroup(group, unit, set, &fgp); + if (fg == NULL) + return; + + fg->fg_ref--; + if (fg->fg_ref == 0) { + *fgp = fg->fg_next; + KFREE(fg); + } +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_getrulen */ +/* Returns: frentry_t * - NULL == not found, else pointer to rule n */ +/* Parameters: unit(I) - device for which to count the rule's number */ +/* flags(I) - which set of rules to find the rule in */ +/* group(I) - group name */ +/* n(I) - rule number to find */ +/* */ +/* Find rule # n in group # g and return a pointer to it. Return NULl if */ +/* group # g doesn't exist or there are less than n rules in the group. */ +/* ------------------------------------------------------------------------ */ +frentry_t *fr_getrulen(unit, group, n) +int unit; +char *group; +u_32_t n; +{ + frentry_t *fr; + frgroup_t *fg; + + fg = fr_findgroup(group, unit, fr_active, NULL); + if (fg == NULL) + return NULL; + for (fr = fg->fg_head; fr && n; fr = fr->fr_next, n--) + ; + if (n != 0) + return NULL; + return fr; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_rulen */ +/* Returns: int - >= 0 - rule number, -1 == search failed */ +/* Parameters: unit(I) - device for which to count the rule's number */ +/* fr(I) - pointer to rule to match */ +/* */ +/* Return the number for a rule on a specific filtering device. */ +/* ------------------------------------------------------------------------ */ +int fr_rulen(unit, fr) +int unit; +frentry_t *fr; +{ + frentry_t *fh; + frgroup_t *fg; + u_32_t n = 0; + + if (fr == NULL) + return -1; + fg = fr_findgroup(fr->fr_group, unit, fr_active, NULL); + if (fg == NULL) + return -1; + for (fh = fg->fg_head; fh; n++, fh = fh->fr_next) + if (fh == fr) + break; + if (fh == NULL) + return -1; + return n; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frflushlist */ +/* Returns: int - >= 0 - number of flushed rules */ +/* Parameters: set(I) - which set of rules (inactive/inactive) this is */ +/* unit(I) - device for which to flush rules */ +/* flags(I) - which set of rules to flush */ +/* nfreedp(O) - pointer to int where flush count is stored */ +/* listp(I) - pointer to list to flush pointer */ +/* Write Locks: ipf_mutex */ +/* */ +/* Recursively flush rules from the list, descending groups as they are */ +/* encountered. if a rule is the head of a group and it has lost all its */ +/* group members, then also delete the group reference. nfreedp is needed */ +/* to store the accumulating count of rules removed, whereas the returned */ +/* value is just the number removed from the current list. The latter is */ +/* needed to correctly adjust reference counts on rules that define groups. */ +/* */ +/* NOTE: Rules not loaded from user space cannot be flushed. */ +/* ------------------------------------------------------------------------ */ +static int frflushlist(set, unit, nfreedp, listp) +int set; +minor_t unit; +int *nfreedp; +frentry_t **listp; +{ + int freed = 0, i; + frentry_t *fp; + + while ((fp = *listp) != NULL) { + if ((fp->fr_type & FR_T_BUILTIN) || + !(fp->fr_flags & FR_COPIED)) { + listp = &fp->fr_next; + continue; + } + *listp = fp->fr_next; + if (fp->fr_grp != NULL) { + i = frflushlist(set, unit, nfreedp, fp->fr_grp); + fp->fr_ref -= i; + } + + if (fp->fr_grhead != NULL) { + fr_delgroup(fp->fr_grhead, unit, set); + *fp->fr_grhead = '\0'; + } + + ASSERT(fp->fr_ref > 0); + fp->fr_next = NULL; + if (fr_derefrule(&fp) == 0) + freed++; + } + *nfreedp += freed; + return freed; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: frflush */ +/* Returns: int - >= 0 - number of flushed rules */ +/* Parameters: unit(I) - device for which to flush rules */ +/* flags(I) - which set of rules to flush */ +/* */ +/* Calls flushlist() for all filter rules (accounting, firewall - both IPv4 */ +/* and IPv6) as defined by the value of flags. */ +/* ------------------------------------------------------------------------ */ +int frflush(unit, proto, flags) +minor_t unit; +int proto, flags; +{ + int flushed = 0, set; + + WRITE_ENTER(&ipf_mutex); + bzero((char *)frcache, sizeof(frcache)); + + set = fr_active; + if ((flags & FR_INACTIVE) == FR_INACTIVE) + set = 1 - set; + + if (flags & FR_OUTQUE) { + if (proto == 0 || proto == 6) { + (void) frflushlist(set, unit, + &flushed, &ipfilter6[1][set]); + (void) frflushlist(set, unit, + &flushed, &ipacct6[1][set]); + } + if (proto == 0 || proto == 4) { + (void) frflushlist(set, unit, + &flushed, &ipfilter[1][set]); + (void) frflushlist(set, unit, + &flushed, &ipacct[1][set]); + } + } + if (flags & FR_INQUE) { + if (proto == 0 || proto == 6) { + (void) frflushlist(set, unit, + &flushed, &ipfilter6[0][set]); + (void) frflushlist(set, unit, + &flushed, &ipacct6[0][set]); + } + if (proto == 0 || proto == 4) { + (void) frflushlist(set, unit, + &flushed, &ipfilter[0][set]); + (void) frflushlist(set, unit, + &flushed, &ipacct[0][set]); + } + } + RWLOCK_EXIT(&ipf_mutex); + + if (unit == IPL_LOGIPF) { + int tmp; + + tmp = frflush(IPL_LOGCOUNT, proto, flags); + if (tmp >= 0) + flushed += tmp; + } + return flushed; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: memstr */ +/* Returns: char * - NULL if failed, != NULL pointer to matching bytes */ +/* Parameters: src(I) - pointer to byte sequence to match */ +/* dst(I) - pointer to byte sequence to search */ +/* slen(I) - match length */ +/* dlen(I) - length available to search in */ +/* */ +/* Search dst for a sequence of bytes matching those at src and extend for */ +/* slen bytes. */ +/* ------------------------------------------------------------------------ */ +char *memstr(src, dst, slen, dlen) +const char *src; +char *dst; +size_t slen, dlen; +{ + char *s = NULL; + + while (dlen >= slen) { + if (bcmp(src, dst, slen) == 0) { + s = dst; + break; + } + dst++; + dlen--; + } + return s; +} +/* ------------------------------------------------------------------------ */ +/* Function: fr_fixskip */ +/* Returns: Nil */ +/* Parameters: listp(IO) - pointer to start of list with skip rule */ +/* rp(I) - rule added/removed with skip in it. */ +/* addremove(I) - adjustment (-1/+1) to make to skip count, */ +/* depending on whether a rule was just added */ +/* or removed. */ +/* */ +/* Adjust all the rules in a list which would have skip'd past the position */ +/* where we are inserting to skip to the right place given the change. */ +/* ------------------------------------------------------------------------ */ +void fr_fixskip(listp, rp, addremove) +frentry_t **listp, *rp; +int addremove; +{ + int rules, rn; + frentry_t *fp; + + rules = 0; + for (fp = *listp; (fp != NULL) && (fp != rp); fp = fp->fr_next) + rules++; + + if (!fp) + return; + + for (rn = 0, fp = *listp; fp && (fp != rp); fp = fp->fr_next, rn++) + if (FR_ISSKIP(fp->fr_flags) && (rn + fp->fr_arg >= rules)) + fp->fr_arg += addremove; +} + + +#ifdef _KERNEL +/* ------------------------------------------------------------------------ */ +/* Function: count4bits */ +/* Returns: int - >= 0 - number of consecutive bits in input */ +/* Parameters: ip(I) - 32bit IP address */ +/* */ +/* IPv4 ONLY */ +/* count consecutive 1's in bit mask. If the mask generated by counting */ +/* consecutive 1's is different to that passed, return -1, else return # */ +/* of bits. */ +/* ------------------------------------------------------------------------ */ +int count4bits(ip) +u_32_t ip; +{ + u_32_t ipn; + int cnt = 0, i, j; + + ip = ipn = ntohl(ip); + for (i = 32; i; i--, ipn *= 2) + if (ipn & 0x80000000) + cnt++; + else + break; + ipn = 0; + for (i = 32, j = cnt; i; i--, j--) { + ipn *= 2; + if (j > 0) + ipn++; + } + if (ipn == ip) + return cnt; + return -1; +} + + +# if 0 +/* ------------------------------------------------------------------------ */ +/* Function: count6bits */ +/* Returns: int - >= 0 - number of consecutive bits in input */ +/* Parameters: msk(I) - pointer to start of IPv6 bitmask */ +/* */ +/* IPv6 ONLY */ +/* count consecutive 1's in bit mask. */ +/* ------------------------------------------------------------------------ */ +int count6bits(msk) +u_32_t *msk; +{ + int i = 0, k; + u_32_t j; + + for (k = 3; k >= 0; k--) + if (msk[k] == 0xffffffff) + i += 32; + else { + for (j = msk[k]; j; j <<= 1) + if (j & 0x80000000) + i++; + } + return i; +} +# endif +#endif /* _KERNEL */ + + +/* ------------------------------------------------------------------------ */ +/* Function: frsynclist */ +/* Returns: void */ +/* Parameters: fr(I) - start of filter list to sync interface names for */ +/* ifp(I) - interface pointer for limiting sync lookups */ +/* Write Locks: ipf_mutex */ +/* */ +/* Walk through a list of filter rules and resolve any interface names into */ +/* pointers. Where dynamic addresses are used, also update the IP address */ +/* used in the rule. The interface pointer is used to limit the lookups to */ +/* a specific set of matching names if it is non-NULL. */ +/* ------------------------------------------------------------------------ */ +static void frsynclist(fr, ifp) +frentry_t *fr; +void *ifp; +{ + frdest_t *fdp; + int v, i; + + for (; fr; fr = fr->fr_next) { + v = fr->fr_v; + + /* + * Lookup all the interface names that are part of the rule. + */ + for (i = 0; i < 4; i++) { + if ((ifp != NULL) && (fr->fr_ifas[i] != ifp)) + continue; + fr->fr_ifas[i] = fr_resolvenic(fr->fr_ifnames[i], v); + } + + if (fr->fr_type == FR_T_IPF) { + if (fr->fr_satype != FRI_NORMAL && + fr->fr_satype != FRI_LOOKUP) { + (void)fr_ifpaddr(v, fr->fr_satype, + fr->fr_ifas[fr->fr_sifpidx], + &fr->fr_src, &fr->fr_smsk); + } + if (fr->fr_datype != FRI_NORMAL && + fr->fr_datype != FRI_LOOKUP) { + (void)fr_ifpaddr(v, fr->fr_datype, + fr->fr_ifas[fr->fr_difpidx], + &fr->fr_dst, &fr->fr_dmsk); + } + } + + fdp = &fr->fr_tifs[0]; + if ((ifp == NULL) || (fdp->fd_ifp == ifp)) + fr_resolvedest(fdp, v); + + fdp = &fr->fr_tifs[1]; + if ((ifp == NULL) || (fdp->fd_ifp == ifp)) + fr_resolvedest(fdp, v); + + fdp = &fr->fr_dif; + if ((ifp == NULL) || (fdp->fd_ifp == ifp)) { + fr_resolvedest(fdp, v); + + fr->fr_flags &= ~FR_DUP; + if ((fdp->fd_ifp != (void *)-1) && + (fdp->fd_ifp != NULL)) + fr->fr_flags |= FR_DUP; + } + +#ifdef IPFILTER_LOOKUP + if (fr->fr_type == FR_T_IPF && fr->fr_satype == FRI_LOOKUP && + fr->fr_srcptr == NULL) { + fr->fr_srcptr = fr_resolvelookup(fr->fr_srctype, + fr->fr_srcsubtype, + &fr->fr_slookup, + &fr->fr_srcfunc); + } + if (fr->fr_type == FR_T_IPF && fr->fr_datype == FRI_LOOKUP && + fr->fr_dstptr == NULL) { + fr->fr_dstptr = fr_resolvelookup(fr->fr_dsttype, + fr->fr_dstsubtype, + &fr->fr_dlookup, + &fr->fr_dstfunc); + } +#endif + } +} + + +#ifdef _KERNEL +/* ------------------------------------------------------------------------ */ +/* Function: frsync */ +/* Returns: void */ +/* Parameters: Nil */ +/* */ +/* frsync() is called when we suspect that the interface list or */ +/* information about interfaces (like IP#) has changed. Go through all */ +/* filter rules, NAT entries and the state table and check if anything */ +/* needs to be changed/updated. */ +/* ------------------------------------------------------------------------ */ +void frsync(ifp) +void *ifp; +{ + int i; + +# if !SOLARIS + fr_natsync(ifp); + fr_statesync(ifp); +# endif + + WRITE_ENTER(&ipf_mutex); + frsynclist(ipacct[0][fr_active], ifp); + frsynclist(ipacct[1][fr_active], ifp); + frsynclist(ipfilter[0][fr_active], ifp); + frsynclist(ipfilter[1][fr_active], ifp); + frsynclist(ipacct6[0][fr_active], ifp); + frsynclist(ipacct6[1][fr_active], ifp); + frsynclist(ipfilter6[0][fr_active], ifp); + frsynclist(ipfilter6[1][fr_active], ifp); + + for (i = 0; i < IPL_LOGSIZE; i++) { + frgroup_t *g; + + for (g = ipfgroups[i][0]; g != NULL; g = g->fg_next) + frsynclist(g->fg_start, ifp); + for (g = ipfgroups[i][1]; g != NULL; g = g->fg_next) + frsynclist(g->fg_start, ifp); + } + RWLOCK_EXIT(&ipf_mutex); +} + + +/* + * In the functions below, bcopy() is called because the pointer being + * copied _from_ in this instance is a pointer to a char buf (which could + * end up being unaligned) and on the kernel's local stack. + */ +/* ------------------------------------------------------------------------ */ +/* Function: copyinptr */ +/* Returns: int - 0 = success, else failure */ +/* Parameters: src(I) - pointer to the source address */ +/* dst(I) - destination address */ +/* size(I) - number of bytes to copy */ +/* */ +/* Copy a block of data in from user space, given a pointer to the pointer */ +/* to start copying from (src) and a pointer to where to store it (dst). */ +/* NB: src - pointer to user space pointer, dst - kernel space pointer */ +/* ------------------------------------------------------------------------ */ +int copyinptr(src, dst, size) +void *src, *dst; +size_t size; +{ + caddr_t ca; + int error; + +# if SOLARIS + error = COPYIN(src, (caddr_t)&ca, sizeof(ca)); + if (error != 0) + return error; +# else + bcopy(src, (caddr_t)&ca, sizeof(ca)); +# endif + error = COPYIN(ca, dst, size); + if (error != 0) + error = EFAULT; + return error; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: copyoutptr */ +/* Returns: int - 0 = success, else failure */ +/* Parameters: src(I) - pointer to the source address */ +/* dst(I) - destination address */ +/* size(I) - number of bytes to copy */ +/* */ +/* Copy a block of data out to user space, given a pointer to the pointer */ +/* to start copying from (src) and a pointer to where to store it (dst). */ +/* NB: src - kernel space pointer, dst - pointer to user space pointer. */ +/* ------------------------------------------------------------------------ */ +int copyoutptr(src, dst, size) +void *src, *dst; +size_t size; +{ + caddr_t ca; + int error; + + bcopy(dst, (caddr_t)&ca, sizeof(ca)); + error = COPYOUT(src, ca, size); + if (error != 0) + error = EFAULT; + return error; +} +#endif + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_lock */ +/* Returns: (void) */ +/* Parameters: data(I) - pointer to lock value to set */ +/* lockp(O) - pointer to location to store old lock value */ +/* */ +/* Get the new value for the lock integer, set it and return the old value */ +/* in *lockp. */ +/* ------------------------------------------------------------------------ */ +void fr_lock(data, lockp) +caddr_t data; +int *lockp; +{ + int arg; + + BCOPYIN(data, (caddr_t)&arg, sizeof(arg)); + BCOPYOUT((caddr_t)lockp, data, sizeof(*lockp)); + *lockp = arg; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_getstat */ +/* Returns: Nil */ +/* Parameters: fiop(I) - pointer to ipfilter stats structure */ +/* */ +/* Stores a copy of current pointers, counters, etc, in the friostat */ +/* structure. */ +/* ------------------------------------------------------------------------ */ +void fr_getstat(fiop) +friostat_t *fiop; +{ + int i, j; + + bcopy((char *)frstats, (char *)fiop->f_st, sizeof(filterstats_t) * 2); + fiop->f_locks[IPL_LOGSTATE] = fr_state_lock; + fiop->f_locks[IPL_LOGNAT] = fr_nat_lock; + fiop->f_locks[IPL_LOGIPF] = fr_frag_lock; + fiop->f_locks[IPL_LOGAUTH] = fr_auth_lock; + + for (i = 0; i < 2; i++) + for (j = 0; j < 2; j++) { + fiop->f_ipf[i][j] = ipfilter[i][j]; + fiop->f_acct[i][j] = ipacct[i][j]; + fiop->f_ipf6[i][j] = ipfilter6[i][j]; + fiop->f_acct6[i][j] = ipacct6[i][j]; + } + + fiop->f_ticks = fr_ticks; + fiop->f_active = fr_active; + fiop->f_froute[0] = fr_frouteok[0]; + fiop->f_froute[1] = fr_frouteok[1]; + + fiop->f_running = fr_running; + for (i = 0; i < IPL_LOGSIZE; i++) { + fiop->f_groups[i][0] = ipfgroups[i][0]; + fiop->f_groups[i][1] = ipfgroups[i][1]; + } +#ifdef IPFILTER_LOG + fiop->f_logging = 1; +#else + fiop->f_logging = 0; +#endif + fiop->f_defpass = fr_pass; + fiop->f_features = fr_features; + (void) strncpy(fiop->f_version, ipfilter_version, + sizeof(fiop->f_version)); +} + + +#ifdef USE_INET6 +int icmptoicmp6types[ICMP_MAXTYPE+1] = { + ICMP6_ECHO_REPLY, /* 0: ICMP_ECHOREPLY */ + -1, /* 1: UNUSED */ + -1, /* 2: UNUSED */ + ICMP6_DST_UNREACH, /* 3: ICMP_UNREACH */ + -1, /* 4: ICMP_SOURCEQUENCH */ + ND_REDIRECT, /* 5: ICMP_REDIRECT */ + -1, /* 6: UNUSED */ + -1, /* 7: UNUSED */ + ICMP6_ECHO_REQUEST, /* 8: ICMP_ECHO */ + -1, /* 9: UNUSED */ + -1, /* 10: UNUSED */ + ICMP6_TIME_EXCEEDED, /* 11: ICMP_TIMXCEED */ + ICMP6_PARAM_PROB, /* 12: ICMP_PARAMPROB */ + -1, /* 13: ICMP_TSTAMP */ + -1, /* 14: ICMP_TSTAMPREPLY */ + -1, /* 15: ICMP_IREQ */ + -1, /* 16: ICMP_IREQREPLY */ + -1, /* 17: ICMP_MASKREQ */ + -1, /* 18: ICMP_MASKREPLY */ +}; + + +int icmptoicmp6unreach[ICMP_MAX_UNREACH] = { + ICMP6_DST_UNREACH_ADDR, /* 0: ICMP_UNREACH_NET */ + ICMP6_DST_UNREACH_ADDR, /* 1: ICMP_UNREACH_HOST */ + -1, /* 2: ICMP_UNREACH_PROTOCOL */ + ICMP6_DST_UNREACH_NOPORT, /* 3: ICMP_UNREACH_PORT */ + -1, /* 4: ICMP_UNREACH_NEEDFRAG */ + ICMP6_DST_UNREACH_NOTNEIGHBOR, /* 5: ICMP_UNREACH_SRCFAIL */ + ICMP6_DST_UNREACH_ADDR, /* 6: ICMP_UNREACH_NET_UNKNOWN */ + ICMP6_DST_UNREACH_ADDR, /* 7: ICMP_UNREACH_HOST_UNKNOWN */ + -1, /* 8: ICMP_UNREACH_ISOLATED */ + ICMP6_DST_UNREACH_ADMIN, /* 9: ICMP_UNREACH_NET_PROHIB */ + ICMP6_DST_UNREACH_ADMIN, /* 10: ICMP_UNREACH_HOST_PROHIB */ + -1, /* 11: ICMP_UNREACH_TOSNET */ + -1, /* 12: ICMP_UNREACH_TOSHOST */ + ICMP6_DST_UNREACH_ADMIN, /* 13: ICMP_UNREACH_ADMIN_PROHIBIT */ +}; +int icmpreplytype6[ICMP6_MAXTYPE + 1]; +#endif + +int icmpreplytype4[ICMP_MAXTYPE + 1]; + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_matchicmpqueryreply */ +/* Returns: int - 1 if "icmp" is a valid reply to "ic" else 0. */ +/* Parameters: v(I) - IP protocol version (4 or 6) */ +/* ic(I) - ICMP information */ +/* icmp(I) - ICMP packet header */ +/* rev(I) - direction (0 = forward/1 = reverse) of packet */ +/* */ +/* Check if the ICMP packet defined by the header pointed to by icmp is a */ +/* reply to one as described by what's in ic. If it is a match, return 1, */ +/* else return 0 for no match. */ +/* ------------------------------------------------------------------------ */ +int fr_matchicmpqueryreply(v, ic, icmp, rev) +int v; +icmpinfo_t *ic; +icmphdr_t *icmp; +int rev; +{ + int ictype; + + ictype = ic->ici_type; + + if (v == 4) { + /* + * If we matched its type on the way in, then when going out + * it will still be the same type. + */ + if ((!rev && (icmp->icmp_type == ictype)) || + (rev && (icmpreplytype4[ictype] == icmp->icmp_type))) { + if (icmp->icmp_type != ICMP_ECHOREPLY) + return 1; + if (icmp->icmp_id == ic->ici_id) + return 1; + } + } +#ifdef USE_INET6 + else if (v == 6) { + if ((!rev && (icmp->icmp_type == ictype)) || + (rev && (icmpreplytype6[ictype] == icmp->icmp_type))) { + if (icmp->icmp_type != ICMP6_ECHO_REPLY) + return 1; + if (icmp->icmp_id == ic->ici_id) + return 1; + } + } +#endif + return 0; +} + + +#ifdef IPFILTER_LOOKUP +/* ------------------------------------------------------------------------ */ +/* Function: fr_resolvelookup */ +/* Returns: void * - NULL = failure, else success. */ +/* Parameters: type(I) - type of lookup these parameters are for. */ +/* subtype(I) - whether the info below contains number/name */ +/* info(I) - pointer to name/number of the lookup data */ +/* funcptr(IO) - pointer to pointer for storing IP address */ +/* searching function. */ +/* */ +/* Search for the "table" number passed in amongst those configured for */ +/* that particular type. If the type is recognised then the function to */ +/* call to do the IP address search will be change, regardless of whether */ +/* or not the "table" number exists. */ +/* ------------------------------------------------------------------------ */ +static void *fr_resolvelookup(type, subtype, info, funcptr) +u_int type, subtype; +i6addr_t *info; +lookupfunc_t *funcptr; +{ + char label[FR_GROUPLEN], *name; + iphtable_t *iph; + ip_pool_t *ipo; + void *ptr; + + if (subtype == 0) { +#if defined(SNPRINTF) && defined(_KERNEL) + SNPRINTF(label, sizeof(label), "%u", info->iplookupnum); +#else + (void) sprintf(label, "%u", info->iplookupnum); +#endif + name = label; + } else if (subtype == 1) { + /* + * Because iplookupname is currently only a 12 character + * string and FR_GROUPLEN is 16, copy all of it into the + * label buffer and add on a NULL at the end. + */ + strncpy(label, info->iplookupname, sizeof(info->iplookupname)); + label[sizeof(info->iplookupname)] = '\0'; + name = label; + } else { + return NULL; + } + + READ_ENTER(&ip_poolrw); + + switch (type) + { + case IPLT_POOL : +# if (defined(__osf__) && defined(_KERNEL)) + ptr = NULL; + *funcptr = NULL; +# else + ipo = ip_pool_find(IPL_LOGIPF, name); + ptr = ipo; + if (ipo != NULL) { + ATOMIC_INC32(ipo->ipo_ref); + } + *funcptr = ip_pool_search; +# endif + break; + case IPLT_HASH : + iph = fr_findhtable(IPL_LOGIPF, name); + ptr = iph; + if (iph != NULL) { + ATOMIC_INC32(iph->iph_ref); + } + *funcptr = fr_iphmfindip; + break; + default: + ptr = NULL; + *funcptr = NULL; + break; + } + RWLOCK_EXIT(&ip_poolrw); + + return ptr; +} +#endif + + +/* ------------------------------------------------------------------------ */ +/* Function: frrequest */ +/* Returns: int - 0 == success, > 0 == errno value */ +/* Parameters: unit(I) - device for which this is for */ +/* req(I) - ioctl command (SIOC*) */ +/* data(I) - pointr to ioctl data */ +/* set(I) - 1 or 0 (filter set) */ +/* makecopy(I) - flag indicating whether data points to a rule */ +/* in kernel space & hence doesn't need copying. */ +/* */ +/* This function handles all the requests which operate on the list of */ +/* filter rules. This includes adding, deleting, insertion. It is also */ +/* responsible for creating groups when a "head" rule is loaded. Interface */ +/* names are resolved here and other sanity checks are made on the content */ +/* of the rule structure being loaded. If a rule has user defined timeouts */ +/* then make sure they are created and initialised before exiting. */ +/* ------------------------------------------------------------------------ */ +int frrequest(unit, req, data, set, makecopy) +int unit; +ioctlcmd_t req; +int set, makecopy; +caddr_t data; +{ + frentry_t frd, *fp, *f, **fprev, **ftail; + int error = 0, in, v; + void *ptr, *uptr; + u_int *p, *pp; + frgroup_t *fg; + char *group; + + fg = NULL; + fp = &frd; + if (makecopy != 0) { + error = fr_inobj(data, fp, IPFOBJ_FRENTRY); + if (error) + return EFAULT; + if ((fp->fr_flags & FR_T_BUILTIN) != 0) + return EINVAL; + fp->fr_ref = 0; + fp->fr_flags |= FR_COPIED; + } else { + fp = (frentry_t *)data; + if ((fp->fr_type & FR_T_BUILTIN) == 0) + return EINVAL; + fp->fr_flags &= ~FR_COPIED; + } + + if (((fp->fr_dsize == 0) && (fp->fr_data != NULL)) || + ((fp->fr_dsize != 0) && (fp->fr_data == NULL))) + return EINVAL; + + v = fp->fr_v; + uptr = fp->fr_data; + + /* + * Only filter rules for IPv4 or IPv6 are accepted. + */ + if (v == 4) + /*EMPTY*/; +#ifdef USE_INET6 + else if (v == 6) + /*EMPTY*/; +#endif + else { + return EINVAL; + } + + /* + * If the rule is being loaded from user space, i.e. we had to copy it + * into kernel space, then do not trust the function pointer in the + * rule. + */ + if ((makecopy == 1) && (fp->fr_func != NULL)) { + if (fr_findfunc(fp->fr_func) == NULL) + return ESRCH; + error = fr_funcinit(fp); + if (error != 0) + return error; + } + + ptr = NULL; + /* + * Check that the group number does exist and that its use (in/out) + * matches what the rule is. + */ + if (!strncmp(fp->fr_grhead, "0", FR_GROUPLEN)) + *fp->fr_grhead = '\0'; + group = fp->fr_group; + if (!strncmp(group, "0", FR_GROUPLEN)) + *group = '\0'; + + if (FR_ISACCOUNT(fp->fr_flags)) + unit = IPL_LOGCOUNT; + + if ((req != (int)SIOCZRLST) && (*group != '\0')) { + fg = fr_findgroup(group, unit, set, NULL); + if (fg == NULL) + return ESRCH; + if (fg->fg_flags == 0) + fg->fg_flags = fp->fr_flags & FR_INOUT; + else if (fg->fg_flags != (fp->fr_flags & FR_INOUT)) + return ESRCH; + } + + in = (fp->fr_flags & FR_INQUE) ? 0 : 1; + + /* + * Work out which rule list this change is being applied to. + */ + ftail = NULL; + fprev = NULL; + if (unit == IPL_LOGAUTH) + fprev = &ipauth; + else if (v == 4) { + if (FR_ISACCOUNT(fp->fr_flags)) + fprev = &ipacct[in][set]; + else if ((fp->fr_flags & (FR_OUTQUE|FR_INQUE)) != 0) + fprev = &ipfilter[in][set]; + } else if (v == 6) { + if (FR_ISACCOUNT(fp->fr_flags)) + fprev = &ipacct6[in][set]; + else if ((fp->fr_flags & (FR_OUTQUE|FR_INQUE)) != 0) + fprev = &ipfilter6[in][set]; + } + if (fprev == NULL) + return ESRCH; + + if (*group != '\0') { + if (!fg && !(fg = fr_findgroup(group, unit, set, NULL))) + return ESRCH; + fprev = &fg->fg_start; + } + + /* + * Copy in extra data for the rule. + */ + if (fp->fr_dsize != 0) { + if (makecopy != 0) { + KMALLOCS(ptr, void *, fp->fr_dsize); + if (!ptr) + return ENOMEM; + error = COPYIN(uptr, ptr, fp->fr_dsize); + if (error != 0) + error = EFAULT; + } else { + ptr = uptr; + error = 0; + } + if (error != 0) { + KFREES(ptr, fp->fr_dsize); + return ENOMEM; + } + fp->fr_data = ptr; + } else + fp->fr_data = NULL; + + /* + * Perform per-rule type sanity checks of their members. + */ + switch (fp->fr_type & ~FR_T_BUILTIN) + { +#if defined(IPFILTER_BPF) + case FR_T_BPFOPC : + if (fp->fr_dsize == 0) + return EINVAL; + if (!bpf_validate(ptr, fp->fr_dsize/sizeof(struct bpf_insn))) { + if (makecopy && fp->fr_data != NULL) { + KFREES(fp->fr_data, fp->fr_dsize); + } + return EINVAL; + } + break; +#endif + case FR_T_IPF : + if (fp->fr_dsize != sizeof(fripf_t)) + return EINVAL; + + /* + * Allowing a rule with both "keep state" and "with oow" is + * pointless because adding a state entry to the table will + * fail with the out of window (oow) flag set. + */ + if ((fp->fr_flags & FR_KEEPSTATE) && (fp->fr_flx & FI_OOW)) + return EINVAL; + + switch (fp->fr_satype) + { + case FRI_BROADCAST : + case FRI_DYNAMIC : + case FRI_NETWORK : + case FRI_NETMASKED : + case FRI_PEERADDR : + if (fp->fr_sifpidx < 0 || fp->fr_sifpidx > 3) { + if (makecopy && fp->fr_data != NULL) { + KFREES(fp->fr_data, fp->fr_dsize); + } + return EINVAL; + } + break; +#ifdef IPFILTER_LOOKUP + case FRI_LOOKUP : + fp->fr_srcptr = fr_resolvelookup(fp->fr_srctype, + fp->fr_srcsubtype, + &fp->fr_slookup, + &fp->fr_srcfunc); + if (fp->fr_srcptr == NULL) + return ESRCH; + break; +#endif + default : + break; + } + + switch (fp->fr_datype) + { + case FRI_BROADCAST : + case FRI_DYNAMIC : + case FRI_NETWORK : + case FRI_NETMASKED : + case FRI_PEERADDR : + if (fp->fr_difpidx < 0 || fp->fr_difpidx > 3) { + if (makecopy && fp->fr_data != NULL) { + KFREES(fp->fr_data, fp->fr_dsize); + } + return EINVAL; + } + break; +#ifdef IPFILTER_LOOKUP + case FRI_LOOKUP : + fp->fr_dstptr = fr_resolvelookup(fp->fr_dsttype, + fp->fr_dstsubtype, + &fp->fr_dlookup, + &fp->fr_dstfunc); + if (fp->fr_dstptr == NULL) + return ESRCH; + break; +#endif + default : + break; + } + break; + case FR_T_NONE : + break; + case FR_T_CALLFUNC : + break; + case FR_T_COMPIPF : + break; + default : + if (makecopy && fp->fr_data != NULL) { + KFREES(fp->fr_data, fp->fr_dsize); + } + return EINVAL; + } + + /* + * Lookup all the interface names that are part of the rule. + */ + frsynclist(fp, NULL); + fp->fr_statecnt = 0; + + /* + * Look for an existing matching filter rule, but don't include the + * next or interface pointer in the comparison (fr_next, fr_ifa). + * This elminates rules which are indentical being loaded. Checksum + * the constant part of the filter rule to make comparisons quicker + * (this meaning no pointers are included). + */ + for (fp->fr_cksum = 0, p = (u_int *)&fp->fr_func, pp = &fp->fr_cksum; + p < pp; p++) + fp->fr_cksum += *p; + pp = (u_int *)(fp->fr_caddr + fp->fr_dsize); + for (p = (u_int *)fp->fr_data; p < pp; p++) + fp->fr_cksum += *p; + + WRITE_ENTER(&ipf_mutex); + + /* + * Now that the filter rule lists are locked, we can walk the + * chain of them without fear. + */ + ftail = fprev; + for (f = *ftail; (f = *ftail) != NULL; ftail = &f->fr_next) { + if (fp->fr_collect <= f->fr_collect) { + ftail = fprev; + f = NULL; + break; + } + fprev = ftail; + } + bzero((char *)frcache, sizeof(frcache)); + + for (; (f = *ftail) != NULL; ftail = &f->fr_next) { + if ((fp->fr_cksum != f->fr_cksum) || + (f->fr_dsize != fp->fr_dsize)) + continue; + if (bcmp((char *)&f->fr_func, (char *)&fp->fr_func, FR_CMPSIZ)) + continue; + if ((!ptr && !f->fr_data) || + (ptr && f->fr_data && + !bcmp((char *)ptr, (char *)f->fr_data, f->fr_dsize))) + break; + } + + /* + * If zero'ing statistics, copy current to caller and zero. + */ + if (req == (ioctlcmd_t)SIOCZRLST) { + if (f == NULL) + error = ESRCH; + else { + /* + * Copy and reduce lock because of impending copyout. + * Well we should, but if we do then the atomicity of + * this call and the correctness of fr_hits and + * fr_bytes cannot be guaranteed. As it is, this code + * only resets them to 0 if they are successfully + * copied out into user space. + */ + bcopy((char *)f, (char *)fp, sizeof(*f)); + /* MUTEX_DOWNGRADE(&ipf_mutex); */ + + /* + * When we copy this rule back out, set the data + * pointer to be what it was in user space. + */ + fp->fr_data = uptr; + error = fr_outobj(data, fp, IPFOBJ_FRENTRY); + + if (error == 0) { + if ((f->fr_dsize != 0) && (uptr != NULL)) + error = COPYOUT(f->fr_data, uptr, + f->fr_dsize); + if (error != 0) + error = EFAULT; + if (error == 0) { + f->fr_hits = 0; + f->fr_bytes = 0; + } + } + } + + if ((ptr != NULL) && (makecopy != 0)) { + KFREES(ptr, fp->fr_dsize); + } + RWLOCK_EXIT(&ipf_mutex); + return error; + } + + if (!f) { + /* + * At the end of this, ftail must point to the place where the + * new rule is to be saved/inserted/added. + * For SIOCAD*FR, this should be the last rule in the group of + * rules that have equal fr_collect fields. + * For SIOCIN*FR, ... + */ + if (req == (ioctlcmd_t)SIOCADAFR || + req == (ioctlcmd_t)SIOCADIFR) { + + for (ftail = fprev; (f = *ftail) != NULL; ) { + if (f->fr_collect > fp->fr_collect) + break; + ftail = &f->fr_next; + } + f = NULL; + ptr = NULL; + error = 0; + } else if (req == (ioctlcmd_t)SIOCINAFR || + req == (ioctlcmd_t)SIOCINIFR) { + while ((f = *fprev) != NULL) { + if (f->fr_collect >= fp->fr_collect) + break; + fprev = &f->fr_next; + } + ftail = fprev; + if (fp->fr_hits != 0) { + while (fp->fr_hits && (f = *ftail)) { + if (f->fr_collect != fp->fr_collect) + break; + fprev = ftail; + ftail = &f->fr_next; + fp->fr_hits--; + } + } + f = NULL; + ptr = NULL; + error = 0; + } + } + + /* + * Request to remove a rule. + */ + if (req == (ioctlcmd_t)SIOCRMAFR || req == (ioctlcmd_t)SIOCRMIFR) { + if (!f) + error = ESRCH; + else { + /* + * Do not allow activity from user space to interfere + * with rules not loaded that way. + */ + if ((makecopy == 1) && !(f->fr_flags & FR_COPIED)) { + error = EPERM; + goto done; + } + + /* + * Return EBUSY if the rule is being reference by + * something else (eg state information. + */ + if (f->fr_ref > 1) { + error = EBUSY; + goto done; + } +#ifdef IPFILTER_SCAN + if (f->fr_isctag[0] != '\0' && + (f->fr_isc != (struct ipscan *)-1)) + ipsc_detachfr(f); +#endif + if ((fg != NULL) && (fg->fg_head != NULL)) + fg->fg_head->fr_ref--; + if (unit == IPL_LOGAUTH) { + error = fr_preauthcmd(req, f, ftail); + goto done; + } + if (*f->fr_grhead != '\0') + fr_delgroup(f->fr_grhead, unit, set); + fr_fixskip(ftail, f, -1); + *ftail = f->fr_next; + f->fr_next = NULL; + (void) fr_derefrule(&f); + } + } else { + /* + * Not removing, so we must be adding/inserting a rule. + */ + if (f) + error = EEXIST; + else { + if (unit == IPL_LOGAUTH) { + error = fr_preauthcmd(req, fp, ftail); + goto done; + } + if (makecopy) { + KMALLOC(f, frentry_t *); + } else + f = fp; + if (f != NULL) { + if (fg != NULL && fg->fg_head != NULL) + fg->fg_head->fr_ref++; + if (fp != f) + bcopy((char *)fp, (char *)f, + sizeof(*f)); + MUTEX_NUKE(&f->fr_lock); + MUTEX_INIT(&f->fr_lock, "filter rule lock"); +#ifdef IPFILTER_SCAN + if (f->fr_isctag[0] != '\0' && + ipsc_attachfr(f)) + f->fr_isc = (struct ipscan *)-1; +#endif + f->fr_hits = 0; + if (makecopy != 0) + f->fr_ref = 1; + f->fr_next = *ftail; + *ftail = f; + if (req == (ioctlcmd_t)SIOCINIFR || + req == (ioctlcmd_t)SIOCINAFR) + fr_fixskip(ftail, f, 1); + f->fr_grp = NULL; + group = f->fr_grhead; + if (*group != '\0') { + fg = fr_addgroup(group, f, f->fr_flags, + unit, set); + if (fg != NULL) + f->fr_grp = &fg->fg_start; + } + } else + error = ENOMEM; + } + } +done: + RWLOCK_EXIT(&ipf_mutex); + if ((ptr != NULL) && (error != 0) && (makecopy != 0)) { + KFREES(ptr, fp->fr_dsize); + } + return (error); +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_funcinit */ +/* Returns: int - 0 == success, else ESRCH: cannot resolve rule details */ +/* Parameters: fr(I) - pointer to filter rule */ +/* */ +/* If a rule is a call rule, then check if the function it points to needs */ +/* an init function to be called now the rule has been loaded. */ +/* ------------------------------------------------------------------------ */ +static int fr_funcinit(fr) +frentry_t *fr; +{ + ipfunc_resolve_t *ft; + int err; + + err = ESRCH; + + for (ft = fr_availfuncs; ft->ipfu_addr != NULL; ft++) + if (ft->ipfu_addr == fr->fr_func) { + err = 0; + if (ft->ipfu_init != NULL) + err = (*ft->ipfu_init)(fr); + break; + } + return err; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_findfunc */ +/* Returns: ipfunc_t - pointer to function if found, else NULL */ +/* Parameters: funcptr(I) - function pointer to lookup */ +/* */ +/* Look for a function in the table of known functions. */ +/* ------------------------------------------------------------------------ */ +static ipfunc_t fr_findfunc(funcptr) +ipfunc_t funcptr; +{ + ipfunc_resolve_t *ft; + + for (ft = fr_availfuncs; ft->ipfu_addr != NULL; ft++) + if (ft->ipfu_addr == funcptr) + return funcptr; + return NULL; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_resolvefunc */ +/* Returns: int - 0 == success, else error */ +/* Parameters: data(IO) - ioctl data pointer to ipfunc_resolve_t struct */ +/* */ +/* Copy in a ipfunc_resolve_t structure and then fill in the missing field. */ +/* This will either be the function name (if the pointer is set) or the */ +/* function pointer if the name is set. When found, fill in the other one */ +/* so that the entire, complete, structure can be copied back to user space.*/ +/* ------------------------------------------------------------------------ */ +int fr_resolvefunc(data) +void *data; +{ + ipfunc_resolve_t res, *ft; + + BCOPYIN(data, &res, sizeof(res)); + + if (res.ipfu_addr == NULL && res.ipfu_name[0] != '\0') { + for (ft = fr_availfuncs; ft->ipfu_addr != NULL; ft++) + if (strncmp(res.ipfu_name, ft->ipfu_name, + sizeof(res.ipfu_name)) == 0) { + res.ipfu_addr = ft->ipfu_addr; + res.ipfu_init = ft->ipfu_init; + if (COPYOUT(&res, data, sizeof(res)) != 0) + return EFAULT; + return 0; + } + } + if (res.ipfu_addr != NULL && res.ipfu_name[0] == '\0') { + for (ft = fr_availfuncs; ft->ipfu_addr != NULL; ft++) + if (ft->ipfu_addr == res.ipfu_addr) { + (void) strncpy(res.ipfu_name, ft->ipfu_name, + sizeof(res.ipfu_name)); + res.ipfu_init = ft->ipfu_init; + if (COPYOUT(&res, data, sizeof(res)) != 0) + return EFAULT; + return 0; + } + } + return ESRCH; +} + + +#if !defined(_KERNEL) || (!defined(__NetBSD__) && !defined(__OpenBSD__) && !defined(__FreeBSD__)) || \ + (defined(__FreeBSD__) && (__FreeBSD_version < 501000)) || \ + (defined(__NetBSD__) && (__NetBSD_Version__ < 105000000)) || \ + (defined(__OpenBSD__) && (OpenBSD < 200006)) +/* + * From: NetBSD + * ppsratecheck(): packets (or events) per second limitation. + */ +int +ppsratecheck(lasttime, curpps, maxpps) + struct timeval *lasttime; + int *curpps; + int maxpps; /* maximum pps allowed */ +{ + struct timeval tv, delta; + int rv; + + GETKTIME(&tv); + + delta.tv_sec = tv.tv_sec - lasttime->tv_sec; + delta.tv_usec = tv.tv_usec - lasttime->tv_usec; + if (delta.tv_usec < 0) { + delta.tv_sec--; + delta.tv_usec += 1000000; + } + + /* + * check for 0,0 is so that the message will be seen at least once. + * if more than one second have passed since the last update of + * lasttime, reset the counter. + * + * we do increment *curpps even in *curpps < maxpps case, as some may + * try to use *curpps for stat purposes as well. + */ + if ((lasttime->tv_sec == 0 && lasttime->tv_usec == 0) || + delta.tv_sec >= 1) { + *lasttime = tv; + *curpps = 0; + rv = 1; + } else if (maxpps < 0) + rv = 1; + else if (*curpps < maxpps) + rv = 1; + else + rv = 0; + *curpps = *curpps + 1; + + return (rv); +} +#endif + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_derefrule */ +/* Returns: int - 0 == rule freed up, else rule not freed */ +/* Parameters: fr(I) - pointer to filter rule */ +/* */ +/* Decrement the reference counter to a rule by one. If it reaches zero, */ +/* free it and any associated storage space being used by it. */ +/* ------------------------------------------------------------------------ */ +int fr_derefrule(frp) +frentry_t **frp; +{ + frentry_t *fr; + + fr = *frp; + *frp = NULL; + + MUTEX_ENTER(&fr->fr_lock); + fr->fr_ref--; + if (fr->fr_ref == 0) { + MUTEX_EXIT(&fr->fr_lock); + MUTEX_DESTROY(&fr->fr_lock); + +#ifdef IPFILTER_LOOKUP + if (fr->fr_type == FR_T_IPF && fr->fr_satype == FRI_LOOKUP) + ip_lookup_deref(fr->fr_srctype, fr->fr_srcptr); + if (fr->fr_type == FR_T_IPF && fr->fr_datype == FRI_LOOKUP) + ip_lookup_deref(fr->fr_dsttype, fr->fr_dstptr); +#endif + + if (fr->fr_dsize) { + KFREES(fr->fr_data, fr->fr_dsize); + } + if ((fr->fr_flags & FR_COPIED) != 0) { + KFREE(fr); + return 0; + } + return 1; + } else { + MUTEX_EXIT(&fr->fr_lock); + } + return -1; +} + + +#ifdef IPFILTER_LOOKUP +/* ------------------------------------------------------------------------ */ +/* Function: fr_grpmapinit */ +/* Returns: int - 0 == success, else ESRCH because table entry not found*/ +/* Parameters: fr(I) - pointer to rule to find hash table for */ +/* */ +/* Looks for group hash table fr_arg and stores a pointer to it in fr_ptr. */ +/* fr_ptr is later used by fr_srcgrpmap and fr_dstgrpmap. */ +/* ------------------------------------------------------------------------ */ +static int fr_grpmapinit(fr) +frentry_t *fr; +{ + char name[FR_GROUPLEN]; + iphtable_t *iph; + +#if defined(SNPRINTF) && defined(_KERNEL) + SNPRINTF(name, sizeof(name), "%d", fr->fr_arg); +#else + (void) sprintf(name, "%d", fr->fr_arg); +#endif + iph = fr_findhtable(IPL_LOGIPF, name); + if (iph == NULL) + return ESRCH; + if ((iph->iph_flags & FR_INOUT) != (fr->fr_flags & FR_INOUT)) + return ESRCH; + fr->fr_ptr = iph; + return 0; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_srcgrpmap */ +/* Returns: frentry_t * - pointer to "new last matching" rule or NULL */ +/* Parameters: fin(I) - pointer to packet information */ +/* passp(IO) - pointer to current/new filter decision (unused) */ +/* */ +/* Look for a rule group head in a hash table, using the source address as */ +/* the key, and descend into that group and continue matching rules against */ +/* the packet. */ +/* ------------------------------------------------------------------------ */ +frentry_t *fr_srcgrpmap(fin, passp) +fr_info_t *fin; +u_32_t *passp; +{ + frgroup_t *fg; + void *rval; + + rval = fr_iphmfindgroup(fin->fin_fr->fr_ptr, &fin->fin_src); + if (rval == NULL) + return NULL; + + fg = rval; + fin->fin_fr = fg->fg_start; + (void) fr_scanlist(fin, *passp); + return fin->fin_fr; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_dstgrpmap */ +/* Returns: frentry_t * - pointer to "new last matching" rule or NULL */ +/* Parameters: fin(I) - pointer to packet information */ +/* passp(IO) - pointer to current/new filter decision (unused) */ +/* */ +/* Look for a rule group head in a hash table, using the destination */ +/* address as the key, and descend into that group and continue matching */ +/* rules against the packet. */ +/* ------------------------------------------------------------------------ */ +frentry_t *fr_dstgrpmap(fin, passp) +fr_info_t *fin; +u_32_t *passp; +{ + frgroup_t *fg; + void *rval; + + rval = fr_iphmfindgroup(fin->fin_fr->fr_ptr, &fin->fin_dst); + if (rval == NULL) + return NULL; + + fg = rval; + fin->fin_fr = fg->fg_start; + (void) fr_scanlist(fin, *passp); + return fin->fin_fr; +} +#endif /* IPFILTER_LOOKUP */ + +/* + * Queue functions + * =============== + * These functions manage objects on queues for efficient timeouts. There are + * a number of system defined queues as well as user defined timeouts. It is + * expected that a lock is held in the domain in which the queue belongs + * (i.e. either state or NAT) when calling any of these functions that prevents + * fr_freetimeoutqueue() from being called at the same time as any other. + */ + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_addtimeoutqueue */ +/* Returns: struct ifqtq * - NULL if malloc fails, else pointer to */ +/* timeout queue with given interval. */ +/* Parameters: parent(I) - pointer to pointer to parent node of this list */ +/* of interface queues. */ +/* seconds(I) - timeout value in seconds for this queue. */ +/* */ +/* This routine first looks for a timeout queue that matches the interval */ +/* being requested. If it finds one, increments the reference counter and */ +/* returns a pointer to it. If none are found, it allocates a new one and */ +/* inserts it at the top of the list. */ +/* */ +/* Locking. */ +/* It is assumed that the caller of this function has an appropriate lock */ +/* held (exclusively) in the domain that encompases 'parent'. */ +/* ------------------------------------------------------------------------ */ +ipftq_t *fr_addtimeoutqueue(parent, seconds) +ipftq_t **parent; +u_int seconds; +{ + ipftq_t *ifq; + u_int period; + + period = seconds * IPF_HZ_DIVIDE; + + MUTEX_ENTER(&ipf_timeoutlock); + for (ifq = *parent; ifq != NULL; ifq = ifq->ifq_next) { + if (ifq->ifq_ttl == period) { + /* + * Reset the delete flag, if set, so the structure + * gets reused rather than freed and reallocated. + */ + MUTEX_ENTER(&ifq->ifq_lock); + ifq->ifq_flags &= ~IFQF_DELETE; + ifq->ifq_ref++; + MUTEX_EXIT(&ifq->ifq_lock); + MUTEX_EXIT(&ipf_timeoutlock); + + return ifq; + } + } + + KMALLOC(ifq, ipftq_t *); + if (ifq != NULL) { + ifq->ifq_ttl = period; + ifq->ifq_head = NULL; + ifq->ifq_tail = &ifq->ifq_head; + ifq->ifq_next = *parent; + ifq->ifq_pnext = parent; + ifq->ifq_ref = 1; + ifq->ifq_flags = IFQF_USER; + *parent = ifq; + fr_userifqs++; + MUTEX_NUKE(&ifq->ifq_lock); + MUTEX_INIT(&ifq->ifq_lock, "ipftq mutex"); + } + MUTEX_EXIT(&ipf_timeoutlock); + return ifq; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_deletetimeoutqueue */ +/* Returns: int - new reference count value of the timeout queue */ +/* Parameters: ifq(I) - timeout queue which is losing a reference. */ +/* Locks: ifq->ifq_lock */ +/* */ +/* This routine must be called when we're discarding a pointer to a timeout */ +/* queue object, taking care of the reference counter. */ +/* */ +/* Now that this just sets a DELETE flag, it requires the expire code to */ +/* check the list of user defined timeout queues and call the free function */ +/* below (currently commented out) to stop memory leaking. It is done this */ +/* way because the locking may not be sufficient to safely do a free when */ +/* this function is called. */ +/* ------------------------------------------------------------------------ */ +int fr_deletetimeoutqueue(ifq) +ipftq_t *ifq; +{ + + ifq->ifq_ref--; + if ((ifq->ifq_ref == 0) && ((ifq->ifq_flags & IFQF_USER) != 0)) { + ifq->ifq_flags |= IFQF_DELETE; + } + + return ifq->ifq_ref; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_freetimeoutqueue */ +/* Parameters: ifq(I) - timeout queue which is losing a reference. */ +/* Returns: Nil */ +/* */ +/* Locking: */ +/* It is assumed that the caller of this function has an appropriate lock */ +/* held (exclusively) in the domain that encompases the callers "domain". */ +/* The ifq_lock for this structure should not be held. */ +/* */ +/* Remove a user definde timeout queue from the list of queues it is in and */ +/* tidy up after this is done. */ +/* ------------------------------------------------------------------------ */ +void fr_freetimeoutqueue(ifq) +ipftq_t *ifq; +{ + + + if (((ifq->ifq_flags & IFQF_DELETE) == 0) || (ifq->ifq_ref != 0) || + ((ifq->ifq_flags & IFQF_USER) == 0)) { + printf("fr_freetimeoutqueue(%lx) flags 0x%x ttl %d ref %d\n", + (u_long)ifq, ifq->ifq_flags, ifq->ifq_ttl, + ifq->ifq_ref); + return; + } + + /* + * Remove from its position in the list. + */ + *ifq->ifq_pnext = ifq->ifq_next; + if (ifq->ifq_next != NULL) + ifq->ifq_next->ifq_pnext = ifq->ifq_pnext; + + MUTEX_DESTROY(&ifq->ifq_lock); + ATOMIC_DEC(fr_userifqs); + KFREE(ifq); +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_deletequeueentry */ +/* Returns: Nil */ +/* Parameters: tqe(I) - timeout queue entry to delete */ +/* ifq(I) - timeout queue to remove entry from */ +/* */ +/* Remove a tail queue entry from its queue and make it an orphan. */ +/* fr_deletetimeoutqueue is called to make sure the reference count on the */ +/* queue is correct. We can't, however, call fr_freetimeoutqueue because */ +/* the correct lock(s) may not be held that would make it safe to do so. */ +/* ------------------------------------------------------------------------ */ +void fr_deletequeueentry(tqe) +ipftqent_t *tqe; +{ + ipftq_t *ifq; + + ifq = tqe->tqe_ifq; + + MUTEX_ENTER(&ifq->ifq_lock); + + if (tqe->tqe_pnext != NULL) { + *tqe->tqe_pnext = tqe->tqe_next; + if (tqe->tqe_next != NULL) + tqe->tqe_next->tqe_pnext = tqe->tqe_pnext; + else /* we must be the tail anyway */ + ifq->ifq_tail = tqe->tqe_pnext; + + tqe->tqe_pnext = NULL; + tqe->tqe_ifq = NULL; + } + + (void) fr_deletetimeoutqueue(ifq); + + MUTEX_EXIT(&ifq->ifq_lock); +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_queuefront */ +/* Returns: Nil */ +/* Parameters: tqe(I) - pointer to timeout queue entry */ +/* */ +/* Move a queue entry to the front of the queue, if it isn't already there. */ +/* ------------------------------------------------------------------------ */ +void fr_queuefront(tqe) +ipftqent_t *tqe; +{ + ipftq_t *ifq; + + ifq = tqe->tqe_ifq; + if (ifq == NULL) + return; + + MUTEX_ENTER(&ifq->ifq_lock); + if (ifq->ifq_head != tqe) { + *tqe->tqe_pnext = tqe->tqe_next; + if (tqe->tqe_next) + tqe->tqe_next->tqe_pnext = tqe->tqe_pnext; + else + ifq->ifq_tail = tqe->tqe_pnext; + + tqe->tqe_next = ifq->ifq_head; + ifq->ifq_head->tqe_pnext = &tqe->tqe_next; + ifq->ifq_head = tqe; + tqe->tqe_pnext = &ifq->ifq_head; + } + MUTEX_EXIT(&ifq->ifq_lock); +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_queueback */ +/* Returns: Nil */ +/* Parameters: tqe(I) - pointer to timeout queue entry */ +/* */ +/* Move a queue entry to the back of the queue, if it isn't already there. */ +/* ------------------------------------------------------------------------ */ +void fr_queueback(tqe) +ipftqent_t *tqe; +{ + ipftq_t *ifq; + + ifq = tqe->tqe_ifq; + if (ifq == NULL) + return; + tqe->tqe_die = fr_ticks + ifq->ifq_ttl; + + MUTEX_ENTER(&ifq->ifq_lock); + if (tqe->tqe_next != NULL) { /* at the end already ? */ + /* + * Remove from list + */ + *tqe->tqe_pnext = tqe->tqe_next; + tqe->tqe_next->tqe_pnext = tqe->tqe_pnext; + + /* + * Make it the last entry. + */ + tqe->tqe_next = NULL; + tqe->tqe_pnext = ifq->ifq_tail; + *ifq->ifq_tail = tqe; + ifq->ifq_tail = &tqe->tqe_next; + } + MUTEX_EXIT(&ifq->ifq_lock); +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_queueappend */ +/* Returns: Nil */ +/* Parameters: tqe(I) - pointer to timeout queue entry */ +/* ifq(I) - pointer to timeout queue */ +/* parent(I) - owing object pointer */ +/* */ +/* Add a new item to this queue and put it on the very end. */ +/* ------------------------------------------------------------------------ */ +void fr_queueappend(tqe, ifq, parent) +ipftqent_t *tqe; +ipftq_t *ifq; +void *parent; +{ + + MUTEX_ENTER(&ifq->ifq_lock); + tqe->tqe_parent = parent; + tqe->tqe_pnext = ifq->ifq_tail; + *ifq->ifq_tail = tqe; + ifq->ifq_tail = &tqe->tqe_next; + tqe->tqe_next = NULL; + tqe->tqe_ifq = ifq; + tqe->tqe_die = fr_ticks + ifq->ifq_ttl; + ifq->ifq_ref++; + MUTEX_EXIT(&ifq->ifq_lock); +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_movequeue */ +/* Returns: Nil */ +/* Parameters: tq(I) - pointer to timeout queue information */ +/* oifp(I) - old timeout queue entry was on */ +/* nifp(I) - new timeout queue to put entry on */ +/* */ +/* Move a queue entry from one timeout queue to another timeout queue. */ +/* If it notices that the current entry is already last and does not need */ +/* to move queue, the return. */ +/* ------------------------------------------------------------------------ */ +void fr_movequeue(tqe, oifq, nifq) +ipftqent_t *tqe; +ipftq_t *oifq, *nifq; +{ + /* + * Is the operation here going to be a no-op ? + */ + MUTEX_ENTER(&oifq->ifq_lock); + if ((oifq != nifq) || (*oifq->ifq_tail != tqe)) { + /* + * Remove from the old queue + */ + *tqe->tqe_pnext = tqe->tqe_next; + if (tqe->tqe_next) + tqe->tqe_next->tqe_pnext = tqe->tqe_pnext; + else + oifq->ifq_tail = tqe->tqe_pnext; + tqe->tqe_next = NULL; + + /* + * If we're moving from one queue to another, release the + * lock on the old queue and get a lock on the new queue. + * For user defined queues, if we're moving off it, call + * delete in case it can now be freed. + */ + if (oifq != nifq) { + tqe->tqe_ifq = NULL; + + (void) fr_deletetimeoutqueue(oifq); + + MUTEX_EXIT(&oifq->ifq_lock); + + MUTEX_ENTER(&nifq->ifq_lock); + + tqe->tqe_ifq = nifq; + nifq->ifq_ref++; + } + + /* + * Add to the bottom of the new queue + */ + tqe->tqe_die = fr_ticks + nifq->ifq_ttl; + tqe->tqe_pnext = nifq->ifq_tail; + *nifq->ifq_tail = tqe; + nifq->ifq_tail = &tqe->tqe_next; + } + MUTEX_EXIT(&nifq->ifq_lock); +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_updateipid */ +/* Returns: int - 0 == success, -1 == error (packet should be droppped) */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* When we are doing NAT, change the IP of every packet to represent a */ +/* single sequence of packets coming from the host, hiding any host */ +/* specific sequencing that might otherwise be revealed. If the packet is */ +/* a fragment, then store the 'new' IPid in the fragment cache and look up */ +/* the fragment cache for non-leading fragments. If a non-leading fragment */ +/* has no match in the cache, return an error. */ +/* ------------------------------------------------------------------------ */ +static int fr_updateipid(fin) +fr_info_t *fin; +{ + u_short id, ido, sums; + u_32_t sumd, sum; + ip_t *ip; + + if (fin->fin_off != 0) { + sum = fr_ipid_knownfrag(fin); + if (sum == 0xffffffff) + return -1; + sum &= 0xffff; + id = (u_short)sum; + } else { + id = fr_nextipid(fin); + if (fin->fin_off == 0 && (fin->fin_flx & FI_FRAG) != 0) + (void) fr_ipid_newfrag(fin, (u_32_t)id); + } + + ip = fin->fin_ip; + ido = ntohs(ip->ip_id); + if (id == ido) + return 0; + ip->ip_id = htons(id); + CALC_SUMD(ido, id, sumd); /* DESTRUCTIVE MACRO! id,ido change */ + sum = (~ntohs(ip->ip_sum)) & 0xffff; + sum += sumd; + sum = (sum >> 16) + (sum & 0xffff); + sum = (sum >> 16) + (sum & 0xffff); + sums = ~(u_short)sum; + ip->ip_sum = htons(sums); + return 0; +} + + +#ifdef NEED_FRGETIFNAME +/* ------------------------------------------------------------------------ */ +/* Function: fr_getifname */ +/* Returns: char * - pointer to interface name */ +/* Parameters: ifp(I) - pointer to network interface */ +/* buffer(O) - pointer to where to store interface name */ +/* */ +/* Constructs an interface name in the buffer passed. The buffer passed is */ +/* expected to be at least LIFNAMSIZ in bytes big. If buffer is passed in */ +/* as a NULL pointer then return a pointer to a static array. */ +/* ------------------------------------------------------------------------ */ +char *fr_getifname(ifp, buffer) +struct ifnet *ifp; +char *buffer; +{ + static char namebuf[LIFNAMSIZ]; +# if defined(MENTAT) || defined(__FreeBSD__) || defined(__osf__) || \ + defined(__sgi) || defined(linux) || defined(_AIX51) || \ + (defined(sun) && !defined(__SVR4) && !defined(__svr4__)) + int unit, space; + char temp[20]; + char *s; +# endif + + if (buffer == NULL) + buffer = namebuf; + (void) strncpy(buffer, ifp->if_name, LIFNAMSIZ); + buffer[LIFNAMSIZ - 1] = '\0'; +# if defined(MENTAT) || defined(__FreeBSD__) || defined(__osf__) || \ + defined(__sgi) || defined(_AIX51) || \ + (defined(sun) && !defined(__SVR4) && !defined(__svr4__)) + for (s = buffer; *s; s++) + ; + unit = ifp->if_unit; + space = LIFNAMSIZ - (s - buffer); + if (space > 0) { +# if defined(SNPRINTF) && defined(_KERNEL) + SNPRINTF(temp, sizeof(temp), "%d", unit); +# else + (void) sprintf(temp, "%d", unit); +# endif + (void) strncpy(s, temp, space); + } +# endif + return buffer; +} +#endif + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_ioctlswitch */ +/* Returns: int - -1 continue processing, else ioctl return value */ +/* Parameters: unit(I) - device unit opened */ +/* data(I) - pointer to ioctl data */ +/* cmd(I) - ioctl command */ +/* mode(I) - mode value */ +/* uid(I) - uid making the ioctl call */ +/* ctx(I) - pointer to context data */ +/* */ +/* Based on the value of unit, call the appropriate ioctl handler or return */ +/* EIO if ipfilter is not running. Also checks if write perms are req'd */ +/* for the device in order to execute the ioctl. */ +/* ------------------------------------------------------------------------ */ +int fr_ioctlswitch(unit, data, cmd, mode, uid, ctx) +int unit, mode, uid; +ioctlcmd_t cmd; +void *data, *ctx; +{ + int error = 0; + + switch (unit) + { + case IPL_LOGIPF : + error = fr_ipf_ioctl(data, cmd, mode, uid, ctx); + break; + case IPL_LOGNAT : + if (fr_running > 0) + error = fr_nat_ioctl(data, cmd, mode, uid, ctx); + else + error = EIO; + break; + case IPL_LOGSTATE : + if (fr_running > 0) + error = fr_state_ioctl(data, cmd, mode, uid, ctx); + else + error = EIO; + break; + case IPL_LOGAUTH : + if (fr_running > 0) + error = fr_auth_ioctl(data, cmd, mode, uid, ctx); + else + error = EIO; + break; + case IPL_LOGSYNC : +#ifdef IPFILTER_SYNC + if (fr_running > 0) + error = fr_sync_ioctl(data, cmd, mode, uid, ctx); + else +#endif + error = EIO; + break; + case IPL_LOGSCAN : +#ifdef IPFILTER_SCAN + if (fr_running > 0) + error = fr_scan_ioctl(data, cmd, mode, uid, ctx); + else +#endif + error = EIO; + break; + case IPL_LOGLOOKUP : +#ifdef IPFILTER_LOOKUP + if (fr_running > 0) + error = ip_lookup_ioctl(data, cmd, mode, uid, ctx); + else +#endif + error = EIO; + break; + default : + error = EIO; + break; + } + + return error; +} + + +/* + * This array defines the expected size of objects coming into the kernel + * for the various recognised object types. + */ +static int fr_objbytes[IPFOBJ_COUNT][2] = { + { 1, sizeof(struct frentry) }, /* frentry */ + { 0, sizeof(struct friostat) }, + { 0, sizeof(struct fr_info) }, + { 0, sizeof(struct fr_authstat) }, + { 0, sizeof(struct ipfrstat) }, + { 0, sizeof(struct ipnat) }, + { 0, sizeof(struct natstat) }, + { 0, sizeof(struct ipstate_save) }, + { 1, sizeof(struct nat_save) }, /* nat_save */ + { 0, sizeof(struct natlookup) }, + { 1, sizeof(struct ipstate) }, /* ipstate */ + { 0, sizeof(struct ips_stat) }, + { 0, sizeof(struct frauth) }, + { 0, sizeof(struct ipftune) }, + { 0, sizeof(struct nat) }, /* nat_t */ + { 0, sizeof(struct ipfruleiter) }, + { 0, sizeof(struct ipfgeniter) }, + { 0, sizeof(struct ipftable) }, + { 0, sizeof(struct ipflookupiter) }, + { 0, sizeof(struct ipftq) * IPF_TCP_NSTATES }, +}; + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_inobj */ +/* Returns: int - 0 = success, else failure */ +/* Parameters: data(I) - pointer to ioctl data */ +/* ptr(I) - pointer to store real data in */ +/* type(I) - type of structure being moved */ +/* */ +/* Copy in the contents of what the ipfobj_t points to. In future, we */ +/* add things to check for version numbers, sizes, etc, to make it backward */ +/* compatible at the ABI for user land. */ +/* ------------------------------------------------------------------------ */ +int fr_inobj(data, ptr, type) +void *data; +void *ptr; +int type; +{ + ipfobj_t obj; + int error = 0; + + if ((type < 0) || (type >= IPFOBJ_COUNT)) + return EINVAL; + + BCOPYIN((caddr_t)data, (caddr_t)&obj, sizeof(obj)); + + if (obj.ipfo_type != type) + return EINVAL; + +#ifndef IPFILTER_COMPAT + if ((fr_objbytes[type][0] & 1) != 0) { + if (obj.ipfo_size < fr_objbytes[type][1]) + return EINVAL; + } else if (obj.ipfo_size != fr_objbytes[type][1]) { + return EINVAL; + } +#else + if (obj.ipfo_rev != IPFILTER_VERSION) + /* XXX compatibility hook here */ + ; + if ((fr_objbytes[type][0] & 1) != 0) { + if (obj.ipfo_size < fr_objbytes[type][1]) + /* XXX compatibility hook here */ + return EINVAL; + } else if (obj.ipfo_size != fr_objbytes[type][1]) + /* XXX compatibility hook here */ + return EINVAL; +#endif + + if ((fr_objbytes[type][0] & 1) != 0) { + error = COPYIN((caddr_t)obj.ipfo_ptr, (caddr_t)ptr, + fr_objbytes[type][1]); + } else { + error = COPYIN((caddr_t)obj.ipfo_ptr, (caddr_t)ptr, + obj.ipfo_size); + } + if (error != 0) + error = EFAULT; + return error; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_inobjsz */ +/* Returns: int - 0 = success, else failure */ +/* Parameters: data(I) - pointer to ioctl data */ +/* ptr(I) - pointer to store real data in */ +/* type(I) - type of structure being moved */ +/* sz(I) - size of data to copy */ +/* */ +/* As per fr_inobj, except the size of the object to copy in is passed in */ +/* but it must not be smaller than the size defined for the type and the */ +/* type must allow for varied sized objects. The extra requirement here is */ +/* that sz must match the size of the object being passed in - this is not */ +/* not possible nor required in fr_inobj(). */ +/* ------------------------------------------------------------------------ */ +int fr_inobjsz(data, ptr, type, sz) +void *data; +void *ptr; +int type, sz; +{ + ipfobj_t obj; + int error; + + if ((type < 0) || (type >= IPFOBJ_COUNT)) + return EINVAL; + if (((fr_objbytes[type][0] & 1) == 0) || (sz < fr_objbytes[type][1])) + return EINVAL; + + BCOPYIN((caddr_t)data, (caddr_t)&obj, sizeof(obj)); + + if (obj.ipfo_type != type) + return EINVAL; + +#ifndef IPFILTER_COMPAT + if (obj.ipfo_size != sz) + return EINVAL; +#else + if (obj.ipfo_rev != IPFILTER_VERSION) + /* XXX compatibility hook here */ + ; + if (obj.ipfo_size != sz) + /* XXX compatibility hook here */ + return EINVAL; +#endif + + error = COPYIN((caddr_t)obj.ipfo_ptr, (caddr_t)ptr, sz); + if (error != 0) + error = EFAULT; + return error; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_outobjsz */ +/* Returns: int - 0 = success, else failure */ +/* Parameters: data(I) - pointer to ioctl data */ +/* ptr(I) - pointer to store real data in */ +/* type(I) - type of structure being moved */ +/* sz(I) - size of data to copy */ +/* */ +/* As per fr_outobj, except the size of the object to copy out is passed in */ +/* but it must not be smaller than the size defined for the type and the */ +/* type must allow for varied sized objects. The extra requirement here is */ +/* that sz must match the size of the object being passed in - this is not */ +/* not possible nor required in fr_outobj(). */ +/* ------------------------------------------------------------------------ */ +int fr_outobjsz(data, ptr, type, sz) +void *data; +void *ptr; +int type, sz; +{ + ipfobj_t obj; + int error; + + if ((type < 0) || (type > IPFOBJ_COUNT) || + ((fr_objbytes[type][0] & 1) == 0) || + (sz < fr_objbytes[type][1])) + return EINVAL; + + BCOPYIN((caddr_t)data, (caddr_t)&obj, sizeof(obj)); + + if (obj.ipfo_type != type) + return EINVAL; + +#ifndef IPFILTER_COMPAT + if (obj.ipfo_size != sz) + return EINVAL; +#else + if (obj.ipfo_rev != IPFILTER_VERSION) + /* XXX compatibility hook here */ + ; + if (obj.ipfo_size != sz) + /* XXX compatibility hook here */ + return EINVAL; +#endif + + error = COPYOUT((caddr_t)ptr, (caddr_t)obj.ipfo_ptr, sz); + if (error != 0) + error = EFAULT; + return error; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_outobj */ +/* Returns: int - 0 = success, else failure */ +/* Parameters: data(I) - pointer to ioctl data */ +/* ptr(I) - pointer to store real data in */ +/* type(I) - type of structure being moved */ +/* */ +/* Copy out the contents of what ptr is to where ipfobj points to. In */ +/* future, we add things to check for version numbers, sizes, etc, to make */ +/* it backward compatible at the ABI for user land. */ +/* ------------------------------------------------------------------------ */ +int fr_outobj(data, ptr, type) +void *data; +void *ptr; +int type; +{ + ipfobj_t obj; + int error; + + if ((type < 0) || (type > IPFOBJ_COUNT)) + return EINVAL; + + BCOPYIN((caddr_t)data, (caddr_t)&obj, sizeof(obj)); + + if (obj.ipfo_type != type) + return EINVAL; + +#ifndef IPFILTER_COMPAT + if ((fr_objbytes[type][0] & 1) != 0) { + if (obj.ipfo_size < fr_objbytes[type][1]) + return EINVAL; + } else if (obj.ipfo_size != fr_objbytes[type][1]) + return EINVAL; +#else + if (obj.ipfo_rev != IPFILTER_VERSION) + /* XXX compatibility hook here */ + ; + if ((fr_objbytes[type][0] & 1) != 0) { + if (obj.ipfo_size < fr_objbytes[type][1]) + /* XXX compatibility hook here */ + return EINVAL; + } else if (obj.ipfo_size != fr_objbytes[type][1]) + /* XXX compatibility hook here */ + return EINVAL; +#endif + + error = COPYOUT((caddr_t)ptr, (caddr_t)obj.ipfo_ptr, obj.ipfo_size); + if (error != 0) + error = EFAULT; + return error; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_checkl4sum */ +/* Returns: int - 0 = good, -1 = bad, 1 = cannot check */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* If possible, calculate the layer 4 checksum for the packet. If this is */ +/* not possible, return without indicating a failure or success but in a */ +/* way that is ditinguishable. */ +/* ------------------------------------------------------------------------ */ +int fr_checkl4sum(fin) +fr_info_t *fin; +{ + u_short sum, hdrsum, *csump; + udphdr_t *udp; + int dosum; + + if ((fin->fin_flx & FI_NOCKSUM) != 0) + return 0; + + /* + * If the TCP packet isn't a fragment, isn't too short and otherwise + * isn't already considered "bad", then validate the checksum. If + * this check fails then considered the packet to be "bad". + */ + if ((fin->fin_flx & (FI_FRAG|FI_SHORT|FI_BAD)) != 0) + return 1; + + csump = NULL; + hdrsum = 0; + dosum = 0; + sum = 0; + +#if SOLARIS && defined(_KERNEL) && (SOLARIS2 >= 6) && defined(ICK_VALID) + if (dohwcksum && ((*fin->fin_mp)->b_ick_flag == ICK_VALID)) { + hdrsum = 0; + sum = 0; + } else { +#endif + switch (fin->fin_p) + { + case IPPROTO_TCP : + csump = &((tcphdr_t *)fin->fin_dp)->th_sum; + dosum = 1; + break; + + case IPPROTO_UDP : + udp = fin->fin_dp; + if (udp->uh_sum != 0) { + csump = &udp->uh_sum; + dosum = 1; + } + break; + + case IPPROTO_ICMP : + csump = &((struct icmp *)fin->fin_dp)->icmp_cksum; + dosum = 1; + break; + + default : + return 1; + /*NOTREACHED*/ + } + + if (csump != NULL) + hdrsum = *csump; + + if (dosum) { + sum = fr_cksum(fin->fin_m, fin->fin_ip, + fin->fin_p, fin->fin_dp, + fin->fin_dlen + fin->fin_hlen); + } +#if SOLARIS && defined(_KERNEL) && (SOLARIS2 >= 6) && defined(ICK_VALID) + } +#endif +#if !defined(_KERNEL) + if (sum == hdrsum) { + FR_DEBUG(("checkl4sum: %hx == %hx\n", sum, hdrsum)); + } else { + FR_DEBUG(("checkl4sum: %hx != %hx\n", sum, hdrsum)); + } +#endif + if (hdrsum == sum) + return 0; + return -1; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_ifpfillv4addr */ +/* Returns: int - 0 = address update, -1 = address not updated */ +/* Parameters: atype(I) - type of network address update to perform */ +/* sin(I) - pointer to source of address information */ +/* mask(I) - pointer to source of netmask information */ +/* inp(I) - pointer to destination address store */ +/* inpmask(I) - pointer to destination netmask store */ +/* */ +/* Given a type of network address update (atype) to perform, copy */ +/* information from sin/mask into inp/inpmask. If ipnmask is NULL then no */ +/* netmask update is performed unless FRI_NETMASKED is passed as atype, in */ +/* which case the operation fails. For all values of atype other than */ +/* FRI_NETMASKED, if inpmask is non-NULL then the mask is set to an all 1s */ +/* value. */ +/* ------------------------------------------------------------------------ */ +int fr_ifpfillv4addr(atype, sin, mask, inp, inpmask) +int atype; +struct sockaddr_in *sin, *mask; +struct in_addr *inp, *inpmask; +{ + if (inpmask != NULL && atype != FRI_NETMASKED) + inpmask->s_addr = 0xffffffff; + + if (atype == FRI_NETWORK || atype == FRI_NETMASKED) { + if (atype == FRI_NETMASKED) { + if (inpmask == NULL) + return -1; + inpmask->s_addr = mask->sin_addr.s_addr; + } + inp->s_addr = sin->sin_addr.s_addr & mask->sin_addr.s_addr; + } else { + inp->s_addr = sin->sin_addr.s_addr; + } + return 0; +} + + +#ifdef USE_INET6 +/* ------------------------------------------------------------------------ */ +/* Function: fr_ifpfillv6addr */ +/* Returns: int - 0 = address update, -1 = address not updated */ +/* Parameters: atype(I) - type of network address update to perform */ +/* sin(I) - pointer to source of address information */ +/* mask(I) - pointer to source of netmask information */ +/* inp(I) - pointer to destination address store */ +/* inpmask(I) - pointer to destination netmask store */ +/* */ +/* Given a type of network address update (atype) to perform, copy */ +/* information from sin/mask into inp/inpmask. If ipnmask is NULL then no */ +/* netmask update is performed unless FRI_NETMASKED is passed as atype, in */ +/* which case the operation fails. For all values of atype other than */ +/* FRI_NETMASKED, if inpmask is non-NULL then the mask is set to an all 1s */ +/* value. */ +/* ------------------------------------------------------------------------ */ +int fr_ifpfillv6addr(atype, sin, mask, inp, inpmask) +int atype; +struct sockaddr_in6 *sin, *mask; +struct in_addr *inp, *inpmask; +{ + i6addr_t *src, *dst, *and, *dmask; + + src = (i6addr_t *)&sin->sin6_addr; + and = (i6addr_t *)&mask->sin6_addr; + dst = (i6addr_t *)inp; + dmask = (i6addr_t *)inpmask; + + if (inpmask != NULL && atype != FRI_NETMASKED) { + dmask->i6[0] = 0xffffffff; + dmask->i6[1] = 0xffffffff; + dmask->i6[2] = 0xffffffff; + dmask->i6[3] = 0xffffffff; + } + + if (atype == FRI_NETWORK || atype == FRI_NETMASKED) { + if (atype == FRI_NETMASKED) { + if (inpmask == NULL) + return -1; + dmask->i6[0] = and->i6[0]; + dmask->i6[1] = and->i6[1]; + dmask->i6[2] = and->i6[2]; + dmask->i6[3] = and->i6[3]; + } + + dst->i6[0] = src->i6[0] & and->i6[0]; + dst->i6[1] = src->i6[1] & and->i6[1]; + dst->i6[2] = src->i6[2] & and->i6[2]; + dst->i6[3] = src->i6[3] & and->i6[3]; + } else { + dst->i6[0] = src->i6[0]; + dst->i6[1] = src->i6[1]; + dst->i6[2] = src->i6[2]; + dst->i6[3] = src->i6[3]; + } + return 0; +} +#endif + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_matchtag */ +/* Returns: 0 == mismatch, 1 == match. */ +/* Parameters: tag1(I) - pointer to first tag to compare */ +/* tag2(I) - pointer to second tag to compare */ +/* */ +/* Returns true (non-zero) or false(0) if the two tag structures can be */ +/* considered to be a match or not match, respectively. The tag is 16 */ +/* bytes long (16 characters) but that is overlayed with 4 32bit ints so */ +/* compare the ints instead, for speed. tag1 is the master of the */ +/* comparison. This function should only be called with both tag1 and tag2 */ +/* as non-NULL pointers. */ +/* ------------------------------------------------------------------------ */ +int fr_matchtag(tag1, tag2) +ipftag_t *tag1, *tag2; +{ + if (tag1 == tag2) + return 1; + + if ((tag1->ipt_num[0] == 0) && (tag2->ipt_num[0] == 0)) + return 1; + + if ((tag1->ipt_num[0] == tag2->ipt_num[0]) && + (tag1->ipt_num[1] == tag2->ipt_num[1]) && + (tag1->ipt_num[2] == tag2->ipt_num[2]) && + (tag1->ipt_num[3] == tag2->ipt_num[3])) + return 1; + return 0; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_coalesce */ +/* Returns: 1 == success, -1 == failure, 0 == no change */ +/* Parameters: fin(I) - pointer to packet information */ +/* */ +/* Attempt to get all of the packet data into a single, contiguous buffer. */ +/* If this call returns a failure then the buffers have also been freed. */ +/* ------------------------------------------------------------------------ */ +int fr_coalesce(fin) +fr_info_t *fin; +{ + if ((fin->fin_flx & FI_COALESCE) != 0) + return 1; + + /* + * If the mbuf pointers indicate that there is no mbuf to work with, + * return but do not indicate success or failure. + */ + if (fin->fin_m == NULL || fin->fin_mp == NULL) + return 0; + +#if defined(_KERNEL) + if (fr_pullup(fin->fin_m, fin, fin->fin_plen) == NULL) { + ATOMIC_INCL(fr_badcoalesces[fin->fin_out]); +# ifdef MENTAT + FREE_MB_T(*fin->fin_mp); +# endif + *fin->fin_mp = NULL; + fin->fin_m = NULL; + return -1; + } +#else + fin = fin; /* LINT */ +#endif + return 1; +} + + +/* + * The following table lists all of the tunable variables that can be + * accessed via SIOCIPFGET/SIOCIPFSET/SIOCIPFGETNEXt. The format of each row + * in the table below is as follows: + * + * pointer to value, name of value, minimum, maximum, size of the value's + * container, value attribute flags + * + * For convienience, IPFT_RDONLY means the value is read-only, IPFT_WRDISABLED + * means the value can only be written to when IPFilter is loaded but disabled. + * The obvious implication is if neither of these are set then the value can be + * changed at any time without harm. + */ +ipftuneable_t ipf_tuneables[] = { + /* filtering */ + { { &fr_flags }, "fr_flags", 0, 0xffffffff, + sizeof(fr_flags), 0, NULL }, + { { &fr_active }, "fr_active", 0, 0, + sizeof(fr_active), IPFT_RDONLY, NULL }, + { { &fr_control_forwarding }, "fr_control_forwarding", 0, 1, + sizeof(fr_control_forwarding), 0, NULL }, + { { &fr_update_ipid }, "fr_update_ipid", 0, 1, + sizeof(fr_update_ipid), 0, NULL }, + { { &fr_chksrc }, "fr_chksrc", 0, 1, + sizeof(fr_chksrc), 0, NULL }, + { { &fr_minttl }, "fr_minttl", 0, 1, + sizeof(fr_minttl), 0, NULL }, + { { &fr_icmpminfragmtu }, "fr_icmpminfragmtu", 0, 1, + sizeof(fr_icmpminfragmtu), 0, NULL }, + { { &fr_pass }, "fr_pass", 0, 0xffffffff, + sizeof(fr_pass), 0, NULL }, + /* state */ + { { &fr_tcpidletimeout }, "fr_tcpidletimeout", 1, 0x7fffffff, + sizeof(fr_tcpidletimeout), IPFT_WRDISABLED, NULL }, + { { &fr_tcpclosewait }, "fr_tcpclosewait", 1, 0x7fffffff, + sizeof(fr_tcpclosewait), IPFT_WRDISABLED, NULL }, + { { &fr_tcplastack }, "fr_tcplastack", 1, 0x7fffffff, + sizeof(fr_tcplastack), IPFT_WRDISABLED, NULL }, + { { &fr_tcptimeout }, "fr_tcptimeout", 1, 0x7fffffff, + sizeof(fr_tcptimeout), IPFT_WRDISABLED, NULL }, + { { &fr_tcpclosed }, "fr_tcpclosed", 1, 0x7fffffff, + sizeof(fr_tcpclosed), IPFT_WRDISABLED, NULL }, + { { &fr_tcphalfclosed }, "fr_tcphalfclosed", 1, 0x7fffffff, + sizeof(fr_tcphalfclosed), IPFT_WRDISABLED, NULL }, + { { &fr_udptimeout }, "fr_udptimeout", 1, 0x7fffffff, + sizeof(fr_udptimeout), IPFT_WRDISABLED, NULL }, + { { &fr_udpacktimeout }, "fr_udpacktimeout", 1, 0x7fffffff, + sizeof(fr_udpacktimeout), IPFT_WRDISABLED, NULL }, + { { &fr_icmptimeout }, "fr_icmptimeout", 1, 0x7fffffff, + sizeof(fr_icmptimeout), IPFT_WRDISABLED, NULL }, + { { &fr_icmpacktimeout }, "fr_icmpacktimeout", 1, 0x7fffffff, + sizeof(fr_icmpacktimeout), IPFT_WRDISABLED, NULL }, + { { &fr_iptimeout }, "fr_iptimeout", 1, 0x7fffffff, + sizeof(fr_iptimeout), IPFT_WRDISABLED, NULL }, + { { &fr_statemax }, "fr_statemax", 1, 0x7fffffff, + sizeof(fr_statemax), 0, NULL }, + { { &fr_statesize }, "fr_statesize", 1, 0x7fffffff, + sizeof(fr_statesize), IPFT_WRDISABLED, NULL }, + { { &fr_state_lock }, "fr_state_lock", 0, 1, + sizeof(fr_state_lock), IPFT_RDONLY, NULL }, + { { &fr_state_maxbucket }, "fr_state_maxbucket", 1, 0x7fffffff, + sizeof(fr_state_maxbucket), IPFT_WRDISABLED, NULL }, + { { &fr_state_maxbucket_reset }, "fr_state_maxbucket_reset", 0, 1, + sizeof(fr_state_maxbucket_reset), IPFT_WRDISABLED, NULL }, + { { &ipstate_logging }, "ipstate_logging", 0, 1, + sizeof(ipstate_logging), 0, NULL }, + /* nat */ + { { &fr_nat_lock }, "fr_nat_lock", 0, 1, + sizeof(fr_nat_lock), IPFT_RDONLY, NULL }, + { { &ipf_nattable_sz }, "ipf_nattable_sz", 1, 0x7fffffff, + sizeof(ipf_nattable_sz), IPFT_WRDISABLED, NULL }, + { { &ipf_nattable_max }, "ipf_nattable_max", 1, 0x7fffffff, + sizeof(ipf_nattable_max), 0, NULL }, + { { &ipf_natrules_sz }, "ipf_natrules_sz", 1, 0x7fffffff, + sizeof(ipf_natrules_sz), IPFT_WRDISABLED, NULL }, + { { &ipf_rdrrules_sz }, "ipf_rdrrules_sz", 1, 0x7fffffff, + sizeof(ipf_rdrrules_sz), IPFT_WRDISABLED, NULL }, + { { &ipf_hostmap_sz }, "ipf_hostmap_sz", 1, 0x7fffffff, + sizeof(ipf_hostmap_sz), IPFT_WRDISABLED, NULL }, + { { &fr_nat_maxbucket }, "fr_nat_maxbucket", 1, 0x7fffffff, + sizeof(fr_nat_maxbucket), IPFT_WRDISABLED, NULL }, + { { &fr_nat_maxbucket_reset }, "fr_nat_maxbucket_reset", 0, 1, + sizeof(fr_nat_maxbucket_reset), IPFT_WRDISABLED, NULL }, + { { &nat_logging }, "nat_logging", 0, 1, + sizeof(nat_logging), 0, NULL }, + { { &fr_defnatage }, "fr_defnatage", 1, 0x7fffffff, + sizeof(fr_defnatage), IPFT_WRDISABLED, NULL }, + { { &fr_defnatipage }, "fr_defnatipage", 1, 0x7fffffff, + sizeof(fr_defnatipage), IPFT_WRDISABLED, NULL }, + { { &fr_defnaticmpage }, "fr_defnaticmpage", 1, 0x7fffffff, + sizeof(fr_defnaticmpage), IPFT_WRDISABLED, NULL }, + { { &fr_nat_doflush }, "fr_nat_doflush", 0, 1, + sizeof(fr_nat_doflush), 0, NULL }, + /* proxy */ + { { &ipf_proxy_debug }, "ipf_proxy_debug", 0, 10, + sizeof(ipf_proxy_debug), 0, 0 }, + /* frag */ + { { &ipfr_size }, "ipfr_size", 1, 0x7fffffff, + sizeof(ipfr_size), IPFT_WRDISABLED, NULL }, + { { &fr_ipfrttl }, "fr_ipfrttl", 1, 0x7fffffff, + sizeof(fr_ipfrttl), IPFT_WRDISABLED, NULL }, +#ifdef IPFILTER_LOG + /* log */ + { { &ipl_suppress }, "ipl_suppress", 0, 1, + sizeof(ipl_suppress), 0, NULL }, + { { &ipl_logmax }, "ipl_logmax", 0, 0x7fffffff, + sizeof(ipl_logmax), IPFT_WRDISABLED, NULL }, + { { &ipl_logall }, "ipl_logall", 0, 1, + sizeof(ipl_logall), 0, NULL }, + { { &ipl_logsize }, "ipl_logsize", 0, 0x80000, + sizeof(ipl_logsize), 0, NULL }, +#endif + { { NULL }, NULL, 0, 0, + 0, 0, NULL } +}; + +static ipftuneable_t *ipf_tunelist = NULL; + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_findtunebycookie */ +/* Returns: NULL = search failed, else pointer to tune struct */ +/* Parameters: cookie(I) - cookie value to search for amongst tuneables */ +/* next(O) - pointer to place to store the cookie for the */ +/* "next" tuneable, if it is desired. */ +/* */ +/* This function is used to walk through all of the existing tunables with */ +/* successive calls. It searches the known tunables for the one which has */ +/* a matching value for "cookie" - ie its address. When returning a match, */ +/* the next one to be found may be returned inside next. */ +/* ------------------------------------------------------------------------ */ +static ipftuneable_t *fr_findtunebycookie(cookie, next) +void *cookie, **next; +{ + ipftuneable_t *ta, **tap; + + for (ta = ipf_tuneables; ta->ipft_name != NULL; ta++) + if (ta == cookie) { + if (next != NULL) { + /* + * If the next entry in the array has a name + * present, then return a pointer to it for + * where to go next, else return a pointer to + * the dynaminc list as a key to search there + * next. This facilitates a weak linking of + * the two "lists" together. + */ + if ((ta + 1)->ipft_name != NULL) + *next = ta + 1; + else + *next = &ipf_tunelist; + } + return ta; + } + + for (tap = &ipf_tunelist; (ta = *tap) != NULL; tap = &ta->ipft_next) + if (tap == cookie) { + if (next != NULL) + *next = &ta->ipft_next; + return ta; + } + + if (next != NULL) + *next = NULL; + return NULL; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_findtunebyname */ +/* Returns: NULL = search failed, else pointer to tune struct */ +/* Parameters: name(I) - name of the tuneable entry to find. */ +/* */ +/* Search the static array of tuneables and the list of dynamic tuneables */ +/* for an entry with a matching name. If we can find one, return a pointer */ +/* to the matching structure. */ +/* ------------------------------------------------------------------------ */ +static ipftuneable_t *fr_findtunebyname(name) +const char *name; +{ + ipftuneable_t *ta; + + for (ta = ipf_tuneables; ta->ipft_name != NULL; ta++) + if (!strcmp(ta->ipft_name, name)) { + return ta; + } + + for (ta = ipf_tunelist; ta != NULL; ta = ta->ipft_next) + if (!strcmp(ta->ipft_name, name)) { + return ta; + } + + return NULL; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_addipftune */ +/* Returns: int - 0 == success, else failure */ +/* Parameters: newtune - pointer to new tune struct to add to tuneables */ +/* */ +/* Appends the tune structure pointer to by "newtune" to the end of the */ +/* current list of "dynamic" tuneable parameters. Once added, the owner */ +/* of the object is not expected to ever change "ipft_next". */ +/* ------------------------------------------------------------------------ */ +int fr_addipftune(newtune) +ipftuneable_t *newtune; +{ + ipftuneable_t *ta, **tap; + + ta = fr_findtunebyname(newtune->ipft_name); + if (ta != NULL) + return EEXIST; + + for (tap = &ipf_tunelist; *tap != NULL; tap = &(*tap)->ipft_next) + ; + + newtune->ipft_next = NULL; + *tap = newtune; + return 0; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_delipftune */ +/* Returns: int - 0 == success, else failure */ +/* Parameters: oldtune - pointer to tune struct to remove from the list of */ +/* current dynamic tuneables */ +/* */ +/* Search for the tune structure, by pointer, in the list of those that are */ +/* dynamically added at run time. If found, adjust the list so that this */ +/* structure is no longer part of it. */ +/* ------------------------------------------------------------------------ */ +int fr_delipftune(oldtune) +ipftuneable_t *oldtune; +{ + ipftuneable_t *ta, **tap; + + for (tap = &ipf_tunelist; (ta = *tap) != NULL; tap = &ta->ipft_next) + if (ta == oldtune) { + *tap = oldtune->ipft_next; + oldtune->ipft_next = NULL; + return 0; + } + + return ESRCH; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_ipftune */ +/* Returns: int - 0 == success, else failure */ +/* Parameters: cmd(I) - ioctl command number */ +/* data(I) - pointer to ioctl data structure */ +/* */ +/* Implement handling of SIOCIPFGETNEXT, SIOCIPFGET and SIOCIPFSET. These */ +/* three ioctls provide the means to access and control global variables */ +/* within IPFilter, allowing (for example) timeouts and table sizes to be */ +/* changed without rebooting, reloading or recompiling. The initialisation */ +/* and 'destruction' routines of the various components of ipfilter are all */ +/* each responsible for handling their own values being too big. */ +/* ------------------------------------------------------------------------ */ +int fr_ipftune(cmd, data) +ioctlcmd_t cmd; +void *data; +{ + ipftuneable_t *ta; + ipftune_t tu; + void *cookie; + int error; + + error = fr_inobj(data, &tu, IPFOBJ_TUNEABLE); + if (error != 0) + return error; + + tu.ipft_name[sizeof(tu.ipft_name) - 1] = '\0'; + cookie = tu.ipft_cookie; + ta = NULL; + + switch (cmd) + { + case SIOCIPFGETNEXT : + /* + * If cookie is non-NULL, assume it to be a pointer to the last + * entry we looked at, so find it (if possible) and return a + * pointer to the next one after it. The last entry in the + * the table is a NULL entry, so when we get to it, set cookie + * to NULL and return that, indicating end of list, erstwhile + * if we come in with cookie set to NULL, we are starting anew + * at the front of the list. + */ + if (cookie != NULL) { + ta = fr_findtunebycookie(cookie, &tu.ipft_cookie); + } else { + ta = ipf_tuneables; + tu.ipft_cookie = ta + 1; + } + if (ta != NULL) { + /* + * Entry found, but does the data pointed to by that + * row fit in what we can return? + */ + if (ta->ipft_sz > sizeof(tu.ipft_un)) + return EINVAL; + + tu.ipft_vlong = 0; + if (ta->ipft_sz == sizeof(u_long)) + tu.ipft_vlong = *ta->ipft_plong; + else if (ta->ipft_sz == sizeof(u_int)) + tu.ipft_vint = *ta->ipft_pint; + else if (ta->ipft_sz == sizeof(u_short)) + tu.ipft_vshort = *ta->ipft_pshort; + else if (ta->ipft_sz == sizeof(u_char)) + tu.ipft_vchar = *ta->ipft_pchar; + + tu.ipft_sz = ta->ipft_sz; + tu.ipft_min = ta->ipft_min; + tu.ipft_max = ta->ipft_max; + tu.ipft_flags = ta->ipft_flags; + bcopy(ta->ipft_name, tu.ipft_name, + MIN(sizeof(tu.ipft_name), + strlen(ta->ipft_name) + 1)); + } + error = fr_outobj(data, &tu, IPFOBJ_TUNEABLE); + break; + + case SIOCIPFGET : + case SIOCIPFSET : + /* + * Search by name or by cookie value for a particular entry + * in the tuning paramter table. + */ + error = ESRCH; + if (cookie != NULL) { + ta = fr_findtunebycookie(cookie, NULL); + if (ta != NULL) + error = 0; + } else if (tu.ipft_name[0] != '\0') { + ta = fr_findtunebyname(tu.ipft_name); + if (ta != NULL) + error = 0; + } + if (error != 0) + break; + + if (cmd == (ioctlcmd_t)SIOCIPFGET) { + /* + * Fetch the tuning parameters for a particular value + */ + tu.ipft_vlong = 0; + if (ta->ipft_sz == sizeof(u_long)) + tu.ipft_vlong = *ta->ipft_plong; + else if (ta->ipft_sz == sizeof(u_int)) + tu.ipft_vint = *ta->ipft_pint; + else if (ta->ipft_sz == sizeof(u_short)) + tu.ipft_vshort = *ta->ipft_pshort; + else if (ta->ipft_sz == sizeof(u_char)) + tu.ipft_vchar = *ta->ipft_pchar; + tu.ipft_cookie = ta; + tu.ipft_sz = ta->ipft_sz; + tu.ipft_min = ta->ipft_min; + tu.ipft_max = ta->ipft_max; + tu.ipft_flags = ta->ipft_flags; + error = fr_outobj(data, &tu, IPFOBJ_TUNEABLE); + + } else if (cmd == (ioctlcmd_t)SIOCIPFSET) { + /* + * Set an internal parameter. The hard part here is + * getting the new value safely and correctly out of + * the kernel (given we only know its size, not type.) + */ + u_long in; + + if (((ta->ipft_flags & IPFT_WRDISABLED) != 0) && + (fr_running > 0)) { + error = EBUSY; + break; + } + + in = tu.ipft_vlong; + if (in < ta->ipft_min || in > ta->ipft_max) { + error = EINVAL; + break; + } + + if (ta->ipft_sz == sizeof(u_long)) { + tu.ipft_vlong = *ta->ipft_plong; + *ta->ipft_plong = in; + } else if (ta->ipft_sz == sizeof(u_int)) { + tu.ipft_vint = *ta->ipft_pint; + *ta->ipft_pint = (u_int)(in & 0xffffffff); + } else if (ta->ipft_sz == sizeof(u_short)) { + tu.ipft_vshort = *ta->ipft_pshort; + *ta->ipft_pshort = (u_short)(in & 0xffff); + } else if (ta->ipft_sz == sizeof(u_char)) { + tu.ipft_vchar = *ta->ipft_pchar; + *ta->ipft_pchar = (u_char)(in & 0xff); + } + error = fr_outobj(data, &tu, IPFOBJ_TUNEABLE); + } + break; + + default : + error = EINVAL; + break; + } + + return error; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_initialise */ +/* Returns: int - 0 == success, < 0 == failure */ +/* Parameters: None. */ +/* */ +/* Call of the initialise functions for all the various subsystems inside */ +/* of IPFilter. If any of them should fail, return immeadiately a failure */ +/* BUT do not try to recover from the error here. */ +/* ------------------------------------------------------------------------ */ +int fr_initialise() +{ + int i; + + bzero(&frstats, sizeof(frstats)); + +#ifdef IPFILTER_LOG + i = fr_loginit(); + if (i < 0) + return -10 + i; +#endif + i = fr_natinit(); + if (i < 0) + return -20 + i; + + i = fr_stateinit(); + if (i < 0) + return -30 + i; + + i = fr_authinit(); + if (i < 0) + return -40 + i; + + i = fr_fraginit(); + if (i < 0) + return -50 + i; + + i = appr_init(); + if (i < 0) + return -60 + i; + +#ifdef IPFILTER_SYNC + i = ipfsync_init(); + if (i < 0) + return -70 + i; +#endif +#ifdef IPFILTER_SCAN + i = ipsc_init(); + if (i < 0) + return -80 + i; +#endif +#ifdef IPFILTER_LOOKUP + i = ip_lookup_init(); + if (i < 0) + return -90 + i; +#endif +#ifdef IPFILTER_COMPILED + ipfrule_add(); +#endif + return 0; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_deinitialise */ +/* Returns: None. */ +/* Parameters: None. */ +/* */ +/* Call all the various subsystem cleanup routines to deallocate memory or */ +/* destroy locks or whatever they've done that they need to now undo. */ +/* The order here IS important as there are some cross references of */ +/* internal data structures. */ +/* ------------------------------------------------------------------------ */ +void fr_deinitialise() +{ + fr_fragunload(); + fr_authunload(); + fr_natunload(); + fr_stateunload(); +#ifdef IPFILTER_SCAN + fr_scanunload(); +#endif + appr_unload(); + +#ifdef IPFILTER_COMPILED + ipfrule_remove(); +#endif + + (void) frflush(IPL_LOGIPF, 0, FR_INQUE|FR_OUTQUE|FR_INACTIVE); + (void) frflush(IPL_LOGIPF, 0, FR_INQUE|FR_OUTQUE); + (void) frflush(IPL_LOGCOUNT, 0, FR_INQUE|FR_OUTQUE|FR_INACTIVE); + (void) frflush(IPL_LOGCOUNT, 0, FR_INQUE|FR_OUTQUE); + +#ifdef IPFILTER_LOOKUP + ip_lookup_unload(); +#endif + +#ifdef IPFILTER_LOG + fr_logunload(); +#endif +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_zerostats */ +/* Returns: int - 0 = success, else failure */ +/* Parameters: data(O) - pointer to pointer for copying data back to */ +/* */ +/* Copies the current statistics out to userspace and then zero's the */ +/* current ones in the kernel. The lock is only held across the bzero() as */ +/* the copyout may result in paging (ie network activity.) */ +/* ------------------------------------------------------------------------ */ +int fr_zerostats(data) +caddr_t data; +{ + friostat_t fio; + int error; + + fr_getstat(&fio); + error = fr_outobj(data, &fio, IPFOBJ_IPFSTAT); + if (error) + return EFAULT; + + WRITE_ENTER(&ipf_mutex); + bzero(&frstats, sizeof(frstats)); + RWLOCK_EXIT(&ipf_mutex); + + return 0; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_resolvedest */ +/* Returns: Nil */ +/* Parameters: fdp(IO) - pointer to destination information to resolve */ +/* v(I) - IP protocol version to match */ +/* */ +/* Looks up an interface name in the frdest structure pointed to by fdp and */ +/* if a matching name can be found for the particular IP protocol version */ +/* then store the interface pointer in the frdest struct. If no match is */ +/* found, then set the interface pointer to be -1 as NULL is considered to */ +/* indicate there is no information at all in the structure. */ +/* ------------------------------------------------------------------------ */ +void fr_resolvedest(fdp, v) +frdest_t *fdp; +int v; +{ + void *ifp; + + ifp = NULL; + v = v; /* LINT */ + + if (*fdp->fd_ifname != '\0') { + ifp = GETIFP(fdp->fd_ifname, v); + if (ifp == NULL) + ifp = (void *)-1; + } + fdp->fd_ifp = ifp; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_resolvenic */ +/* Returns: void* - NULL = wildcard name, -1 = failed to find NIC, else */ +/* pointer to interface structure for NIC */ +/* Parameters: name(I) - complete interface name */ +/* v(I) - IP protocol version */ +/* */ +/* Look for a network interface structure that firstly has a matching name */ +/* to that passed in and that is also being used for that IP protocol */ +/* version (necessary on some platforms where there are separate listings */ +/* for both IPv4 and IPv6 on the same physical NIC. */ +/* */ +/* One might wonder why name gets terminated with a \0 byte in here. The */ +/* reason is an interface name could get into the kernel structures of ipf */ +/* in any number of ways and so long as they all use the same sized array */ +/* to put the name in, it makes sense to ensure it gets null terminated */ +/* before it is used for its intended purpose - finding its match in the */ +/* kernel's list of configured interfaces. */ +/* */ +/* NOTE: This SHOULD ONLY be used with IPFilter structures that have an */ +/* array for the name that is LIFNAMSIZ bytes (at least) in length. */ +/* ------------------------------------------------------------------------ */ +void *fr_resolvenic(name, v) +char *name; +int v; +{ + void *nic; + + if (name[0] == '\0') + return NULL; + + if ((name[1] == '\0') && ((name[0] == '-') || (name[0] == '*'))) { + return NULL; + } + + name[LIFNAMSIZ - 1] = '\0'; + + nic = GETIFP(name, v); + if (nic == NULL) + nic = (void *)-1; + return nic; +} + + +ipftoken_t *ipftokenhead = NULL, **ipftokentail = &ipftokenhead; + + +/* ------------------------------------------------------------------------ */ +/* Function: ipf_expiretokens */ +/* Returns: None. */ +/* Parameters: None. */ +/* */ +/* This function is run every ipf tick to see if there are any tokens that */ +/* have been held for too long and need to be freed up. */ +/* ------------------------------------------------------------------------ */ +void ipf_expiretokens() +{ + ipftoken_t *it; + void *data; + + WRITE_ENTER(&ipf_tokens); + while ((it = ipftokenhead) != NULL) { + if (it->ipt_die > fr_ticks) + break; + + data = it->ipt_data; + + ipf_freetoken(it); + } + RWLOCK_EXIT(&ipf_tokens); +} + + +/* ------------------------------------------------------------------------ */ +/* Function: ipf_deltoken */ +/* Returns: int - 0 = success, else error */ +/* Parameters: type(I) - the token type to match */ +/* uid(I) - uid owning the token */ +/* ptr(I) - context pointer for the token */ +/* */ +/* This function looks for a a token in the current list that matches up */ +/* the fields (type, uid, ptr). If none is found, ESRCH is returned, else */ +/* call ipf_freetoken() to remove it from the list. */ +/* ------------------------------------------------------------------------ */ +int ipf_deltoken(type, uid, ptr) +int type, uid; +void *ptr; +{ + ipftoken_t *it; + int error = ESRCH; + + WRITE_ENTER(&ipf_tokens); + for (it = ipftokenhead; it != NULL; it = it->ipt_next) + if (ptr == it->ipt_ctx && type == it->ipt_type && + uid == it->ipt_uid) { + ipf_freetoken(it); + error = 0; + break; + } + RWLOCK_EXIT(&ipf_tokens); + + return error; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: ipf_findtoken */ +/* Returns: ipftoken_t * - NULL if no memory, else pointer to token */ +/* Parameters: type(I) - the token type to match */ +/* uid(I) - uid owning the token */ +/* ptr(I) - context pointer for the token */ +/* */ +/* This function looks for a live token in the list of current tokens that */ +/* matches the tuple (type, uid, ptr). If one cannot be found then one is */ +/* allocated. If one is found then it is moved to the top of the list of */ +/* currently active tokens. */ +/* */ +/* NOTE: It is by design that this function returns holding a read lock on */ +/* ipf_tokens. Callers must make sure they release it! */ +/* ------------------------------------------------------------------------ */ +ipftoken_t *ipf_findtoken(type, uid, ptr) +int type, uid; +void *ptr; +{ + ipftoken_t *it, *new; + + KMALLOC(new, ipftoken_t *); + + WRITE_ENTER(&ipf_tokens); + for (it = ipftokenhead; it != NULL; it = it->ipt_next) { + if (it->ipt_alive == 0) + continue; + if (ptr == it->ipt_ctx && type == it->ipt_type && + uid == it->ipt_uid) + break; + } + + if (it == NULL) { + it = new; + new = NULL; + if (it == NULL) + return NULL; + it->ipt_data = NULL; + it->ipt_ctx = ptr; + it->ipt_uid = uid; + it->ipt_type = type; + it->ipt_next = NULL; + it->ipt_alive = 1; + } else { + if (new != NULL) { + KFREE(new); + new = NULL; + } + + ipf_unlinktoken(it); + } + it->ipt_pnext = ipftokentail; + *ipftokentail = it; + ipftokentail = &it->ipt_next; + it->ipt_next = NULL; + + it->ipt_die = fr_ticks + 2; + + MUTEX_DOWNGRADE(&ipf_tokens); + + return it; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: ipf_unlinktoken */ +/* Returns: None. */ +/* Parameters: token(I) - pointer to token structure */ +/* */ +/* This function unlinks a token structure from the linked list of tokens */ +/* that "own" it. The head pointer never needs to be explicitly adjusted */ +/* but the tail does due to the linked list implementation. */ +/* ------------------------------------------------------------------------ */ +static void ipf_unlinktoken(token) +ipftoken_t *token; +{ + + if (ipftokentail == &token->ipt_next) + ipftokentail = token->ipt_pnext; + + *token->ipt_pnext = token->ipt_next; + if (token->ipt_next != NULL) + token->ipt_next->ipt_pnext = token->ipt_pnext; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: ipf_freetoken */ +/* Returns: None. */ +/* Parameters: token(I) - pointer to token structure */ +/* */ +/* This function unlinks a token from the linked list and on the path to */ +/* free'ing the data, it calls the dereference function that is associated */ +/* with the type of data pointed to by the token as it is considered to */ +/* hold a reference to it. */ +/* ------------------------------------------------------------------------ */ +void ipf_freetoken(token) +ipftoken_t *token; +{ + void *data, **datap; + + ipf_unlinktoken(token); + + data = token->ipt_data; + datap = &data; + + if ((data != NULL) && (data != (void *)-1)) { + switch (token->ipt_type) + { + case IPFGENITER_IPF : + (void) fr_derefrule((frentry_t **)datap); + break; + case IPFGENITER_IPNAT : + WRITE_ENTER(&ipf_nat); + fr_ipnatderef((ipnat_t **)datap); + RWLOCK_EXIT(&ipf_nat); + break; + case IPFGENITER_NAT : + fr_natderef((nat_t **)datap); + break; + case IPFGENITER_STATE : + fr_statederef((ipstate_t **)datap); + break; + case IPFGENITER_FRAG : +#ifdef USE_MUTEXES + fr_fragderef((ipfr_t **)datap, &ipf_frag); +#else + fr_fragderef((ipfr_t **)datap); +#endif + break; + case IPFGENITER_NATFRAG : +#ifdef USE_MUTEXES + fr_fragderef((ipfr_t **)datap, &ipf_natfrag); +#else + fr_fragderef((ipfr_t **)datap); +#endif + break; + case IPFGENITER_HOSTMAP : + fr_hostmapdel((hostmap_t **)datap); + break; + default : +#ifdef IPFILTER_LOOKUP + ip_lookup_iterderef(token->ipt_type, data); +#endif + break; + } + } + + KFREE(token); +} + + +/* ------------------------------------------------------------------------ */ +/* Function: ipf_getnextrule */ +/* Returns: int - 0 = success, else error */ +/* Parameters: t(I) - pointer to destination information to resolve */ +/* ptr(I) - pointer to ipfobj_t to copyin from user space */ +/* */ +/* This function's first job is to bring in the ipfruleiter_t structure via */ +/* the ipfobj_t structure to determine what should be the next rule to */ +/* return. Once the ipfruleiter_t has been brought in, it then tries to */ +/* find the 'next rule'. This may include searching rule group lists or */ +/* just be as simple as looking at the 'next' field in the rule structure. */ +/* When we have found the rule to return, increase its reference count and */ +/* if we used an existing rule to get here, decrease its reference count. */ +/* ------------------------------------------------------------------------ */ +int ipf_getnextrule(ipftoken_t *t, void *ptr) +{ + frentry_t *fr, *next, zero; + int error, count, out; + ipfruleiter_t it; + frgroup_t *fg; + char *dst; + + if (t == NULL || ptr == NULL) + return EFAULT; + error = fr_inobj(ptr, &it, IPFOBJ_IPFITER); + if (error != 0) + return error; + if ((it.iri_inout < 0) || (it.iri_inout > 3)) + return EINVAL; + if ((it.iri_active != 0) && (it.iri_active != 1)) + return EINVAL; + if (it.iri_nrules == 0) + return ENOSPC; + if (it.iri_rule == NULL) + return EFAULT; + + out = it.iri_inout & F_OUT; + fr = t->ipt_data; + READ_ENTER(&ipf_mutex); + if (fr == NULL) { + if (*it.iri_group == '\0') { + if ((it.iri_inout & F_ACIN) != 0) { + if (it.iri_v == 4) + next = ipacct[out][it.iri_active]; + else + next = ipacct6[out][it.iri_active]; + } else { + if (it.iri_v == 4) + next = ipfilter[out][it.iri_active]; + else + next = ipfilter6[out][it.iri_active]; + } + } else { + fg = fr_findgroup(it.iri_group, IPL_LOGIPF, + it.iri_active, NULL); + if (fg != NULL) + next = fg->fg_start; + else + next = NULL; + } + } else { + next = fr->fr_next; + } + + dst = (char *)it.iri_rule; + /* + * The ipfruleiter may ask for more than 1 rule at a time to be + * copied out, so long as that many exist in the list to start with! + */ + for (count = it.iri_nrules; count > 0; count--) { + if (next != NULL) { + MUTEX_ENTER(&next->fr_lock); + next->fr_ref++; + MUTEX_EXIT(&next->fr_lock); + t->ipt_data = next; + } else { + bzero(&zero, sizeof(zero)); + next = &zero; + ipf_freetoken(t); + fr = NULL; + t = NULL; + count = 1; + } + RWLOCK_EXIT(&ipf_mutex); + + if (fr != NULL) { + (void) fr_derefrule(&fr); + } + + error = COPYOUT(next, dst, sizeof(*next)); + if (error != 0) + return EFAULT; + + if (next->fr_data != NULL) { + dst += sizeof(*next); + error = COPYOUT(next->fr_data, dst, next->fr_dsize); + if (error != 0) + error = EFAULT; + else + dst += next->fr_dsize; + } + + if ((count == 1) || (next->fr_next == NULL) || (error != 0)) + break; + + READ_ENTER(&ipf_mutex); + fr = next; + next = fr->fr_next; + } + + return error; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_frruleiter */ +/* Returns: int - 0 = success, else error */ +/* Parameters: data(I) - the token type to match */ +/* uid(I) - uid owning the token */ +/* ptr(I) - context pointer for the token */ +/* */ +/* This function serves as a stepping stone between fr_ipf_ioctl and */ +/* ipf_getnextrule. It's role is to find the right token in the kernel for */ +/* the process doing the ioctl and use that to ask for the next rule. */ +/* ------------------------------------------------------------------------ */ +static int ipf_frruleiter(data, uid, ctx) +void *data, *ctx; +int uid; +{ + ipftoken_t *token; + int error; + + token = ipf_findtoken(IPFGENITER_IPF, uid, ctx); + if (token != NULL) + error = ipf_getnextrule(token, data); + else + error = EFAULT; + RWLOCK_EXIT(&ipf_tokens); + + return error; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_geniter */ +/* Returns: int - 0 = success, else error */ +/* Parameters: token(I) - pointer to ipftoken_t structure */ +/* itp(I) - */ +/* */ +/* ------------------------------------------------------------------------ */ +static int ipf_geniter(token, itp) +ipftoken_t *token; +ipfgeniter_t *itp; +{ + int error; + + switch (itp->igi_type) + { + case IPFGENITER_FRAG : +#ifdef USE_MUTEXES + error = fr_nextfrag(token, itp, + &ipfr_list, &ipfr_tail, &ipf_frag); +#else + error = fr_nextfrag(token, itp, &ipfr_list, &ipfr_tail); +#endif + break; + default : + error = EINVAL; + break; + } + + return error; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_genericiter */ +/* Returns: int - 0 = success, else error */ +/* Parameters: data(I) - the token type to match */ +/* uid(I) - uid owning the token */ +/* ptr(I) - context pointer for the token */ +/* */ +/* ------------------------------------------------------------------------ */ +int ipf_genericiter(data, uid, ctx) +void *data, *ctx; +int uid; +{ + ipftoken_t *token; + ipfgeniter_t iter; + int error; + + error = fr_inobj(data, &iter, IPFOBJ_GENITER); + if (error != 0) + return error; + + token = ipf_findtoken(iter.igi_type, uid, ctx); + if (token != NULL) { + token->ipt_subtype = iter.igi_type; + error = ipf_geniter(token, &iter); + } else + error = EFAULT; + RWLOCK_EXIT(&ipf_tokens); + + return error; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: fr_ipf_ioctl */ +/* Returns: int - 0 = success, else error */ +/* Parameters: data(I) - the token type to match */ +/* cmd(I) - the ioctl command number */ +/* mode(I) - mode flags for the ioctl */ +/* uid(I) - uid owning the token */ +/* ptr(I) - context pointer for the token */ +/* */ +/* This function handles all of the ioctl command that are actually isssued */ +/* to the /dev/ipl device. */ +/* ------------------------------------------------------------------------ */ +int fr_ipf_ioctl(data, cmd, mode, uid, ctx) +caddr_t data; +ioctlcmd_t cmd; +int mode, uid; +void *ctx; +{ + friostat_t fio; + int error, tmp; + SPL_INT(s); + + switch (cmd) + { + case SIOCFRENB : + if (!(mode & FWRITE)) + error = EPERM; + else { + error = BCOPYIN((caddr_t)data, (caddr_t)&tmp, + sizeof(tmp)); + if (error != 0) { + error = EFAULT; + break; + } + + RWLOCK_EXIT(&ipf_global); + WRITE_ENTER(&ipf_global); + if (tmp) { + if (fr_running > 0) + error = 0; + else + error = ipfattach(); + if (error == 0) + fr_running = 1; + else + (void) ipfdetach(); + } else { + error = ipfdetach(); + if (error == 0) + fr_running = -1; + } + } + break; + + case SIOCIPFSET : + if (!(mode & FWRITE)) { + error = EPERM; + break; + } + /* FALLTHRU */ + case SIOCIPFGETNEXT : + case SIOCIPFGET : + error = fr_ipftune(cmd, (void *)data); + break; + + case SIOCSETFF : + if (!(mode & FWRITE)) + error = EPERM; + else { + error = BCOPYIN((caddr_t)data, (caddr_t)&fr_flags, + sizeof(fr_flags)); + if (error != 0) + error = EFAULT; + } + break; + + case SIOCGETFF : + error = BCOPYOUT((caddr_t)&fr_flags, (caddr_t)data, + sizeof(fr_flags)); + if (error != 0) + error = EFAULT; + break; + + case SIOCFUNCL : + error = fr_resolvefunc((void *)data); + break; + + case SIOCINAFR : + case SIOCRMAFR : + case SIOCADAFR : + case SIOCZRLST : + if (!(mode & FWRITE)) + error = EPERM; + else + error = frrequest(IPL_LOGIPF, cmd, (caddr_t)data, + fr_active, 1); + break; + + case SIOCINIFR : + case SIOCRMIFR : + case SIOCADIFR : + if (!(mode & FWRITE)) + error = EPERM; + else + error = frrequest(IPL_LOGIPF, cmd, (caddr_t)data, + 1 - fr_active, 1); + break; + + case SIOCSWAPA : + if (!(mode & FWRITE)) + error = EPERM; + else { + WRITE_ENTER(&ipf_mutex); + bzero((char *)frcache, sizeof(frcache[0]) * 2); + error = BCOPYOUT((caddr_t)&fr_active, (caddr_t)data, + sizeof(fr_active)); + if (error != 0) + error = EFAULT; + else + fr_active = 1 - fr_active; + RWLOCK_EXIT(&ipf_mutex); + } + break; + + case SIOCGETFS : + fr_getstat(&fio); + error = fr_outobj((void *)data, &fio, IPFOBJ_IPFSTAT); + break; + + case SIOCFRZST : + if (!(mode & FWRITE)) + error = EPERM; + else + error = fr_zerostats((caddr_t)data); + break; + + case SIOCIPFFL : + if (!(mode & FWRITE)) + error = EPERM; + else { + error = BCOPYIN((caddr_t)data, (caddr_t)&tmp, + sizeof(tmp)); + if (!error) { + tmp = frflush(IPL_LOGIPF, 4, tmp); + error = BCOPYOUT((caddr_t)&tmp, (caddr_t)data, + sizeof(tmp)); + if (error != 0) + error = EFAULT; + } else + error = EFAULT; + } + break; + +#ifdef USE_INET6 + case SIOCIPFL6 : + if (!(mode & FWRITE)) + error = EPERM; + else { + error = BCOPYIN((caddr_t)data, (caddr_t)&tmp, + sizeof(tmp)); + if (!error) { + tmp = frflush(IPL_LOGIPF, 6, tmp); + error = BCOPYOUT((caddr_t)&tmp, (caddr_t)data, + sizeof(tmp)); + if (error != 0) + error = EFAULT; + } else + error = EFAULT; + } + break; +#endif + + case SIOCSTLCK : + error = BCOPYIN((caddr_t)data, (caddr_t)&tmp, sizeof(tmp)); + if (error == 0) { + fr_state_lock = tmp; + fr_nat_lock = tmp; + fr_frag_lock = tmp; + fr_auth_lock = tmp; + } else + error = EFAULT; + break; + +#ifdef IPFILTER_LOG + case SIOCIPFFB : + if (!(mode & FWRITE)) + error = EPERM; + else { + tmp = ipflog_clear(IPL_LOGIPF); + error = BCOPYOUT((caddr_t)&tmp, (caddr_t)data, + sizeof(tmp)); + if (error) + error = EFAULT; + } + break; +#endif /* IPFILTER_LOG */ + + case SIOCFRSYN : + if (!(mode & FWRITE)) + error = EPERM; + else { + RWLOCK_EXIT(&ipf_global); + WRITE_ENTER(&ipf_global); +#ifdef MENTAT + error = ipfsync(); +#else + frsync(NULL); + error = 0; +#endif + + } + break; + + case SIOCGFRST : + error = fr_outobj((void *)data, fr_fragstats(), + IPFOBJ_FRAGSTAT); + break; + +#ifdef IPFILTER_LOG + case FIONREAD : + tmp = (int)iplused[IPL_LOGIPF]; + + error = BCOPYOUT((caddr_t)&tmp, (caddr_t)data, sizeof(tmp)); + break; +#endif + + case SIOCIPFITER : + SPL_SCHED(s); + error = ipf_frruleiter(data, uid, ctx); + SPL_X(s); + break; + + case SIOCGENITER : + SPL_SCHED(s); + error = ipf_genericiter(data, uid, ctx); + SPL_X(s); + break; + break; + + case SIOCIPFDELTOK : + SPL_SCHED(s); + error = BCOPYIN((caddr_t)data, (caddr_t)&tmp, sizeof(tmp)); + if (error == 0) + error = ipf_deltoken(tmp, uid, ctx); + SPL_X(s); + break; + break; + + default : + error = EINVAL; + break; + } + + return error; +} + + +/* ------------------------------------------------------------------------ */ +/* Function: ipf_queueflush */ +/* Returns: int - number of entries flushed (0 = none) */ +/* Parameters: deletefn(I) - function to call to delete entry */ +/* ipfqs(I) - top of the list of ipf internal queues */ +/* userqs(I) - top of the list of user defined timeouts */ +/* */ +/* This fucntion gets called when the state/NAT hash tables fill up and we */ +/* need to try a bit harder to free up some space. The algorithm used is */ +/* to look for the oldest entries on each timeout queue and free them if */ +/* they are within the given window we are considering. Where the window */ +/* starts and the steps taken to increase its size depend upon how long ipf */ +/* has been running (fr_ticks.) Anything modified in the last 30 seconds */ +/* is not touched. */ +/* touched */ +/* die fr_ticks 30*1.5 1800*1.5 | 43200*1.5 */ +/* | | | | | | */ +/* future <--+----------+--------+-----------+-----+-----+-----------> past */ +/* now \_int=30s_/ \_int=1hr_/ \_int=12hr */ +/* */ +/* Points to note: */ +/* - tqe_die is the time, in the future, when entries die. */ +/* - tqe_die - fr_ticks is how long left the connection has to live in ipf */ +/* ticks. */ +/* - tqe_touched is when the entry was last used by NAT/state */ +/* - the closer tqe_touched is to fr_ticks, the further tqe_die will be for */ +/* any given timeout queue and vice versa. */ +/* - both tqe_die and tqe_touched increase over time */ +/* - timeout queues are sorted with the highest value of tqe_die at the */ +/* bottom and therefore the smallest values of each are at the top */ +/* */ +/* We start by setting up a maximum range to scan for things to move of */ +/* iend (newest) to istart (oldest) in chunks of "interval". If nothing is */ +/* found in that range, "interval" is adjusted (so long as it isn't 30) and */ +/* we start again with a new value for "iend" and "istart". The downside */ +/* of the current implementation is that it may return removing just 1 entry*/ +/* every time (pathological case) where it could remove more. */ +/* ------------------------------------------------------------------------ */ +int ipf_queueflush(deletefn, ipfqs, userqs) +ipftq_delete_fn_t deletefn; +ipftq_t *ipfqs, *userqs; +{ + u_long interval, istart, iend; + ipftq_t *ifq, *ifqnext; + ipftqent_t *tqe, *tqn; + int removed; + + /* + * NOTE: Use of "* 15 / 10" is required here because if "* 1.5" is + * used then the operations are upgraded to floating point + * and kernels don't like floating point... + */ + if (fr_ticks > IPF_TTLVAL(43200 * 15 / 10)) { + istart = IPF_TTLVAL(86400 * 4); + interval = IPF_TTLVAL(43200); + } else if (fr_ticks > IPF_TTLVAL(1800 * 15 / 10)) { + istart = IPF_TTLVAL(43200); + interval = IPF_TTLVAL(1800); + } else if (fr_ticks > IPF_TTLVAL(30 * 15 / 10)) { + istart = IPF_TTLVAL(1800); + interval = IPF_TTLVAL(30); + } else { + return 0; + } + if (istart > fr_ticks) { + istart = (fr_ticks / interval) * interval; + } + + iend = fr_ticks - interval; + if (istart > iend) + istart = iend - interval; + removed = 0; + + while (removed == 0) { + u_long try; + + try = fr_ticks - istart; + + for (ifq = ipfqs; ifq != NULL; ifq = ifq->ifq_next) { + for (tqn = ifq->ifq_head; ((tqe = tqn) != NULL); ) { + if (try < tqe->tqe_touched) + break; + tqn = tqe->tqe_next; + if ((*deletefn)(tqe->tqe_parent) == 0) + removed++; + } + } + + for (ifq = userqs; ifq != NULL; ifq = ifqnext) { + ifqnext = ifq->ifq_next; + + for (tqn = ifq->ifq_head; ((tqe = tqn) != NULL); ) { + if (try < tqe->tqe_touched) + break; + tqn = tqe->tqe_next; + if ((*deletefn)(tqe->tqe_parent) == 0) + removed++; + } + } + + istart -= interval; + if (try >= iend) { + if (interval == IPF_TTLVAL(43200)) { + interval = IPF_TTLVAL(1800); + } else if (interval == IPF_TTLVAL(1800)) { + interval = IPF_TTLVAL(30); + } else { + break; + } + if (interval >= fr_ticks) + break; + + iend = fr_ticks - interval; + } + } + + return removed; +} |