/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* * This routine takes a sensitivity label as input and creates a CIPSO * option in the specified buffer. It returns the size of the CIPSO option. * If the sensitivity label is too large for the CIPSO option, then 0 * is returned. * * tsol2cipso_tt1 returns 0 for failure and greater than 0 for success * (more accurately, success means a return value between 10 and 40). */ static int tsol2cipso_tt1(const bslabel_t *sl, unsigned char *cop, uint32_t doi) { struct cipso_tag_type_1 *tt1; const _bslabel_impl_t *bsl; const uchar_t *ucp; int i; if (doi == 0) return (0); /* check for Admin High sensitivity label */ if (blequal(sl, label2bslabel(l_admin_high))) return (0); /* check whether classification will fit in one octet */ bsl = (const _bslabel_impl_t *)sl; if (LCLASS(bsl) & 0xFF00) return (0); /* * Check whether compartments will fit in 30 octets. * Compartments 241 - 256 are not allowed. */ if (ntohl(bsl->compartments.c8) & 0x0000FFFF) return (0); /* * Compute option length and tag length. * 'p' points to the last two bytes in the Sensitivity Label's * compartments; these cannot be mapped into CIPSO compartments. */ ucp = (const uchar_t *)&bsl->compartments.c8 + 2; while (--ucp >= (const uchar_t *)&bsl->compartments.c1) if (*ucp != 0) break; i = ucp - (const uchar_t *)&bsl->compartments.c1 + 1; if (cop == NULL) return (10 + i); doi = htonl(doi); ucp = (const uchar_t *)&doi; cop[IPOPT_OPTVAL] = IPOPT_COMSEC; cop[IPOPT_OLEN] = 10 + i; cop[IPOPT_OLEN+1] = ucp[0]; cop[IPOPT_OLEN+2] = ucp[1]; cop[IPOPT_OLEN+3] = ucp[2]; cop[IPOPT_OLEN+4] = ucp[3]; tt1 = (struct cipso_tag_type_1 *)&cop[IPOPT_OLEN + 5]; tt1->tag_type = 1; tt1->tag_align = 0; tt1->tag_sl = LCLASS(bsl); tt1->tag_length = 4 + i; bcopy(&bsl->compartments.c1, tt1->tag_cat, i); return (cop[IPOPT_OLEN]); } /* * The following routine searches for a security label in an IPv4 datagram. * It returns label_type of: * OPT_CIPSO if a CIPSO IP option is found. * OPT_NONE if no security label is found. * * If OPT_CIPSO, a pointer to the CIPSO IP option will be returned in * the buffer parameter. * * The function will return with B_FALSE if an IP format error * is encountered. */ boolean_t tsol_get_option_v4(mblk_t *mp, tsol_ip_label_t *label_type, uchar_t **buffer) { ipha_t *ipha; uchar_t *opt; uint32_t totallen; uint32_t optval; uint32_t optlen; *label_type = OPT_NONE; /* * Get length (in 4 byte octets) of IP header options. * If header doesn't contain options, then return a label_type * of OPT_NONE. */ ipha = (ipha_t *)mp->b_rptr; totallen = ipha->ipha_version_and_hdr_length - (uint8_t)((IP_VERSION << 4)); totallen <<= 2; if (totallen < IP_SIMPLE_HDR_LENGTH || totallen > MBLKL(mp)) return (B_FALSE); totallen -= IP_SIMPLE_HDR_LENGTH; if (totallen == 0) return (B_TRUE); /* * Search for CIPSO option. * If no such option is present, then return OPT_NONE. */ opt = (uchar_t *)&ipha[1]; while (totallen != 0) { switch (optval = opt[IPOPT_OPTVAL]) { case IPOPT_EOL: return (B_TRUE); case IPOPT_NOP: optlen = 1; break; default: if (totallen <= IPOPT_OLEN) return (B_FALSE); optlen = opt[IPOPT_OLEN]; if (optlen < 2) return (B_FALSE); } if (optlen > totallen) return (B_FALSE); /* * Copy pointer to option into '*buffer' and * return the option type. */ switch (optval) { case IPOPT_COMSEC: if (TSOL_CIPSO_TAG_OFFSET < optlen && opt[TSOL_CIPSO_TAG_OFFSET] == 1) { *label_type = OPT_CIPSO; *buffer = opt; return (B_TRUE); } return (B_FALSE); } totallen -= optlen; opt += optlen; } return (B_TRUE); } /* * The following routine searches for a security label in an IPv6 datagram. * It returns label_type of: * OPT_CIPSO if a CIPSO IP option is found. * OPT_NONE if no security label is found. * * If OPT_CIPSO, a pointer to the IPv4 portion of the CIPSO IP option will * be returned in the buffer parameter. * * The function will return with B_FALSE if an IP format error * or an unexpected label content error is encountered. */ boolean_t tsol_get_option_v6(mblk_t *mp, tsol_ip_label_t *label_type, uchar_t **buffer) { uchar_t *opt_ptr = NULL; uchar_t *after_secopt; boolean_t hbh_needed; const uchar_t *ip6hbh; size_t optlen; uint32_t doi; const ip6_t *ip6h; *label_type = OPT_NONE; *buffer = NULL; ip6h = (const ip6_t *)mp->b_rptr; if (ip6h->ip6_nxt != IPPROTO_HOPOPTS) return (B_TRUE); ip6hbh = (const uchar_t *)&ip6h[1]; if (ip6hbh + MIN_EHDR_LEN > mp->b_wptr) return (B_FALSE); optlen = (ip6hbh[1] + 1) << 3; if (ip6hbh + optlen > mp->b_wptr) return (B_FALSE); if (!tsol_find_secopt_v6(ip6hbh, optlen, &opt_ptr, &after_secopt, &hbh_needed)) return (B_FALSE); /* tsol_find_secopt_v6 guarantees some sanity */ if (opt_ptr != NULL) { /* * IPv6 Option * opt_ptr[0]: Option type * opt_ptr[1]: Length of option data in bytes * opt_ptr[2]: First byte of option data */ if ((optlen = opt_ptr[1]) < 8) return (B_FALSE); opt_ptr += 2; /* * From "Generalized Labeled Security Option for IPv6" draft * opt_ptr[0] - opt_ptr[4]: DOI = IP6LS_DOI_V4 * opt_ptr[4]: Tag type = IP6LS_TT_V4 * opt_ptr[5]: Tag length in bytes starting at Tag type field * IPv4 CIPSO Option * opt_ptr[6]: option type * opt_ptr[7]: option length in bytes starting at type field */ bcopy(opt_ptr, &doi, sizeof (doi)); doi = ntohl(doi); if (doi == IP6LS_DOI_V4 && opt_ptr[4] == IP6LS_TT_V4 && opt_ptr[5] <= optlen - 4 && opt_ptr[7] <= optlen - 6 && opt_ptr[7] <= opt_ptr[5] - 2) { opt_ptr += sizeof (doi) + 2; *label_type = OPT_CIPSO; *buffer = opt_ptr; return (B_TRUE); } return (B_FALSE); } return (B_TRUE); } /* * tsol_check_dest() * * This routine verifies if a destination is allowed to recieve messages * based on the security label. If any adjustments to the label are needed * due to the connection's MAC mode or the destination's ability * to receive labels, an "effective label" will be returned. * * zone_is_global is set if the actual zoneid is global. That is, it is * not set for an exclusive-IP zone. * * On successful return, effective_tsl will point to the new label needed * or will be NULL if a new label isn't needed. On error, effective_tsl will * point to NULL. * * Returns: * 0 Label (was|is now) correct * EHOSTUNREACH The label failed the remote host accreditation * ENOMEM Memory allocation failure */ int tsol_check_dest(const ts_label_t *tsl, const void *dst, uchar_t version, uint_t mac_mode, boolean_t zone_is_global, ts_label_t **effective_tsl) { ts_label_t *newtsl = NULL; tsol_tpc_t *dst_rhtp; if (effective_tsl != NULL) *effective_tsl = NULL; ASSERT(version == IPV4_VERSION || (version == IPV6_VERSION && !IN6_IS_ADDR_V4MAPPED((in6_addr_t *)dst))); /* Always pass kernel level communication (NULL label) */ if (tsl == NULL) { DTRACE_PROBE2(tx__tnopt__log__info__labeling__mac__allownull, char *, "destination ip(1) with null label was passed", ipaddr_t, dst); return (0); } if (tsl->tsl_flags & TSLF_IMPLICIT_IN) { DTRACE_PROBE3(tx__tnopt__log__info__labeling__unresolved__label, char *, "implicit-in packet to ip(1) reached tsol_check_dest " "with implied security label sl(2)", ipaddr_t, dst, ts_label_t *, tsl); } /* Always pass multicast */ if (version == IPV4_VERSION && CLASSD(*(ipaddr_t *)dst)) { DTRACE_PROBE2(tx__tnopt__log__info__labeling__mac__allowmult, char *, "destination ip(1) with multicast dest was passed", ipaddr_t, dst); return (0); } else if (version == IPV6_VERSION && IN6_IS_ADDR_MULTICAST((in6_addr_t *)dst)) { DTRACE_PROBE2(tx__tnopt__log__info__labeling__mac__allowmult_v6, char *, "destination ip(1) with multicast dest was passed", in6_addr_t *, dst); return (0); } /* Never pass an undefined destination */ if ((dst_rhtp = find_tpc(dst, version, B_FALSE)) == NULL) { DTRACE_PROBE2(tx__tnopt__log__info__labeling__lookupdst, char *, "destination ip(1) not in tn database.", void *, dst); return (EHOSTUNREACH); } switch (dst_rhtp->tpc_tp.host_type) { case UNLABELED: /* * Can talk to unlabeled hosts if * (1) zone's label matches the default label, or * (2) SO_MAC_EXEMPT is on and we * dominate the peer's label, or * (3) SO_MAC_EXEMPT is on and * this is the global zone */ if (dst_rhtp->tpc_tp.tp_doi != tsl->tsl_doi) { DTRACE_PROBE4(tx__tnopt__log__info__labeling__doi, char *, "unlabeled dest ip(1)/tpc(2) doi does " "not match msg label(3) doi.", void *, dst, tsol_tpc_t *, dst_rhtp, ts_label_t *, tsl); TPC_RELE(dst_rhtp); return (EHOSTUNREACH); } if (!blequal(&dst_rhtp->tpc_tp.tp_def_label, &tsl->tsl_label)) { if (mac_mode != CONN_MAC_AWARE || !(zone_is_global || bldominates(&tsl->tsl_label, &dst_rhtp->tpc_tp.tp_def_label))) { DTRACE_PROBE4( tx__tnopt__log__info__labeling__mac, char *, "unlabeled dest ip(1)/tpc(2) does " "not match msg label(3).", void *, dst, tsol_tpc_t *, dst_rhtp, ts_label_t *, tsl); TPC_RELE(dst_rhtp); return (EHOSTUNREACH); } /* * This is a downlabel MAC-exempt exchange. * Use the remote destination's default label * as the label of the message data. */ if ((newtsl = labelalloc(&dst_rhtp->tpc_tp.tp_def_label, dst_rhtp->tpc_tp.tp_doi, KM_NOSLEEP)) == NULL) { TPC_RELE(dst_rhtp); return (ENOMEM); } newtsl->tsl_flags |= TSLF_UNLABELED; } else if (!(tsl->tsl_flags & TSLF_UNLABELED)) { /* * The security labels are the same but we need * to flag that the remote node is unlabeled. */ if ((newtsl = labeldup(tsl, KM_NOSLEEP)) == NULL) { TPC_RELE(dst_rhtp); return (ENOMEM); } newtsl->tsl_flags |= TSLF_UNLABELED; } break; case SUN_CIPSO: /* * Can talk to labeled hosts if zone's label is within target's * label range or set. */ if (dst_rhtp->tpc_tp.tp_cipso_doi_cipso != tsl->tsl_doi || (!_blinrange(&tsl->tsl_label, &dst_rhtp->tpc_tp.tp_sl_range_cipso) && !blinlset(&tsl->tsl_label, dst_rhtp->tpc_tp.tp_sl_set_cipso))) { DTRACE_PROBE4(tx__tnopt__log__info__labeling__mac, char *, "labeled dest ip(1)/tpc(2) does not " "match msg label(3).", void *, dst, tsol_tpc_t *, dst_rhtp, ts_label_t *, tsl); TPC_RELE(dst_rhtp); return (EHOSTUNREACH); } if ((tsl->tsl_flags & TSLF_UNLABELED) || (mac_mode == CONN_MAC_IMPLICIT)) { /* * Copy label so we can modify the flags */ if ((newtsl = labeldup(tsl, KM_NOSLEEP)) == NULL) { TPC_RELE(dst_rhtp); return (ENOMEM); } /* * The security label is a match but we need to * clear the unlabeled flag for this remote node. */ newtsl->tsl_flags &= ~TSLF_UNLABELED; if (mac_mode == CONN_MAC_IMPLICIT) newtsl->tsl_flags |= TSLF_IMPLICIT_OUT; } break; default: TPC_RELE(dst_rhtp); return (EHOSTUNREACH); } /* * Return the new label. */ if (newtsl != NULL) { if (effective_tsl != NULL) *effective_tsl = newtsl; else label_rele(newtsl); } TPC_RELE(dst_rhtp); return (0); } /* * tsol_compute_label_v4() * * This routine computes the IP label that should be on a packet based on the * connection and destination information. * * The zoneid is the IP zoneid (i.e., GLOBAL_ZONEID for exlusive-IP zones). * * Returns: * 0 Fetched label * EHOSTUNREACH No route to destination * EINVAL Label cannot be computed */ int tsol_compute_label_v4(const ts_label_t *tsl, zoneid_t zoneid, ipaddr_t dst, uchar_t *opt_storage, ip_stack_t *ipst) { uint_t sec_opt_len; ire_t *ire; tsol_ire_gw_secattr_t *attrp = NULL; if (opt_storage != NULL) opt_storage[IPOPT_OLEN] = 0; if (tsl == NULL) return (0); /* always pass multicast */ if (CLASSD(dst)) return (0); if (tsl->tsl_flags & TSLF_IMPLICIT_OUT) return (0); if (tsl->tsl_flags & TSLF_UNLABELED) { /* * The destination is unlabeled. Only add a label if the * destination is not a broadcast/local/loopback address, * the destination is not on the same subnet, and the * next-hop gateway is labeled. */ ire = ire_route_recursive_v4(dst, 0, NULL, zoneid, tsl, MATCH_IRE_SECATTR, B_TRUE, 0, ipst, NULL, &attrp, NULL); ASSERT(ire != NULL); if (ire->ire_flags & (RTF_REJECT|RTF_BLACKHOLE)) { /* no route to destination */ ire_refrele(ire); DTRACE_PROBE3( tx__tnopt__log__info__labeling__routedst__v4, char *, "No route to unlabeled dest ip(1) with " "with label(2).", ipaddr_t, dst, ts_label_t *, tsl); return (EHOSTUNREACH); } if (ire->ire_type & (IRE_BROADCAST | IRE_LOCAL | IRE_LOOPBACK | IRE_INTERFACE)) { ire_refrele(ire); return (0); } /* * ire_route_recursive gives us the first attrp it finds * in the recursive lookup. */ /* * Return now if next hop gateway is unlabeled. There is * no need to generate a CIPSO option for this message. */ if (attrp == NULL || attrp->igsa_rhc == NULL || attrp->igsa_rhc->rhc_tpc->tpc_tp.host_type == UNLABELED) { ire_refrele(ire); return (0); } ire_refrele(ire); } /* compute the CIPSO option */ sec_opt_len = tsol2cipso_tt1(&tsl->tsl_label, opt_storage, tsl->tsl_doi); if (sec_opt_len == 0) { DTRACE_PROBE3(tx__tnopt__log__error__labeling__lostops__v4, char *, "options lack length for dest ip(1) with label(2).", ipaddr_t, dst, ts_label_t *, tsl); return (EINVAL); } return (0); } /* * Remove any existing security option (CIPSO) from the given IP * header, move the 'buflen' bytes back to fill the gap, and return the number * of bytes removed (as zero or negative number). Assumes that the headers are * sane. * * Note that tsol_remove_secopt does not adjust ipha_length but * tsol_remove_secopt_v6 does adjust ip6_plen. */ int tsol_remove_secopt(ipha_t *ipha, int buflen) { int remlen, olen, oval, delta; uchar_t *fptr, *tptr; boolean_t noop_keep; remlen = IPH_HDR_LENGTH(ipha) - IP_SIMPLE_HDR_LENGTH; fptr = tptr = (uchar_t *)(ipha + 1); noop_keep = B_TRUE; while (remlen > 0) { oval = fptr[IPOPT_OPTVAL]; /* terminate on end of list */ if (oval == IPOPT_EOL) break; /* * Delete any no-ops following a deleted option, at least up * to a 4 octet alignment; copy others. */ if (oval == IPOPT_NOP) { if (((fptr - (uchar_t *)ipha) & 3) == 0) noop_keep = B_TRUE; if (noop_keep) *tptr++ = oval; fptr++; remlen--; continue; } /* stop on corrupted list; just do nothing. */ if (remlen < 2) return (0); olen = fptr[IPOPT_OLEN]; if (olen < 2 || olen > remlen) return (0); /* skip over security options to delete them */ if (oval == IPOPT_COMSEC || oval == IPOPT_SECURITY) { noop_keep = B_FALSE; fptr += olen; remlen -= olen; continue; } /* copy the rest */ noop_keep = B_TRUE; if (tptr != fptr) ovbcopy(fptr, tptr, olen); fptr += olen; tptr += olen; remlen -= olen; } fptr += remlen; /* figure how much padding we'll need for header alignment */ olen = (tptr - (uchar_t *)ipha) & 3; if (olen > 0) { olen = 4 - olen; /* pad with end-of-list */ bzero(tptr, olen); tptr += olen; } /* slide back the headers that follow and update the IP header */ delta = fptr - tptr; if (delta != 0) { ovbcopy(fptr, tptr, ((uchar_t *)ipha + buflen) - fptr); ipha->ipha_version_and_hdr_length -= delta / 4; } return (-delta); } /* * Insert the option in 'optbuf' into the IP header pointed to by 'ipha', and * move the data following the IP header (up to buflen) to accomodate the new * option. Assumes that up to IP_MAX_OPT_LENGTH bytes are available (in total) * for IP options. Returns the number of bytes actually inserted, or -1 if the * option cannot be inserted. (Note that negative return values are possible * when noops must be compressed, and that only -1 indicates error. Successful * return value is always evenly divisible by 4, by definition.) * * Note that tsol_prepend_option does not adjust ipha_length but * tsol_prepend_option_v6 does adjust ip6_plen. */ int tsol_prepend_option(uchar_t *optbuf, ipha_t *ipha, int buflen) { int remlen, padding, lastpad, totlen; int oval, olen; int delta; uchar_t *optr; uchar_t tempopt[IP_MAX_OPT_LENGTH], *toptr; if (optbuf[IPOPT_OPTVAL] == IPOPT_EOL || optbuf[IPOPT_OPTVAL] == IPOPT_NOP || optbuf[IPOPT_OLEN] == 0) return (0); ASSERT(optbuf[IPOPT_OLEN] >= 2 && optbuf[IPOPT_OLEN] <= IP_MAX_OPT_LENGTH); /* first find the real (unpadded) length of the existing options */ remlen = IPH_HDR_LENGTH(ipha) - IP_SIMPLE_HDR_LENGTH; padding = totlen = lastpad = 0; optr = (uchar_t *)(ipha + 1); while (remlen > 0) { oval = optr[IPOPT_OPTVAL]; /* stop at end of list */ if (oval == IPOPT_EOL) break; /* skip no-ops, noting that length byte isn't present */ if (oval == IPOPT_NOP) { optr++; padding++; lastpad++; totlen++; remlen--; continue; } /* give up on a corrupted list; report failure */ if (remlen < 2) return (-1); olen = optr[IPOPT_OLEN]; if (olen < 2 || olen > remlen) return (-1); lastpad = 0; optr += olen; totlen += olen; remlen -= olen; } /* completely ignore any trailing padding */ totlen -= lastpad; padding -= lastpad; /* * If some sort of inter-option alignment was present, try to preserve * that alignment. If alignment pushes us out past the maximum, then * discard it and try to compress to fit. (We just "assume" that any * padding added was attempting to get 32 bit alignment. If that's * wrong, that's just too bad.) */ if (padding > 0) { olen = (optbuf[IPOPT_OLEN] + 3) & ~3; if (olen + totlen > IP_MAX_OPT_LENGTH) { totlen -= padding; if (olen + totlen > IP_MAX_OPT_LENGTH) return (-1); padding = 0; } } /* * Since we may need to compress or expand the option list, we write to * a temporary buffer and then copy the results back to the IP header. */ toptr = tempopt; /* compute actual option to insert */ olen = optbuf[IPOPT_OLEN]; bcopy(optbuf, toptr, olen); toptr += olen; if (padding > 0) { while ((olen & 3) != 0) { *toptr++ = IPOPT_NOP; olen++; } } /* copy over the existing options */ optr = (uchar_t *)(ipha + 1); while (totlen > 0) { oval = optr[IPOPT_OPTVAL]; /* totlen doesn't include end-of-list marker */ ASSERT(oval != IPOPT_EOL); /* handle no-ops; copy if desired, ignore otherwise */ if (oval == IPOPT_NOP) { if (padding > 0) { /* note: cannot overflow due to checks above */ ASSERT(toptr < tempopt + IP_MAX_OPT_LENGTH); *toptr++ = oval; } optr++; totlen--; continue; } /* list cannot be corrupt at this point */ ASSERT(totlen >= 2); olen = optr[IPOPT_OLEN]; ASSERT(olen >= 2 && olen <= totlen); /* cannot run out of room due to tests above */ ASSERT(toptr + olen <= tempopt + IP_MAX_OPT_LENGTH); bcopy(optr, toptr, olen); optr += olen; toptr += olen; totlen -= olen; } /* figure how much padding we'll need for header alignment */ olen = (toptr - tempopt) & 3; if (olen > 0) { olen = 4 - olen; ASSERT(toptr + olen <= tempopt + IP_MAX_OPT_LENGTH); /* pad with end-of-list value */ bzero(toptr, olen); toptr += olen; } /* move the headers as needed and update IP header */ olen = (toptr - tempopt) + IP_SIMPLE_HDR_LENGTH; remlen = IPH_HDR_LENGTH(ipha); delta = olen - remlen; if (delta != 0) { ovbcopy((uchar_t *)ipha + remlen, (uchar_t *)ipha + olen, buflen - remlen); ipha->ipha_version_and_hdr_length += delta / 4; } /* slap in the new options */ bcopy(tempopt, ipha + 1, olen - IP_SIMPLE_HDR_LENGTH); return (delta); } /* * tsol_check_label_v4() * * This routine computes the IP label that should be on the packet based on the * connection and destination information. It's called by the IP forwarding * logic and by ip_output_simple. The ULPs generate the labels before calling * conn_ip_output. If any adjustments to * the label are needed due to the connection's MAC-exempt status or * the destination's ability to receive labels, an "effective label" * will be returned. * * The packet's header is clear before entering IPsec's engine. * * The zoneid is the IP zoneid (i.e., GLOBAL_ZONEID for exlusive-IP zones). * zone_is_global is set if the actual zoneid is global. * * On successful return, effective_tslp will point to the new label needed * or will be NULL if a new label isn't needed. On error, effective_tsl will * point to NULL. * * Returns: * 0 Label (was|is now) correct * EACCES The packet failed the remote host accreditation. * ENOMEM Memory allocation failure. * EINVAL Label cannot be computed */ int tsol_check_label_v4(const ts_label_t *tsl, zoneid_t zoneid, mblk_t **mpp, uint_t mac_mode, boolean_t zone_is_global, ip_stack_t *ipst, ts_label_t **effective_tslp) { mblk_t *mp = *mpp; ipha_t *ipha; ts_label_t *effective_tsl = NULL; uchar_t opt_storage[IP_MAX_OPT_LENGTH]; uint_t hlen; uint_t sec_opt_len; uchar_t *optr; int delta_remove = 0, delta_add, adjust; int retv; *effective_tslp = NULL; opt_storage[IPOPT_OPTVAL] = 0; ipha = (ipha_t *)mp->b_rptr; /* * Verify the destination is allowed to receive packets at * the security label of the message data. tsol_check_dest() * may create a new effective label or label flags. */ retv = tsol_check_dest(tsl, &ipha->ipha_dst, IPV4_VERSION, mac_mode, zone_is_global, &effective_tsl); if (retv != 0) return (retv); /* * Calculate the security label to be placed in the text * of the message (if any). */ if (effective_tsl != NULL) { if ((retv = tsol_compute_label_v4(effective_tsl, zoneid, ipha->ipha_dst, opt_storage, ipst)) != 0) { label_rele(effective_tsl); return (retv); } *effective_tslp = effective_tsl; } else { if ((retv = tsol_compute_label_v4(tsl, zoneid, ipha->ipha_dst, opt_storage, ipst)) != 0) { return (retv); } } optr = (uchar_t *)(ipha + 1); hlen = IPH_HDR_LENGTH(ipha) - IP_SIMPLE_HDR_LENGTH; sec_opt_len = opt_storage[IPOPT_OLEN]; if (hlen >= sec_opt_len) { /* If no option is supposed to be there, make sure it's not */ if (sec_opt_len == 0 && hlen > 0 && optr[IPOPT_OPTVAL] != IPOPT_COMSEC && optr[IPOPT_OPTVAL] != IPOPT_SECURITY) return (0); /* if the option is there, it's always first */ if (sec_opt_len != 0 && bcmp(opt_storage, optr, sec_opt_len) == 0) return (0); } /* * If there is an option there, then it must be the wrong one; delete. */ if (hlen > 0) { delta_remove = tsol_remove_secopt(ipha, MBLKL(mp)); mp->b_wptr += delta_remove; } /* Make sure we have room for the worst-case addition */ hlen = IPH_HDR_LENGTH(ipha) + opt_storage[IPOPT_OLEN]; hlen = (hlen + 3) & ~3; if (hlen > IP_MAX_HDR_LENGTH) hlen = IP_MAX_HDR_LENGTH; hlen -= IPH_HDR_LENGTH(ipha); if (mp->b_wptr + hlen > mp->b_datap->db_lim) { int copylen; mblk_t *new_mp; /* allocate enough to be meaningful, but not *too* much */ copylen = MBLKL(mp); if (copylen > 256) copylen = 256; new_mp = allocb_tmpl(hlen + copylen + (mp->b_rptr - mp->b_datap->db_base), mp); if (new_mp == NULL) { if (effective_tsl != NULL) { label_rele(effective_tsl); *effective_tslp = NULL; } return (ENOMEM); } /* keep the bias */ new_mp->b_rptr += mp->b_rptr - mp->b_datap->db_base; new_mp->b_wptr = new_mp->b_rptr + copylen; bcopy(mp->b_rptr, new_mp->b_rptr, copylen); new_mp->b_cont = mp; if ((mp->b_rptr += copylen) >= mp->b_wptr) { new_mp->b_cont = mp->b_cont; freeb(mp); } *mpp = mp = new_mp; ipha = (ipha_t *)mp->b_rptr; } delta_add = tsol_prepend_option(opt_storage, ipha, MBLKL(mp)); if (delta_add == -1) goto param_prob; ASSERT((mp->b_wptr + delta_add) <= DB_LIM(mp)); mp->b_wptr += delta_add; adjust = delta_remove + delta_add; adjust += ntohs(ipha->ipha_length); ipha->ipha_length = htons(adjust); return (0); param_prob: if (effective_tsl != NULL) { label_rele(effective_tsl); *effective_tslp = NULL; } return (EINVAL); } /* * IPv6 HopOpt extension header for the label option layout: * - One octet giving the type of the 'next extension header' * - Header extension length in 8-byte words, not including the * 1st 8 bytes, but including any pad bytes at the end. * Eg. A value of 2 means 16 bytes not including the 1st 8 bytes. * - Followed by TLV encoded IPv6 label option. Option layout is * * One octet, IP6OPT_LS * * One octet option length in bytes of the option data following * the length, but not including any pad bytes at the end. * * Four-octet DOI (IP6LS_DOI_V4) * * One octet suboption, IP6LS_TT_V4 * * One octet suboption length in bytes of the suboption * following the suboption length, including the suboption * header length, but not including any pad bytes at the end. * - Pad to make the extension header a multiple of 8 bytes. * * This function returns the contents of 'IPv6 option structure' in the above. * i.e starting from the IP6OPT_LS but not including the pad at the end. * The user must prepend two octets (either padding or next header / length) * and append padding out to the next 8 octet boundary. * * The zoneid is the IP zoneid (i.e., GLOBAL_ZONEID for exlusive-IP zones). */ int tsol_compute_label_v6(const ts_label_t *tsl, zoneid_t zoneid, const in6_addr_t *dst, uchar_t *opt_storage, ip_stack_t *ipst) { uint_t sec_opt_len; uint32_t doi; ire_t *ire; tsol_ire_gw_secattr_t *attrp = NULL; if (ip6opt_ls == 0) return (EINVAL); if (opt_storage != NULL) opt_storage[IPOPT_OLEN] = 0; if (tsl == NULL) return (0); /* Always pass multicast */ if (IN6_IS_ADDR_MULTICAST(dst)) return (0); /* * Fill in a V6 label. If a new format is added here, make certain * that the maximum size of this label is reflected in sys/tsol/tnet.h * as TSOL_MAX_IPV6_OPTION. */ if (tsl->tsl_flags & TSLF_IMPLICIT_OUT) return (0); if (tsl->tsl_flags & TSLF_UNLABELED) { /* * The destination is unlabeled. Only add a label if the * destination is not a broadcast/local/loopback address, * the destination is not on the same subnet, and the * next-hop gateway is labeled. */ ire = ire_route_recursive_v6(dst, 0, NULL, zoneid, tsl, MATCH_IRE_SECATTR, B_TRUE, 0, ipst, NULL, &attrp, NULL); ASSERT(ire != NULL); if (ire->ire_flags & (RTF_REJECT|RTF_BLACKHOLE)) { /* no route to destination */ ire_refrele(ire); DTRACE_PROBE3( tx__tnopt__log__info__labeling__routedst__v6, char *, "No route to unlabeled dest ip6(1) with " "label(2).", in6_addr_t *, dst, ts_label_t *, tsl); return (EHOSTUNREACH); } if (ire->ire_type & (IRE_LOCAL | IRE_LOOPBACK | IRE_INTERFACE)) { ire_refrele(ire); return (0); } /* * ire_route_recursive gives us the first attrp it finds * in the recursive lookup. */ /* * Return now if next hop gateway is unlabeled. There is * no need to generate a CIPSO option for this message. */ if (attrp == NULL || attrp->igsa_rhc == NULL || attrp->igsa_rhc->rhc_tpc->tpc_tp.host_type == UNLABELED) { ire_refrele(ire); return (0); } ire_refrele(ire); } /* compute the CIPSO option */ if (opt_storage != NULL) opt_storage += 8; sec_opt_len = tsol2cipso_tt1(&tsl->tsl_label, opt_storage, tsl->tsl_doi); if (sec_opt_len == 0) { DTRACE_PROBE3(tx__tnopt__log__error__labeling__lostops__v6, char *, "options lack length for dest ip6(1) with " "label(2).", in6_addr_t *, dst, ts_label_t *, tsl); return (EINVAL); } if (opt_storage == NULL) return (0); if (sec_opt_len < IP_MAX_OPT_LENGTH) opt_storage[sec_opt_len] = IPOPT_EOL; /* * Just in case the option length is odd, round it up to the next even * multiple. The IPv6 option definition doesn't like odd numbers for * some reason. * * Length in the overall option header (IP6OPT_LS) does not include the * option header itself, but the length in the suboption does include * the suboption header. Thus, when there's just one suboption, the * length in the option header is the suboption length plus 4 (for the * DOI value). */ opt_storage[-2] = IP6LS_TT_V4; opt_storage[-1] = (sec_opt_len + 2 + 1) & ~1; opt_storage[-8] = ip6opt_ls; opt_storage[-7] = opt_storage[-1] + 4; doi = htons(IP6LS_DOI_V4); bcopy(&doi, opt_storage - 6, 4); return (0); } /* * Locate the start of the IP6OPT_LS label option and return it. * Also return the start of the next non-pad option in after_secoptp. * Usually the label option is the first option at least when packets * are generated, but for generality we don't assume that on received packets. * * The function will return with B_FALSE if an IP format error * or an unexpected label content error is encountered. */ boolean_t tsol_find_secopt_v6( const uchar_t *ip6hbh, /* Start of the hop-by-hop extension header */ uint_t hbhlen, /* Length of the hop-by-hop extension header */ uchar_t **secoptp, /* Location of IP6OPT_LS label option */ uchar_t **after_secoptp, /* Non-pad option following the label option */ boolean_t *hbh_needed) /* Is hop-by-hop hdr needed w/o label */ { uint_t optlen; uint_t optused; const uchar_t *optptr; uchar_t opt_type; *secoptp = NULL; *hbh_needed = B_FALSE; *after_secoptp = NULL; optlen = hbhlen - 2; optptr = ip6hbh + 2; while (optlen != 0) { opt_type = *optptr; if (opt_type == IP6OPT_PAD1) { optptr++; optlen--; continue; } if (optlen == 1) return (B_FALSE); optused = 2 + optptr[1]; if (optused > optlen) return (B_FALSE); /* * if we get here, ip6opt_ls can * not be 0 because it will always * match the IP6OPT_PAD1 above. * Therefore ip6opt_ls == 0 forces * this test to always fail here. */ if (opt_type == ip6opt_ls) { if (*secoptp != NULL) /* More than one security option found */ return (B_FALSE); *secoptp = (uchar_t *)optptr; } else switch (opt_type) { case IP6OPT_PADN: break; default: /* * There is at least 1 option other than * the label option. So the hop-by-hop header is needed */ *hbh_needed = B_TRUE; if (*secoptp != NULL) { *after_secoptp = (uchar_t *)optptr; return (B_TRUE); } break; } optlen -= optused; optptr += optused; } return (B_TRUE); } /* * Remove the label option from the hop-by-hop options header if it exists. * 'buflen' is the total length of the packet typically b_wptr - b_rptr. * Header and data following the label option that is deleted are copied * (i.e. slid backward) to the right position, and returns the number * of bytes removed (as zero or negative number.) * * Note that tsol_remove_secopt does not adjust ipha_length but * tsol_remove_secopt_v6 does adjust ip6_plen. */ int tsol_remove_secopt_v6(ip6_t *ip6h, int buflen) { uchar_t *ip6hbh; /* hop-by-hop header */ uint_t hbhlen; /* hop-by-hop extension header length */ uchar_t *secopt = NULL; uchar_t *after_secopt; uint_t pad; uint_t delta; boolean_t hbh_needed; /* * hop-by-hop extension header must appear first, if it does not * exist, there is no label option. */ if (ip6h->ip6_nxt != IPPROTO_HOPOPTS) return (0); ip6hbh = (uchar_t *)&ip6h[1]; hbhlen = (ip6hbh[1] + 1) << 3; /* * Locate the start of the label option if it exists and the end * of the label option including pads if any. */ if (!tsol_find_secopt_v6(ip6hbh, hbhlen, &secopt, &after_secopt, &hbh_needed)) { /* * This function should not see invalid messages. * If one occurs, it would indicate either an * option previously verified in the forwarding * path has been corrupted or an option was * incorrectly generated locally. */ ASSERT(0); return (0); } if (secopt == NULL) return (0); if (!hbh_needed) { uchar_t next_hdr; /* * The label option was the only option in the hop-by-hop * header. We don't need the hop-by-hop header itself any * longer. */ next_hdr = ip6hbh[0]; ovbcopy(ip6hbh + hbhlen, ip6hbh, buflen - (IPV6_HDR_LEN + hbhlen)); ip6h->ip6_plen = htons(ntohs(ip6h->ip6_plen) - hbhlen); ip6h->ip6_nxt = next_hdr; return (-hbhlen); } if (after_secopt == NULL) { /* There is no option following the label option */ after_secopt = ip6hbh + hbhlen; } /* * After deleting the label option, we need to slide the headers * and data back, while still maintaining the same alignment (module 8) * for the other options. So we slide the headers and data back only * by an integral multiple of 8 bytes, and fill the remaining bytes * with pads. */ delta = after_secopt - secopt; pad = delta % 8; if (pad == 1) { secopt[0] = IP6OPT_PAD1; } else if (pad > 1) { secopt[0] = IP6OPT_PADN; secopt[1] = pad - 2; if (pad > 2) bzero(&secopt[2], pad - 2); } secopt += pad; delta -= pad; ovbcopy(after_secopt, secopt, (uchar_t *)ip6h + buflen - after_secopt); ip6hbh[1] -= delta/8; ip6h->ip6_plen = htons(ntohs(ip6h->ip6_plen) - delta); return (-delta); } /* * 'optbuf' contains a CIPSO label embedded in an IPv6 hop-by-hop option, * starting with the IP6OPT_LS option type. The format of this hop-by-hop * option is described in the block comment above tsol_compute_label_v6. * This function prepends this hop-by-hop option before any other hop-by-hop * options in the hop-by-hop header if one already exists, else a new * hop-by-hop header is created and stuffed into the packet following * the IPv6 header. 'buflen' is the total length of the packet i.e. * b_wptr - b_rptr. The caller ensures that there is enough space for the * extra option being added. Header and data following the position where * the label option is inserted are copied (i.e. slid forward) to the right * position. * * Note that tsol_prepend_option does not adjust ipha_length but * tsol_prepend_option_v6 does adjust ip6_plen. */ int tsol_prepend_option_v6(uchar_t *optbuf, ip6_t *ip6h, int buflen) { /* * rawlen is the length of the label option in bytes, not including * any pads, starting from the IP6OPT_LS (option type) byte. */ uint_t rawlen; uint_t optlen; /* rawlen rounded to an 8 byte multiple */ uchar_t *ip6hbh; /* start of the hop-by-hop extension header */ uint_t hbhlen; /* Length of the hop-by-hop extension header */ uint_t pad_len; uchar_t *pad_position; int delta; /* Actual number of bytes inserted */ rawlen = optbuf[1] + 2; /* Add 2 for the option type, option length */ ip6hbh = (uchar_t *)&ip6h[1]; if (ip6h->ip6_nxt == IPPROTO_HOPOPTS) { /* * There is a hop-by-hop header present already. In order to * preserve the alignment of the other options at the existing * value (modulo 8) we need to pad the label option to a * multiple of 8 bytes before prepending it to the other * options. Slide the extension headers and data forward to * accomodate the label option at the start of the hop-by-hop * header */ delta = optlen = (rawlen + 7) & ~7; pad_len = optlen - rawlen; pad_position = ip6hbh + 2 + rawlen; ovbcopy(ip6hbh + 2, ip6hbh + 2 + optlen, buflen - (IPV6_HDR_LEN + 2)); /* * Bump up the hop-by-hop extension header length by * the number of 8-byte words added */ optlen >>= 3; if (ip6hbh[1] + optlen > 255) return (-1); ip6hbh[1] += optlen; } else { /* * There is no hop-by-hop header in the packet. Construct a * new Hop-by-hop extension header (a multiple of 8 bytes). * Slide any other extension headers and data forward to * accomodate this hop-by-hop header */ delta = hbhlen = (2 + rawlen + 7) & ~7; /* +2 for nxthdr, len */ pad_len = hbhlen - (2 + rawlen); pad_position = ip6hbh + 2 + rawlen; ovbcopy(ip6hbh, ip6hbh + hbhlen, buflen - IPV6_HDR_LEN); ip6hbh[0] = ip6h->ip6_nxt; /* * hop-by-hop extension header length in 8-byte words, not * including the 1st 8 bytes of the hop-by-hop header. */ ip6hbh[1] = (hbhlen >> 3) - 1; ip6h->ip6_nxt = IPPROTO_HOPOPTS; } /* * Copy the label option into the hop-by-hop header and insert any * needed pads */ bcopy(optbuf, ip6hbh + 2, rawlen); if (pad_len == 1) { pad_position[0] = IP6OPT_PAD1; } else if (pad_len > 1) { pad_position[0] = IP6OPT_PADN; pad_position[1] = pad_len - 2; if (pad_len > 2) bzero(pad_position + 2, pad_len - 2); } ip6h->ip6_plen = htons(ntohs(ip6h->ip6_plen) + delta); return (delta); } /* * tsol_check_label_v6() * * This routine computes the IP label that should be on the packet based on the * connection and destination information. It's called by the IP forwarding * logic and by ip_output_simple. The ULPs generate the labels before calling * conn_ip_output. If any adjustments to * the label are needed due to the connection's MAC-exempt status or * the destination's ability to receive labels, an "effective label" * will be returned. * * The packet's header is clear before entering IPsec's engine. * * The zoneid is the IP zoneid (i.e., GLOBAL_ZONEID for exlusive-IP zones). * zone_is_global is set if the actual zoneid is global. * * On successful return, effective_tslp will point to the new label needed * or will be NULL if a new label isn't needed. On error, effective_tsl will * point to NULL. * * Returns: * 0 Label (was|is now) correct * EACCES The packet failed the remote host accreditation. * ENOMEM Memory allocation failure. * EINVAL Label cannot be computed */ int tsol_check_label_v6(const ts_label_t *tsl, zoneid_t zoneid, mblk_t **mpp, uint_t mac_mode, boolean_t zone_is_global, ip_stack_t *ipst, ts_label_t **effective_tslp) { mblk_t *mp = *mpp; ip6_t *ip6h; ts_label_t *effective_tsl = NULL; /* * Label option length is limited to IP_MAX_OPT_LENGTH for * symmetry with IPv4. Can be relaxed if needed */ uchar_t opt_storage[TSOL_MAX_IPV6_OPTION]; uint_t hlen; uint_t sec_opt_len; /* label option length not including type, len */ int delta_remove = 0, delta_add; int retv; uchar_t *after_secopt; uchar_t *secopt = NULL; uchar_t *ip6hbh; uint_t hbhlen; boolean_t hbh_needed; *effective_tslp = NULL; /* * Verify the destination is allowed to receive packets at * the security label of the message data. tsol_check_dest() * may create a new effective label or label flags. */ ip6h = (ip6_t *)mp->b_rptr; retv = tsol_check_dest(tsl, &ip6h->ip6_dst, IPV6_VERSION, mac_mode, zone_is_global, &effective_tsl); if (retv != 0) return (retv); /* * Calculate the security label to be placed in the text * of the message (if any). */ if (effective_tsl != NULL) { if ((retv = tsol_compute_label_v6(effective_tsl, zoneid, &ip6h->ip6_dst, opt_storage, ipst)) != 0) { label_rele(effective_tsl); return (retv); } *effective_tslp = effective_tsl; } else { if ((retv = tsol_compute_label_v6(tsl, zoneid, &ip6h->ip6_dst, opt_storage, ipst)) != 0) return (retv); } sec_opt_len = opt_storage[1]; if (ip6h->ip6_nxt == IPPROTO_HOPOPTS) { ip6hbh = (uchar_t *)&ip6h[1]; hbhlen = (ip6hbh[1] + 1) << 3; if (!tsol_find_secopt_v6(ip6hbh, hbhlen, &secopt, &after_secopt, &hbh_needed)) { /* * This function should not see invalid messages. * If one occurs, it would indicate either an * option previously verified in the forwarding * path has been corrupted or an option was * incorrectly generated locally. */ ASSERT(0); return (EACCES); } } if (sec_opt_len == 0 && secopt == NULL) { /* * The packet is not supposed to have a label, and it * does not have one currently */ return (0); } if (secopt != NULL && sec_opt_len != 0 && (bcmp(opt_storage, secopt, sec_opt_len + 2) == 0)) { /* The packet has the correct label already */ return (0); } /* * If there is an option there, then it must be the wrong one; delete. */ if (secopt != NULL) { delta_remove = tsol_remove_secopt_v6(ip6h, MBLKL(mp)); mp->b_wptr += delta_remove; } /* * Make sure we have room for the worst-case addition. Add 2 bytes for * the hop-by-hop ext header's next header and length fields. Add * another 2 bytes for the label option type, len and then round * up to the next 8-byte multiple. */ hlen = (4 + sec_opt_len + 7) & ~7; if (mp->b_wptr + hlen > mp->b_datap->db_lim) { int copylen; mblk_t *new_mp; uint16_t hdr_len; hdr_len = ip_hdr_length_v6(mp, ip6h); /* * Allocate enough to be meaningful, but not *too* much. * Also all the IPv6 extension headers must be in the same mblk */ copylen = MBLKL(mp); if (copylen > 256) copylen = 256; if (copylen < hdr_len) copylen = hdr_len; new_mp = allocb_tmpl(hlen + copylen + (mp->b_rptr - mp->b_datap->db_base), mp); if (new_mp == NULL) { if (effective_tsl != NULL) { label_rele(effective_tsl); *effective_tslp = NULL; } return (ENOMEM); } /* keep the bias */ new_mp->b_rptr += mp->b_rptr - mp->b_datap->db_base; new_mp->b_wptr = new_mp->b_rptr + copylen; bcopy(mp->b_rptr, new_mp->b_rptr, copylen); new_mp->b_cont = mp; if ((mp->b_rptr += copylen) >= mp->b_wptr) { new_mp->b_cont = mp->b_cont; freeb(mp); } *mpp = mp = new_mp; ip6h = (ip6_t *)mp->b_rptr; } delta_add = tsol_prepend_option_v6(opt_storage, ip6h, MBLKL(mp)); if (delta_add == -1) goto param_prob; ASSERT(mp->b_wptr + delta_add <= DB_LIM(mp)); mp->b_wptr += delta_add; /* tsol_prepend_option_v6 has adjusted ip6_plen */ return (0); param_prob: if (effective_tsl != NULL) { label_rele(effective_tsl); *effective_tslp = NULL; } return (EINVAL); }