/* * 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 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "sctp_impl.h" /* * Helper function for SunCluster (PSARC/2005/602) to get the original source * address from the COOKIE */ int cl_sctp_cookie_paddr(sctp_chunk_hdr_t *, in6_addr_t *); /* * From RFC 2104. This should probably go into libmd5 (and while * we're at it, maybe we should make a libdigest so we can later * add SHA1 and others, esp. since some weaknesses have been found * with MD5). * * text IN pointer to data stream * text_len IN length of data stream * key IN pointer to authentication key * key_len IN length of authentication key * digest OUT caller digest to be filled in */ static void hmac_md5(uchar_t *text, size_t text_len, uchar_t *key, size_t key_len, uchar_t *digest) { MD5_CTX context; uchar_t k_ipad[65]; /* inner padding - key XORd with ipad */ uchar_t k_opad[65]; /* outer padding - key XORd with opad */ uchar_t tk[16]; int i; /* if key is longer than 64 bytes reset it to key=MD5(key) */ if (key_len > 64) { MD5_CTX tctx; MD5Init(&tctx); MD5Update(&tctx, key, key_len); MD5Final(tk, &tctx); key = tk; key_len = 16; } /* * the HMAC_MD5 transform looks like: * * MD5(K XOR opad, MD5(K XOR ipad, text)) * * where K is an n byte key * ipad is the byte 0x36 repeated 64 times * opad is the byte 0x5c repeated 64 times * and text is the data being protected */ /* start out by storing key in pads */ bzero(k_ipad, sizeof (k_ipad)); bzero(k_opad, sizeof (k_opad)); bcopy(key, k_ipad, key_len); bcopy(key, k_opad, key_len); /* XOR key with ipad and opad values */ for (i = 0; i < 64; i++) { k_ipad[i] ^= 0x36; k_opad[i] ^= 0x5c; } /* * perform inner MD5 */ MD5Init(&context); /* init context for 1st */ /* pass */ MD5Update(&context, k_ipad, 64); /* start with inner pad */ MD5Update(&context, text, text_len); /* then text of datagram */ MD5Final(digest, &context); /* finish up 1st pass */ /* * perform outer MD5 */ MD5Init(&context); /* init context for 2nd */ /* pass */ MD5Update(&context, k_opad, 64); /* start with outer pad */ MD5Update(&context, digest, 16); /* then results of 1st */ /* hash */ MD5Final(digest, &context); /* finish up 2nd pass */ } /* * If inmp is non-NULL, and we need to abort, it will use the IP/SCTP * info in initmp to send the abort. Otherwise, no abort will be sent. * If errmp is non-NULL, a chain of unrecognized parameters will * be created and returned via *errmp. * * Returns 1 if the parameters are OK (or there are no parameters), or * 0 if not. */ static int validate_init_params(sctp_t *sctp, sctp_chunk_hdr_t *ch, sctp_init_chunk_t *init, mblk_t *inmp, sctp_parm_hdr_t **want_cookie, mblk_t **errmp, int *supp_af, uint_t *sctp_options) { sctp_parm_hdr_t *cph; sctp_init_chunk_t *ic; ssize_t remaining; uint16_t serror = 0; char *details = NULL; size_t errlen = 0; boolean_t got_cookie = B_FALSE; uint16_t ptype; if (sctp_options != NULL) *sctp_options = 0; /* First validate stream parameters */ if (init->sic_instr == 0 || init->sic_outstr == 0) { serror = SCTP_ERR_BAD_MANDPARM; dprint(1, ("validate_init_params: bad sid, is=%d os=%d\n", htons(init->sic_instr), htons(init->sic_outstr))); goto abort; } if (ntohl(init->sic_inittag) == 0) { serror = SCTP_ERR_BAD_MANDPARM; dprint(1, ("validate_init_params: inittag = 0\n")); goto abort; } remaining = ntohs(ch->sch_len) - sizeof (*ch); ic = (sctp_init_chunk_t *)(ch + 1); remaining -= sizeof (*ic); if (remaining < sizeof (*cph)) { /* Nothing to validate */ if (want_cookie != NULL) goto cookie_abort; return (1); } cph = (sctp_parm_hdr_t *)(ic + 1); while (cph != NULL) { ptype = ntohs(cph->sph_type); switch (ptype) { case PARM_HBINFO: case PARM_UNRECOGNIZED: case PARM_ECN: /* just ignore them */ break; case PARM_FORWARD_TSN: if (sctp_options != NULL) *sctp_options |= SCTP_PRSCTP_OPTION; break; case PARM_COOKIE: got_cookie = B_TRUE; if (want_cookie != NULL) { *want_cookie = cph; } break; case PARM_ADDR4: *supp_af |= PARM_SUPP_V4; break; case PARM_ADDR6: *supp_af |= PARM_SUPP_V6; break; case PARM_COOKIE_PRESERVE: case PARM_ADAPT_LAYER_IND: /* These are OK */ break; case PARM_ADDR_HOST_NAME: /* Don't support this; abort the association */ serror = SCTP_ERR_BAD_ADDR; details = (char *)cph; errlen = ntohs(cph->sph_len); dprint(1, ("sctp:validate_init_params: host addr\n")); goto abort; case PARM_SUPP_ADDRS: { /* Make sure we have a supported addr intersection */ uint16_t *p, addrtype; int plen; plen = ntohs(cph->sph_len); p = (uint16_t *)(cph + 1); while (plen > 0) { addrtype = ntohs(*p); switch (addrtype) { case PARM_ADDR6: *supp_af |= PARM_SUPP_V6; break; case PARM_ADDR4: *supp_af |= PARM_SUPP_V4; break; default: /* * Do nothing, silently ignore hostname * address. */ break; } p++; plen -= sizeof (*p); } break; } default: /* Unrecognized param; check the high order bits */ if ((ptype & 0xc000) == 0xc000) { /* * report unrecognized param, and * keep processing */ if (errmp != NULL) { if (want_cookie != NULL) { *errmp = sctp_make_err(sctp, PARM_UNRECOGNIZED, (void *)cph, ntohs(cph->sph_len)); } else { sctp_add_unrec_parm(cph, errmp); } } break; } if (ptype & 0x4000) { /* * Stop processing and drop; report * unrecognized param */ serror = SCTP_ERR_UNREC_PARM; details = (char *)cph; errlen = ntohs(cph->sph_len); goto abort; } if (ptype & 0x8000) { /* skip and continue processing */ break; } /* * 2 high bits are clear; stop processing and * drop packet */ return (0); } cph = sctp_next_parm(cph, &remaining); } /* * Some sanity checks. The following should not fail unless the * other side is broken. * * 1. If this is a V4 endpoint but V4 address is not * supported, abort. * 2. If this is a V6 only endpoint but V6 address is * not supported, abort. This assumes that a V6 * endpoint can use both V4 and V6 addresses. * We only care about supp_af when processing INIT, i.e want_cookie * is NULL. */ if (want_cookie == NULL && ((sctp->sctp_family == AF_INET && !(*supp_af & PARM_SUPP_V4)) || (sctp->sctp_family == AF_INET6 && !(*supp_af & PARM_SUPP_V6) && sctp->sctp_connp->conn_ipv6_v6only))) { dprint(1, ("sctp:validate_init_params: supp addr\n")); serror = SCTP_ERR_BAD_ADDR; goto abort; } if (want_cookie != NULL && !got_cookie) { cookie_abort: dprint(1, ("validate_init_params: cookie absent\n")); sctp_send_abort(sctp, sctp_init2vtag(ch), SCTP_ERR_MISSING_PARM, details, errlen, inmp, 0, B_FALSE); return (0); } /* OK */ return (1); abort: if (want_cookie != NULL) return (0); sctp_send_abort(sctp, sctp_init2vtag(ch), serror, details, errlen, inmp, 0, B_FALSE); return (0); } /* * Initialize params from the INIT and INIT-ACK when the assoc. is * established. */ boolean_t sctp_initialize_params(sctp_t *sctp, sctp_init_chunk_t *init, sctp_init_chunk_t *iack) { /* Get initial TSN */ sctp->sctp_ftsn = ntohl(init->sic_inittsn); sctp->sctp_lastacked = sctp->sctp_ftsn - 1; /* Serial number is initialized to the same value as the TSN */ sctp->sctp_fcsn = sctp->sctp_lastacked; /* * Get verification tags; no byteordering is necessary, since * verfication tags are never processed except for byte-by-byte * comparisons. */ sctp->sctp_fvtag = init->sic_inittag; sctp->sctp_sctph->sh_verf = init->sic_inittag; sctp->sctp_sctph6->sh_verf = init->sic_inittag; sctp->sctp_lvtag = iack->sic_inittag; /* Get the peer's rwnd */ sctp->sctp_frwnd = ntohl(init->sic_a_rwnd); /* Allocate the in/out-stream counters */ sctp->sctp_num_ostr = iack->sic_outstr; sctp->sctp_ostrcntrs = kmem_zalloc(sizeof (uint16_t) * sctp->sctp_num_ostr, KM_NOSLEEP); if (sctp->sctp_ostrcntrs == NULL) return (B_FALSE); sctp->sctp_num_istr = iack->sic_instr; sctp->sctp_instr = kmem_zalloc(sizeof (*sctp->sctp_instr) * sctp->sctp_num_istr, KM_NOSLEEP); if (sctp->sctp_instr == NULL) { kmem_free(sctp->sctp_ostrcntrs, sizeof (uint16_t) * sctp->sctp_num_ostr); sctp->sctp_ostrcntrs = NULL; return (B_FALSE); } return (B_TRUE); } /* * Copy the peer's original source address into addr. This relies on the * following format (see sctp_send_initack() below): * relative timestamp for the cookie (int64_t) + * cookie lifetime (uint32_t) + * local tie-tag (uint32_t) + peer tie-tag (uint32_t) + * Peer's original src ... */ int cl_sctp_cookie_paddr(sctp_chunk_hdr_t *ch, in6_addr_t *addr) { uchar_t *off; ASSERT(addr != NULL); if (ch->sch_id != CHUNK_COOKIE) return (EINVAL); off = (uchar_t *)ch + sizeof (*ch) + sizeof (int64_t) + sizeof (uint32_t) + sizeof (uint32_t) + sizeof (uint32_t); bcopy(off, addr, sizeof (*addr)); return (0); } #define SCTP_CALC_COOKIE_LEN(initcp) \ sizeof (int64_t) + /* timestamp */ \ sizeof (uint32_t) + /* cookie lifetime */ \ sizeof (sctp_init_chunk_t) + /* INIT ACK */ \ sizeof (in6_addr_t) + /* peer's original source */ \ ntohs((initcp)->sch_len) + /* peer's INIT */ \ sizeof (uint32_t) + /* local tie-tag */ \ sizeof (uint32_t) + /* peer tie-tag */ \ sizeof (sctp_parm_hdr_t) + /* param header */ \ 16 /* MD5 hash */ void sctp_send_initack(sctp_t *sctp, sctp_hdr_t *initsh, sctp_chunk_hdr_t *ch, mblk_t *initmp) { ipha_t *initiph; ip6_t *initip6h; ipha_t *iackiph; ip6_t *iackip6h; sctp_chunk_hdr_t *iack_ch; sctp_init_chunk_t *iack; sctp_init_chunk_t *init; sctp_hdr_t *iacksh; size_t cookielen; size_t iacklen; size_t ipsctplen; size_t errlen = 0; sctp_parm_hdr_t *cookieph; mblk_t *iackmp; uint32_t itag; uint32_t itsn; int64_t *now; int64_t nowt; uint32_t *lifetime; char *p; boolean_t isv4; int supp_af = 0; uint_t sctp_options; uint32_t *ttag; int pad; mblk_t *errmp = NULL; boolean_t initcollision = B_FALSE; boolean_t linklocal = B_FALSE; cred_t *cr; ts_label_t *initlabel; sctp_stack_t *sctps = sctp->sctp_sctps; BUMP_LOCAL(sctp->sctp_ibchunks); isv4 = (IPH_HDR_VERSION(initmp->b_rptr) == IPV4_VERSION); /* Extract the INIT chunk */ if (isv4) { initiph = (ipha_t *)initmp->b_rptr; ipsctplen = sctp->sctp_ip_hdr_len; supp_af |= PARM_SUPP_V4; } else { initip6h = (ip6_t *)initmp->b_rptr; ipsctplen = sctp->sctp_ip_hdr6_len; if (IN6_IS_ADDR_LINKLOCAL(&initip6h->ip6_src)) linklocal = B_TRUE; supp_af |= PARM_SUPP_V6; } ASSERT(OK_32PTR(initsh)); init = (sctp_init_chunk_t *)((char *)(initsh + 1) + sizeof (*iack_ch)); /* Make sure we like the peer's parameters */ if (validate_init_params(sctp, ch, init, initmp, NULL, &errmp, &supp_af, &sctp_options) == 0) { return; } if (errmp != NULL) errlen = msgdsize(errmp); if (sctp->sctp_family == AF_INET) { /* * Irregardless of the supported address in the INIT, v4 * must be supported. */ supp_af = PARM_SUPP_V4; } if (sctp->sctp_state <= SCTPS_LISTEN) { /* normal, expected INIT: generate new vtag and itsn */ (void) random_get_pseudo_bytes((uint8_t *)&itag, sizeof (itag)); if (itag == 0) itag = (uint32_t)gethrtime(); itsn = itag + 1; itag = htonl(itag); } else if (sctp->sctp_state == SCTPS_COOKIE_WAIT || sctp->sctp_state == SCTPS_COOKIE_ECHOED) { /* init collision; copy vtag and itsn from sctp */ itag = sctp->sctp_lvtag; itsn = sctp->sctp_ltsn; /* * In addition we need to send all the params that was sent * in our INIT chunk. Essentially, it is only the supported * address params that we need to add. */ initcollision = B_TRUE; /* * When we sent the INIT, we should have set linklocal in * the sctp which should be good enough. */ if (linklocal) linklocal = B_FALSE; } else { /* peer restart; generate new vtag but keep everything else */ (void) random_get_pseudo_bytes((uint8_t *)&itag, sizeof (itag)); if (itag == 0) itag = (uint32_t)gethrtime(); itag = htonl(itag); itsn = sctp->sctp_ltsn; } /* * Allocate a mblk for the INIT ACK, consisting of the link layer * header, the IP header, the SCTP common header, and INIT ACK chunk, * and finally the COOKIE parameter. */ cookielen = SCTP_CALC_COOKIE_LEN(ch); iacklen = sizeof (*iack_ch) + sizeof (*iack) + cookielen; if (sctp->sctp_send_adaption) iacklen += (sizeof (sctp_parm_hdr_t) + sizeof (uint32_t)); if (((sctp_options & SCTP_PRSCTP_OPTION) || initcollision) && sctp->sctp_prsctp_aware && sctps->sctps_prsctp_enabled) { iacklen += sctp_options_param_len(sctp, SCTP_PRSCTP_OPTION); } if (initcollision) iacklen += sctp_supaddr_param_len(sctp); if (!linklocal) iacklen += sctp_addr_params_len(sctp, supp_af, B_FALSE); ipsctplen += sizeof (*iacksh) + iacklen; iacklen += errlen; if ((pad = ipsctplen % 4) != 0) { pad = 4 - pad; ipsctplen += pad; } /* * If the listen socket is bound to a trusted extensions * multi-label port, attach a copy of the listener's cred * to the new INITACK mblk. Modify the cred to contain * the security label of the received INIT packet. * If not a multi-label port, attach the unmodified * listener's cred directly. * * We expect Sun developed kernel modules to properly set * cred labels for sctp connections. We can't be so sure this * will be done correctly when 3rd party kernel modules * directly use sctp. The initlabel panic guard logic was * added to cover this possibility. */ if (sctp->sctp_connp->conn_mlp_type != mlptSingle) { initlabel = MBLK_GETLABEL(initmp); if (initlabel == NULL) { sctp_send_abort(sctp, sctp_init2vtag(ch), SCTP_ERR_UNKNOWN, NULL, 0, initmp, 0, B_FALSE); return; } cr = copycred_from_bslabel(CONN_CRED(sctp->sctp_connp), &initlabel->tsl_label, initlabel->tsl_doi, KM_NOSLEEP); if (cr == NULL) { sctp_send_abort(sctp, sctp_init2vtag(ch), SCTP_ERR_NO_RESOURCES, NULL, 0, initmp, 0, B_FALSE); return; } iackmp = allocb_cred(ipsctplen + sctps->sctps_wroff_xtra, cr); crfree(cr); } else { iackmp = allocb_cred(ipsctplen + sctps->sctps_wroff_xtra, CONN_CRED(sctp->sctp_connp)); } if (iackmp == NULL) { sctp_send_abort(sctp, sctp_init2vtag(ch), SCTP_ERR_NO_RESOURCES, NULL, 0, initmp, 0, B_FALSE); return; } /* Copy in the [imcomplete] IP/SCTP composite header */ p = (char *)(iackmp->b_rptr + sctps->sctps_wroff_xtra); iackmp->b_rptr = (uchar_t *)p; if (isv4) { bcopy(sctp->sctp_iphc, p, sctp->sctp_hdr_len); iackiph = (ipha_t *)p; /* Copy the peer's IP addr */ iackiph->ipha_dst = initiph->ipha_src; iackiph->ipha_src = initiph->ipha_dst; iackiph->ipha_length = htons(ipsctplen + errlen); iacksh = (sctp_hdr_t *)(p + sctp->sctp_ip_hdr_len); } else { bcopy(sctp->sctp_iphc6, p, sctp->sctp_hdr6_len); iackip6h = (ip6_t *)p; /* Copy the peer's IP addr */ iackip6h->ip6_dst = initip6h->ip6_src; iackip6h->ip6_src = initip6h->ip6_dst; iackip6h->ip6_plen = htons(ipsctplen - sizeof (*iackip6h) + errlen); iacksh = (sctp_hdr_t *)(p + sctp->sctp_ip_hdr6_len); } ASSERT(OK_32PTR(iacksh)); /* Fill in the holes in the SCTP common header */ iacksh->sh_sport = initsh->sh_dport; iacksh->sh_dport = initsh->sh_sport; iacksh->sh_verf = init->sic_inittag; /* INIT ACK chunk header */ iack_ch = (sctp_chunk_hdr_t *)(iacksh + 1); iack_ch->sch_id = CHUNK_INIT_ACK; iack_ch->sch_flags = 0; iack_ch->sch_len = htons(iacklen); /* The INIT ACK itself */ iack = (sctp_init_chunk_t *)(iack_ch + 1); iack->sic_inittag = itag; /* already in network byteorder */ iack->sic_inittsn = htonl(itsn); iack->sic_a_rwnd = htonl(sctp->sctp_rwnd); /* Advertise what we would want to have as stream #'s */ iack->sic_outstr = htons(MIN(sctp->sctp_num_ostr, ntohs(init->sic_instr))); iack->sic_instr = htons(sctp->sctp_num_istr); p = (char *)(iack + 1); p += sctp_adaption_code_param(sctp, (uchar_t *)p); if (initcollision) p += sctp_supaddr_param(sctp, (uchar_t *)p); if (!linklocal) p += sctp_addr_params(sctp, supp_af, (uchar_t *)p); if (((sctp_options & SCTP_PRSCTP_OPTION) || initcollision) && sctp->sctp_prsctp_aware && sctps->sctps_prsctp_enabled) { p += sctp_options_param(sctp, p, SCTP_PRSCTP_OPTION); } /* * Generate and lay in the COOKIE parameter. * * Any change here that results in a change of location for * the peer's orig source address must be propagated to the fn * cl_sctp_cookie_paddr() above. * * The cookie consists of: * 1. The relative timestamp for the cookie (lbolt64) * 2. The cookie lifetime (uint32_t) in tick * 3. The local tie-tag * 4. The peer tie-tag * 5. Peer's original src, used to confirm the validity of address. * 6. Our INIT ACK chunk, less any parameters * 7. The INIT chunk (may contain parameters) * 8. 128-bit MD5 signature. * * Since the timestamp values will only be evaluated locally, we * don't need to worry about byte-ordering them. */ cookieph = (sctp_parm_hdr_t *)p; cookieph->sph_type = htons(PARM_COOKIE); cookieph->sph_len = htons(cookielen); /* timestamp */ now = (int64_t *)(cookieph + 1); nowt = lbolt64; bcopy(&nowt, now, sizeof (*now)); /* cookie lifetime -- need configuration */ lifetime = (uint32_t *)(now + 1); *lifetime = sctp->sctp_cookie_lifetime; /* Set the tie-tags */ ttag = (uint32_t *)(lifetime + 1); if (sctp->sctp_state <= SCTPS_COOKIE_WAIT) { *ttag = 0; ttag++; *ttag = 0; ttag++; } else { /* local tie-tag (network byte-order) */ *ttag = sctp->sctp_lvtag; ttag++; /* peer tie-tag (network byte-order) */ *ttag = sctp->sctp_fvtag; ttag++; } /* * Copy in peer's original source address so that we can confirm * the reachability later. */ p = (char *)ttag; if (isv4) { in6_addr_t peer_addr; IN6_IPADDR_TO_V4MAPPED(iackiph->ipha_dst, &peer_addr); bcopy(&peer_addr, p, sizeof (in6_addr_t)); } else { bcopy(&iackip6h->ip6_dst, p, sizeof (in6_addr_t)); } p += sizeof (in6_addr_t); /* Copy in our INIT ACK chunk */ bcopy(iack, p, sizeof (*iack)); iack = (sctp_init_chunk_t *)p; /* Set the # of streams we'll end up using */ iack->sic_outstr = MIN(sctp->sctp_num_ostr, ntohs(init->sic_instr)); iack->sic_instr = MIN(sctp->sctp_num_istr, ntohs(init->sic_outstr)); p += sizeof (*iack); /* Copy in the peer's INIT chunk */ bcopy(ch, p, ntohs(ch->sch_len)); p += ntohs(ch->sch_len); /* * Calculate the HMAC ICV into the digest slot in buf. * First, generate a new secret if the current secret is * older than the new secret lifetime parameter permits, * copying the current secret to sctp_old_secret. */ if (sctps->sctps_new_secret_interval > 0 && (sctp->sctp_last_secret_update + MSEC_TO_TICK(sctps->sctps_new_secret_interval)) <= nowt) { bcopy(sctp->sctp_secret, sctp->sctp_old_secret, SCTP_SECRET_LEN); (void) random_get_pseudo_bytes(sctp->sctp_secret, SCTP_SECRET_LEN); sctp->sctp_last_secret_update = nowt; } hmac_md5((uchar_t *)now, cookielen - sizeof (*cookieph) - 16, (uchar_t *)sctp->sctp_secret, SCTP_SECRET_LEN, (uchar_t *)p); iackmp->b_wptr = iackmp->b_rptr + ipsctplen; iackmp->b_cont = errmp; /* OK if NULL */ if (is_system_labeled() && (cr = DB_CRED(iackmp)) != NULL && crgetlabel(cr) != NULL) { conn_t *connp = sctp->sctp_connp; int err, adjust; if (isv4) err = tsol_check_label(cr, &iackmp, &adjust, connp->conn_mac_exempt, sctps->sctps_netstack->netstack_ip); else err = tsol_check_label_v6(cr, &iackmp, &adjust, connp->conn_mac_exempt, sctps->sctps_netstack->netstack_ip); if (err != 0) { sctp_send_abort(sctp, sctp_init2vtag(ch), SCTP_ERR_AUTH_ERR, NULL, 0, initmp, 0, B_FALSE); freemsg(iackmp); return; } if (isv4) { iackiph = (ipha_t *)iackmp->b_rptr; adjust += ntohs(iackiph->ipha_length); iackiph->ipha_length = htons(adjust); } } /* * Stash the conn ptr info. for IP only as e don't have any * cached IRE. */ SCTP_STASH_IPINFO(iackmp, (ire_t *)NULL); /* XXX sctp == sctp_g_q, so using its obchunks is valid */ BUMP_LOCAL(sctp->sctp_opkts); BUMP_LOCAL(sctp->sctp_obchunks); /* OK to call IP_PUT() here instead of sctp_add_sendq(). */ CONN_INC_REF(sctp->sctp_connp); iackmp->b_flag |= MSGHASREF; IP_PUT(iackmp, sctp->sctp_connp, isv4); } void sctp_send_cookie_ack(sctp_t *sctp) { sctp_chunk_hdr_t *cach; mblk_t *camp; sctp_stack_t *sctps = sctp->sctp_sctps; camp = sctp_make_mp(sctp, NULL, sizeof (*cach)); if (camp == NULL) { /* XXX should abort, but don't have the inmp anymore */ SCTP_KSTAT(sctps, sctp_send_cookie_ack_failed); return; } cach = (sctp_chunk_hdr_t *)camp->b_wptr; camp->b_wptr = (uchar_t *)(cach + 1); cach->sch_id = CHUNK_COOKIE_ACK; cach->sch_flags = 0; cach->sch_len = htons(sizeof (*cach)); sctp_set_iplen(sctp, camp); BUMP_LOCAL(sctp->sctp_obchunks); sctp_add_sendq(sctp, camp); } static int sctp_find_al_ind(sctp_parm_hdr_t *sph, ssize_t len, uint32_t *adaption_code) { if (len < sizeof (*sph)) return (-1); while (sph != NULL) { if (sph->sph_type == htons(PARM_ADAPT_LAYER_IND) && ntohs(sph->sph_len) >= (sizeof (*sph) + sizeof (uint32_t))) { *adaption_code = *(uint32_t *)(sph + 1); return (0); } sph = sctp_next_parm(sph, &len); } return (-1); } void sctp_send_cookie_echo(sctp_t *sctp, sctp_chunk_hdr_t *iackch, mblk_t *iackmp) { mblk_t *cemp; mblk_t *mp = NULL; mblk_t *head; mblk_t *meta; sctp_faddr_t *fp; sctp_chunk_hdr_t *cech; sctp_init_chunk_t *iack; int32_t cansend; int32_t seglen; size_t ceclen; sctp_parm_hdr_t *cph; sctp_data_hdr_t *sdc; sctp_tf_t *tf; int pad = 0; int hdrlen; mblk_t *errmp = NULL; uint_t sctp_options; int error; uint16_t old_num_str; sctp_stack_t *sctps = sctp->sctp_sctps; iack = (sctp_init_chunk_t *)(iackch + 1); cph = NULL; if (validate_init_params(sctp, iackch, iack, iackmp, &cph, &errmp, &pad, &sctp_options) == 0) { /* result in 'pad' ignored */ BUMP_MIB(&sctps->sctps_mib, sctpAborted); sctp_assoc_event(sctp, SCTP_CANT_STR_ASSOC, 0, NULL); sctp_clean_death(sctp, ECONNABORTED); return; } ASSERT(cph != NULL); ASSERT(sctp->sctp_cookie_mp == NULL); /* Got a cookie to echo back; allocate an mblk */ ceclen = sizeof (*cech) + ntohs(cph->sph_len) - sizeof (*cph); if ((pad = ceclen & (SCTP_ALIGN - 1)) != 0) pad = SCTP_ALIGN - pad; if (IPH_HDR_VERSION(iackmp->b_rptr) == IPV4_VERSION) hdrlen = sctp->sctp_hdr_len; else hdrlen = sctp->sctp_hdr6_len; cemp = allocb(sctps->sctps_wroff_xtra + hdrlen + ceclen + pad, BPRI_MED); if (cemp == NULL) { SCTP_FADDR_TIMER_RESTART(sctp, sctp->sctp_current, sctp->sctp_current->rto); if (errmp != NULL) freeb(errmp); return; } cemp->b_rptr += (sctps->sctps_wroff_xtra + hdrlen); /* Process the INIT ACK */ sctp->sctp_sctph->sh_verf = iack->sic_inittag; sctp->sctp_sctph6->sh_verf = iack->sic_inittag; sctp->sctp_fvtag = iack->sic_inittag; sctp->sctp_ftsn = ntohl(iack->sic_inittsn); sctp->sctp_lastacked = sctp->sctp_ftsn - 1; sctp->sctp_fcsn = sctp->sctp_lastacked; sctp->sctp_frwnd = ntohl(iack->sic_a_rwnd); /* * Populate sctp with addresses given in the INIT ACK or IP header. * Need to set the df bit in the current fp as it has been cleared * in sctp_connect(). */ sctp->sctp_current->df = B_TRUE; /* * Since IP uses this info during the fanout process, we need to hold * the lock for this hash line while performing this operation. */ /* XXX sctp_conn_fanout + SCTP_CONN_HASH(sctps, sctp->sctp_ports); */ ASSERT(sctp->sctp_conn_tfp != NULL); tf = sctp->sctp_conn_tfp; /* sctp isn't a listener so only need to hold conn fanout lock */ mutex_enter(&tf->tf_lock); if (sctp_get_addrparams(sctp, NULL, iackmp, iackch, NULL) != 0) { mutex_exit(&tf->tf_lock); freeb(cemp); SCTP_FADDR_TIMER_RESTART(sctp, sctp->sctp_current, sctp->sctp_current->rto); if (errmp != NULL) freeb(errmp); return; } mutex_exit(&tf->tf_lock); fp = sctp->sctp_current; /* * There could be a case when we get an INIT-ACK again, if the INIT * is re-transmitted, for e.g., which means we would have already * allocated this resource earlier (also for sctp_instr). In this * case we check and re-allocate, if necessary. */ old_num_str = sctp->sctp_num_ostr; if (ntohs(iack->sic_instr) < sctp->sctp_num_ostr) sctp->sctp_num_ostr = ntohs(iack->sic_instr); if (sctp->sctp_ostrcntrs == NULL) { sctp->sctp_ostrcntrs = kmem_zalloc(sizeof (uint16_t) * sctp->sctp_num_ostr, KM_NOSLEEP); } else { ASSERT(old_num_str > 0); if (old_num_str != sctp->sctp_num_ostr) { kmem_free(sctp->sctp_ostrcntrs, sizeof (uint16_t) * old_num_str); sctp->sctp_ostrcntrs = kmem_zalloc(sizeof (uint16_t) * sctp->sctp_num_ostr, KM_NOSLEEP); } } if (sctp->sctp_ostrcntrs == NULL) { freeb(cemp); SCTP_FADDR_TIMER_RESTART(sctp, fp, fp->rto); if (errmp != NULL) freeb(errmp); return; } /* * Allocate the in stream tracking array. Comments for sctp_ostrcntrs * hold here too. */ old_num_str = sctp->sctp_num_istr; if (ntohs(iack->sic_outstr) < sctp->sctp_num_istr) sctp->sctp_num_istr = ntohs(iack->sic_outstr); if (sctp->sctp_instr == NULL) { sctp->sctp_instr = kmem_zalloc(sizeof (*sctp->sctp_instr) * sctp->sctp_num_istr, KM_NOSLEEP); } else { ASSERT(old_num_str > 0); if (old_num_str != sctp->sctp_num_istr) { kmem_free(sctp->sctp_instr, sizeof (*sctp->sctp_instr) * old_num_str); sctp->sctp_instr = kmem_zalloc( sizeof (*sctp->sctp_instr) * sctp->sctp_num_istr, KM_NOSLEEP); } } if (sctp->sctp_instr == NULL) { kmem_free(sctp->sctp_ostrcntrs, sizeof (uint16_t) * sctp->sctp_num_ostr); freeb(cemp); SCTP_FADDR_TIMER_RESTART(sctp, fp, fp->rto); if (errmp != NULL) freeb(errmp); return; } if (!(sctp_options & SCTP_PRSCTP_OPTION) && sctp->sctp_prsctp_aware) sctp->sctp_prsctp_aware = B_FALSE; if (sctp_find_al_ind((sctp_parm_hdr_t *)(iack + 1), ntohs(iackch->sch_len) - (sizeof (*iackch) + sizeof (*iack)), &sctp->sctp_rx_adaption_code) == 0) { sctp->sctp_recv_adaption = 1; } cech = (sctp_chunk_hdr_t *)cemp->b_rptr; ASSERT(OK_32PTR(cech)); cech->sch_id = CHUNK_COOKIE; cech->sch_flags = 0; cech->sch_len = htons(ceclen); /* Copy the cookie (less the parm hdr) to the chunk */ bcopy(cph + 1, cech + 1, ceclen - sizeof (*cph)); cemp->b_wptr = cemp->b_rptr + ceclen; if (sctp->sctp_unsent > 0) { sctp_msg_hdr_t *smh; mblk_t *prev = NULL; uint32_t unsent = 0; mp = sctp->sctp_xmit_unsent; do { smh = (sctp_msg_hdr_t *)mp->b_rptr; if (smh->smh_sid >= sctp->sctp_num_ostr) { unsent += smh->smh_msglen; if (prev != NULL) prev->b_next = mp->b_next; else sctp->sctp_xmit_unsent = mp->b_next; mp->b_next = NULL; sctp_sendfail_event(sctp, mp, SCTP_ERR_BAD_SID, B_FALSE); if (prev != NULL) mp = prev->b_next; else mp = sctp->sctp_xmit_unsent; } else { prev = mp; mp = mp->b_next; } } while (mp != NULL); if (unsent > 0) { ASSERT(sctp->sctp_unsent >= unsent); sctp->sctp_unsent -= unsent; /* * Update ULP the amount of queued data, which is * sent-unack'ed + unsent. * This is not necessary, but doesn't harm, we * just use unsent instead of sent-unack'ed + * unsent, since there won't be any sent-unack'ed * here. */ if (!SCTP_IS_DETACHED(sctp)) { sctp->sctp_ulp_xmitted(sctp->sctp_ulpd, sctp->sctp_unsent); } } if (sctp->sctp_xmit_unsent == NULL) sctp->sctp_xmit_unsent_tail = NULL; } ceclen += pad; cansend = MIN(sctp->sctp_unsent, sctp->sctp_frwnd); meta = sctp_get_msg_to_send(sctp, &mp, NULL, &error, ceclen, cansend, NULL); /* * The error cannot be anything else since we could have an non-zero * error only if sctp_get_msg_to_send() tries to send a Forward * TSN which will not happen here. */ ASSERT(error == 0); if (meta == NULL) goto sendcookie; sctp->sctp_xmit_tail = meta; sdc = (sctp_data_hdr_t *)mp->b_rptr; seglen = ntohs(sdc->sdh_len); if ((ceclen + seglen) > fp->sfa_pmss || (seglen - sizeof (*sdc)) > cansend) { goto sendcookie; } /* OK, if this fails */ cemp->b_cont = dupmsg(mp); sendcookie: head = sctp_add_proto_hdr(sctp, fp, cemp, 0, NULL); if (head == NULL) { freemsg(cemp); SCTP_FADDR_TIMER_RESTART(sctp, fp, fp->rto); if (errmp != NULL) freeb(errmp); SCTP_KSTAT(sctps, sctp_send_cookie_failed); return; } /* * Even if cookie-echo exceeds MTU for one of the hops, it'll * have a chance of getting there. */ if (fp->isv4) { ipha_t *iph = (ipha_t *)head->b_rptr; iph->ipha_fragment_offset_and_flags = 0; } BUMP_LOCAL(sctp->sctp_obchunks); sctp->sctp_cookie_mp = dupmsg(head); /* Don't bundle, we will just resend init if this cookie is lost. */ if (sctp->sctp_cookie_mp == NULL) { if (cemp->b_cont != NULL) { freemsg(cemp->b_cont); cemp->b_cont = NULL; } } else if (cemp->b_cont != NULL) { ASSERT(mp != NULL && mp == meta->b_cont); SCTP_CHUNK_CLEAR_FLAGS(cemp->b_cont); cemp->b_wptr += pad; seglen -= sizeof (*sdc); SCTP_CHUNK_SENT(sctp, mp, sdc, fp, seglen, meta); } if (errmp != NULL) linkb(head, errmp); sctp->sctp_state = SCTPS_COOKIE_ECHOED; SCTP_FADDR_TIMER_RESTART(sctp, fp, fp->rto); sctp_set_iplen(sctp, head); sctp_add_sendq(sctp, head); } int sctp_process_cookie(sctp_t *sctp, sctp_chunk_hdr_t *ch, mblk_t *cmp, sctp_init_chunk_t **iackpp, sctp_hdr_t *insctph, int *recv_adaption, in6_addr_t *peer_addr) { int32_t clen; size_t initplen; uchar_t *p; uchar_t *given_hash; uchar_t needed_hash[16]; int64_t ts; int64_t diff; uint32_t *lt; sctp_init_chunk_t *iack; sctp_chunk_hdr_t *initch; sctp_init_chunk_t *init; uint32_t *lttag; uint32_t *fttag; uint32_t ports; sctp_stack_t *sctps = sctp->sctp_sctps; BUMP_LOCAL(sctp->sctp_ibchunks); /* Verify the ICV */ clen = ntohs(ch->sch_len) - sizeof (*ch) - 16; if (clen < 0) { dprint(1, ("invalid cookie chunk length %d\n", ntohs(ch->sch_len))); return (-1); } p = (uchar_t *)(ch + 1); hmac_md5(p, clen, (uchar_t *)sctp->sctp_secret, SCTP_SECRET_LEN, needed_hash); /* The given hash follows the cookie data */ given_hash = p + clen; if (bcmp(given_hash, needed_hash, 16) != 0) { /* The secret may have changed; try the old secret */ hmac_md5(p, clen, (uchar_t *)sctp->sctp_old_secret, SCTP_SECRET_LEN, needed_hash); if (bcmp(given_hash, needed_hash, 16) != 0) { return (-1); } } /* Timestamp is int64_t, and we only guarantee 32-bit alignment */ bcopy(p, &ts, sizeof (ts)); /* Cookie life time, int32_t */ lt = (uint32_t *)(p + sizeof (ts)); /* * To quote PRC, "this is our baby", so let's continue. * We need to pull out the encapsulated INIT ACK and * INIT chunks. Note that we don't process these until * we have verified the timestamp, but we need them before * processing the timestamp since if the time check fails, * we need to get the verification tag from the INIT in order * to send a stale cookie error. */ lttag = (uint32_t *)(lt + 1); fttag = lttag + 1; if (peer_addr != NULL) bcopy(fttag + 1, peer_addr, sizeof (in6_addr_t)); iack = (sctp_init_chunk_t *)((char *)(fttag + 1) + sizeof (in6_addr_t)); initch = (sctp_chunk_hdr_t *)(iack + 1); init = (sctp_init_chunk_t *)(initch + 1); initplen = ntohs(initch->sch_len) - (sizeof (*init) + sizeof (*initch)); *iackpp = iack; *recv_adaption = 0; /* Check the timestamp */ diff = lbolt64 - ts; if (diff > *lt && (init->sic_inittag != sctp->sctp_fvtag || iack->sic_inittag != sctp->sctp_lvtag)) { uint32_t staleness; staleness = TICK_TO_USEC(diff); staleness = htonl(staleness); sctp_send_abort(sctp, init->sic_inittag, SCTP_ERR_STALE_COOKIE, (char *)&staleness, sizeof (staleness), cmp, 1, B_FALSE); dprint(1, ("stale cookie %d\n", staleness)); return (-1); } /* Check for attack by adding addresses to a restart */ bcopy(insctph, &ports, sizeof (ports)); if (sctp_secure_restart_check(cmp, initch, ports, KM_NOSLEEP, sctps) != 1) { return (-1); } /* Look for adaptation code if there any parms in the INIT chunk */ if ((initplen >= sizeof (sctp_parm_hdr_t)) && (sctp_find_al_ind((sctp_parm_hdr_t *)(init + 1), initplen, &sctp->sctp_rx_adaption_code) == 0)) { *recv_adaption = 1; } /* Examine tie-tags */ if (sctp->sctp_state >= SCTPS_COOKIE_WAIT) { if (sctp->sctp_state == SCTPS_ESTABLISHED && init->sic_inittag == sctp->sctp_fvtag && iack->sic_inittag == sctp->sctp_lvtag && *fttag == 0 && *lttag == 0) { dprint(1, ("duplicate cookie from %x:%x:%x:%x (%d)\n", SCTP_PRINTADDR(sctp->sctp_current->faddr), (int)(sctp->sctp_fport))); return (-1); } if (init->sic_inittag != sctp->sctp_fvtag && iack->sic_inittag != sctp->sctp_lvtag && *fttag == sctp->sctp_fvtag && *lttag == sctp->sctp_lvtag) { int i; /* Section 5.2.4 case A: restart */ sctp->sctp_fvtag = init->sic_inittag; sctp->sctp_lvtag = iack->sic_inittag; sctp->sctp_sctph->sh_verf = init->sic_inittag; sctp->sctp_sctph6->sh_verf = init->sic_inittag; sctp->sctp_ftsn = ntohl(init->sic_inittsn); sctp->sctp_lastacked = sctp->sctp_ftsn - 1; sctp->sctp_frwnd = ntohl(init->sic_a_rwnd); sctp->sctp_fcsn = sctp->sctp_lastacked; if (sctp->sctp_state < SCTPS_ESTABLISHED) { sctp->sctp_state = SCTPS_ESTABLISHED; sctp->sctp_assoc_start_time = (uint32_t)lbolt; } dprint(1, ("sctp peer %x:%x:%x:%x (%d) restarted\n", SCTP_PRINTADDR(sctp->sctp_current->faddr), (int)(sctp->sctp_fport))); /* reset parameters */ sctp_congest_reset(sctp); /* reset stream bookkeeping */ sctp_instream_cleanup(sctp, B_FALSE); sctp->sctp_istr_nmsgs = 0; sctp->sctp_rxqueued = 0; for (i = 0; i < sctp->sctp_num_ostr; i++) { sctp->sctp_ostrcntrs[i] = 0; } /* XXX flush xmit_list? */ return (0); } else if (init->sic_inittag != sctp->sctp_fvtag && iack->sic_inittag == sctp->sctp_lvtag) { /* Section 5.2.4 case B: INIT collision */ if (sctp->sctp_state < SCTPS_ESTABLISHED) { if (!sctp_initialize_params(sctp, init, iack)) return (-1); /* Drop? */ sctp->sctp_state = SCTPS_ESTABLISHED; sctp->sctp_assoc_start_time = (uint32_t)lbolt; } dprint(1, ("init collision with %x:%x:%x:%x (%d)\n", SCTP_PRINTADDR(sctp->sctp_current->faddr), (int)(sctp->sctp_fport))); return (0); } else if (iack->sic_inittag != sctp->sctp_lvtag && init->sic_inittag == sctp->sctp_fvtag && *fttag == 0 && *lttag == 0) { /* Section 5.2.4 case C: late COOKIE */ dprint(1, ("late cookie from %x:%x:%x:%x (%d)\n", SCTP_PRINTADDR(sctp->sctp_current->faddr), (int)(sctp->sctp_fport))); return (-1); } else if (init->sic_inittag == sctp->sctp_fvtag && iack->sic_inittag == sctp->sctp_lvtag) { /* * Section 5.2.4 case D: COOKIE ECHO retransmit * Don't check cookie lifetime */ dprint(1, ("cookie tags match from %x:%x:%x:%x (%d)\n", SCTP_PRINTADDR(sctp->sctp_current->faddr), (int)(sctp->sctp_fport))); if (sctp->sctp_state < SCTPS_ESTABLISHED) { if (!sctp_initialize_params(sctp, init, iack)) return (-1); /* Drop? */ sctp->sctp_state = SCTPS_ESTABLISHED; sctp->sctp_assoc_start_time = (uint32_t)lbolt; } return (0); } else { /* unrecognized case -- silently drop it */ return (-1); } } return (0); } /* * Similar to ip_fanout_sctp, except that the src addr(s) are drawn * from address parameters in an INIT ACK's address list. This * function is used when an INIT ACK is received but IP's fanout * function could not find a sctp via the normal lookup routine. * This can happen when a host sends an INIT ACK from a different * address than the INIT was sent to. * * Returns the sctp_t if found, or NULL if not found. */ sctp_t * sctp_addrlist2sctp(mblk_t *mp, sctp_hdr_t *sctph, sctp_chunk_hdr_t *ich, uint_t ipif_seqid, zoneid_t zoneid, sctp_stack_t *sctps) { int isv4; ipha_t *iph; ip6_t *ip6h; in6_addr_t dst; in6_addr_t src; sctp_parm_hdr_t *ph; ssize_t remaining; sctp_init_chunk_t *iack; uint32_t ports; sctp_t *sctp = NULL; ASSERT(ich->sch_id == CHUNK_INIT_ACK); isv4 = (IPH_HDR_VERSION(mp->b_rptr) == IPV4_VERSION); if (isv4) { iph = (ipha_t *)mp->b_rptr; IN6_IPADDR_TO_V4MAPPED(iph->ipha_dst, &dst); } else { ip6h = (ip6_t *)mp->b_rptr; dst = ip6h->ip6_dst; } ports = *(uint32_t *)sctph; dprint(1, ("sctp_addrlist2sctp: ports=%u, dst = %x:%x:%x:%x\n", ports, SCTP_PRINTADDR(dst))); /* pull out any address parameters */ remaining = ntohs(ich->sch_len) - sizeof (*ich) - sizeof (*iack); if (remaining < sizeof (*ph)) { return (NULL); } iack = (sctp_init_chunk_t *)(ich + 1); ph = (sctp_parm_hdr_t *)(iack + 1); while (ph != NULL) { /* * params have been put in host byteorder by * sctp_check_input() */ if (ph->sph_type == PARM_ADDR4) { IN6_INADDR_TO_V4MAPPED((struct in_addr *)(ph + 1), &src); sctp = sctp_conn_match(&src, &dst, ports, ipif_seqid, zoneid, sctps); dprint(1, ("sctp_addrlist2sctp: src=%x:%x:%x:%x, sctp=%p\n", SCTP_PRINTADDR(src), (void *)sctp)); if (sctp != NULL) { return (sctp); } } else if (ph->sph_type == PARM_ADDR6) { src = *(in6_addr_t *)(ph + 1); sctp = sctp_conn_match(&src, &dst, ports, ipif_seqid, zoneid, sctps); dprint(1, ("sctp_addrlist2sctp: src=%x:%x:%x:%x, sctp=%p\n", SCTP_PRINTADDR(src), (void *)sctp)); if (sctp != NULL) { return (sctp); } } ph = sctp_next_parm(ph, &remaining); } return (NULL); }