/* * RFC2367 PF_KEYv2 Key management API message parser * Copyright (C) 1999, 2000, 2001 Richard Guy Briggs. * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation; either version 2 of the License, or (at your * option) any later version. See . * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * for more details. */ /* * Template from klips/net/ipsec/ipsec/ipsec_parser.c. */ char pfkey_v2_parse_c_version[] = ""; # include # include # include # include # include # include /* for PRINTF_LIKE */ # include /* for debugging and DBG_log */ # ifdef PLUTO # define DEBUGGING(level, args...) { DBG_log("pfkey_lib_debug:" args); } # else # define DEBUGGING(level, args...) if(pfkey_lib_debug & level) { printf("pfkey_lib_debug:" args); } else { ; } # endif #include #include #define SENDERR(_x) do { error = -(_x); goto errlab; } while (0) static struct { uint8_t proto; uint8_t satype; char* name; } satype_tbl[] = { { SA_ESP, SADB_SATYPE_ESP, "ESP" }, { SA_AH, SADB_SATYPE_AH, "AH" }, { SA_IPIP, SADB_X_SATYPE_IPIP, "IPIP" }, { SA_COMP, SADB_X_SATYPE_COMP, "COMP" }, { SA_INT, SADB_X_SATYPE_INT, "INT" }, { 0, 0, "UNKNOWN" } }; uint8_t satype2proto(uint8_t satype) { int i =0; while(satype_tbl[i].satype != satype && satype_tbl[i].satype != 0) { i++; } return satype_tbl[i].proto; } uint8_t proto2satype(uint8_t proto) { int i = 0; while(satype_tbl[i].proto != proto && satype_tbl[i].proto != 0) { i++; } return satype_tbl[i].satype; } char* satype2name(uint8_t satype) { int i = 0; while(satype_tbl[i].satype != satype && satype_tbl[i].satype != 0) { i++; } return satype_tbl[i].name; } char* proto2name(uint8_t proto) { int i = 0; while(satype_tbl[i].proto != proto && satype_tbl[i].proto != 0) { i++; } return satype_tbl[i].name; } /* Default extension parsers taken from the KLIPS code */ DEBUG_NO_STATIC int pfkey_sa_parse(struct sadb_ext *pfkey_ext) { int error = 0; struct sadb_sa *pfkey_sa = (struct sadb_sa *)pfkey_ext; #if 0 struct sadb_sa sav2; #endif DEBUGGING(PF_KEY_DEBUG_PARSE_FLOW, "pfkey_sa_parse: entry\n"); /* sanity checks... */ if(!pfkey_sa) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_sa_parse: " "NULL pointer passed in.\n"); SENDERR(EINVAL); } #if 0 /* check if this structure is short, and if so, fix it up. * XXX this is NOT the way to do things. */ if(pfkey_sa->sadb_sa_len == sizeof(struct sadb_sa_v1)/IPSEC_PFKEYv2_ALIGN) { /* yes, so clear out a temporary structure, and copy first */ memset(&sav2, 0, sizeof(sav2)); memcpy(&sav2, pfkey_sa, sizeof(struct sadb_sa_v1)); sav2.sadb_x_sa_ref=-1; sav2.sadb_sa_len = sizeof(struct sadb_sa) / IPSEC_PFKEYv2_ALIGN; pfkey_sa = &sav2; } #endif if(pfkey_sa->sadb_sa_len != sizeof(struct sadb_sa) / IPSEC_PFKEYv2_ALIGN) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_sa_parse: " "length wrong pfkey_sa->sadb_sa_len=%d sizeof(struct sadb_sa)=%d.\n", pfkey_sa->sadb_sa_len, (int)sizeof(struct sadb_sa)); SENDERR(EINVAL); } if(pfkey_sa->sadb_sa_encrypt > SADB_EALG_MAX) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_sa_parse: " "pfkey_sa->sadb_sa_encrypt=%d > SADB_EALG_MAX=%d.\n", pfkey_sa->sadb_sa_encrypt, SADB_EALG_MAX); SENDERR(EINVAL); } if(pfkey_sa->sadb_sa_auth > SADB_AALG_MAX) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_sa_parse: " "pfkey_sa->sadb_sa_auth=%d > SADB_AALG_MAX=%d.\n", pfkey_sa->sadb_sa_auth, SADB_AALG_MAX); SENDERR(EINVAL); } if(pfkey_sa->sadb_sa_state > SADB_SASTATE_MAX) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_sa_parse: " "state=%d exceeds MAX=%d.\n", pfkey_sa->sadb_sa_state, SADB_SASTATE_MAX); SENDERR(EINVAL); } if(pfkey_sa->sadb_sa_state == SADB_SASTATE_DEAD) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_sa_parse: " "state=%d is DEAD=%d.\n", pfkey_sa->sadb_sa_state, SADB_SASTATE_DEAD); SENDERR(EINVAL); } if(pfkey_sa->sadb_sa_replay > 64) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_sa_parse: " "replay window size: %d -- must be 0 <= size <= 64\n", pfkey_sa->sadb_sa_replay); SENDERR(EINVAL); } if(! ((pfkey_sa->sadb_sa_exttype == SADB_EXT_SA) || (pfkey_sa->sadb_sa_exttype == SADB_X_EXT_SA2))) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_sa_parse: " "unknown exttype=%d, expecting SADB_EXT_SA=%d or SADB_X_EXT_SA2=%d.\n", pfkey_sa->sadb_sa_exttype, SADB_EXT_SA, SADB_X_EXT_SA2); SENDERR(EINVAL); } if((IPSEC_SAREF_NULL != pfkey_sa->sadb_x_sa_ref) && (pfkey_sa->sadb_x_sa_ref >= (1 << IPSEC_SA_REF_TABLE_IDX_WIDTH))) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_sa_parse: " "SAref=%d must be (SAref == IPSEC_SAREF_NULL(%d) || SAref < IPSEC_SA_REF_TABLE_NUM_ENTRIES(%d)).\n", pfkey_sa->sadb_x_sa_ref, IPSEC_SAREF_NULL, IPSEC_SA_REF_TABLE_NUM_ENTRIES); SENDERR(EINVAL); } DEBUGGING(PF_KEY_DEBUG_PARSE_STRUCT, "pfkey_sa_parse: " "successfully found len=%d exttype=%d(%s) spi=%08lx replay=%d state=%d auth=%d encrypt=%d flags=%d ref=%d.\n", pfkey_sa->sadb_sa_len, pfkey_sa->sadb_sa_exttype, pfkey_v2_sadb_ext_string(pfkey_sa->sadb_sa_exttype), (long unsigned int)ntohl(pfkey_sa->sadb_sa_spi), pfkey_sa->sadb_sa_replay, pfkey_sa->sadb_sa_state, pfkey_sa->sadb_sa_auth, pfkey_sa->sadb_sa_encrypt, pfkey_sa->sadb_sa_flags, pfkey_sa->sadb_x_sa_ref); errlab: return error; } DEBUG_NO_STATIC int pfkey_lifetime_parse(struct sadb_ext *pfkey_ext) { int error = 0; struct sadb_lifetime *pfkey_lifetime = (struct sadb_lifetime *)pfkey_ext; DEBUGGING(PF_KEY_DEBUG_PARSE_FLOW, "pfkey_lifetime_parse:enter\n"); /* sanity checks... */ if(!pfkey_lifetime) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_lifetime_parse: " "NULL pointer passed in.\n"); SENDERR(EINVAL); } if(pfkey_lifetime->sadb_lifetime_len != sizeof(struct sadb_lifetime) / IPSEC_PFKEYv2_ALIGN) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_lifetime_parse: " "length wrong pfkey_lifetime->sadb_lifetime_len=%d sizeof(struct sadb_lifetime)=%d.\n", pfkey_lifetime->sadb_lifetime_len, (int)sizeof(struct sadb_lifetime)); SENDERR(EINVAL); } if((pfkey_lifetime->sadb_lifetime_exttype != SADB_EXT_LIFETIME_HARD) && (pfkey_lifetime->sadb_lifetime_exttype != SADB_EXT_LIFETIME_SOFT) && (pfkey_lifetime->sadb_lifetime_exttype != SADB_EXT_LIFETIME_CURRENT)) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_lifetime_parse: " "unexpected ext_type=%d.\n", pfkey_lifetime->sadb_lifetime_exttype); SENDERR(EINVAL); } DEBUGGING(PF_KEY_DEBUG_PARSE_STRUCT, "pfkey_lifetime_parse: " "life_type=%d(%s) alloc=%u bytes=%u add=%u use=%u pkts=%u.\n", pfkey_lifetime->sadb_lifetime_exttype, pfkey_v2_sadb_ext_string(pfkey_lifetime->sadb_lifetime_exttype), pfkey_lifetime->sadb_lifetime_allocations, (unsigned)pfkey_lifetime->sadb_lifetime_bytes, (unsigned)pfkey_lifetime->sadb_lifetime_addtime, (unsigned)pfkey_lifetime->sadb_lifetime_usetime, pfkey_lifetime->sadb_x_lifetime_packets); errlab: return error; } DEBUG_NO_STATIC int pfkey_address_parse(struct sadb_ext *pfkey_ext) { int error = 0; int saddr_len = 0; struct sadb_address *pfkey_address = (struct sadb_address *)pfkey_ext; struct sockaddr* s = (struct sockaddr*)((char*)pfkey_address + sizeof(*pfkey_address)); char ipaddr_txt[ADDRTOT_BUF]; DEBUGGING(PF_KEY_DEBUG_PARSE_FLOW, "pfkey_address_parse:enter\n"); /* sanity checks... */ if(!pfkey_address) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_address_parse: " "NULL pointer passed in.\n"); SENDERR(EINVAL); } if(pfkey_address->sadb_address_len < (sizeof(struct sadb_address) + sizeof(struct sockaddr))/ IPSEC_PFKEYv2_ALIGN) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_address_parse: " "size wrong 1 ext_len=%d, adr_ext_len=%d, saddr_len=%d.\n", pfkey_address->sadb_address_len, (int)sizeof(struct sadb_address), (int)sizeof(struct sockaddr)); SENDERR(EINVAL); } if(pfkey_address->sadb_address_reserved) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_address_parse: " "res=%d, must be zero.\n", pfkey_address->sadb_address_reserved); SENDERR(EINVAL); } switch(pfkey_address->sadb_address_exttype) { case SADB_EXT_ADDRESS_SRC: case SADB_EXT_ADDRESS_DST: case SADB_EXT_ADDRESS_PROXY: case SADB_X_EXT_ADDRESS_DST2: case SADB_X_EXT_ADDRESS_SRC_FLOW: case SADB_X_EXT_ADDRESS_DST_FLOW: case SADB_X_EXT_ADDRESS_SRC_MASK: case SADB_X_EXT_ADDRESS_DST_MASK: case SADB_X_EXT_NAT_T_OA: break; default: DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_address_parse: " "unexpected ext_type=%d.\n", pfkey_address->sadb_address_exttype); SENDERR(EINVAL); } switch(s->sa_family) { case AF_INET: saddr_len = sizeof(struct sockaddr_in); sprintf(ipaddr_txt, "%d.%d.%d.%d" , (((struct sockaddr_in*)s)->sin_addr.s_addr >> 0) & 0xFF , (((struct sockaddr_in*)s)->sin_addr.s_addr >> 8) & 0xFF , (((struct sockaddr_in*)s)->sin_addr.s_addr >> 16) & 0xFF , (((struct sockaddr_in*)s)->sin_addr.s_addr >> 24) & 0xFF); DEBUGGING(PF_KEY_DEBUG_PARSE_STRUCT, "pfkey_address_parse: " "found exttype=%u(%s) family=%d(AF_INET) address=%s proto=%u port=%u.\n", pfkey_address->sadb_address_exttype, pfkey_v2_sadb_ext_string(pfkey_address->sadb_address_exttype), s->sa_family, ipaddr_txt, pfkey_address->sadb_address_proto, ntohs(((struct sockaddr_in*)s)->sin_port)); break; case AF_INET6: saddr_len = sizeof(struct sockaddr_in6); sprintf(ipaddr_txt, "%x:%x:%x:%x:%x:%x:%x:%x" , ntohs(((struct sockaddr_in6*)s)->sin6_addr.s6_addr[0]) , ntohs(((struct sockaddr_in6*)s)->sin6_addr.s6_addr[1]) , ntohs(((struct sockaddr_in6*)s)->sin6_addr.s6_addr[2]) , ntohs(((struct sockaddr_in6*)s)->sin6_addr.s6_addr[3]) , ntohs(((struct sockaddr_in6*)s)->sin6_addr.s6_addr[4]) , ntohs(((struct sockaddr_in6*)s)->sin6_addr.s6_addr[5]) , ntohs(((struct sockaddr_in6*)s)->sin6_addr.s6_addr[6]) , ntohs(((struct sockaddr_in6*)s)->sin6_addr.s6_addr[7])); DEBUGGING(PF_KEY_DEBUG_PARSE_STRUCT, "pfkey_address_parse: " "found exttype=%u(%s) family=%d(AF_INET6) address=%s proto=%u port=%u.\n", pfkey_address->sadb_address_exttype, pfkey_v2_sadb_ext_string(pfkey_address->sadb_address_exttype), s->sa_family, ipaddr_txt, pfkey_address->sadb_address_proto, ((struct sockaddr_in6*)s)->sin6_port); break; default: DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_address_parse: " "s->sa_family=%d not supported.\n", s->sa_family); SENDERR(EPFNOSUPPORT); } if(pfkey_address->sadb_address_len != DIVUP(sizeof(struct sadb_address) + saddr_len, IPSEC_PFKEYv2_ALIGN)) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_address_parse: " "size wrong 2 ext_len=%d, adr_ext_len=%d, saddr_len=%d.\n", pfkey_address->sadb_address_len, (int)sizeof(struct sadb_address), saddr_len); SENDERR(EINVAL); } if(pfkey_address->sadb_address_prefixlen != 0) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_address_parse: " "address prefixes not supported yet.\n"); SENDERR(EAFNOSUPPORT); /* not supported yet */ } /* XXX check if port!=0 */ DEBUGGING(PF_KEY_DEBUG_PARSE_FLOW, "pfkey_address_parse: successful.\n"); errlab: return error; } DEBUG_NO_STATIC int pfkey_key_parse(struct sadb_ext *pfkey_ext) { int error = 0; struct sadb_key *pfkey_key = (struct sadb_key *)pfkey_ext; DEBUGGING(PF_KEY_DEBUG_PARSE_FLOW, "pfkey_key_parse:enter\n"); /* sanity checks... */ if(!pfkey_key) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_key_parse: " "NULL pointer passed in.\n"); SENDERR(EINVAL); } if(pfkey_key->sadb_key_len < sizeof(struct sadb_key) / IPSEC_PFKEYv2_ALIGN) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_key_parse: " "size wrong ext_len=%d, key_ext_len=%d.\n", pfkey_key->sadb_key_len, (int)sizeof(struct sadb_key)); SENDERR(EINVAL); } if(!pfkey_key->sadb_key_bits) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_key_parse: " "key length set to zero, must be non-zero.\n"); SENDERR(EINVAL); } if(pfkey_key->sadb_key_len != DIVUP(sizeof(struct sadb_key) * OCTETBITS + pfkey_key->sadb_key_bits, PFKEYBITS)) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_key_parse: " "key length=%d does not agree with extension length=%d.\n", pfkey_key->sadb_key_bits, pfkey_key->sadb_key_len); SENDERR(EINVAL); } if(pfkey_key->sadb_key_reserved) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_key_parse: " "res=%d, must be zero.\n", pfkey_key->sadb_key_reserved); SENDERR(EINVAL); } if(! ( (pfkey_key->sadb_key_exttype == SADB_EXT_KEY_AUTH) || (pfkey_key->sadb_key_exttype == SADB_EXT_KEY_ENCRYPT))) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_key_parse: " "expecting extension type AUTH or ENCRYPT, got %d.\n", pfkey_key->sadb_key_exttype); SENDERR(EINVAL); } DEBUGGING(PF_KEY_DEBUG_PARSE_STRUCT, "pfkey_key_parse: " "success, found len=%d exttype=%d(%s) bits=%d reserved=%d.\n", pfkey_key->sadb_key_len, pfkey_key->sadb_key_exttype, pfkey_v2_sadb_ext_string(pfkey_key->sadb_key_exttype), pfkey_key->sadb_key_bits, pfkey_key->sadb_key_reserved); errlab: return error; } DEBUG_NO_STATIC int pfkey_ident_parse(struct sadb_ext *pfkey_ext) { int error = 0; struct sadb_ident *pfkey_ident = (struct sadb_ident *)pfkey_ext; /* sanity checks... */ if(pfkey_ident->sadb_ident_len < sizeof(struct sadb_ident) / IPSEC_PFKEYv2_ALIGN) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_ident_parse: " "size wrong ext_len=%d, key_ext_len=%d.\n", pfkey_ident->sadb_ident_len, (int)sizeof(struct sadb_ident)); SENDERR(EINVAL); } if(pfkey_ident->sadb_ident_type > SADB_IDENTTYPE_MAX) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_ident_parse: " "ident_type=%d out of range, must be less than %d.\n", pfkey_ident->sadb_ident_type, SADB_IDENTTYPE_MAX); SENDERR(EINVAL); } if(pfkey_ident->sadb_ident_reserved) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_ident_parse: " "res=%d, must be zero.\n", pfkey_ident->sadb_ident_reserved); SENDERR(EINVAL); } /* string terminator/padding must be zero */ if(pfkey_ident->sadb_ident_len > sizeof(struct sadb_ident) / IPSEC_PFKEYv2_ALIGN) { if(*((char*)pfkey_ident + pfkey_ident->sadb_ident_len * IPSEC_PFKEYv2_ALIGN - 1)) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_ident_parse: " "string padding must be zero, last is 0x%02x.\n", *((char*)pfkey_ident + pfkey_ident->sadb_ident_len * IPSEC_PFKEYv2_ALIGN - 1)); SENDERR(EINVAL); } } if( ! ((pfkey_ident->sadb_ident_exttype == SADB_EXT_IDENTITY_SRC) || (pfkey_ident->sadb_ident_exttype == SADB_EXT_IDENTITY_DST))) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_key_parse: " "expecting extension type IDENTITY_SRC or IDENTITY_DST, got %d.\n", pfkey_ident->sadb_ident_exttype); SENDERR(EINVAL); } errlab: return error; } DEBUG_NO_STATIC int pfkey_sens_parse(struct sadb_ext *pfkey_ext) { int error = 0; struct sadb_sens *pfkey_sens = (struct sadb_sens *)pfkey_ext; /* sanity checks... */ if(pfkey_sens->sadb_sens_len < sizeof(struct sadb_sens) / IPSEC_PFKEYv2_ALIGN) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_sens_parse: " "size wrong ext_len=%d, key_ext_len=%d.\n", pfkey_sens->sadb_sens_len, (int)sizeof(struct sadb_sens)); SENDERR(EINVAL); } DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_sens_parse: " "Sorry, I can't parse exttype=%d yet.\n", pfkey_ext->sadb_ext_type); #if 0 SENDERR(EINVAL); /* don't process these yet */ #endif errlab: return error; } DEBUG_NO_STATIC int pfkey_prop_parse(struct sadb_ext *pfkey_ext) { int error = 0; int i, num_comb; struct sadb_prop *pfkey_prop = (struct sadb_prop *)pfkey_ext; struct sadb_comb *pfkey_comb = (struct sadb_comb *)((char*)pfkey_ext + sizeof(struct sadb_prop)); /* sanity checks... */ if((pfkey_prop->sadb_prop_len < sizeof(struct sadb_prop) / IPSEC_PFKEYv2_ALIGN) || (((pfkey_prop->sadb_prop_len * IPSEC_PFKEYv2_ALIGN) - sizeof(struct sadb_prop)) % sizeof(struct sadb_comb))) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_prop_parse: " "size wrong ext_len=%d, prop_ext_len=%d comb_ext_len=%d.\n", pfkey_prop->sadb_prop_len, (int)sizeof(struct sadb_prop), (int)sizeof(struct sadb_comb)); SENDERR(EINVAL); } if(pfkey_prop->sadb_prop_replay > 64) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_prop_parse: " "replay window size: %d -- must be 0 <= size <= 64\n", pfkey_prop->sadb_prop_replay); SENDERR(EINVAL); } for(i=0; i<3; i++) { if(pfkey_prop->sadb_prop_reserved[i]) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_prop_parse: " "res[%d]=%d, must be zero.\n", i, pfkey_prop->sadb_prop_reserved[i]); SENDERR(EINVAL); } } num_comb = ((pfkey_prop->sadb_prop_len * IPSEC_PFKEYv2_ALIGN) - sizeof(struct sadb_prop)) / sizeof(struct sadb_comb); for(i = 0; i < num_comb; i++) { if(pfkey_comb->sadb_comb_auth > SADB_AALG_MAX) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_prop_parse: " "pfkey_comb[%d]->sadb_comb_auth=%d > SADB_AALG_MAX=%d.\n", i, pfkey_comb->sadb_comb_auth, SADB_AALG_MAX); SENDERR(EINVAL); } if(pfkey_comb->sadb_comb_auth) { if(!pfkey_comb->sadb_comb_auth_minbits) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_prop_parse: " "pfkey_comb[%d]->sadb_comb_auth_minbits=0, fatal.\n", i); SENDERR(EINVAL); } if(!pfkey_comb->sadb_comb_auth_maxbits) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_prop_parse: " "pfkey_comb[%d]->sadb_comb_auth_maxbits=0, fatal.\n", i); SENDERR(EINVAL); } if(pfkey_comb->sadb_comb_auth_minbits > pfkey_comb->sadb_comb_auth_maxbits) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_prop_parse: " "pfkey_comb[%d]->sadb_comb_auth_minbits=%d > maxbits=%d, fatal.\n", i, pfkey_comb->sadb_comb_auth_minbits, pfkey_comb->sadb_comb_auth_maxbits); SENDERR(EINVAL); } } else { if(pfkey_comb->sadb_comb_auth_minbits) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_prop_parse: " "pfkey_comb[%d]->sadb_comb_auth_minbits=%d != 0, fatal.\n", i, pfkey_comb->sadb_comb_auth_minbits); SENDERR(EINVAL); } if(pfkey_comb->sadb_comb_auth_maxbits) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_prop_parse: " "pfkey_comb[%d]->sadb_comb_auth_maxbits=%d != 0, fatal.\n", i, pfkey_comb->sadb_comb_auth_maxbits); SENDERR(EINVAL); } } if(pfkey_comb->sadb_comb_encrypt > SADB_EALG_MAX) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_comb_parse: " "pfkey_comb[%d]->sadb_comb_encrypt=%d > SADB_EALG_MAX=%d.\n", i, pfkey_comb->sadb_comb_encrypt, SADB_EALG_MAX); SENDERR(EINVAL); } if(pfkey_comb->sadb_comb_encrypt) { if(!pfkey_comb->sadb_comb_encrypt_minbits) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_prop_parse: " "pfkey_comb[%d]->sadb_comb_encrypt_minbits=0, fatal.\n", i); SENDERR(EINVAL); } if(!pfkey_comb->sadb_comb_encrypt_maxbits) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_prop_parse: " "pfkey_comb[%d]->sadb_comb_encrypt_maxbits=0, fatal.\n", i); SENDERR(EINVAL); } if(pfkey_comb->sadb_comb_encrypt_minbits > pfkey_comb->sadb_comb_encrypt_maxbits) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_prop_parse: " "pfkey_comb[%d]->sadb_comb_encrypt_minbits=%d > maxbits=%d, fatal.\n", i, pfkey_comb->sadb_comb_encrypt_minbits, pfkey_comb->sadb_comb_encrypt_maxbits); SENDERR(EINVAL); } } else { if(pfkey_comb->sadb_comb_encrypt_minbits) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_prop_parse: " "pfkey_comb[%d]->sadb_comb_encrypt_minbits=%d != 0, fatal.\n", i, pfkey_comb->sadb_comb_encrypt_minbits); SENDERR(EINVAL); } if(pfkey_comb->sadb_comb_encrypt_maxbits) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_prop_parse: " "pfkey_comb[%d]->sadb_comb_encrypt_maxbits=%d != 0, fatal.\n", i, pfkey_comb->sadb_comb_encrypt_maxbits); SENDERR(EINVAL); } } /* XXX do sanity check on flags */ if(pfkey_comb->sadb_comb_hard_allocations && pfkey_comb->sadb_comb_soft_allocations > pfkey_comb->sadb_comb_hard_allocations) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_prop_parse: " "pfkey_comb[%d]->sadb_comb_soft_allocations=%d > hard_allocations=%d, fatal.\n", i, pfkey_comb->sadb_comb_soft_allocations, pfkey_comb->sadb_comb_hard_allocations); SENDERR(EINVAL); } if(pfkey_comb->sadb_comb_hard_bytes && pfkey_comb->sadb_comb_soft_bytes > pfkey_comb->sadb_comb_hard_bytes) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_prop_parse: " "pfkey_comb[%d]->sadb_comb_soft_bytes=%Ld > hard_bytes=%Ld, fatal.\n", i, (unsigned long long int)pfkey_comb->sadb_comb_soft_bytes, (unsigned long long int)pfkey_comb->sadb_comb_hard_bytes); SENDERR(EINVAL); } if(pfkey_comb->sadb_comb_hard_addtime && pfkey_comb->sadb_comb_soft_addtime > pfkey_comb->sadb_comb_hard_addtime) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_prop_parse: " "pfkey_comb[%d]->sadb_comb_soft_addtime=%Ld > hard_addtime=%Ld, fatal.\n", i, (unsigned long long int)pfkey_comb->sadb_comb_soft_addtime, (unsigned long long int)pfkey_comb->sadb_comb_hard_addtime); SENDERR(EINVAL); } if(pfkey_comb->sadb_comb_hard_usetime && pfkey_comb->sadb_comb_soft_usetime > pfkey_comb->sadb_comb_hard_usetime) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_prop_parse: " "pfkey_comb[%d]->sadb_comb_soft_usetime=%Ld > hard_usetime=%Ld, fatal.\n", i, (unsigned long long int)pfkey_comb->sadb_comb_soft_usetime, (unsigned long long int)pfkey_comb->sadb_comb_hard_usetime); SENDERR(EINVAL); } if(pfkey_comb->sadb_x_comb_hard_packets && pfkey_comb->sadb_x_comb_soft_packets > pfkey_comb->sadb_x_comb_hard_packets) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_prop_parse: " "pfkey_comb[%d]->sadb_x_comb_soft_packets=%d > hard_packets=%d, fatal.\n", i, pfkey_comb->sadb_x_comb_soft_packets, pfkey_comb->sadb_x_comb_hard_packets); SENDERR(EINVAL); } if(pfkey_comb->sadb_comb_reserved) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_prop_parse: " "comb[%d].res=%d, must be zero.\n", i, pfkey_comb->sadb_comb_reserved); SENDERR(EINVAL); } pfkey_comb++; } errlab: return error; } DEBUG_NO_STATIC int pfkey_supported_parse(struct sadb_ext *pfkey_ext) { int error = 0; unsigned int i, num_alg; struct sadb_supported *pfkey_supported = (struct sadb_supported *)pfkey_ext; struct sadb_alg *pfkey_alg = (struct sadb_alg*)((char*)pfkey_ext + sizeof(struct sadb_supported)); /* sanity checks... */ if((pfkey_supported->sadb_supported_len < sizeof(struct sadb_supported) / IPSEC_PFKEYv2_ALIGN) || (((pfkey_supported->sadb_supported_len * IPSEC_PFKEYv2_ALIGN) - sizeof(struct sadb_supported)) % sizeof(struct sadb_alg))) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_supported_parse: " "size wrong ext_len=%d, supported_ext_len=%d alg_ext_len=%d.\n", pfkey_supported->sadb_supported_len, (int)sizeof(struct sadb_supported), (int)sizeof(struct sadb_alg)); SENDERR(EINVAL); } if(pfkey_supported->sadb_supported_reserved) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_supported_parse: " "res=%d, must be zero.\n", pfkey_supported->sadb_supported_reserved); SENDERR(EINVAL); } num_alg = ((pfkey_supported->sadb_supported_len * IPSEC_PFKEYv2_ALIGN) - sizeof(struct sadb_supported)) / sizeof(struct sadb_alg); for(i = 0; i < num_alg; i++) { /* process algo description */ if(pfkey_alg->sadb_alg_reserved) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_supported_parse: " "alg[%d], id=%d, ivlen=%d, minbits=%d, maxbits=%d, res=%d, must be zero.\n", i, pfkey_alg->sadb_alg_id, pfkey_alg->sadb_alg_ivlen, pfkey_alg->sadb_alg_minbits, pfkey_alg->sadb_alg_maxbits, pfkey_alg->sadb_alg_reserved); SENDERR(EINVAL); } /* XXX can alg_id auth/enc be determined from info given? Yes, but OpenBSD's method does not iteroperate with rfc2367. rgb, 2000-04-06 */ switch(pfkey_supported->sadb_supported_exttype) { case SADB_EXT_SUPPORTED_AUTH: if(pfkey_alg->sadb_alg_id > SADB_AALG_MAX) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_supported_parse: " "alg[%d], alg_id=%d > SADB_AALG_MAX=%d, fatal.\n", i, pfkey_alg->sadb_alg_id, SADB_AALG_MAX); SENDERR(EINVAL); } break; case SADB_EXT_SUPPORTED_ENCRYPT: if(pfkey_alg->sadb_alg_id > SADB_EALG_MAX) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_supported_parse: " "alg[%d], alg_id=%d > SADB_EALG_MAX=%d, fatal.\n", i, pfkey_alg->sadb_alg_id, SADB_EALG_MAX); SENDERR(EINVAL); } break; default: DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_supported_parse: " "alg[%d], alg_id=%d > SADB_EALG_MAX=%d, fatal.\n", i, pfkey_alg->sadb_alg_id, SADB_EALG_MAX); SENDERR(EINVAL); } pfkey_alg++; } errlab: return error; } DEBUG_NO_STATIC int pfkey_spirange_parse(struct sadb_ext *pfkey_ext) { int error = 0; struct sadb_spirange *pfkey_spirange = (struct sadb_spirange *)pfkey_ext; /* sanity checks... */ if(pfkey_spirange->sadb_spirange_len != sizeof(struct sadb_spirange) / IPSEC_PFKEYv2_ALIGN) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_spirange_parse: " "size wrong ext_len=%d, key_ext_len=%d.\n", pfkey_spirange->sadb_spirange_len, (int)sizeof(struct sadb_spirange)); SENDERR(EINVAL); } if(pfkey_spirange->sadb_spirange_reserved) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_spirange_parse: " "reserved=%d must be set to zero.\n", pfkey_spirange->sadb_spirange_reserved); SENDERR(EINVAL); } if(ntohl(pfkey_spirange->sadb_spirange_max) < ntohl(pfkey_spirange->sadb_spirange_min)) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_spirange_parse: " "minspi=%08x must be < maxspi=%08x.\n", ntohl(pfkey_spirange->sadb_spirange_min), ntohl(pfkey_spirange->sadb_spirange_max)); SENDERR(EINVAL); } if(ntohl(pfkey_spirange->sadb_spirange_min) <= 255) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_spirange_parse: " "minspi=%08x must be > 255.\n", ntohl(pfkey_spirange->sadb_spirange_min)); SENDERR(EEXIST); } DEBUGGING(PF_KEY_DEBUG_PARSE_STRUCT, "pfkey_spirange_parse: " "ext_len=%u ext_type=%u(%s) min=%u max=%u res=%u.\n", pfkey_spirange->sadb_spirange_len, pfkey_spirange->sadb_spirange_exttype, pfkey_v2_sadb_ext_string(pfkey_spirange->sadb_spirange_exttype), pfkey_spirange->sadb_spirange_min, pfkey_spirange->sadb_spirange_max, pfkey_spirange->sadb_spirange_reserved); errlab: return error; } DEBUG_NO_STATIC int pfkey_x_kmprivate_parse(struct sadb_ext *pfkey_ext) { int error = 0; struct sadb_x_kmprivate *pfkey_x_kmprivate = (struct sadb_x_kmprivate *)pfkey_ext; /* sanity checks... */ if(pfkey_x_kmprivate->sadb_x_kmprivate_len < sizeof(struct sadb_x_kmprivate) / IPSEC_PFKEYv2_ALIGN) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_x_kmprivate_parse: " "size wrong ext_len=%d, key_ext_len=%d.\n", pfkey_x_kmprivate->sadb_x_kmprivate_len, (int)sizeof(struct sadb_x_kmprivate)); SENDERR(EINVAL); } if(pfkey_x_kmprivate->sadb_x_kmprivate_reserved) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_x_kmprivate_parse: " "reserved=%d must be set to zero.\n", pfkey_x_kmprivate->sadb_x_kmprivate_reserved); SENDERR(EINVAL); } DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_x_kmprivate_parse: " "Sorry, I can't parse exttype=%d yet.\n", pfkey_ext->sadb_ext_type); SENDERR(EINVAL); /* don't process these yet */ errlab: return error; } DEBUG_NO_STATIC int pfkey_x_satype_parse(struct sadb_ext *pfkey_ext) { int error = 0; int i; struct sadb_x_satype *pfkey_x_satype = (struct sadb_x_satype *)pfkey_ext; DEBUGGING(PF_KEY_DEBUG_PARSE_FLOW, "pfkey_x_satype_parse: enter\n"); /* sanity checks... */ if(pfkey_x_satype->sadb_x_satype_len != sizeof(struct sadb_x_satype) / IPSEC_PFKEYv2_ALIGN) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_x_satype_parse: " "size wrong ext_len=%d, key_ext_len=%d.\n", pfkey_x_satype->sadb_x_satype_len, (int)sizeof(struct sadb_x_satype)); SENDERR(EINVAL); } if(!pfkey_x_satype->sadb_x_satype_satype) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_x_satype_parse: " "satype is zero, must be non-zero.\n"); SENDERR(EINVAL); } if(pfkey_x_satype->sadb_x_satype_satype > SADB_SATYPE_MAX) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_x_satype_parse: " "satype %d > max %d, invalid.\n", pfkey_x_satype->sadb_x_satype_satype, SADB_SATYPE_MAX); SENDERR(EINVAL); } if(!(satype2proto(pfkey_x_satype->sadb_x_satype_satype))) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_x_satype_parse: " "proto lookup from satype=%d failed.\n", pfkey_x_satype->sadb_x_satype_satype); SENDERR(EINVAL); } for(i = 0; i < 3; i++) { if(pfkey_x_satype->sadb_x_satype_reserved[i]) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_x_satype_parse: " "reserved[%d]=%d must be set to zero.\n", i, pfkey_x_satype->sadb_x_satype_reserved[i]); SENDERR(EINVAL); } } DEBUGGING(PF_KEY_DEBUG_PARSE_STRUCT, "pfkey_x_satype_parse: " "len=%u ext=%u(%s) satype=%u(%s) res=%u,%u,%u.\n", pfkey_x_satype->sadb_x_satype_len, pfkey_x_satype->sadb_x_satype_exttype, pfkey_v2_sadb_ext_string(pfkey_x_satype->sadb_x_satype_exttype), pfkey_x_satype->sadb_x_satype_satype, satype2name(pfkey_x_satype->sadb_x_satype_satype), pfkey_x_satype->sadb_x_satype_reserved[0], pfkey_x_satype->sadb_x_satype_reserved[1], pfkey_x_satype->sadb_x_satype_reserved[2]); errlab: return error; } DEBUG_NO_STATIC int pfkey_x_ext_debug_parse(struct sadb_ext *pfkey_ext) { int error = 0; int i; struct sadb_x_debug *pfkey_x_debug = (struct sadb_x_debug *)pfkey_ext; DEBUGGING(PF_KEY_DEBUG_PARSE_FLOW, "pfkey_x_debug_parse: enter\n"); /* sanity checks... */ if(pfkey_x_debug->sadb_x_debug_len != sizeof(struct sadb_x_debug) / IPSEC_PFKEYv2_ALIGN) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_x_debug_parse: " "size wrong ext_len=%d, key_ext_len=%d.\n", pfkey_x_debug->sadb_x_debug_len, (int)sizeof(struct sadb_x_debug)); SENDERR(EINVAL); } for(i = 0; i < 4; i++) { if(pfkey_x_debug->sadb_x_debug_reserved[i]) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_x_debug_parse: " "reserved[%d]=%d must be set to zero.\n", i, pfkey_x_debug->sadb_x_debug_reserved[i]); SENDERR(EINVAL); } } errlab: return error; } DEBUG_NO_STATIC int pfkey_x_ext_protocol_parse(struct sadb_ext *pfkey_ext) { int error = 0; struct sadb_protocol *p = (struct sadb_protocol *)pfkey_ext; DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_x_protocol_parse:\n"); /* sanity checks... */ if (p->sadb_protocol_len != sizeof(*p)/IPSEC_PFKEYv2_ALIGN) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_x_protocol_parse: size wrong ext_len=%d, key_ext_len=%d.\n", p->sadb_protocol_len, (int)sizeof(*p)); SENDERR(EINVAL); } if (p->sadb_protocol_reserved2 != 0) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_protocol_parse: res=%d, must be zero.\n", p->sadb_protocol_reserved2); SENDERR(EINVAL); } errlab: return error; } DEBUG_NO_STATIC int pfkey_x_ext_nat_t_type_parse(struct sadb_ext *pfkey_ext) { return 0; } DEBUG_NO_STATIC int pfkey_x_ext_nat_t_port_parse(struct sadb_ext *pfkey_ext) { return 0; } #define DEFINEPARSER(NAME) static struct pf_key_ext_parsers_def NAME##_def={NAME, #NAME}; DEFINEPARSER(pfkey_sa_parse); DEFINEPARSER(pfkey_lifetime_parse); DEFINEPARSER(pfkey_address_parse); DEFINEPARSER(pfkey_key_parse); DEFINEPARSER(pfkey_ident_parse); DEFINEPARSER(pfkey_sens_parse); DEFINEPARSER(pfkey_prop_parse); DEFINEPARSER(pfkey_supported_parse); DEFINEPARSER(pfkey_spirange_parse); DEFINEPARSER(pfkey_x_kmprivate_parse); DEFINEPARSER(pfkey_x_satype_parse); DEFINEPARSER(pfkey_x_ext_debug_parse); DEFINEPARSER(pfkey_x_ext_protocol_parse); DEFINEPARSER(pfkey_x_ext_nat_t_type_parse); DEFINEPARSER(pfkey_x_ext_nat_t_port_parse); struct pf_key_ext_parsers_def *ext_default_parsers[]= { NULL, /* pfkey_msg_parse, */ &pfkey_sa_parse_def, &pfkey_lifetime_parse_def, &pfkey_lifetime_parse_def, &pfkey_lifetime_parse_def, &pfkey_address_parse_def, &pfkey_address_parse_def, &pfkey_address_parse_def, &pfkey_key_parse_def, &pfkey_key_parse_def, &pfkey_ident_parse_def, &pfkey_ident_parse_def, &pfkey_sens_parse_def, &pfkey_prop_parse_def, &pfkey_supported_parse_def, &pfkey_supported_parse_def, &pfkey_spirange_parse_def, &pfkey_x_kmprivate_parse_def, &pfkey_x_satype_parse_def, &pfkey_sa_parse_def, &pfkey_address_parse_def, &pfkey_address_parse_def, &pfkey_address_parse_def, &pfkey_address_parse_def, &pfkey_address_parse_def, &pfkey_x_ext_debug_parse_def, &pfkey_x_ext_protocol_parse_def , &pfkey_x_ext_nat_t_type_parse_def, &pfkey_x_ext_nat_t_port_parse_def, &pfkey_x_ext_nat_t_port_parse_def, &pfkey_address_parse_def }; int pfkey_msg_parse(struct sadb_msg *pfkey_msg, struct pf_key_ext_parsers_def *ext_parsers[], struct sadb_ext *extensions[], int dir) { int error = 0; int remain; struct sadb_ext *pfkey_ext; int extensions_seen = 0; DEBUGGING(PF_KEY_DEBUG_PARSE_STRUCT, "pfkey_msg_parse: " "parsing message ver=%d, type=%d(%s), errno=%d, satype=%d(%s), len=%d, res=%d, seq=%d, pid=%d.\n", pfkey_msg->sadb_msg_version, pfkey_msg->sadb_msg_type, pfkey_v2_sadb_type_string(pfkey_msg->sadb_msg_type), pfkey_msg->sadb_msg_errno, pfkey_msg->sadb_msg_satype, satype2name(pfkey_msg->sadb_msg_satype), pfkey_msg->sadb_msg_len, pfkey_msg->sadb_msg_reserved, pfkey_msg->sadb_msg_seq, pfkey_msg->sadb_msg_pid); if(ext_parsers == NULL) ext_parsers = ext_default_parsers; pfkey_extensions_init(extensions); remain = pfkey_msg->sadb_msg_len; remain -= sizeof(struct sadb_msg) / IPSEC_PFKEYv2_ALIGN; pfkey_ext = (struct sadb_ext*)((char*)pfkey_msg + sizeof(struct sadb_msg)); extensions[0] = (struct sadb_ext *) pfkey_msg; if(pfkey_msg->sadb_msg_version != PF_KEY_V2) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "not PF_KEY_V2 msg, found %d, should be %d.\n", pfkey_msg->sadb_msg_version, PF_KEY_V2); SENDERR(EINVAL); } if(!pfkey_msg->sadb_msg_type) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "msg type not set, must be non-zero..\n"); SENDERR(EINVAL); } if(pfkey_msg->sadb_msg_type > SADB_MAX) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "msg type=%d > max=%d.\n", pfkey_msg->sadb_msg_type, SADB_MAX); SENDERR(EINVAL); } switch(pfkey_msg->sadb_msg_type) { case SADB_GETSPI: case SADB_UPDATE: case SADB_ADD: case SADB_DELETE: case SADB_GET: case SADB_X_GRPSA: case SADB_X_ADDFLOW: if(!satype2proto(pfkey_msg->sadb_msg_satype)) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "satype %d conversion to proto failed for msg_type %d (%s).\n", pfkey_msg->sadb_msg_satype, pfkey_msg->sadb_msg_type, pfkey_v2_sadb_type_string(pfkey_msg->sadb_msg_type)); SENDERR(EINVAL); } else { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "satype %d(%s) conversion to proto gives %d for msg_type %d(%s).\n", pfkey_msg->sadb_msg_satype, satype2name(pfkey_msg->sadb_msg_satype), satype2proto(pfkey_msg->sadb_msg_satype), pfkey_msg->sadb_msg_type, pfkey_v2_sadb_type_string(pfkey_msg->sadb_msg_type)); } /* fall through */ case SADB_ACQUIRE: case SADB_REGISTER: case SADB_EXPIRE: if(!pfkey_msg->sadb_msg_satype) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "satype is zero, must be non-zero for msg_type %d(%s).\n", pfkey_msg->sadb_msg_type, pfkey_v2_sadb_type_string(pfkey_msg->sadb_msg_type)); SENDERR(EINVAL); } default: break; } /* errno must not be set in downward messages */ /* this is not entirely true... a response to an ACQUIRE could return an error */ if((dir == EXT_BITS_IN) && (pfkey_msg->sadb_msg_type != SADB_ACQUIRE) && pfkey_msg->sadb_msg_errno) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "errno set to %d.\n", pfkey_msg->sadb_msg_errno); SENDERR(EINVAL); } DEBUGGING(PF_KEY_DEBUG_PARSE_FLOW, "pfkey_msg_parse: " "remain=%d, ext_type=%d(%s), ext_len=%d.\n", remain, pfkey_ext->sadb_ext_type, pfkey_v2_sadb_ext_string(pfkey_ext->sadb_ext_type), pfkey_ext->sadb_ext_len); DEBUGGING(PF_KEY_DEBUG_PARSE_FLOW, "pfkey_msg_parse: " "extensions permitted=%08x, required=%08x.\n", extensions_bitmaps[dir][EXT_BITS_PERM][pfkey_msg->sadb_msg_type], extensions_bitmaps[dir][EXT_BITS_REQ][pfkey_msg->sadb_msg_type]); extensions_seen = 1; while( (remain * IPSEC_PFKEYv2_ALIGN) >= sizeof(struct sadb_ext) ) { /* Is there enough message left to support another extension header? */ if(remain < pfkey_ext->sadb_ext_len) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "remain %d less than ext len %d.\n", remain, pfkey_ext->sadb_ext_len); SENDERR(EINVAL); } DEBUGGING(PF_KEY_DEBUG_PARSE_FLOW, "pfkey_msg_parse: " "parsing ext type=%d(%s) remain=%d.\n", pfkey_ext->sadb_ext_type, pfkey_v2_sadb_ext_string(pfkey_ext->sadb_ext_type), remain); /* Is the extension header type valid? */ if((pfkey_ext->sadb_ext_type > SADB_EXT_MAX) || (!pfkey_ext->sadb_ext_type)) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "ext type %d(%s) invalid, SADB_EXT_MAX=%d.\n", pfkey_ext->sadb_ext_type, pfkey_v2_sadb_ext_string(pfkey_ext->sadb_ext_type), SADB_EXT_MAX); SENDERR(EINVAL); } /* Have we already seen this type of extension? */ if((extensions_seen & ( 1 << pfkey_ext->sadb_ext_type )) != 0) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "ext type %d(%s) already seen.\n", pfkey_ext->sadb_ext_type, pfkey_v2_sadb_ext_string(pfkey_ext->sadb_ext_type)); SENDERR(EINVAL); } /* Do I even know about this type of extension? */ if(ext_parsers[pfkey_ext->sadb_ext_type]==NULL) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "ext type %d(%s) unknown, ignoring.\n", pfkey_ext->sadb_ext_type, pfkey_v2_sadb_ext_string(pfkey_ext->sadb_ext_type)); goto next_ext; } /* Is this type of extension permitted for this type of message? */ if(!(extensions_bitmaps[dir][EXT_BITS_PERM][pfkey_msg->sadb_msg_type] & 1<sadb_ext_type)) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "ext type %d(%s) not permitted, exts_perm_in=%08x, 1<sadb_ext_type, pfkey_v2_sadb_ext_string(pfkey_ext->sadb_ext_type), extensions_bitmaps[dir][EXT_BITS_PERM][pfkey_msg->sadb_msg_type], 1<sadb_ext_type); SENDERR(EINVAL); } DEBUGGING(PF_KEY_DEBUG_PARSE_STRUCT, "pfkey_msg_parse: " "remain=%d ext_type=%d(%s) ext_len=%d parsing ext 0p%p with parser %s.\n", remain, pfkey_ext->sadb_ext_type, pfkey_v2_sadb_ext_string(pfkey_ext->sadb_ext_type), pfkey_ext->sadb_ext_len, pfkey_ext, ext_parsers[pfkey_ext->sadb_ext_type]->parser_name); /* Parse the extension */ if((error = (*ext_parsers[pfkey_ext->sadb_ext_type]->parser)(pfkey_ext))) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "extension parsing for type %d(%s) failed with error %d.\n", pfkey_ext->sadb_ext_type, pfkey_v2_sadb_ext_string(pfkey_ext->sadb_ext_type), error); SENDERR(-error); } DEBUGGING(PF_KEY_DEBUG_PARSE_FLOW, "pfkey_msg_parse: " "Extension %d(%s) parsed.\n", pfkey_ext->sadb_ext_type, pfkey_v2_sadb_ext_string(pfkey_ext->sadb_ext_type)); /* Mark that we have seen this extension and remember the header location */ extensions_seen |= ( 1 << pfkey_ext->sadb_ext_type ); extensions[pfkey_ext->sadb_ext_type] = pfkey_ext; next_ext: /* Calculate how much message remains */ remain -= pfkey_ext->sadb_ext_len; if(!remain) { break; } /* Find the next extension header */ pfkey_ext = (struct sadb_ext*)((char*)pfkey_ext + pfkey_ext->sadb_ext_len * IPSEC_PFKEYv2_ALIGN); } if(remain) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "unexpected remainder of %d.\n", remain); /* why is there still something remaining? */ SENDERR(EINVAL); } /* check required extensions */ DEBUGGING(PF_KEY_DEBUG_PARSE_STRUCT, "pfkey_msg_parse: " "extensions permitted=%08x, seen=%08x, required=%08x.\n", extensions_bitmaps[dir][EXT_BITS_PERM][pfkey_msg->sadb_msg_type], extensions_seen, extensions_bitmaps[dir][EXT_BITS_REQ][pfkey_msg->sadb_msg_type]); /* don't check further if it is an error return message since it may not have a body */ if(pfkey_msg->sadb_msg_errno) { SENDERR(-error); } if((extensions_seen & extensions_bitmaps[dir][EXT_BITS_REQ][pfkey_msg->sadb_msg_type]) != extensions_bitmaps[dir][EXT_BITS_REQ][pfkey_msg->sadb_msg_type]) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "required extensions missing:%08x.\n", extensions_bitmaps[dir][EXT_BITS_REQ][pfkey_msg->sadb_msg_type] - (extensions_seen & extensions_bitmaps[dir][EXT_BITS_REQ][pfkey_msg->sadb_msg_type])); SENDERR(EINVAL); } if((dir == EXT_BITS_IN) && (pfkey_msg->sadb_msg_type == SADB_X_DELFLOW) && ((extensions_seen & SADB_X_EXT_ADDRESS_DELFLOW) != SADB_X_EXT_ADDRESS_DELFLOW) && (((extensions_seen & (1<sadb_sa_flags & SADB_X_SAFLAGS_CLEARFLOW) != SADB_X_SAFLAGS_CLEARFLOW))) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "required SADB_X_DELFLOW extensions missing: either %08x must be present or %08x must be present with SADB_X_SAFLAGS_CLEARFLOW set.\n", SADB_X_EXT_ADDRESS_DELFLOW - (extensions_seen & SADB_X_EXT_ADDRESS_DELFLOW), (1<sadb_msg_type) { case SADB_ADD: case SADB_UPDATE: /* check maturity */ if(((struct sadb_sa*)extensions[SADB_EXT_SA])->sadb_sa_state != SADB_SASTATE_MATURE) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "state=%d for add or update should be MATURE=%d.\n", ((struct sadb_sa*)extensions[SADB_EXT_SA])->sadb_sa_state, SADB_SASTATE_MATURE); SENDERR(EINVAL); } /* check AH and ESP */ switch(((struct sadb_msg*)extensions[SADB_EXT_RESERVED])->sadb_msg_satype) { case SADB_SATYPE_AH: if(!(((struct sadb_sa*)extensions[SADB_EXT_SA]) && ((struct sadb_sa*)extensions[SADB_EXT_SA])->sadb_sa_auth != SADB_AALG_NONE)) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "auth alg is zero, must be non-zero for AH SAs.\n"); SENDERR(EINVAL); } if(((struct sadb_sa*)(extensions[SADB_EXT_SA]))->sadb_sa_encrypt != SADB_EALG_NONE) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "AH handed encalg=%d, must be zero.\n", ((struct sadb_sa*)(extensions[SADB_EXT_SA]))->sadb_sa_encrypt); SENDERR(EINVAL); } break; case SADB_SATYPE_ESP: if(!(((struct sadb_sa*)extensions[SADB_EXT_SA]) && ((struct sadb_sa*)extensions[SADB_EXT_SA])->sadb_sa_encrypt != SADB_EALG_NONE)) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "encrypt alg=%d is zero, must be non-zero for ESP=%d SAs.\n", ((struct sadb_sa*)extensions[SADB_EXT_SA])->sadb_sa_encrypt, ((struct sadb_msg*)extensions[SADB_EXT_RESERVED])->sadb_msg_satype); SENDERR(EINVAL); } if((((struct sadb_sa*)(extensions[SADB_EXT_SA]))->sadb_sa_encrypt == SADB_EALG_NULL) && (((struct sadb_sa*)(extensions[SADB_EXT_SA]))->sadb_sa_auth == SADB_AALG_NONE) ) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "ESP handed encNULL+authNONE, illegal combination.\n"); SENDERR(EINVAL); } break; case SADB_X_SATYPE_COMP: if(!(((struct sadb_sa*)extensions[SADB_EXT_SA]) && ((struct sadb_sa*)extensions[SADB_EXT_SA])->sadb_sa_encrypt != SADB_EALG_NONE)) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "encrypt alg=%d is zero, must be non-zero for COMP=%d SAs.\n", ((struct sadb_sa*)extensions[SADB_EXT_SA])->sadb_sa_encrypt, ((struct sadb_msg*)extensions[SADB_EXT_RESERVED])->sadb_msg_satype); SENDERR(EINVAL); } if(((struct sadb_sa*)(extensions[SADB_EXT_SA]))->sadb_sa_auth != SADB_AALG_NONE) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "COMP handed auth=%d, must be zero.\n", ((struct sadb_sa*)(extensions[SADB_EXT_SA]))->sadb_sa_auth); SENDERR(EINVAL); } break; default: break; } if(ntohl(((struct sadb_sa*)(extensions[SADB_EXT_SA]))->sadb_sa_spi) <= 255) { DEBUGGING(PF_KEY_DEBUG_PARSE_PROBLEM, "pfkey_msg_parse: " "spi=%08x must be > 255.\n", ntohl(((struct sadb_sa*)(extensions[SADB_EXT_SA]))->sadb_sa_spi)); SENDERR(EINVAL); } default: break; } errlab: return error; }