/* $Id$ */ /* * Copyright (C) 2008-2011 Teluu Inc. (http://www.teluu.com) * Copyright (C) 2003-2008 Benny Prijono * * 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. * * 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. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include #include #include #include #include #include #include #include #if PJSIP_HAS_DIGEST_AKA_AUTH #include "../../third_party/milenage/milenage.h" /* * Create MD5-AKA1 digest response. */ PJ_DEF(pj_status_t) pjsip_auth_create_aka_response( pj_pool_t *pool, const pjsip_digest_challenge*chal, const pjsip_cred_info *cred, const pj_str_t *method, pjsip_digest_credential *auth) { pj_str_t nonce_bin; int aka_version; const pj_str_t pjsip_AKAv1_MD5 = { "AKAv1-MD5", 9 }; const pj_str_t pjsip_AKAv2_MD5 = { "AKAv2-MD5", 9 }; pj_uint8_t *chal_rand, *chal_sqnxoraka, *chal_mac; pj_uint8_t k[PJSIP_AKA_KLEN]; pj_uint8_t op[PJSIP_AKA_OPLEN]; pj_uint8_t amf[PJSIP_AKA_AMFLEN]; pj_uint8_t res[PJSIP_AKA_RESLEN]; pj_uint8_t ck[PJSIP_AKA_CKLEN]; pj_uint8_t ik[PJSIP_AKA_IKLEN]; pj_uint8_t ak[PJSIP_AKA_AKLEN]; pj_uint8_t sqn[PJSIP_AKA_SQNLEN]; pj_uint8_t xmac[PJSIP_AKA_MACLEN]; pjsip_cred_info aka_cred; int i, len; pj_status_t status; /* Check the algorithm is supported. */ if (chal->algorithm.slen==0 || pj_stricmp2(&chal->algorithm, "md5") == 0) { /* * A normal MD5 authentication is requested. Fallbackt to the usual * MD5 digest creation. */ pjsip_auth_create_digest(&auth->response, &auth->nonce, &auth->nc, &auth->cnonce, &auth->qop, &auth->uri, &auth->realm, cred, method); return PJ_SUCCESS; } else if (pj_stricmp(&chal->algorithm, &pjsip_AKAv1_MD5) == 0) { /* * AKA version 1 is requested. */ aka_version = 1; } else if (pj_stricmp(&chal->algorithm, &pjsip_AKAv2_MD5) == 0) { /* * AKA version 2 is requested. */ aka_version = 2; } else { /* Unsupported algorithm */ return PJSIP_EINVALIDALGORITHM; } /* Decode nonce */ nonce_bin.slen = len = PJ_BASE64_TO_BASE256_LEN(chal->nonce.slen); nonce_bin.ptr = pj_pool_alloc(pool, nonce_bin.slen + 1); status = pj_base64_decode(&chal->nonce, (pj_uint8_t*)nonce_bin.ptr, &len); nonce_bin.slen = len; if (status != PJ_SUCCESS) return PJSIP_EAUTHINNONCE; if (nonce_bin.slen < PJSIP_AKA_RANDLEN + PJSIP_AKA_AUTNLEN) return PJSIP_EAUTHINNONCE; /* Get RAND, AUTN, and MAC */ chal_rand = (pj_uint8_t*)(nonce_bin.ptr + 0); chal_sqnxoraka = (pj_uint8_t*) (nonce_bin.ptr + PJSIP_AKA_RANDLEN); chal_mac = (pj_uint8_t*) (nonce_bin.ptr + PJSIP_AKA_RANDLEN + PJSIP_AKA_SQNLEN + PJSIP_AKA_AMFLEN); /* Copy k. op, and amf */ pj_bzero(k, sizeof(k)); pj_bzero(op, sizeof(op)); pj_bzero(amf, sizeof(amf)); if (cred->ext.aka.k.slen) pj_memcpy(k, cred->ext.aka.k.ptr, cred->ext.aka.k.slen); if (cred->ext.aka.op.slen) pj_memcpy(op, cred->ext.aka.op.ptr, cred->ext.aka.op.slen); if (cred->ext.aka.amf.slen) pj_memcpy(amf, cred->ext.aka.amf.ptr, cred->ext.aka.amf.slen); /* Given key K and random challenge RAND, compute response RES, * confidentiality key CK, integrity key IK and anonymity key AK. */ f2345(k, chal_rand, res, ck, ik, ak, op); /* Compute sequence number SQN */ for (i=0; iresponse, &chal->nonce, &auth->nc, &auth->cnonce, &auth->qop, &auth->uri, &chal->realm, &aka_cred, method); } else if (aka_version == 2) { /* * For AKAv2, password is base64 encoded [1] parameters: * PRF(RES||IK||CK,"http-digest-akav2-password") * * The pseudo-random function (PRF) is HMAC-MD5 in this case. */ pj_str_t resikck; const pj_str_t AKAv2_Passwd = { "http-digest-akav2-password", 26 }; pj_uint8_t hmac_digest[16]; char tmp_buf[48]; int hmac64_len; resikck.slen = PJSIP_AKA_RESLEN + PJSIP_AKA_IKLEN + PJSIP_AKA_CKLEN; pj_assert(resikck.slen <= PJ_ARRAY_SIZE(tmp_buf)); resikck.ptr = tmp_buf; pj_memcpy(resikck.ptr + 0, res, PJSIP_AKA_RESLEN); pj_memcpy(resikck.ptr + PJSIP_AKA_RESLEN, ik, PJSIP_AKA_IKLEN); pj_memcpy(resikck.ptr + PJSIP_AKA_RESLEN + PJSIP_AKA_IKLEN, ck, PJSIP_AKA_CKLEN); pj_hmac_md5((const pj_uint8_t*)AKAv2_Passwd.ptr, AKAv2_Passwd.slen, (const pj_uint8_t*)resikck.ptr, resikck.slen, hmac_digest); aka_cred.data.slen = hmac64_len = PJ_BASE256_TO_BASE64_LEN(PJ_ARRAY_SIZE(hmac_digest)); pj_assert(aka_cred.data.slen+1 <= PJ_ARRAY_SIZE(tmp_buf)); aka_cred.data.ptr = tmp_buf; pj_base64_encode(hmac_digest, PJ_ARRAY_SIZE(hmac_digest), aka_cred.data.ptr, &len); aka_cred.data.slen = hmac64_len; pjsip_auth_create_digest(&auth->response, &chal->nonce, &auth->nc, &auth->cnonce, &auth->qop, &auth->uri, &chal->realm, &aka_cred, method); } else { pj_assert(!"Bug!"); return PJ_EBUG; } /* Done */ return PJ_SUCCESS; } #endif /* PJSIP_HAS_DIGEST_AKA_AUTH */