Current Path : /usr/src/crypto/openssh/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //usr/src/crypto/openssh/auth2-jpake.c |
/* $OpenBSD: auth2-jpake.c,v 1.4 2010/08/31 11:54:45 djm Exp $ */ /* * Copyright (c) 2008 Damien Miller. All rights reserved. * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ /* * Server side of zero-knowledge password auth using J-PAKE protocol * as described in: * * F. Hao, P. Ryan, "Password Authenticated Key Exchange by Juggling", * 16th Workshop on Security Protocols, Cambridge, April 2008 * * http://grouper.ieee.org/groups/1363/Research/contributions/hao-ryan-2008.pdf */ #ifdef JPAKE #include <sys/types.h> #include <sys/param.h> #include <pwd.h> #include <stdio.h> #include <string.h> #include <login_cap.h> #include <openssl/bn.h> #include <openssl/evp.h> #include "xmalloc.h" #include "ssh2.h" #include "key.h" #include "hostfile.h" #include "auth.h" #include "buffer.h" #include "packet.h" #include "dispatch.h" #include "log.h" #include "servconf.h" #include "auth-options.h" #include "canohost.h" #ifdef GSSAPI #include "ssh-gss.h" #endif #include "monitor_wrap.h" #include "schnorr.h" #include "jpake.h" /* * XXX options->permit_empty_passwd (at the moment, they will be refused * anyway because they will mismatch on fake salt. */ /* Dispatch handlers */ static void input_userauth_jpake_client_step1(int, u_int32_t, void *); static void input_userauth_jpake_client_step2(int, u_int32_t, void *); static void input_userauth_jpake_client_confirm(int, u_int32_t, void *); static int auth2_jpake_start(Authctxt *); /* import */ extern ServerOptions options; extern u_char *session_id2; extern u_int session_id2_len; /* * Attempt J-PAKE authentication. */ static int userauth_jpake(Authctxt *authctxt) { int authenticated = 0; packet_check_eom(); debug("jpake-01@openssh.com requested"); if (authctxt->user != NULL) { if (authctxt->jpake_ctx == NULL) authctxt->jpake_ctx = jpake_new(); if (options.zero_knowledge_password_authentication) authenticated = auth2_jpake_start(authctxt); } return authenticated; } Authmethod method_jpake = { "jpake-01@openssh.com", userauth_jpake, &options.zero_knowledge_password_authentication }; /* Clear context and callbacks */ void auth2_jpake_stop(Authctxt *authctxt) { /* unregister callbacks */ dispatch_set(SSH2_MSG_USERAUTH_JPAKE_CLIENT_STEP1, NULL); dispatch_set(SSH2_MSG_USERAUTH_JPAKE_CLIENT_STEP2, NULL); dispatch_set(SSH2_MSG_USERAUTH_JPAKE_CLIENT_CONFIRM, NULL); if (authctxt->jpake_ctx != NULL) { jpake_free(authctxt->jpake_ctx); authctxt->jpake_ctx = NULL; } } /* Returns 1 if 'c' is a valid crypt(3) salt character, 0 otherwise */ static int valid_crypt_salt(int c) { if (c >= 'A' && c <= 'Z') return 1; if (c >= 'a' && c <= 'z') return 1; if (c >= '.' && c <= '9') return 1; return 0; } /* * Derive fake salt as H(username || first_private_host_key) * This provides relatively stable fake salts for non-existent * users and avoids the jpake method becoming an account validity * oracle. */ static void derive_rawsalt(const char *username, u_char *rawsalt, u_int len) { u_char *digest; u_int digest_len; Buffer b; Key *k; buffer_init(&b); buffer_put_cstring(&b, username); if ((k = get_hostkey_by_index(0)) == NULL || (k->flags & KEY_FLAG_EXT)) fatal("%s: no hostkeys", __func__); switch (k->type) { case KEY_RSA1: case KEY_RSA: if (k->rsa->p == NULL || k->rsa->q == NULL) fatal("%s: RSA key missing p and/or q", __func__); buffer_put_bignum2(&b, k->rsa->p); buffer_put_bignum2(&b, k->rsa->q); break; case KEY_DSA: if (k->dsa->priv_key == NULL) fatal("%s: DSA key missing priv_key", __func__); buffer_put_bignum2(&b, k->dsa->priv_key); break; case KEY_ECDSA: if (EC_KEY_get0_private_key(k->ecdsa) == NULL) fatal("%s: ECDSA key missing priv_key", __func__); buffer_put_bignum2(&b, EC_KEY_get0_private_key(k->ecdsa)); break; default: fatal("%s: unknown key type %d", __func__, k->type); } if (hash_buffer(buffer_ptr(&b), buffer_len(&b), EVP_sha256(), &digest, &digest_len) != 0) fatal("%s: hash_buffer", __func__); buffer_free(&b); if (len > digest_len) fatal("%s: not enough bytes for rawsalt (want %u have %u)", __func__, len, digest_len); memcpy(rawsalt, digest, len); bzero(digest, digest_len); xfree(digest); } /* ASCII an integer [0, 64) for inclusion in a password/salt */ static char pw_encode64(u_int i64) { const u_char e64[] = "./0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz"; return e64[i64 % 64]; } /* Generate ASCII salt bytes for user */ static char * makesalt(u_int want, const char *user) { u_char rawsalt[32]; static char ret[33]; u_int i; if (want > sizeof(ret) - 1) fatal("%s: want %u", __func__, want); derive_rawsalt(user, rawsalt, sizeof(rawsalt)); bzero(ret, sizeof(ret)); for (i = 0; i < want; i++) ret[i] = pw_encode64(rawsalt[i]); bzero(rawsalt, sizeof(rawsalt)); return ret; } /* * Select the system's default password hashing scheme and generate * a stable fake salt under it for use by a non-existent account. * Prevents jpake method being used to infer the validity of accounts. */ static void fake_salt_and_scheme(Authctxt *authctxt, char **salt, char **scheme) { char *rounds_s, *style; long long rounds; login_cap_t *lc; if ((lc = login_getclass(authctxt->pw->pw_class)) == NULL && (lc = login_getclass(NULL)) == NULL) fatal("%s: login_getclass failed", __func__); style = login_getcapstr(lc, "localcipher", NULL, NULL); if (style == NULL) style = xstrdup("blowfish,6"); login_close(lc); if ((rounds_s = strchr(style, ',')) != NULL) *rounds_s++ = '\0'; rounds = strtonum(rounds_s, 1, 1<<31, NULL); if (strcmp(style, "md5") == 0) { xasprintf(salt, "$1$%s$", makesalt(8, authctxt->user)); *scheme = xstrdup("md5"); } else if (strcmp(style, "old") == 0) { *salt = xstrdup(makesalt(2, authctxt->user)); *scheme = xstrdup("crypt"); } else if (strcmp(style, "newsalt") == 0) { rounds = MAX(rounds, 7250); rounds = MIN(rounds, (1<<24) - 1); xasprintf(salt, "_%c%c%c%c%s", pw_encode64(rounds), pw_encode64(rounds >> 6), pw_encode64(rounds >> 12), pw_encode64(rounds >> 18), makesalt(4, authctxt->user)); *scheme = xstrdup("crypt-extended"); } else { /* Default to blowfish */ rounds = MAX(rounds, 3); rounds = MIN(rounds, 31); xasprintf(salt, "$2a$%02lld$%s", rounds, makesalt(22, authctxt->user)); *scheme = xstrdup("bcrypt"); } xfree(style); debug3("%s: fake %s salt for user %s: %s", __func__, *scheme, authctxt->user, *salt); } /* * Fetch password hashing scheme, password salt and derive shared secret * for user. If user does not exist, a fake but stable and user-unique * salt will be returned. */ void auth2_jpake_get_pwdata(Authctxt *authctxt, BIGNUM **s, char **hash_scheme, char **salt) { char *cp; u_char *secret; u_int secret_len, salt_len; #ifdef JPAKE_DEBUG debug3("%s: valid %d pw %.5s...", __func__, authctxt->valid, authctxt->pw->pw_passwd); #endif *salt = NULL; *hash_scheme = NULL; if (authctxt->valid) { if (strncmp(authctxt->pw->pw_passwd, "$2$", 3) == 0 && strlen(authctxt->pw->pw_passwd) > 28) { /* * old-variant bcrypt: * "$2$", 2 digit rounds, "$", 22 bytes salt */ salt_len = 3 + 2 + 1 + 22 + 1; *salt = xmalloc(salt_len); strlcpy(*salt, authctxt->pw->pw_passwd, salt_len); *hash_scheme = xstrdup("bcrypt"); } else if (strncmp(authctxt->pw->pw_passwd, "$2a$", 4) == 0 && strlen(authctxt->pw->pw_passwd) > 29) { /* * current-variant bcrypt: * "$2a$", 2 digit rounds, "$", 22 bytes salt */ salt_len = 4 + 2 + 1 + 22 + 1; *salt = xmalloc(salt_len); strlcpy(*salt, authctxt->pw->pw_passwd, salt_len); *hash_scheme = xstrdup("bcrypt"); } else if (strncmp(authctxt->pw->pw_passwd, "$1$", 3) == 0 && strlen(authctxt->pw->pw_passwd) > 5) { /* * md5crypt: * "$1$", salt until "$" */ cp = strchr(authctxt->pw->pw_passwd + 3, '$'); if (cp != NULL) { salt_len = (cp - authctxt->pw->pw_passwd) + 1; *salt = xmalloc(salt_len); strlcpy(*salt, authctxt->pw->pw_passwd, salt_len); *hash_scheme = xstrdup("md5crypt"); } } else if (strncmp(authctxt->pw->pw_passwd, "_", 1) == 0 && strlen(authctxt->pw->pw_passwd) > 9) { /* * BSDI extended crypt: * "_", 4 digits count, 4 chars salt */ salt_len = 1 + 4 + 4 + 1; *salt = xmalloc(salt_len); strlcpy(*salt, authctxt->pw->pw_passwd, salt_len); *hash_scheme = xstrdup("crypt-extended"); } else if (strlen(authctxt->pw->pw_passwd) == 13 && valid_crypt_salt(authctxt->pw->pw_passwd[0]) && valid_crypt_salt(authctxt->pw->pw_passwd[1])) { /* * traditional crypt: * 2 chars salt */ salt_len = 2 + 1; *salt = xmalloc(salt_len); strlcpy(*salt, authctxt->pw->pw_passwd, salt_len); *hash_scheme = xstrdup("crypt"); } if (*salt == NULL) { debug("%s: unrecognised crypt scheme for user %s", __func__, authctxt->pw->pw_name); } } if (*salt == NULL) fake_salt_and_scheme(authctxt, salt, hash_scheme); if (hash_buffer(authctxt->pw->pw_passwd, strlen(authctxt->pw->pw_passwd), EVP_sha256(), &secret, &secret_len) != 0) fatal("%s: hash_buffer", __func__); if ((*s = BN_bin2bn(secret, secret_len, NULL)) == NULL) fatal("%s: BN_bin2bn (secret)", __func__); #ifdef JPAKE_DEBUG debug3("%s: salt = %s (len %u)", __func__, *salt, (u_int)strlen(*salt)); debug3("%s: scheme = %s", __func__, *hash_scheme); JPAKE_DEBUG_BN((*s, "%s: s = ", __func__)); #endif bzero(secret, secret_len); xfree(secret); } /* * Begin authentication attempt. * Note, sets authctxt->postponed while in subprotocol */ static int auth2_jpake_start(Authctxt *authctxt) { struct jpake_ctx *pctx = authctxt->jpake_ctx; u_char *x3_proof, *x4_proof; u_int x3_proof_len, x4_proof_len; char *salt, *hash_scheme; debug("%s: start", __func__); PRIVSEP(jpake_step1(pctx->grp, &pctx->server_id, &pctx->server_id_len, &pctx->x3, &pctx->x4, &pctx->g_x3, &pctx->g_x4, &x3_proof, &x3_proof_len, &x4_proof, &x4_proof_len)); PRIVSEP(auth2_jpake_get_pwdata(authctxt, &pctx->s, &hash_scheme, &salt)); if (!use_privsep) JPAKE_DEBUG_CTX((pctx, "step 1 sending in %s", __func__)); packet_start(SSH2_MSG_USERAUTH_JPAKE_SERVER_STEP1); packet_put_cstring(hash_scheme); packet_put_cstring(salt); packet_put_string(pctx->server_id, pctx->server_id_len); packet_put_bignum2(pctx->g_x3); packet_put_bignum2(pctx->g_x4); packet_put_string(x3_proof, x3_proof_len); packet_put_string(x4_proof, x4_proof_len); packet_send(); packet_write_wait(); bzero(hash_scheme, strlen(hash_scheme)); bzero(salt, strlen(salt)); xfree(hash_scheme); xfree(salt); bzero(x3_proof, x3_proof_len); bzero(x4_proof, x4_proof_len); xfree(x3_proof); xfree(x4_proof); /* Expect step 1 packet from peer */ dispatch_set(SSH2_MSG_USERAUTH_JPAKE_CLIENT_STEP1, input_userauth_jpake_client_step1); authctxt->postponed = 1; return 0; } /* ARGSUSED */ static void input_userauth_jpake_client_step1(int type, u_int32_t seq, void *ctxt) { Authctxt *authctxt = ctxt; struct jpake_ctx *pctx = authctxt->jpake_ctx; u_char *x1_proof, *x2_proof, *x4_s_proof; u_int x1_proof_len, x2_proof_len, x4_s_proof_len; /* Disable this message */ dispatch_set(SSH2_MSG_USERAUTH_JPAKE_CLIENT_STEP1, NULL); /* Fetch step 1 values */ if ((pctx->g_x1 = BN_new()) == NULL || (pctx->g_x2 = BN_new()) == NULL) fatal("%s: BN_new", __func__); pctx->client_id = packet_get_string(&pctx->client_id_len); packet_get_bignum2(pctx->g_x1); packet_get_bignum2(pctx->g_x2); x1_proof = packet_get_string(&x1_proof_len); x2_proof = packet_get_string(&x2_proof_len); packet_check_eom(); if (!use_privsep) JPAKE_DEBUG_CTX((pctx, "step 1 received in %s", __func__)); PRIVSEP(jpake_step2(pctx->grp, pctx->s, pctx->g_x3, pctx->g_x1, pctx->g_x2, pctx->x4, pctx->client_id, pctx->client_id_len, pctx->server_id, pctx->server_id_len, x1_proof, x1_proof_len, x2_proof, x2_proof_len, &pctx->b, &x4_s_proof, &x4_s_proof_len)); bzero(x1_proof, x1_proof_len); bzero(x2_proof, x2_proof_len); xfree(x1_proof); xfree(x2_proof); if (!use_privsep) JPAKE_DEBUG_CTX((pctx, "step 2 sending in %s", __func__)); /* Send values for step 2 */ packet_start(SSH2_MSG_USERAUTH_JPAKE_SERVER_STEP2); packet_put_bignum2(pctx->b); packet_put_string(x4_s_proof, x4_s_proof_len); packet_send(); packet_write_wait(); bzero(x4_s_proof, x4_s_proof_len); xfree(x4_s_proof); /* Expect step 2 packet from peer */ dispatch_set(SSH2_MSG_USERAUTH_JPAKE_CLIENT_STEP2, input_userauth_jpake_client_step2); } /* ARGSUSED */ static void input_userauth_jpake_client_step2(int type, u_int32_t seq, void *ctxt) { Authctxt *authctxt = ctxt; struct jpake_ctx *pctx = authctxt->jpake_ctx; u_char *x2_s_proof; u_int x2_s_proof_len; /* Disable this message */ dispatch_set(SSH2_MSG_USERAUTH_JPAKE_CLIENT_STEP2, NULL); if ((pctx->a = BN_new()) == NULL) fatal("%s: BN_new", __func__); /* Fetch step 2 values */ packet_get_bignum2(pctx->a); x2_s_proof = packet_get_string(&x2_s_proof_len); packet_check_eom(); if (!use_privsep) JPAKE_DEBUG_CTX((pctx, "step 2 received in %s", __func__)); /* Derive shared key and calculate confirmation hash */ PRIVSEP(jpake_key_confirm(pctx->grp, pctx->s, pctx->a, pctx->x4, pctx->g_x3, pctx->g_x4, pctx->g_x1, pctx->g_x2, pctx->server_id, pctx->server_id_len, pctx->client_id, pctx->client_id_len, session_id2, session_id2_len, x2_s_proof, x2_s_proof_len, &pctx->k, &pctx->h_k_sid_sessid, &pctx->h_k_sid_sessid_len)); bzero(x2_s_proof, x2_s_proof_len); xfree(x2_s_proof); if (!use_privsep) JPAKE_DEBUG_CTX((pctx, "confirm sending in %s", __func__)); /* Send key confirmation proof */ packet_start(SSH2_MSG_USERAUTH_JPAKE_SERVER_CONFIRM); packet_put_string(pctx->h_k_sid_sessid, pctx->h_k_sid_sessid_len); packet_send(); packet_write_wait(); /* Expect confirmation from peer */ dispatch_set(SSH2_MSG_USERAUTH_JPAKE_CLIENT_CONFIRM, input_userauth_jpake_client_confirm); } /* ARGSUSED */ static void input_userauth_jpake_client_confirm(int type, u_int32_t seq, void *ctxt) { Authctxt *authctxt = ctxt; struct jpake_ctx *pctx = authctxt->jpake_ctx; int authenticated = 0; /* Disable this message */ dispatch_set(SSH2_MSG_USERAUTH_JPAKE_CLIENT_CONFIRM, NULL); pctx->h_k_cid_sessid = packet_get_string(&pctx->h_k_cid_sessid_len); packet_check_eom(); if (!use_privsep) JPAKE_DEBUG_CTX((pctx, "confirm received in %s", __func__)); /* Verify expected confirmation hash */ if (PRIVSEP(jpake_check_confirm(pctx->k, pctx->client_id, pctx->client_id_len, session_id2, session_id2_len, pctx->h_k_cid_sessid, pctx->h_k_cid_sessid_len)) == 1) authenticated = authctxt->valid ? 1 : 0; else debug("%s: confirmation mismatch", __func__); /* done */ authctxt->postponed = 0; jpake_free(authctxt->jpake_ctx); authctxt->jpake_ctx = NULL; userauth_finish(authctxt, authenticated, method_jpake.name); } #endif /* JPAKE */