Mercurial > dropbear
view svr-kex.c @ 11:f76c9389e9e0
Mostly done with the listener changeover
author | Matt Johnston <matt@ucc.asn.au> |
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date | Thu, 03 Jun 2004 17:22:48 +0000 |
parents | fe6bca95afa7 |
children | c1e5d9195402 |
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/* * Dropbear - a SSH2 server * * Copyright (c) 2002,2003 Matt Johnston * All rights reserved. * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #include "includes.h" #include "dbutil.h" #include "algo.h" #include "buffer.h" #include "session.h" #include "kex.h" #include "ssh.h" #include "packet.h" #include "bignum.h" #include "random.h" static void send_msg_kexdh_reply(mp_int *dh_e); /* Handle a diffie-hellman key exchange initialisation. This involves * calculating a session key reply value, and corresponding hash. These * are carried out by send_msg_kexdh_reply(). recv_msg_kexdh_init() calls * that function, then brings the new keys into use */ void recv_msg_kexdh_init() { mp_int dh_e; TRACE(("enter recv_msg_kexdh_init")); if (!ses.kexstate.recvkexinit) { dropbear_exit("Premature kexdh_init message received"); } m_mp_init(&dh_e); buf_getmpint(ses.payload, &dh_e); send_msg_kexdh_reply(&dh_e); mp_clear(&dh_e); send_msg_newkeys(); ses.expecting = SSH_MSG_NEWKEYS; TRACE(("leave recv_msg_kexdh_init")); } /* Generate our side of the diffie-hellman key exchange value (dh_f), and * calculate the session key using the diffie-hellman algorithm. Following * that, the session hash is calculated, and signed with RSA or DSS. The * result is sent to the client. * * See the ietf-secsh-transport draft, section 6, for details */ static void send_msg_kexdh_reply(mp_int *dh_e) { mp_int dh_p, dh_q, dh_g, dh_y, dh_f; unsigned char randbuf[DH_P_LEN]; int dh_q_len; hash_state hs; TRACE(("enter send_msg_kexdh_reply")); m_mp_init_multi(&dh_g, &dh_p, &dh_q, &dh_y, &dh_f, NULL); /* read the prime and generator*/ if (mp_read_unsigned_bin(&dh_p, (unsigned char*)dh_p_val, DH_P_LEN) != MP_OKAY) { dropbear_exit("Diffie-Hellman error"); } if (mp_set_int(&dh_g, DH_G_VAL) != MP_OKAY) { dropbear_exit("Diffie-Hellman error"); } /* calculate q = (p-1)/2 */ if (mp_sub_d(&dh_p, 1, &dh_y) != MP_OKAY) { /*dh_y is just a temp var here*/ dropbear_exit("Diffie-Hellman error"); } if (mp_div_2(&dh_y, &dh_q) != MP_OKAY) { dropbear_exit("Diffie-Hellman error"); } dh_q_len = mp_unsigned_bin_size(&dh_q); /* calculate our random value dh_y */ do { assert((unsigned int)dh_q_len <= sizeof(randbuf)); genrandom(randbuf, dh_q_len); if (mp_read_unsigned_bin(&dh_y, randbuf, dh_q_len) != MP_OKAY) { dropbear_exit("Diffie-Hellman error"); } } while (mp_cmp(&dh_y, &dh_q) == MP_GT || mp_cmp_d(&dh_y, 0) != MP_GT); /* f = g^y mod p */ if (mp_exptmod(&dh_g, &dh_y, &dh_p, &dh_f) != MP_OKAY) { dropbear_exit("Diffie-Hellman error"); } mp_clear(&dh_g); /* K = e^y mod p */ ses.dh_K = (mp_int*)m_malloc(sizeof(mp_int)); m_mp_init(ses.dh_K); if (mp_exptmod(dh_e, &dh_y, &dh_p, ses.dh_K) != MP_OKAY) { dropbear_exit("Diffie-Hellman error"); } /* clear no longer needed vars */ mp_clear_multi(&dh_y, &dh_p, &dh_q, NULL); /* Create the remainder of the hash buffer, to generate the exchange hash */ /* K_S, the host key */ buf_put_pub_key(ses.kexhashbuf, ses.opts->hostkey, ses.newkeys->algo_hostkey); /* e, exchange value sent by the client */ buf_putmpint(ses.kexhashbuf, dh_e); /* f, exchange value sent by the server */ buf_putmpint(ses.kexhashbuf, &dh_f); /* K, the shared secret */ buf_putmpint(ses.kexhashbuf, ses.dh_K); /* calculate the hash H to sign */ sha1_init(&hs); buf_setpos(ses.kexhashbuf, 0); sha1_process(&hs, buf_getptr(ses.kexhashbuf, ses.kexhashbuf->len), ses.kexhashbuf->len); sha1_done(&hs, ses.hash); buf_free(ses.kexhashbuf); ses.kexhashbuf = NULL; /* first time around, we set the session_id to H */ if (ses.session_id == NULL) { /* create the session_id, this never needs freeing */ ses.session_id = (unsigned char*)m_malloc(SHA1_HASH_SIZE); memcpy(ses.session_id, ses.hash, SHA1_HASH_SIZE); } /* we can start creating the kexdh_reply packet */ CHECKCLEARTOWRITE(); buf_putbyte(ses.writepayload, SSH_MSG_KEXDH_REPLY); buf_put_pub_key(ses.writepayload, ses.opts->hostkey, ses.newkeys->algo_hostkey); /* put f */ buf_putmpint(ses.writepayload, &dh_f); mp_clear(&dh_f); /* calc the signature */ buf_put_sign(ses.writepayload, ses.opts->hostkey, ses.newkeys->algo_hostkey, ses.hash, SHA1_HASH_SIZE); /* the SSH_MSG_KEXDH_REPLY is done */ encrypt_packet(); TRACE(("leave send_msg_kexdh_reply")); } /* read the client's choice of algorithms */ void svr_read_kex() { algo_type * algo; char * erralgo = NULL; int goodguess = 0; int allgood = 1; /* we AND this with each goodguess and see if its still true after */ buf_incrpos(ses.payload, 16); /* start after the cookie */ ses.newkeys = (struct key_context*)m_malloc(sizeof(struct key_context)); /* kex_algorithms */ algo = svr_buf_match_algo(ses.payload, sshkex, &goodguess); allgood &= goodguess; if (algo == NULL) { erralgo = "kex"; goto error; } ses.newkeys->algo_kex = algo->val; /* server_host_key_algorithms */ algo = svr_buf_match_algo(ses.payload, sshhostkey, &goodguess); allgood &= goodguess; if (algo == NULL) { erralgo = "hostkey"; goto error; } ses.newkeys->algo_hostkey = algo->val; /* encryption_algorithms_client_to_server */ algo = svr_buf_match_algo(ses.payload, sshciphers, &goodguess); if (algo == NULL) { erralgo = "enc c->s"; goto error; } ses.newkeys->recv_algo_crypt = (struct dropbear_cipher*)algo->data; /* encryption_algorithms_server_to_client */ algo = svr_buf_match_algo(ses.payload, sshciphers, &goodguess); if (algo == NULL) { erralgo = "enc s->c"; goto error; } ses.newkeys->trans_algo_crypt = (struct dropbear_cipher*)algo->data; /* mac_algorithms_client_to_server */ algo = svr_buf_match_algo(ses.payload, sshhashes, &goodguess); if (algo == NULL) { erralgo = "mac c->s"; goto error; } ses.newkeys->recv_algo_mac = (struct dropbear_hash*)algo->data; /* mac_algorithms_server_to_client */ algo = svr_buf_match_algo(ses.payload, sshhashes, &goodguess); if (algo == NULL) { erralgo = "mac s->c"; goto error; } ses.newkeys->trans_algo_mac = (struct dropbear_hash*)algo->data; /* compression_algorithms_client_to_server */ algo = svr_buf_match_algo(ses.payload, sshcompress, &goodguess); if (algo == NULL) { erralgo = "comp c->s"; goto error; } ses.newkeys->recv_algo_comp = algo->val; /* compression_algorithms_server_to_client */ algo = svr_buf_match_algo(ses.payload, sshcompress, &goodguess); if (algo == NULL) { erralgo = "comp s->c"; goto error; } ses.newkeys->trans_algo_comp = algo->val; /* languages_client_to_server */ buf_eatstring(ses.payload); /* languages_server_to_client */ buf_eatstring(ses.payload); /* first_kex_packet_follows */ if (buf_getbyte(ses.payload)) { ses.kexstate.firstfollows = 1; /* if the guess wasn't good, we ignore the packet sent */ if (!allgood) { ses.ignorenext = 1; } } /* reserved for future extensions */ buf_getint(ses.payload); return; error: dropbear_exit("no matching algo %s", erralgo); }