Mercurial > dropbear
view common-kex.c @ 22:c1e5d9195402
merge of abac2150ee4f4031a98016241fbd136d24fed127
and ffa047425729e478a5b49b1ab0f8ec71c08a1421
author | Matt Johnston <matt@ucc.asn.au> |
---|---|
date | Wed, 23 Jun 2004 07:14:16 +0000 |
parents | fe6bca95afa7 |
children | 0969767bca0d |
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/* * Dropbear - a SSH2 server * SSH client implementation * * This code is copied from the larger file "kex.c" * some functions are verbatim, others are generalized --mihnea * * Copyright (c) 2002,2003 Matt Johnston * Portions Copyright (c) 2004 by Mihnea Stoenescu * 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" /* diffie-hellman-group1-sha1 value for p */ const unsigned char dh_p_val[] = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xC9, 0x0F, 0xDA, 0xA2, 0x21, 0x68, 0xC2, 0x34, 0xC4, 0xC6, 0x62, 0x8B, 0x80, 0xDC, 0x1C, 0xD1, 0x29, 0x02, 0x4E, 0x08, 0x8A, 0x67, 0xCC, 0x74, 0x02, 0x0B, 0xBE, 0xA6, 0x3B, 0x13, 0x9B, 0x22, 0x51, 0x4A, 0x08, 0x79, 0x8E, 0x34, 0x04, 0xDD, 0xEF, 0x95, 0x19, 0xB3, 0xCD, 0x3A, 0x43, 0x1B, 0x30, 0x2B, 0x0A, 0x6D, 0xF2, 0x5F, 0x14, 0x37, 0x4F, 0xE1, 0x35, 0x6D, 0x6D, 0x51, 0xC2, 0x45, 0xE4, 0x85, 0xB5, 0x76, 0x62, 0x5E, 0x7E, 0xC6, 0xF4, 0x4C, 0x42, 0xE9, 0xA6, 0x37, 0xED, 0x6B, 0x0B, 0xFF, 0x5C, 0xB6, 0xF4, 0x06, 0xB7, 0xED, 0xEE, 0x38, 0x6B, 0xFB, 0x5A, 0x89, 0x9F, 0xA5, 0xAE, 0x9F, 0x24, 0x11, 0x7C, 0x4B, 0x1F, 0xE6, 0x49, 0x28, 0x66, 0x51, 0xEC, 0xE6, 0x53, 0x81, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF}; const int DH_G_VAL = 2; static void gen_new_keys(); #ifndef DISABLE_ZLIB static void gen_new_zstreams(); #endif /* helper function for gen_new_keys */ static void hashkeys(unsigned char *out, int outlen, const hash_state * hs, unsigned const char X); /* Send our list of algorithms we can use */ void send_msg_kexinit() { CHECKCLEARTOWRITE(); buf_putbyte(ses.writepayload, SSH_MSG_KEXINIT); /* cookie */ genrandom(buf_getwriteptr(ses.writepayload, 16), 16); buf_incrwritepos(ses.writepayload, 16); /* kex algos */ buf_put_algolist(ses.writepayload, sshkex); /* server_host_key_algorithms */ buf_put_algolist(ses.writepayload, sshhostkey); /* encryption_algorithms_client_to_server */ buf_put_algolist(ses.writepayload, sshciphers); /* encryption_algorithms_server_to_client */ buf_put_algolist(ses.writepayload, sshciphers); /* mac_algorithms_client_to_server */ buf_put_algolist(ses.writepayload, sshhashes); /* mac_algorithms_server_to_client */ buf_put_algolist(ses.writepayload, sshhashes); /* compression_algorithms_client_to_server */ buf_put_algolist(ses.writepayload, sshcompress); /* compression_algorithms_server_to_client */ buf_put_algolist(ses.writepayload, sshcompress); /* languages_client_to_server */ buf_putstring(ses.writepayload, "", 0); /* languages_server_to_client */ buf_putstring(ses.writepayload, "", 0); /* first_kex_packet_follows - unimplemented for now */ buf_putbyte(ses.writepayload, 0x00); /* reserved unit32 */ buf_putint(ses.writepayload, 0); /* set up transmitted kex packet buffer for hashing. * This is freed after the end of the kex */ ses.transkexinit = buf_newcopy(ses.writepayload); encrypt_packet(); ses.dataallowed = 0; /* don't send other packets during kex */ TRACE(("DATAALLOWED=0")); TRACE(("-> KEXINIT")); ses.kexstate.sentkexinit = 1; } /* *** NOTE regarding (send|recv)_msg_newkeys *** * Changed by mihnea from the original kex.c to set dataallowed after a * completed key exchange, no matter the order in which it was performed. * This enables client mode without affecting server functionality. */ /* Bring new keys into use after a key exchange, and let the client know*/ void send_msg_newkeys() { TRACE(("enter send_msg_newkeys")); /* generate the kexinit request */ CHECKCLEARTOWRITE(); buf_putbyte(ses.writepayload, SSH_MSG_NEWKEYS); encrypt_packet(); /* set up our state */ if (ses.kexstate.recvnewkeys) { TRACE(("while RECVNEWKEYS=1")); gen_new_keys(); kexinitialise(); /* we've finished with this kex */ TRACE((" -> DATAALLOWED=1")); ses.dataallowed = 1; /* we can send other packets again now */ } else { ses.kexstate.sentnewkeys = 1; TRACE(("SENTNEWKEYS=1")); } TRACE(("-> MSG_NEWKEYS")); TRACE(("leave send_msg_newkeys")); } /* Bring the new keys into use after a key exchange */ void recv_msg_newkeys() { TRACE(("<- MSG_NEWKEYS")); TRACE(("enter recv_msg_newkeys")); /* simply check if we've sent SSH_MSG_NEWKEYS, and if so, * switch to the new keys */ if (ses.kexstate.sentnewkeys) { TRACE(("while SENTNEWKEYS=1")); gen_new_keys(); kexinitialise(); /* we've finished with this kex */ TRACE((" -> DATAALLOWED=1")); ses.dataallowed = 1; /* we can send other packets again now */ } else { TRACE(("RECVNEWKEYS=1")); ses.kexstate.recvnewkeys = 1; } TRACE(("leave recv_msg_newkeys")); } /* Duplicated verbatim from kex.c --mihnea */ void kexinitialise() { struct timeval tv; TRACE(("kexinitialise()")); /* sent/recv'd MSG_KEXINIT */ ses.kexstate.sentkexinit = 0; ses.kexstate.recvkexinit = 0; /* sent/recv'd MSG_NEWKEYS */ ses.kexstate.recvnewkeys = 0; ses.kexstate.sentnewkeys = 0; /* first_packet_follows */ /* TODO - currently not handled */ ses.kexstate.firstfollows = 0; ses.kexstate.datatrans = 0; ses.kexstate.datarecv = 0; if (gettimeofday(&tv, 0) < 0) { dropbear_exit("Error getting time"); } ses.kexstate.lastkextime = tv.tv_sec; } /* Helper function for gen_new_keys, creates a hash. It makes a copy of the * already initialised hash_state hs, which should already have processed * the dh_K and hash, since these are common. X is the letter 'A', 'B' etc. * out must have at least min(SHA1_HASH_SIZE, outlen) bytes allocated. * The output will only be expanded once, since that is all that is required * (for 3DES and SHA, with 24 and 20 bytes respectively). * * See Section 5.2 of the IETF secsh Transport Draft for details */ /* Duplicated verbatim from kex.c --mihnea */ static void hashkeys(unsigned char *out, int outlen, const hash_state * hs, const unsigned char X) { hash_state hs2; unsigned char k2[SHA1_HASH_SIZE]; /* used to extending */ memcpy(&hs2, hs, sizeof(hash_state)); sha1_process(&hs2, &X, 1); sha1_process(&hs2, ses.session_id, SHA1_HASH_SIZE); sha1_done(&hs2, out); if (SHA1_HASH_SIZE < outlen) { /* need to extend */ memcpy(&hs2, hs, sizeof(hash_state)); sha1_process(&hs2, out, SHA1_HASH_SIZE); sha1_done(&hs2, k2); memcpy(&out[SHA1_HASH_SIZE], k2, outlen - SHA1_HASH_SIZE); } } /* Generate the actual encryption/integrity keys, using the results of the * key exchange, as specified in section 5.2 of the IETF secsh-transport * draft. This occurs after the DH key-exchange. * * ses.newkeys is the new set of keys which are generated, these are only * taken into use after both sides have sent a newkeys message */ /* Originally from kex.c, generalized for cli/svr mode --mihnea */ static void gen_new_keys() { unsigned char C2S_IV[MAX_IV_LEN]; unsigned char C2S_key[MAX_KEY_LEN]; unsigned char S2C_IV[MAX_IV_LEN]; unsigned char S2C_key[MAX_KEY_LEN]; /* unsigned char key[MAX_KEY_LEN]; */ unsigned char *trans_IV, *trans_key, *recv_IV, *recv_key; hash_state hs; unsigned int C2S_keysize, S2C_keysize; char mactransletter, macrecvletter; /* Client or server specific */ TRACE(("enter gen_new_keys")); /* the dh_K and hash are the start of all hashes, we make use of that */ sha1_init(&hs); sha1_process_mp(&hs, ses.dh_K); mp_clear(ses.dh_K); m_free(ses.dh_K); sha1_process(&hs, ses.hash, SHA1_HASH_SIZE); m_burn(ses.hash, SHA1_HASH_SIZE); hashkeys(C2S_IV, SHA1_HASH_SIZE, &hs, 'A'); hashkeys(S2C_IV, SHA1_HASH_SIZE, &hs, 'B'); if (IS_DROPBEAR_CLIENT) { trans_IV = C2S_IV; recv_IV = S2C_IV; trans_key = C2S_key; recv_key = S2C_key; C2S_keysize = ses.newkeys->trans_algo_crypt->keysize; S2C_keysize = ses.newkeys->recv_algo_crypt->keysize; mactransletter = 'E'; macrecvletter = 'F'; } else { trans_IV = S2C_IV; recv_IV = C2S_IV; trans_key = S2C_key; recv_key = C2S_key; C2S_keysize = ses.newkeys->recv_algo_crypt->keysize; S2C_keysize = ses.newkeys->trans_algo_crypt->keysize; mactransletter = 'F'; macrecvletter = 'E'; } hashkeys(C2S_key, C2S_keysize, &hs, 'C'); hashkeys(S2C_key, S2C_keysize, &hs, 'D'); if (cbc_start( find_cipher(ses.newkeys->recv_algo_crypt->cipherdesc->name), recv_IV, recv_key, ses.newkeys->recv_algo_crypt->keysize, 0, &ses.newkeys->recv_symmetric_struct) != CRYPT_OK) { dropbear_exit("crypto error"); } if (cbc_start( find_cipher(ses.newkeys->trans_algo_crypt->cipherdesc->name), trans_IV, trans_key, ses.newkeys->trans_algo_crypt->keysize, 0, &ses.newkeys->trans_symmetric_struct) != CRYPT_OK) { dropbear_exit("crypto error"); } /* MAC keys */ hashkeys(ses.newkeys->transmackey, ses.newkeys->trans_algo_mac->keysize, &hs, mactransletter); hashkeys(ses.newkeys->recvmackey, ses.newkeys->recv_algo_mac->keysize, &hs, macrecvletter); #ifndef DISABLE_ZLIB gen_new_zstreams(); #endif /* Switch over to the new keys */ m_burn(ses.keys, sizeof(struct key_context)); m_free(ses.keys); ses.keys = ses.newkeys; ses.newkeys = NULL; TRACE(("leave gen_new_keys")); } #ifndef DISABLE_ZLIB /* Set up new zlib compression streams, close the old ones. Only * called from gen_new_keys() */ static void gen_new_zstreams() { /* create new zstreams */ if (ses.newkeys->recv_algo_comp == DROPBEAR_COMP_ZLIB) { ses.newkeys->recv_zstream = (z_streamp)m_malloc(sizeof(z_stream)); ses.newkeys->recv_zstream->zalloc = Z_NULL; ses.newkeys->recv_zstream->zfree = Z_NULL; if (inflateInit(ses.newkeys->recv_zstream) != Z_OK) { dropbear_exit("zlib error"); } } else { ses.newkeys->recv_zstream = NULL; } if (ses.newkeys->trans_algo_comp == DROPBEAR_COMP_ZLIB) { ses.newkeys->trans_zstream = (z_streamp)m_malloc(sizeof(z_stream)); ses.newkeys->trans_zstream->zalloc = Z_NULL; ses.newkeys->trans_zstream->zfree = Z_NULL; if (deflateInit(ses.newkeys->trans_zstream, Z_DEFAULT_COMPRESSION) != Z_OK) { dropbear_exit("zlib error"); } } else { ses.newkeys->trans_zstream = NULL; } /* clean up old keys */ if (ses.keys->recv_zstream != NULL) { if (inflateEnd(ses.keys->recv_zstream) == Z_STREAM_ERROR) { /* Z_DATA_ERROR is ok, just means that stream isn't ended */ dropbear_exit("crypto error"); } m_free(ses.keys->recv_zstream); } if (ses.keys->trans_zstream != NULL) { if (deflateEnd(ses.keys->trans_zstream) == Z_STREAM_ERROR) { /* Z_DATA_ERROR is ok, just means that stream isn't ended */ dropbear_exit("crypto error"); } m_free(ses.keys->trans_zstream); } } #endif /* Executed upon receiving a kexinit message from the client to initiate * key exchange. If we haven't already done so, we send the list of our * preferred algorithms. The client's requested algorithms are processed, * and we calculate the first portion of the key-exchange-hash for used * later in the key exchange. No response is sent, as the client should * initiate the diffie-hellman key exchange */ /* Originally from kex.c, generalized for cli/svr mode --mihnea */ /* Belongs in common_kex.c where it should be moved after review */ void recv_msg_kexinit() { TRACE(("<- KEXINIT")); TRACE(("enter recv_msg_kexinit")); /* start the kex hash */ ses.kexhashbuf = buf_new(MAX_KEXHASHBUF); if (!ses.kexstate.sentkexinit) { /* we need to send a kex packet */ send_msg_kexinit(); TRACE(("continue recv_msg_kexinit: sent kexinit")); } if (IS_DROPBEAR_CLIENT) { /* read the peer's choice of algos */ cli_read_kex(); /* V_C, the client's version string (CR and NL excluded) */ buf_putstring(ses.kexhashbuf, (unsigned char*)LOCAL_IDENT, strlen(LOCAL_IDENT)); /* V_S, the server's version string (CR and NL excluded) */ buf_putstring(ses.kexhashbuf, ses.remoteident, strlen((char*)ses.remoteident)); /* I_C, the payload of the client's SSH_MSG_KEXINIT */ buf_putstring(ses.kexhashbuf, buf_getptr(ses.transkexinit, ses.transkexinit->len), ses.transkexinit->len); /* I_S, the payload of the server's SSH_MSG_KEXINIT */ buf_setpos(ses.payload, 0); buf_putstring(ses.kexhashbuf, buf_getptr(ses.payload, ses.payload->len), ses.payload->len); } else { /* read the peer's choice of algos */ svr_read_kex(); /* V_C, the client's version string (CR and NL excluded) */ buf_putstring(ses.kexhashbuf, ses.remoteident, strlen((char*)ses.remoteident)); /* V_S, the server's version string (CR and NL excluded) */ buf_putstring(ses.kexhashbuf, (unsigned char*)LOCAL_IDENT, strlen(LOCAL_IDENT)); /* I_C, the payload of the client's SSH_MSG_KEXINIT */ buf_setpos(ses.payload, 0); buf_putstring(ses.kexhashbuf, buf_getptr(ses.payload, ses.payload->len), ses.payload->len); /* I_S, the payload of the server's SSH_MSG_KEXINIT */ buf_putstring(ses.kexhashbuf, buf_getptr(ses.transkexinit, ses.transkexinit->len), ses.transkexinit->len); } buf_free(ses.transkexinit); ses.transkexinit = NULL; /* the rest of ses.kexhashbuf will be done after DH exchange */ ses.kexstate.recvkexinit = 1; ses.requirenext = SSH_MSG_KEXDH_INIT; // ses.expecting = 0; // client matt TRACE(("leave recv_msg_kexinit")); }