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https://github.com/samba-team/samba.git
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8eb981c90a
I just need to fix a couple of NTLMv2 issues before we can fully pass,
and put this in test_rpc.sh, as a 'should pass' test.
Andrew Bartlett
(This used to be commit 4b52409e38
)
315 lines
9.7 KiB
C
315 lines
9.7 KiB
C
/*
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Unix SMB/CIFS implementation.
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code to manipulate domain credentials
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Copyright (C) Andrew Tridgell 1997-2003
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Copyright (C) Andrew Bartlett <abartlet@samba.org> 2004
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
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*/
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#include "includes.h"
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#include "system/time.h"
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#include "auth/auth.h"
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#include "lib/crypto/crypto.h"
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#include "librpc/gen_ndr/ndr_netlogon.h"
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/*
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initialise the credentials state for old-style 64 bit session keys
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this call is made after the netr_ServerReqChallenge call
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*/
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static void creds_init_64bit(struct creds_CredentialState *creds,
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const struct netr_Credential *client_challenge,
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const struct netr_Credential *server_challenge,
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const struct samr_Password *machine_password)
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{
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uint32_t sum[2];
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uint8_t sum2[8];
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sum[0] = IVAL(client_challenge->data, 0) + IVAL(server_challenge->data, 0);
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sum[1] = IVAL(client_challenge->data, 4) + IVAL(server_challenge->data, 4);
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SIVAL(sum2,0,sum[0]);
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SIVAL(sum2,4,sum[1]);
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ZERO_STRUCT(creds->session_key);
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des_crypt128(creds->session_key, sum2, machine_password->hash);
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des_crypt112(creds->client.data, client_challenge->data, creds->session_key, 1);
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des_crypt112(creds->server.data, server_challenge->data, creds->session_key, 1);
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creds->seed = creds->client;
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}
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/*
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initialise the credentials state for ADS-style 128 bit session keys
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this call is made after the netr_ServerReqChallenge call
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*/
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static void creds_init_128bit(struct creds_CredentialState *creds,
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const struct netr_Credential *client_challenge,
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const struct netr_Credential *server_challenge,
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const struct samr_Password *machine_password)
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{
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unsigned char zero[4], tmp[16];
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HMACMD5Context ctx;
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struct MD5Context md5;
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ZERO_STRUCT(creds->session_key);
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memset(zero, 0, sizeof(zero));
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hmac_md5_init_rfc2104(machine_password->hash, sizeof(machine_password->hash), &ctx);
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MD5Init(&md5);
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MD5Update(&md5, zero, sizeof(zero));
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MD5Update(&md5, client_challenge->data, 8);
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MD5Update(&md5, server_challenge->data, 8);
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MD5Final(tmp, &md5);
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hmac_md5_update(tmp, sizeof(tmp), &ctx);
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hmac_md5_final(creds->session_key, &ctx);
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creds->client = *client_challenge;
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creds->server = *server_challenge;
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des_crypt112(creds->client.data, client_challenge->data, creds->session_key, 1);
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des_crypt112(creds->server.data, server_challenge->data, creds->session_key, 1);
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creds->seed = creds->client;
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}
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/*
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step the credentials to the next element in the chain, updating the
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current client and server credentials and the seed
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*/
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static void creds_step(struct creds_CredentialState *creds)
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{
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struct netr_Credential time_cred;
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DEBUG(5,("\tseed %08x:%08x\n",
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IVAL(creds->seed.data, 0), IVAL(creds->seed.data, 4)));
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SIVAL(time_cred.data, 0, IVAL(creds->seed.data, 0) + creds->sequence);
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SIVAL(time_cred.data, 4, IVAL(creds->seed.data, 4));
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DEBUG(5,("\tseed+time %08x:%08x\n", IVAL(time_cred.data, 0), IVAL(time_cred.data, 4)));
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des_crypt112(creds->client.data, time_cred.data, creds->session_key, 1);
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DEBUG(5,("\tCLIENT %08x:%08x\n",
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IVAL(creds->client.data, 0), IVAL(creds->client.data, 4)));
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SIVAL(time_cred.data, 0, IVAL(creds->seed.data, 0) + creds->sequence + 1);
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SIVAL(time_cred.data, 4, IVAL(creds->seed.data, 4));
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DEBUG(5,("\tseed+time+1 %08x:%08x\n",
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IVAL(time_cred.data, 0), IVAL(time_cred.data, 4)));
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des_crypt112(creds->server.data, time_cred.data, creds->session_key, 1);
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DEBUG(5,("\tSERVER %08x:%08x\n",
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IVAL(creds->server.data, 0), IVAL(creds->server.data, 4)));
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creds->seed = time_cred;
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}
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/*
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DES encrypt a 8 byte LMSessionKey buffer using the Netlogon session key
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*/
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void creds_des_encrypt_LMKey(struct creds_CredentialState *creds, struct netr_LMSessionKey *key)
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{
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struct netr_LMSessionKey tmp;
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des_crypt56(tmp.key, key->key, creds->session_key, 1);
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*key = tmp;
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}
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/*
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DES decrypt a 8 byte LMSessionKey buffer using the Netlogon session key
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*/
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void creds_des_decrypt_LMKey(struct creds_CredentialState *creds, struct netr_LMSessionKey *key)
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{
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struct netr_LMSessionKey tmp;
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des_crypt56(tmp.key, key->key, creds->session_key, 0);
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*key = tmp;
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}
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/*
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DES encrypt a 16 byte password buffer using the session key
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*/
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void creds_des_encrypt(struct creds_CredentialState *creds, struct samr_Password *pass)
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{
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struct samr_Password tmp;
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des_crypt112_16(tmp.hash, pass->hash, creds->session_key, 1);
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*pass = tmp;
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}
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/*
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DES decrypt a 16 byte password buffer using the session key
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*/
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void creds_des_decrypt(struct creds_CredentialState *creds, struct samr_Password *pass)
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{
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struct samr_Password tmp;
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des_crypt112_16(tmp.hash, pass->hash, creds->session_key, 0);
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*pass = tmp;
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}
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/*
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ARCFOUR encrypt/decrypt a password buffer using the session key
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*/
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void creds_arcfour_crypt(struct creds_CredentialState *creds, uint8_t *data, size_t len)
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{
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DATA_BLOB session_key = data_blob(creds->session_key, 16);
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arcfour_crypt_blob(data, len, &session_key);
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data_blob_free(&session_key);
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}
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/*****************************************************************
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The above functions are common to the client and server interface
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next comes the client specific functions
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******************************************************************/
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/*
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initialise the credentials chain and return the first client
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credentials
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*/
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void creds_client_init(struct creds_CredentialState *creds,
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const struct netr_Credential *client_challenge,
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const struct netr_Credential *server_challenge,
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const struct samr_Password *machine_password,
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struct netr_Credential *initial_credential,
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uint32_t negotiate_flags)
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{
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creds->sequence = time(NULL);
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creds->negotiate_flags = negotiate_flags;
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dump_data_pw("Client chall", client_challenge->data, sizeof(client_challenge->data));
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dump_data_pw("Server chall", server_challenge->data, sizeof(server_challenge->data));
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dump_data_pw("Machine Pass", machine_password->hash, sizeof(machine_password->hash));
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if (negotiate_flags & NETLOGON_NEG_128BIT) {
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creds_init_128bit(creds, client_challenge, server_challenge, machine_password);
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} else {
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creds_init_64bit(creds, client_challenge, server_challenge, machine_password);
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}
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dump_data_pw("Session key", creds->session_key, 16);
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dump_data_pw("Credential ", creds->client.data, 8);
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*initial_credential = creds->client;
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}
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/*
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step the credentials to the next element in the chain, updating the
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current client and server credentials and the seed
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produce the next authenticator in the sequence ready to send to
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the server
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*/
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void creds_client_authenticator(struct creds_CredentialState *creds,
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struct netr_Authenticator *next)
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{
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creds->sequence += 2;
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creds_step(creds);
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next->cred = creds->client;
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next->timestamp = creds->sequence;
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}
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/*
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check that a credentials reply from a server is correct
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*/
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BOOL creds_client_check(struct creds_CredentialState *creds,
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const struct netr_Credential *received_credentials)
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{
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if (!received_credentials ||
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memcmp(received_credentials->data, creds->server.data, 8) != 0) {
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DEBUG(2,("credentials check failed\n"));
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return False;
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}
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return True;
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}
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/*****************************************************************
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The above functions are common to the client and server interface
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next comes the server specific functions
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******************************************************************/
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/*
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initialise the credentials chain and return the first server
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credentials
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*/
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void creds_server_init(struct creds_CredentialState *creds,
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const struct netr_Credential *client_challenge,
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const struct netr_Credential *server_challenge,
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const struct samr_Password *machine_password,
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struct netr_Credential *initial_credential,
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uint32_t negotiate_flags)
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{
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if (negotiate_flags & NETLOGON_NEG_128BIT) {
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creds_init_128bit(creds, client_challenge, server_challenge,
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machine_password);
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} else {
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creds_init_64bit(creds, client_challenge, server_challenge,
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machine_password);
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}
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*initial_credential = creds->server;
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creds->negotiate_flags = negotiate_flags;
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}
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/*
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check that a credentials reply from a server is correct
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*/
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BOOL creds_server_check(const struct creds_CredentialState *creds,
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const struct netr_Credential *received_credentials)
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{
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if (memcmp(received_credentials->data, creds->client.data, 8) != 0) {
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DEBUG(2,("credentials check failed\n"));
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dump_data_pw("client creds", creds->client.data, 8);
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dump_data_pw("calc creds", received_credentials->data, 8);
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return False;
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}
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return True;
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}
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NTSTATUS creds_server_step_check(struct creds_CredentialState *creds,
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struct netr_Authenticator *received_authenticator,
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struct netr_Authenticator *return_authenticator)
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{
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if (!received_authenticator || !return_authenticator) {
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return NT_STATUS_INVALID_PARAMETER;
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}
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/* TODO: this may allow the a replay attack on a non-signed
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connection. Should we check that this is increasing? */
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creds->sequence = received_authenticator->timestamp;
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creds_step(creds);
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if (creds_server_check(creds, &received_authenticator->cred)) {
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return_authenticator->cred = creds->server;
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return_authenticator->timestamp = creds->sequence;
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return NT_STATUS_OK;
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} else {
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ZERO_STRUCTP(return_authenticator);
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return NT_STATUS_ACCESS_DENIED;
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}
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}
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