495 lines
14 KiB
C
495 lines
14 KiB
C
/**
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* WinPR: Windows Portable Runtime
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* NTLM Security Package (AV_PAIRs)
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*
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* Copyright 2011-2014 Marc-Andre Moreau <marcandre.moreau@gmail.com>
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#ifdef HAVE_CONFIG_H
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#include "config.h"
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#endif
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#include "ntlm.h"
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#include "../sspi.h"
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#include <winpr/crt.h>
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#include <winpr/print.h>
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#include <winpr/sysinfo.h>
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#include "ntlm_compute.h"
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#include "ntlm_av_pairs.h"
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#include "../../log.h"
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#define TAG WINPR_TAG("sspi.NTLM")
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const char* const AV_PAIR_STRINGS[] =
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{
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"MsvAvEOL",
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"MsvAvNbComputerName",
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"MsvAvNbDomainName",
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"MsvAvDnsComputerName",
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"MsvAvDnsDomainName",
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"MsvAvDnsTreeName",
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"MsvAvFlags",
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"MsvAvTimestamp",
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"MsvAvRestrictions",
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"MsvAvTargetName",
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"MsvChannelBindings"
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};
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void ntlm_av_pair_list_init(NTLM_AV_PAIR* pAvPairList)
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{
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NTLM_AV_PAIR* pAvPair = pAvPairList;
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pAvPair->AvId = MsvAvEOL;
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pAvPair->AvLen = 0;
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}
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ULONG ntlm_av_pair_list_length(NTLM_AV_PAIR* pAvPairList)
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{
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ULONG length;
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NTLM_AV_PAIR* pAvPair = pAvPairList;
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if (!pAvPair)
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return 0;
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while (pAvPair->AvId != MsvAvEOL)
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{
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pAvPair = ntlm_av_pair_get_next_pointer(pAvPair);
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}
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length = (pAvPair - pAvPairList) + sizeof(NTLM_AV_PAIR);
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return length;
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}
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void ntlm_print_av_pair_list(NTLM_AV_PAIR* pAvPairList)
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{
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NTLM_AV_PAIR* pAvPair = pAvPairList;
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if (!pAvPair)
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return;
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WLog_INFO(TAG, "AV_PAIRs =");
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while (pAvPair->AvId != MsvAvEOL)
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{
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WLog_INFO(TAG, "\t%s AvId: %d AvLen: %d",
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AV_PAIR_STRINGS[pAvPair->AvId],
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pAvPair->AvId, pAvPair->AvLen);
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winpr_HexDump(TAG, WLOG_INFO, ntlm_av_pair_get_value_pointer(pAvPair), pAvPair->AvLen);
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pAvPair = ntlm_av_pair_get_next_pointer(pAvPair);
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}
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}
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ULONG ntlm_av_pair_list_size(ULONG AvPairsCount, ULONG AvPairsValueLength)
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{
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/* size of headers + value lengths + terminating MsvAvEOL AV_PAIR */
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return ((AvPairsCount + 1) * 4) + AvPairsValueLength;
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}
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PBYTE ntlm_av_pair_get_value_pointer(NTLM_AV_PAIR* pAvPair)
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{
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return &((PBYTE) pAvPair)[sizeof(NTLM_AV_PAIR)];
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}
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int ntlm_av_pair_get_next_offset(NTLM_AV_PAIR* pAvPair)
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{
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return pAvPair->AvLen + sizeof(NTLM_AV_PAIR);
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}
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NTLM_AV_PAIR* ntlm_av_pair_get_next_pointer(NTLM_AV_PAIR* pAvPair)
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{
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return (NTLM_AV_PAIR*)((PBYTE) pAvPair + ntlm_av_pair_get_next_offset(pAvPair));
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}
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NTLM_AV_PAIR* ntlm_av_pair_get(NTLM_AV_PAIR* pAvPairList, NTLM_AV_ID AvId)
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{
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NTLM_AV_PAIR* pAvPair = pAvPairList;
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if (!pAvPair)
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return NULL;
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while (1)
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{
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if (pAvPair->AvId == AvId)
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return pAvPair;
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if (pAvPair->AvId == MsvAvEOL)
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return NULL;
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pAvPair = ntlm_av_pair_get_next_pointer(pAvPair);
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}
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return NULL;
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}
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NTLM_AV_PAIR* ntlm_av_pair_add(NTLM_AV_PAIR* pAvPairList, NTLM_AV_ID AvId, PBYTE Value, UINT16 AvLen)
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{
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NTLM_AV_PAIR* pAvPair;
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pAvPair = ntlm_av_pair_get(pAvPairList, MsvAvEOL);
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if (!pAvPair)
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return NULL;
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pAvPair->AvId = AvId;
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pAvPair->AvLen = AvLen;
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CopyMemory(ntlm_av_pair_get_value_pointer(pAvPair), Value, AvLen);
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return pAvPair;
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}
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NTLM_AV_PAIR* ntlm_av_pair_add_copy(NTLM_AV_PAIR* pAvPairList, NTLM_AV_PAIR* pAvPair)
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{
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NTLM_AV_PAIR* pAvPairCopy;
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pAvPairCopy = ntlm_av_pair_get(pAvPairList, MsvAvEOL);
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if (!pAvPairCopy)
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return NULL;
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pAvPairCopy->AvId = pAvPair->AvId;
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pAvPairCopy->AvLen = pAvPair->AvLen;
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CopyMemory(ntlm_av_pair_get_value_pointer(pAvPairCopy),
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ntlm_av_pair_get_value_pointer(pAvPair), pAvPair->AvLen);
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return pAvPairCopy;
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}
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int ntlm_get_target_computer_name(PUNICODE_STRING pName, COMPUTER_NAME_FORMAT type)
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{
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char* name;
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int status;
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DWORD nSize = 0;
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GetComputerNameExA(type, NULL, &nSize);
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name = (char*) malloc(nSize);
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if (!name)
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return -1;
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if (!GetComputerNameExA(type, name, &nSize))
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return -1;
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if (type == ComputerNameNetBIOS)
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CharUpperA(name);
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status = ConvertToUnicode(CP_UTF8, 0, name, -1, &pName->Buffer, 0);
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if (status <= 0)
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return status;
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pName->Length = (USHORT)((status - 1) * 2);
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pName->MaximumLength = pName->Length;
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free(name);
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return 1;
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}
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void ntlm_free_unicode_string(PUNICODE_STRING string)
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{
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if (string)
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{
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if (string->Length > 0)
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{
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free(string->Buffer);
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string->Buffer = NULL;
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string->Length = 0;
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string->MaximumLength = 0;
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}
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}
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}
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/**
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* From http://www.ietf.org/proceedings/72/slides/sasl-2.pdf:
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*
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* tls-server-end-point:
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*
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* The hash of the TLS server's end entity certificate as it appears, octet for octet,
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* in the server's Certificate message (note that the Certificate message contains a
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* certificate_list, the first element of which is the server's end entity certificate.)
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* The hash function to be selected is as follows: if the certificate's signature hash
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* algorithm is either MD5 or SHA-1, then use SHA-256, otherwise use the certificate's
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* signature hash algorithm.
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*/
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/**
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* Channel Bindings sample usage:
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* https://raw.github.com/mozilla/mozilla-central/master/extensions/auth/nsAuthSSPI.cpp
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*/
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/*
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typedef struct gss_channel_bindings_struct {
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OM_uint32 initiator_addrtype;
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gss_buffer_desc initiator_address;
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OM_uint32 acceptor_addrtype;
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gss_buffer_desc acceptor_address;
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gss_buffer_desc application_data;
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} *gss_channel_bindings_t;
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*/
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static void ntlm_md5_update_uint32_be(MD5_CTX* md5, UINT32 num)
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{
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BYTE be32[4];
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be32[0] = (num >> 0) & 0xFF;
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be32[1] = (num >> 8) & 0xFF;
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be32[2] = (num >> 16) & 0xFF;
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be32[3] = (num >> 24) & 0xFF;
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MD5_Update(md5, be32, 4);
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}
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void ntlm_compute_channel_bindings(NTLM_CONTEXT* context)
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{
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MD5_CTX md5;
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BYTE* ChannelBindingToken;
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UINT32 ChannelBindingTokenLength;
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SEC_CHANNEL_BINDINGS* ChannelBindings;
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ZeroMemory(context->ChannelBindingsHash, 16);
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ChannelBindings = context->Bindings.Bindings;
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if (!ChannelBindings)
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return;
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ChannelBindingTokenLength = context->Bindings.BindingsLength - sizeof(SEC_CHANNEL_BINDINGS);
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ChannelBindingToken = &((BYTE*) ChannelBindings)[ChannelBindings->dwApplicationDataOffset];
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MD5_Init(&md5);
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ntlm_md5_update_uint32_be(&md5, ChannelBindings->dwInitiatorAddrType);
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ntlm_md5_update_uint32_be(&md5, ChannelBindings->cbInitiatorLength);
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ntlm_md5_update_uint32_be(&md5, ChannelBindings->dwAcceptorAddrType);
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ntlm_md5_update_uint32_be(&md5, ChannelBindings->cbAcceptorLength);
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ntlm_md5_update_uint32_be(&md5, ChannelBindings->cbApplicationDataLength);
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MD5_Update(&md5, (void*) ChannelBindingToken, ChannelBindingTokenLength);
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MD5_Final(context->ChannelBindingsHash, &md5);
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}
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void ntlm_compute_single_host_data(NTLM_CONTEXT* context)
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{
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/**
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* The Single_Host_Data structure allows a client to send machine-specific information
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* within an authentication exchange to services on the same machine. The client can
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* produce additional information to be processed in an implementation-specific way when
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* the client and server are on the same host. If the server and client platforms are
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* different or if they are on different hosts, then the information MUST be ignored.
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* Any fields after the MachineID field MUST be ignored on receipt.
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*/
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context->SingleHostData.Size = 48;
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context->SingleHostData.Z4 = 0;
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context->SingleHostData.DataPresent = 1;
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context->SingleHostData.CustomData = SECURITY_MANDATORY_MEDIUM_RID;
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FillMemory(context->SingleHostData.MachineID, 32, 0xAA);
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}
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int ntlm_construct_challenge_target_info(NTLM_CONTEXT* context)
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{
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int length;
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ULONG AvPairsCount;
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ULONG AvPairsLength;
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LONG AvPairListSize;
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NTLM_AV_PAIR* pAvPairList;
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UNICODE_STRING NbDomainName;
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UNICODE_STRING NbComputerName;
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UNICODE_STRING DnsDomainName;
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UNICODE_STRING DnsComputerName;
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NbDomainName.Buffer = NULL;
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if (ntlm_get_target_computer_name(&NbDomainName, ComputerNameNetBIOS) < 0)
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return -1;
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NbComputerName.Buffer = NULL;
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if (ntlm_get_target_computer_name(&NbComputerName, ComputerNameNetBIOS) < 0)
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return -1;
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DnsDomainName.Buffer = NULL;
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if (ntlm_get_target_computer_name(&DnsDomainName, ComputerNameDnsDomain) < 0)
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return -1;
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DnsComputerName.Buffer = NULL;
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if (ntlm_get_target_computer_name(&DnsComputerName, ComputerNameDnsHostname) < 0)
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return -1;
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AvPairsCount = 5;
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AvPairsLength = NbDomainName.Length + NbComputerName.Length +
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DnsDomainName.Length + DnsComputerName.Length + 8;
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length = ntlm_av_pair_list_size(AvPairsCount, AvPairsLength);
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if (!sspi_SecBufferAlloc(&context->ChallengeTargetInfo, length))
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return -1;
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pAvPairList = (NTLM_AV_PAIR*) context->ChallengeTargetInfo.pvBuffer;
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AvPairListSize = (ULONG) context->ChallengeTargetInfo.cbBuffer;
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ntlm_av_pair_list_init(pAvPairList);
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ntlm_av_pair_add(pAvPairList, MsvAvNbDomainName, (PBYTE) NbDomainName.Buffer, NbDomainName.Length);
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ntlm_av_pair_add(pAvPairList, MsvAvNbComputerName, (PBYTE) NbComputerName.Buffer, NbComputerName.Length);
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ntlm_av_pair_add(pAvPairList, MsvAvDnsDomainName, (PBYTE) DnsDomainName.Buffer, DnsDomainName.Length);
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ntlm_av_pair_add(pAvPairList, MsvAvDnsComputerName, (PBYTE) DnsComputerName.Buffer, DnsComputerName.Length);
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ntlm_av_pair_add(pAvPairList, MsvAvTimestamp, context->Timestamp, sizeof(context->Timestamp));
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ntlm_free_unicode_string(&NbDomainName);
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ntlm_free_unicode_string(&NbComputerName);
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ntlm_free_unicode_string(&DnsDomainName);
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ntlm_free_unicode_string(&DnsComputerName);
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return 1;
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}
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int ntlm_construct_authenticate_target_info(NTLM_CONTEXT* context)
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{
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ULONG size;
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ULONG AvPairsCount;
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ULONG AvPairsValueLength;
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NTLM_AV_PAIR* AvTimestamp;
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NTLM_AV_PAIR* AvNbDomainName;
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NTLM_AV_PAIR* AvNbComputerName;
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NTLM_AV_PAIR* AvDnsDomainName;
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NTLM_AV_PAIR* AvDnsComputerName;
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NTLM_AV_PAIR* AvDnsTreeName;
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NTLM_AV_PAIR* ChallengeTargetInfo;
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NTLM_AV_PAIR* AuthenticateTargetInfo;
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AvPairsCount = 1;
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AvPairsValueLength = 0;
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ChallengeTargetInfo = (NTLM_AV_PAIR*) context->ChallengeTargetInfo.pvBuffer;
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AvNbDomainName = ntlm_av_pair_get(ChallengeTargetInfo, MsvAvNbDomainName);
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AvNbComputerName = ntlm_av_pair_get(ChallengeTargetInfo, MsvAvNbComputerName);
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AvDnsDomainName = ntlm_av_pair_get(ChallengeTargetInfo, MsvAvDnsDomainName);
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AvDnsComputerName = ntlm_av_pair_get(ChallengeTargetInfo, MsvAvDnsComputerName);
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AvDnsTreeName = ntlm_av_pair_get(ChallengeTargetInfo, MsvAvDnsTreeName);
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AvTimestamp = ntlm_av_pair_get(ChallengeTargetInfo, MsvAvTimestamp);
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if (AvNbDomainName)
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{
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AvPairsCount++; /* MsvAvNbDomainName */
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AvPairsValueLength += AvNbDomainName->AvLen;
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}
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if (AvNbComputerName)
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{
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AvPairsCount++; /* MsvAvNbComputerName */
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AvPairsValueLength += AvNbComputerName->AvLen;
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}
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if (AvDnsDomainName)
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{
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AvPairsCount++; /* MsvAvDnsDomainName */
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AvPairsValueLength += AvDnsDomainName->AvLen;
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}
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if (AvDnsComputerName)
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{
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AvPairsCount++; /* MsvAvDnsComputerName */
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AvPairsValueLength += AvDnsComputerName->AvLen;
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}
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if (AvDnsTreeName)
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{
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AvPairsCount++; /* MsvAvDnsTreeName */
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AvPairsValueLength += AvDnsTreeName->AvLen;
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}
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AvPairsCount++; /* MsvAvTimestamp */
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AvPairsValueLength += 8;
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if (context->UseMIC)
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{
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AvPairsCount++; /* MsvAvFlags */
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AvPairsValueLength += 4;
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}
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if (context->SendSingleHostData)
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{
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AvPairsCount++; /* MsvAvSingleHost */
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ntlm_compute_single_host_data(context);
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AvPairsValueLength += context->SingleHostData.Size;
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}
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/**
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* Extended Protection for Authentication:
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* http://blogs.technet.com/b/srd/archive/2009/12/08/extended-protection-for-authentication.aspx
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*/
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if (!context->SuppressExtendedProtection)
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{
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/**
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* SEC_CHANNEL_BINDINGS structure
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* http://msdn.microsoft.com/en-us/library/windows/desktop/dd919963/
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*/
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AvPairsCount++; /* MsvChannelBindings */
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AvPairsValueLength += 16;
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ntlm_compute_channel_bindings(context);
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if (context->ServicePrincipalName.Length > 0)
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{
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AvPairsCount++; /* MsvAvTargetName */
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AvPairsValueLength += context->ServicePrincipalName.Length;
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}
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}
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size = ntlm_av_pair_list_size(AvPairsCount, AvPairsValueLength);
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if (context->NTLMv2)
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size += 8; /* unknown 8-byte padding */
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if (!sspi_SecBufferAlloc(&context->AuthenticateTargetInfo, size))
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return -1;
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AuthenticateTargetInfo = (NTLM_AV_PAIR*) context->AuthenticateTargetInfo.pvBuffer;
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ntlm_av_pair_list_init(AuthenticateTargetInfo);
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if (AvNbDomainName)
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ntlm_av_pair_add_copy(AuthenticateTargetInfo, AvNbDomainName);
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if (AvNbComputerName)
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ntlm_av_pair_add_copy(AuthenticateTargetInfo, AvNbComputerName);
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if (AvDnsDomainName)
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ntlm_av_pair_add_copy(AuthenticateTargetInfo, AvDnsDomainName);
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if (AvDnsComputerName)
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ntlm_av_pair_add_copy(AuthenticateTargetInfo, AvDnsComputerName);
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if (AvDnsTreeName)
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ntlm_av_pair_add_copy(AuthenticateTargetInfo, AvDnsTreeName);
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if (AvTimestamp)
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ntlm_av_pair_add_copy(AuthenticateTargetInfo, AvTimestamp);
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if (context->UseMIC)
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{
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UINT32 flags = MSV_AV_FLAGS_MESSAGE_INTEGRITY_CHECK;
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ntlm_av_pair_add(AuthenticateTargetInfo, MsvAvFlags, (PBYTE) &flags, 4);
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}
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if (context->SendSingleHostData)
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{
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ntlm_av_pair_add(AuthenticateTargetInfo, MsvAvSingleHost,
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(PBYTE) &context->SingleHostData, context->SingleHostData.Size);
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}
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if (!context->SuppressExtendedProtection)
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{
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ntlm_av_pair_add(AuthenticateTargetInfo, MsvChannelBindings, context->ChannelBindingsHash, 16);
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if (context->ServicePrincipalName.Length > 0)
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{
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ntlm_av_pair_add(AuthenticateTargetInfo, MsvAvTargetName,
|
|
(PBYTE) context->ServicePrincipalName.Buffer,
|
|
context->ServicePrincipalName.Length);
|
|
}
|
|
}
|
|
|
|
if (context->NTLMv2)
|
|
{
|
|
NTLM_AV_PAIR* AvEOL;
|
|
AvEOL = ntlm_av_pair_get(ChallengeTargetInfo, MsvAvEOL);
|
|
ZeroMemory((void*) AvEOL, 4);
|
|
}
|
|
|
|
return 1;
|
|
}
|