/** * WinPR: Windows Portable Runtime * NTLM Security Package (Compute) * * Copyright 2011-2014 Marc-Andre Moreau * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "ntlm.h" #include "../sspi.h" #include #include #include #include #include #include #include "ntlm_compute.h" #include "../../log.h" #define TAG WINPR_TAG("sspi.NTLM") const char LM_MAGIC[] = "KGS!@#$%"; static const char NTLM_CLIENT_SIGN_MAGIC[] = "session key to client-to-server signing key magic constant"; static const char NTLM_SERVER_SIGN_MAGIC[] = "session key to server-to-client signing key magic constant"; static const char NTLM_CLIENT_SEAL_MAGIC[] = "session key to client-to-server sealing key magic constant"; static const char NTLM_SERVER_SEAL_MAGIC[] = "session key to server-to-client sealing key magic constant"; static const BYTE NTLM_NULL_BUFFER[16] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; /** * Populate VERSION structure. * VERSION @msdn{cc236654} * @param s */ void ntlm_get_version_info(NTLM_VERSION_INFO* versionInfo) { OSVERSIONINFOA osVersionInfo; osVersionInfo.dwOSVersionInfoSize = sizeof(OSVERSIONINFOA); GetVersionExA(&osVersionInfo); versionInfo->ProductMajorVersion = (UINT8) osVersionInfo.dwMajorVersion; versionInfo->ProductMinorVersion = (UINT8) osVersionInfo.dwMinorVersion; versionInfo->ProductBuild = (UINT16) osVersionInfo.dwBuildNumber; ZeroMemory(versionInfo->Reserved, sizeof(versionInfo->Reserved)); versionInfo->NTLMRevisionCurrent = NTLMSSP_REVISION_W2K3; } /** * Read VERSION structure. * VERSION @msdn{cc236654} * @param s */ int ntlm_read_version_info(wStream* s, NTLM_VERSION_INFO* versionInfo) { if (Stream_GetRemainingLength(s) < 8) return -1; Stream_Read_UINT8(s, versionInfo->ProductMajorVersion); /* ProductMajorVersion (1 byte) */ Stream_Read_UINT8(s, versionInfo->ProductMinorVersion); /* ProductMinorVersion (1 byte) */ Stream_Read_UINT16(s, versionInfo->ProductBuild); /* ProductBuild (2 bytes) */ Stream_Read(s, versionInfo->Reserved, sizeof(versionInfo->Reserved)); /* Reserved (3 bytes) */ Stream_Read_UINT8(s, versionInfo->NTLMRevisionCurrent); /* NTLMRevisionCurrent (1 byte) */ return 1; } /** * Write VERSION structure. * VERSION @msdn{cc236654} * @param s */ void ntlm_write_version_info(wStream* s, NTLM_VERSION_INFO* versionInfo) { Stream_Write_UINT8(s, versionInfo->ProductMajorVersion); /* ProductMajorVersion (1 byte) */ Stream_Write_UINT8(s, versionInfo->ProductMinorVersion); /* ProductMinorVersion (1 byte) */ Stream_Write_UINT16(s, versionInfo->ProductBuild); /* ProductBuild (2 bytes) */ Stream_Write(s, versionInfo->Reserved, sizeof(versionInfo->Reserved)); /* Reserved (3 bytes) */ Stream_Write_UINT8(s, versionInfo->NTLMRevisionCurrent); /* NTLMRevisionCurrent (1 byte) */ } /** * Print VERSION structure. * VERSION @msdn{cc236654} * @param s */ void ntlm_print_version_info(NTLM_VERSION_INFO* versionInfo) { WLog_INFO(TAG, "VERSION ={"); WLog_INFO(TAG, "\tProductMajorVersion: %"PRIu8"", versionInfo->ProductMajorVersion); WLog_INFO(TAG, "\tProductMinorVersion: %"PRIu8"", versionInfo->ProductMinorVersion); WLog_INFO(TAG, "\tProductBuild: %"PRIu16"", versionInfo->ProductBuild); WLog_INFO(TAG, "\tReserved: 0x%02"PRIX8"%02"PRIX8"%02"PRIX8"", versionInfo->Reserved[0], versionInfo->Reserved[1], versionInfo->Reserved[2]); WLog_INFO(TAG, "\tNTLMRevisionCurrent: 0x%02"PRIX8"", versionInfo->NTLMRevisionCurrent); } int ntlm_read_ntlm_v2_client_challenge(wStream* s, NTLMv2_CLIENT_CHALLENGE* challenge) { size_t size; Stream_Read_UINT8(s, challenge->RespType); Stream_Read_UINT8(s, challenge->HiRespType); Stream_Read_UINT16(s, challenge->Reserved1); Stream_Read_UINT32(s, challenge->Reserved2); Stream_Read(s, challenge->Timestamp, 8); Stream_Read(s, challenge->ClientChallenge, 8); Stream_Read_UINT32(s, challenge->Reserved3); size = Stream_Length(s) - Stream_GetPosition(s); challenge->AvPairs = (NTLM_AV_PAIR*) malloc(size); if (!challenge->AvPairs) return -1; Stream_Read(s, challenge->AvPairs, size); return 1; } int ntlm_write_ntlm_v2_client_challenge(wStream* s, NTLMv2_CLIENT_CHALLENGE* challenge) { ULONG length; Stream_Write_UINT8(s, challenge->RespType); Stream_Write_UINT8(s, challenge->HiRespType); Stream_Write_UINT16(s, challenge->Reserved1); Stream_Write_UINT32(s, challenge->Reserved2); Stream_Write(s, challenge->Timestamp, 8); Stream_Write(s, challenge->ClientChallenge, 8); Stream_Write_UINT32(s, challenge->Reserved3); length = ntlm_av_pair_list_length(challenge->AvPairs); Stream_Write(s, challenge->AvPairs, length); return 1; } int ntlm_read_ntlm_v2_response(wStream* s, NTLMv2_RESPONSE* response) { Stream_Read(s, response->Response, 16); return ntlm_read_ntlm_v2_client_challenge(s, &(response->Challenge)); } int ntlm_write_ntlm_v2_response(wStream* s, NTLMv2_RESPONSE* response) { Stream_Write(s, response->Response, 16); return ntlm_write_ntlm_v2_client_challenge(s, &(response->Challenge)); } /** * Get current time, in tenths of microseconds since midnight of January 1, 1601. * @param[out] timestamp 64-bit little-endian timestamp */ void ntlm_current_time(BYTE* timestamp) { FILETIME filetime; ULARGE_INTEGER time64; GetSystemTimeAsFileTime(&filetime); time64.LowPart = filetime.dwLowDateTime; time64.HighPart = filetime.dwHighDateTime; CopyMemory(timestamp, &(time64.QuadPart), 8); } /** * Generate timestamp for AUTHENTICATE_MESSAGE. * @param NTLM context */ void ntlm_generate_timestamp(NTLM_CONTEXT* context) { if (memcmp(context->ChallengeTimestamp, NTLM_NULL_BUFFER, 8) != 0) CopyMemory(context->Timestamp, context->ChallengeTimestamp, 8); else ntlm_current_time(context->Timestamp); } int ntlm_fetch_ntlm_v2_hash(NTLM_CONTEXT* context, BYTE* hash) { WINPR_SAM* sam; WINPR_SAM_ENTRY* entry; SSPI_CREDENTIALS* credentials = context->credentials; sam = SamOpen(context->SamFile, TRUE); if (!sam) return -1; entry = SamLookupUserW(sam, (LPWSTR) credentials->identity.User, credentials->identity.UserLength * 2, (LPWSTR) credentials->identity.Domain, credentials->identity.DomainLength * 2); if (entry) { #ifdef WITH_DEBUG_NTLM WLog_DBG(TAG, "NTLM Hash:"); winpr_HexDump(TAG, WLOG_DEBUG, entry->NtHash, 16); #endif NTOWFv2FromHashW(entry->NtHash, (LPWSTR) credentials->identity.User, credentials->identity.UserLength * 2, (LPWSTR) credentials->identity.Domain, credentials->identity.DomainLength * 2, (BYTE*) hash); SamFreeEntry(sam, entry); SamClose(sam); return 1; } entry = SamLookupUserW(sam, (LPWSTR) credentials->identity.User, credentials->identity.UserLength * 2, NULL, 0); if (entry) { #ifdef WITH_DEBUG_NTLM WLog_DBG(TAG, "NTLM Hash:"); winpr_HexDump(TAG, WLOG_DEBUG, entry->NtHash, 16); #endif NTOWFv2FromHashW(entry->NtHash, (LPWSTR) credentials->identity.User, credentials->identity.UserLength * 2, (LPWSTR) credentials->identity.Domain, credentials->identity.DomainLength * 2, (BYTE*) hash); SamFreeEntry(sam, entry); SamClose(sam); return 1; } else { WLog_ERR(TAG, "Error: Could not find user in SAM database"); return 0; } SamClose(sam); return 1; } int ntlm_convert_password_hash(NTLM_CONTEXT* context, BYTE* hash) { int status; int i, hn, ln; char* PasswordHash = NULL; UINT32 PasswordHashLength = 0; SSPI_CREDENTIALS* credentials = context->credentials; /* Password contains a password hash of length (PasswordLength / SSPI_CREDENTIALS_HASH_LENGTH_FACTOR) */ PasswordHashLength = credentials->identity.PasswordLength / SSPI_CREDENTIALS_HASH_LENGTH_FACTOR; status = ConvertFromUnicode(CP_UTF8, 0, (LPCWSTR) credentials->identity.Password, PasswordHashLength, &PasswordHash, 0, NULL, NULL); if (status <= 0) return -1; CharUpperBuffA(PasswordHash, PasswordHashLength); for (i = 0; i < 32; i += 2) { hn = PasswordHash[i] > '9' ? PasswordHash[i] - 'A' + 10 : PasswordHash[i] - '0'; ln = PasswordHash[i + 1] > '9' ? PasswordHash[i + 1] - 'A' + 10 : PasswordHash[i + 1] - '0'; hash[i / 2] = (hn << 4) | ln; } free(PasswordHash); return 1; } int ntlm_compute_ntlm_v2_hash(NTLM_CONTEXT* context, BYTE* hash) { SSPI_CREDENTIALS* credentials = context->credentials; #ifdef WITH_DEBUG_NTLM if (credentials) { WLog_DBG(TAG, "Password (length = %"PRIu32")", credentials->identity.PasswordLength * 2); winpr_HexDump(TAG, WLOG_DEBUG, (BYTE*) credentials->identity.Password, credentials->identity.PasswordLength * 2); WLog_DBG(TAG, "Username (length = %"PRIu32")", credentials->identity.UserLength * 2); winpr_HexDump(TAG, WLOG_DEBUG, (BYTE*) credentials->identity.User, credentials->identity.UserLength * 2); WLog_DBG(TAG, "Domain (length = %"PRIu32")", credentials->identity.DomainLength * 2); winpr_HexDump(TAG, WLOG_DEBUG, (BYTE*) credentials->identity.Domain, credentials->identity.DomainLength * 2); } else WLog_DBG(TAG, "Strange, NTLM_CONTEXT is missing valid credentials..."); WLog_DBG(TAG, "Workstation (length = %"PRIu16")", context->Workstation.Length); winpr_HexDump(TAG, WLOG_DEBUG, (BYTE*) context->Workstation.Buffer, context->Workstation.Length); WLog_DBG(TAG, "NTOWFv2, NTLMv2 Hash"); winpr_HexDump(TAG, WLOG_DEBUG, context->NtlmV2Hash, WINPR_MD5_DIGEST_LENGTH); #endif if (memcmp(context->NtlmV2Hash, NTLM_NULL_BUFFER, 16) != 0) return 1; if (memcmp(context->NtlmHash, NTLM_NULL_BUFFER, 16) != 0) { NTOWFv2FromHashW(context->NtlmHash, (LPWSTR) credentials->identity.User, credentials->identity.UserLength * 2, (LPWSTR) credentials->identity.Domain, credentials->identity.DomainLength * 2, (BYTE*) hash); } else if (credentials->identity.PasswordLength > 256) { /* Special case for WinPR: password hash */ if (ntlm_convert_password_hash(context, context->NtlmHash) < 0) return -1; NTOWFv2FromHashW(context->NtlmHash, (LPWSTR) credentials->identity.User, credentials->identity.UserLength * 2, (LPWSTR) credentials->identity.Domain, credentials->identity.DomainLength * 2, (BYTE*) hash); } else if (credentials->identity.Password) { NTOWFv2W((LPWSTR) credentials->identity.Password, credentials->identity.PasswordLength * 2, (LPWSTR) credentials->identity.User, credentials->identity.UserLength * 2, (LPWSTR) credentials->identity.Domain, credentials->identity.DomainLength * 2, (BYTE*) hash); } else if (context->HashCallback) { int ret; SecBuffer proofValue, micValue; if (ntlm_computeProofValue(context, &proofValue) != SEC_E_OK) return -1; if (ntlm_computeMicValue(context, &micValue) != SEC_E_OK) { sspi_SecBufferFree(&proofValue); return -1; } ret = context->HashCallback(context->HashCallbackArg, &credentials->identity, &proofValue, context->EncryptedRandomSessionKey, context->MessageIntegrityCheck, &micValue, hash); sspi_SecBufferFree(&proofValue); sspi_SecBufferFree(&micValue); return ret ? 1 : -1; } else if (context->UseSamFileDatabase) { return ntlm_fetch_ntlm_v2_hash(context, hash); } return 1; } int ntlm_compute_lm_v2_response(NTLM_CONTEXT* context) { BYTE* response; BYTE value[WINPR_MD5_DIGEST_LENGTH]; if (context->LmCompatibilityLevel < 2) { if (!sspi_SecBufferAlloc(&context->LmChallengeResponse, 24)) return -1; ZeroMemory(context->LmChallengeResponse.pvBuffer, 24); return 1; } /* Compute the NTLMv2 hash */ if (ntlm_compute_ntlm_v2_hash(context, context->NtlmV2Hash) < 0) return -1; /* Concatenate the server and client challenges */ CopyMemory(value, context->ServerChallenge, 8); CopyMemory(&value[8], context->ClientChallenge, 8); if (!sspi_SecBufferAlloc(&context->LmChallengeResponse, 24)) return -1; response = (BYTE*) context->LmChallengeResponse.pvBuffer; /* Compute the HMAC-MD5 hash of the resulting value using the NTLMv2 hash as the key */ winpr_HMAC(WINPR_MD_MD5, (void*) context->NtlmV2Hash, WINPR_MD5_DIGEST_LENGTH, (BYTE*) value, WINPR_MD5_DIGEST_LENGTH, (BYTE*) response, WINPR_MD5_DIGEST_LENGTH); /* Concatenate the resulting HMAC-MD5 hash and the client challenge, giving us the LMv2 response (24 bytes) */ CopyMemory(&response[16], context->ClientChallenge, 8); return 1; } /** * Compute NTLMv2 Response. * NTLMv2_RESPONSE @msdn{cc236653} * NTLMv2 Authentication @msdn{cc236700} * @param NTLM context */ int ntlm_compute_ntlm_v2_response(NTLM_CONTEXT* context) { BYTE* blob; BYTE nt_proof_str[WINPR_MD5_DIGEST_LENGTH]; SecBuffer ntlm_v2_temp; SecBuffer ntlm_v2_temp_chal; PSecBuffer TargetInfo; TargetInfo = &context->ChallengeTargetInfo; if (!sspi_SecBufferAlloc(&ntlm_v2_temp, TargetInfo->cbBuffer + 28)) return -1; ZeroMemory(ntlm_v2_temp.pvBuffer, ntlm_v2_temp.cbBuffer); blob = (BYTE*) ntlm_v2_temp.pvBuffer; /* Compute the NTLMv2 hash */ if (ntlm_compute_ntlm_v2_hash(context, (BYTE*) context->NtlmV2Hash) < 0) return -1; /* Construct temp */ blob[0] = 1; /* RespType (1 byte) */ blob[1] = 1; /* HighRespType (1 byte) */ /* Reserved1 (2 bytes) */ /* Reserved2 (4 bytes) */ CopyMemory(&blob[8], context->Timestamp, 8); /* Timestamp (8 bytes) */ CopyMemory(&blob[16], context->ClientChallenge, 8); /* ClientChallenge (8 bytes) */ /* Reserved3 (4 bytes) */ CopyMemory(&blob[28], TargetInfo->pvBuffer, TargetInfo->cbBuffer); #ifdef WITH_DEBUG_NTLM WLog_DBG(TAG, "NTLMv2 Response Temp Blob"); winpr_HexDump(TAG, WLOG_DEBUG, ntlm_v2_temp.pvBuffer, ntlm_v2_temp.cbBuffer); #endif /* Concatenate server challenge with temp */ if (!sspi_SecBufferAlloc(&ntlm_v2_temp_chal, ntlm_v2_temp.cbBuffer + 8)) return -1; blob = (BYTE*) ntlm_v2_temp_chal.pvBuffer; CopyMemory(blob, context->ServerChallenge, 8); CopyMemory(&blob[8], ntlm_v2_temp.pvBuffer, ntlm_v2_temp.cbBuffer); winpr_HMAC(WINPR_MD_MD5, (BYTE*) context->NtlmV2Hash, WINPR_MD5_DIGEST_LENGTH, (BYTE*) ntlm_v2_temp_chal.pvBuffer, ntlm_v2_temp_chal.cbBuffer, (BYTE*) nt_proof_str, WINPR_MD5_DIGEST_LENGTH); /* NtChallengeResponse, Concatenate NTProofStr with temp */ if (!sspi_SecBufferAlloc(&context->NtChallengeResponse, ntlm_v2_temp.cbBuffer + 16)) return -1; blob = (BYTE*) context->NtChallengeResponse.pvBuffer; CopyMemory(blob, nt_proof_str, 16); CopyMemory(&blob[16], ntlm_v2_temp.pvBuffer, ntlm_v2_temp.cbBuffer); /* Compute SessionBaseKey, the HMAC-MD5 hash of NTProofStr using the NTLMv2 hash as the key */ winpr_HMAC(WINPR_MD_MD5, (BYTE*) context->NtlmV2Hash, WINPR_MD5_DIGEST_LENGTH, (BYTE*) nt_proof_str, WINPR_MD5_DIGEST_LENGTH, (BYTE*) context->SessionBaseKey, WINPR_MD5_DIGEST_LENGTH); sspi_SecBufferFree(&ntlm_v2_temp); sspi_SecBufferFree(&ntlm_v2_temp_chal); return 1; } /** * Encrypt the given plain text using RC4 and the given key. * @param key RC4 key * @param length text length * @param plaintext plain text * @param ciphertext cipher text */ void ntlm_rc4k(BYTE* key, int length, BYTE* plaintext, BYTE* ciphertext) { WINPR_RC4_CTX* rc4 = winpr_RC4_New(key, 16); if (rc4) { winpr_RC4_Update(rc4, length, plaintext, ciphertext); winpr_RC4_Free(rc4); } } /** * Generate client challenge (8-byte nonce). * @param NTLM context */ void ntlm_generate_client_challenge(NTLM_CONTEXT* context) { /* ClientChallenge is used in computation of LMv2 and NTLMv2 responses */ if (memcmp(context->ClientChallenge, NTLM_NULL_BUFFER, 8) == 0) winpr_RAND(context->ClientChallenge, 8); } /** * Generate server challenge (8-byte nonce). * @param NTLM context */ void ntlm_generate_server_challenge(NTLM_CONTEXT* context) { if (memcmp(context->ServerChallenge, NTLM_NULL_BUFFER, 8) == 0) winpr_RAND(context->ServerChallenge, 8); } /** * Generate KeyExchangeKey (the 128-bit SessionBaseKey). * @msdn{cc236710} * @param NTLM context */ void ntlm_generate_key_exchange_key(NTLM_CONTEXT* context) { /* In NTLMv2, KeyExchangeKey is the 128-bit SessionBaseKey */ CopyMemory(context->KeyExchangeKey, context->SessionBaseKey, 16); } /** * Generate RandomSessionKey (16-byte nonce). * @param NTLM context */ void ntlm_generate_random_session_key(NTLM_CONTEXT* context) { winpr_RAND(context->RandomSessionKey, 16); } /** * Generate ExportedSessionKey (the RandomSessionKey, exported) * @param NTLM context */ void ntlm_generate_exported_session_key(NTLM_CONTEXT* context) { CopyMemory(context->ExportedSessionKey, context->RandomSessionKey, 16); } /** * Encrypt RandomSessionKey (RC4-encrypted RandomSessionKey, using KeyExchangeKey as the key). * @param NTLM context */ void ntlm_encrypt_random_session_key(NTLM_CONTEXT* context) { /* In NTLMv2, EncryptedRandomSessionKey is the ExportedSessionKey RC4-encrypted with the KeyExchangeKey */ ntlm_rc4k(context->KeyExchangeKey, 16, context->RandomSessionKey, context->EncryptedRandomSessionKey); } /** * Decrypt RandomSessionKey (RC4-encrypted RandomSessionKey, using KeyExchangeKey as the key). * @param NTLM context */ void ntlm_decrypt_random_session_key(NTLM_CONTEXT* context) { /* In NTLMv2, EncryptedRandomSessionKey is the ExportedSessionKey RC4-encrypted with the KeyExchangeKey */ /** * if (NegotiateFlags & NTLMSSP_NEGOTIATE_KEY_EXCH) * Set RandomSessionKey to RC4K(KeyExchangeKey, AUTHENTICATE_MESSAGE.EncryptedRandomSessionKey) * else * Set RandomSessionKey to KeyExchangeKey */ if (context->NegotiateKeyExchange) ntlm_rc4k(context->KeyExchangeKey, 16, context->EncryptedRandomSessionKey, context->RandomSessionKey); else CopyMemory(context->RandomSessionKey, context->KeyExchangeKey, 16); } /** * Generate signing key. * @msdn{cc236711} * @param exported_session_key ExportedSessionKey * @param sign_magic Sign magic string * @param signing_key Destination signing key */ int ntlm_generate_signing_key(BYTE* exported_session_key, PSecBuffer sign_magic, BYTE* signing_key) { int length; BYTE* value; length = WINPR_MD5_DIGEST_LENGTH + sign_magic->cbBuffer; value = (BYTE*) malloc(length); if (!value) return -1; /* Concatenate ExportedSessionKey with sign magic */ CopyMemory(value, exported_session_key, WINPR_MD5_DIGEST_LENGTH); CopyMemory(&value[WINPR_MD5_DIGEST_LENGTH], sign_magic->pvBuffer, sign_magic->cbBuffer); if (!winpr_Digest(WINPR_MD_MD5, value, length, signing_key, WINPR_MD5_DIGEST_LENGTH)) { free(value); return -1; } free(value); return 1; } /** * Generate client signing key (ClientSigningKey). * @msdn{cc236711} * @param NTLM context */ void ntlm_generate_client_signing_key(NTLM_CONTEXT* context) { SecBuffer signMagic; signMagic.pvBuffer = (void*) NTLM_CLIENT_SIGN_MAGIC; signMagic.cbBuffer = sizeof(NTLM_CLIENT_SIGN_MAGIC); ntlm_generate_signing_key(context->ExportedSessionKey, &signMagic, context->ClientSigningKey); } /** * Generate server signing key (ServerSigningKey). * @msdn{cc236711} * @param NTLM context */ void ntlm_generate_server_signing_key(NTLM_CONTEXT* context) { SecBuffer signMagic; signMagic.pvBuffer = (void*) NTLM_SERVER_SIGN_MAGIC; signMagic.cbBuffer = sizeof(NTLM_SERVER_SIGN_MAGIC); ntlm_generate_signing_key(context->ExportedSessionKey, &signMagic, context->ServerSigningKey); } /** * Generate sealing key. * @msdn{cc236712} * @param exported_session_key ExportedSessionKey * @param seal_magic Seal magic string * @param sealing_key Destination sealing key */ int ntlm_generate_sealing_key(BYTE* exported_session_key, PSecBuffer seal_magic, BYTE* sealing_key) { BYTE* p; SecBuffer buffer; if (!sspi_SecBufferAlloc(&buffer, WINPR_MD5_DIGEST_LENGTH + seal_magic->cbBuffer)) return -1; p = (BYTE*) buffer.pvBuffer; /* Concatenate ExportedSessionKey with seal magic */ CopyMemory(p, exported_session_key, WINPR_MD5_DIGEST_LENGTH); CopyMemory(&p[WINPR_MD5_DIGEST_LENGTH], seal_magic->pvBuffer, seal_magic->cbBuffer); if (!winpr_Digest(WINPR_MD_MD5, buffer.pvBuffer, buffer.cbBuffer, sealing_key, WINPR_MD5_DIGEST_LENGTH)) { sspi_SecBufferFree(&buffer); return -1; } sspi_SecBufferFree(&buffer); return 1; } /** * Generate client sealing key (ClientSealingKey). * @msdn{cc236712} * @param NTLM context */ void ntlm_generate_client_sealing_key(NTLM_CONTEXT* context) { SecBuffer sealMagic; sealMagic.pvBuffer = (void*) NTLM_CLIENT_SEAL_MAGIC; sealMagic.cbBuffer = sizeof(NTLM_CLIENT_SEAL_MAGIC); ntlm_generate_signing_key(context->ExportedSessionKey, &sealMagic, context->ClientSealingKey); } /** * Generate server sealing key (ServerSealingKey). * @msdn{cc236712} * @param NTLM context */ void ntlm_generate_server_sealing_key(NTLM_CONTEXT* context) { SecBuffer sealMagic; sealMagic.pvBuffer = (void*) NTLM_SERVER_SEAL_MAGIC; sealMagic.cbBuffer = sizeof(NTLM_SERVER_SEAL_MAGIC); ntlm_generate_signing_key(context->ExportedSessionKey, &sealMagic, context->ServerSealingKey); } /** * Initialize RC4 stream cipher states for sealing. * @param NTLM context */ void ntlm_init_rc4_seal_states(NTLM_CONTEXT* context) { if (context->server) { context->SendSigningKey = context->ServerSigningKey; context->RecvSigningKey = context->ClientSigningKey; context->SendSealingKey = context->ClientSealingKey; context->RecvSealingKey = context->ServerSealingKey; context->SendRc4Seal = winpr_RC4_New(context->ServerSealingKey, 16); context->RecvRc4Seal = winpr_RC4_New(context->ClientSealingKey, 16); } else { context->SendSigningKey = context->ClientSigningKey; context->RecvSigningKey = context->ServerSigningKey; context->SendSealingKey = context->ServerSealingKey; context->RecvSealingKey = context->ClientSealingKey; context->SendRc4Seal = winpr_RC4_New(context->ClientSealingKey, 16); context->RecvRc4Seal = winpr_RC4_New(context->ServerSealingKey, 16); } } void ntlm_compute_message_integrity_check(NTLM_CONTEXT* context) { /* * Compute the HMAC-MD5 hash of ConcatenationOf(NEGOTIATE_MESSAGE, * CHALLENGE_MESSAGE, AUTHENTICATE_MESSAGE) using the ExportedSessionKey */ WINPR_HMAC_CTX* hmac = winpr_HMAC_New(); if (!hmac) return; if (winpr_HMAC_Init(hmac, WINPR_MD_MD5, context->ExportedSessionKey, WINPR_MD5_DIGEST_LENGTH)) { winpr_HMAC_Update(hmac, (BYTE*) context->NegotiateMessage.pvBuffer, context->NegotiateMessage.cbBuffer); winpr_HMAC_Update(hmac, (BYTE*) context->ChallengeMessage.pvBuffer, context->ChallengeMessage.cbBuffer); winpr_HMAC_Update(hmac, (BYTE*) context->AuthenticateMessage.pvBuffer, context->AuthenticateMessage.cbBuffer); winpr_HMAC_Final(hmac, context->MessageIntegrityCheck, WINPR_MD5_DIGEST_LENGTH); } winpr_HMAC_Free(hmac); }