FreeRDP/libfreerdp/crypto/nla.c
2012-08-14 17:09:01 -04:00

1319 lines
34 KiB
C

/**
* WinPR: Windows Portable Runtime
* Network Level Authentication (NLA)
*
* Copyright 2010-2012 Marc-Andre Moreau <marcandre.moreau@gmail.com>
*
* 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 <time.h>
#ifndef _WIN32
#include <unistd.h>
#endif
#include <freerdp/crypto/nla.h>
#include <freerdp/crypto/tls.h>
#include <winpr/crt.h>
#include <winpr/sspi.h>
#include <winpr/print.h>
#include <winpr/tchar.h>
#include <winpr/library.h>
#include <winpr/registry.h>
/**
* TSRequest ::= SEQUENCE {
* version [0] INTEGER,
* negoTokens [1] NegoData OPTIONAL,
* authInfo [2] OCTET STRING OPTIONAL,
* pubKeyAuth [3] OCTET STRING OPTIONAL
* }
*
* NegoData ::= SEQUENCE OF NegoDataItem
*
* NegoDataItem ::= SEQUENCE {
* negoToken [0] OCTET STRING
* }
*
* TSCredentials ::= SEQUENCE {
* credType [0] INTEGER,
* credentials [1] OCTET STRING
* }
*
* TSPasswordCreds ::= SEQUENCE {
* domainName [0] OCTET STRING,
* userName [1] OCTET STRING,
* password [2] OCTET STRING
* }
*
* TSSmartCardCreds ::= SEQUENCE {
* pin [0] OCTET STRING,
* cspData [1] TSCspDataDetail,
* userHint [2] OCTET STRING OPTIONAL,
* domainHint [3] OCTET STRING OPTIONAL
* }
*
* TSCspDataDetail ::= SEQUENCE {
* keySpec [0] INTEGER,
* cardName [1] OCTET STRING OPTIONAL,
* readerName [2] OCTET STRING OPTIONAL,
* containerName [3] OCTET STRING OPTIONAL,
* cspName [4] OCTET STRING OPTIONAL
* }
*
*/
#ifdef WITH_DEBUG_NLA
#define WITH_DEBUG_CREDSSP
#endif
#ifdef WITH_NATIVE_SSPI
#define NLA_PKG_NAME NEGOSSP_NAME
#else
#define NLA_PKG_NAME NTLMSP_NAME
#endif
#define TERMSRV_SPN_PREFIX "TERMSRV/"
void credssp_send(rdpCredssp* credssp);
int credssp_recv(rdpCredssp* credssp);
void credssp_buffer_print(rdpCredssp* credssp);
void credssp_buffer_free(rdpCredssp* credssp);
SECURITY_STATUS credssp_encrypt_public_key_echo(rdpCredssp* credssp);
SECURITY_STATUS credssp_decrypt_public_key_echo(rdpCredssp* credssp);
SECURITY_STATUS credssp_encrypt_ts_credentials(rdpCredssp* credssp);
SECURITY_STATUS credssp_decrypt_ts_credentials(rdpCredssp* credssp);
/**
* Initialize NTLMSSP authentication module (client).
* @param credssp
*/
int credssp_ntlm_client_init(rdpCredssp* credssp)
{
char* spn;
int length;
freerdp* instance;
rdpSettings* settings;
settings = credssp->settings;
instance = (freerdp*) settings->instance;
if ((settings->password == NULL) || (settings->username == NULL))
{
if (instance->Authenticate)
{
boolean proceed = instance->Authenticate(instance,
&settings->username, &settings->password, &settings->domain);
if (!proceed)
return 0;
}
}
sspi_SetAuthIdentity(&(credssp->identity), settings->username, settings->domain, settings->password);
sspi_SecBufferAlloc(&credssp->PublicKey, credssp->tls->public_key.length);
CopyMemory(credssp->PublicKey.pvBuffer, credssp->tls->public_key.data, credssp->tls->public_key.length);
length = sizeof(TERMSRV_SPN_PREFIX) + strlen(settings->hostname);
spn = (SEC_CHAR*) malloc(length + 1);
sprintf(spn, "%s%s", TERMSRV_SPN_PREFIX, settings->hostname);
#ifdef UNICODE
credssp->ServicePrincipalName = (LPTSTR) malloc(length * 2 + 2);
MultiByteToWideChar(CP_ACP, 0, spn, length,
(LPWSTR) credssp->ServicePrincipalName, length);
free(spn);
#else
credssp->ServicePrincipalName = spn;
#endif
return 1;
}
/**
* Initialize NTLMSSP authentication module (server).
* @param credssp
*/
int credssp_ntlm_server_init(rdpCredssp* credssp)
{
freerdp* instance;
rdpSettings* settings = credssp->settings;
instance = (freerdp*) settings->instance;
sspi_SecBufferAlloc(&credssp->PublicKey, credssp->tls->public_key.length);
CopyMemory(credssp->PublicKey.pvBuffer, credssp->tls->public_key.data, credssp->tls->public_key.length);
return 1;
}
int credssp_client_authenticate(rdpCredssp* credssp)
{
ULONG cbMaxToken;
ULONG fContextReq;
ULONG pfContextAttr;
SECURITY_STATUS status;
CredHandle credentials;
TimeStamp expiration;
PSecPkgInfo pPackageInfo;
PSecBuffer p_buffer;
SecBuffer input_buffer;
SecBuffer output_buffer;
SecBufferDesc input_buffer_desc;
SecBufferDesc output_buffer_desc;
boolean have_context;
boolean have_input_buffer;
boolean have_pub_key_auth;
sspi_GlobalInit();
if (credssp_ntlm_client_init(credssp) == 0)
return 0;
#ifdef WITH_NATIVE_SSPI
{
HMODULE hSSPI;
INIT_SECURITY_INTERFACE InitSecurityInterface;
PSecurityFunctionTable pSecurityInterface = NULL;
hSSPI = LoadLibrary(_T("secur32.dll"));
#ifdef UNICODE
InitSecurityInterface = (INIT_SECURITY_INTERFACE) GetProcAddress(hSSPI, "InitSecurityInterfaceW");
#else
InitSecurityInterface = (INIT_SECURITY_INTERFACE) GetProcAddress(hSSPI, "InitSecurityInterfaceA");
#endif
credssp->table = (*InitSecurityInterface)();
}
#else
credssp->table = InitSecurityInterface();
#endif
status = credssp->table->QuerySecurityPackageInfo(NLA_PKG_NAME, &pPackageInfo);
if (status != SEC_E_OK)
{
printf("QuerySecurityPackageInfo status: 0x%08X\n", status);
return 0;
}
cbMaxToken = pPackageInfo->cbMaxToken;
status = credssp->table->AcquireCredentialsHandle(NULL, NLA_PKG_NAME,
SECPKG_CRED_OUTBOUND, NULL, &credssp->identity, NULL, NULL, &credentials, &expiration);
if (status != SEC_E_OK)
{
printf("AcquireCredentialsHandle status: 0x%08X\n", status);
return 0;
}
have_context = false;
have_input_buffer = false;
have_pub_key_auth = false;
ZeroMemory(&input_buffer, sizeof(SecBuffer));
ZeroMemory(&output_buffer, sizeof(SecBuffer));
ZeroMemory(&credssp->ContextSizes, sizeof(SecPkgContext_Sizes));
/*
* from tspkg.dll: 0x00000132
* ISC_REQ_MUTUAL_AUTH
* ISC_REQ_CONFIDENTIALITY
* ISC_REQ_USE_SESSION_KEY
* ISC_REQ_ALLOCATE_MEMORY
*/
fContextReq = ISC_REQ_MUTUAL_AUTH | ISC_REQ_CONFIDENTIALITY | ISC_REQ_USE_SESSION_KEY;
while (true)
{
output_buffer_desc.ulVersion = SECBUFFER_VERSION;
output_buffer_desc.cBuffers = 1;
output_buffer_desc.pBuffers = &output_buffer;
output_buffer.BufferType = SECBUFFER_TOKEN;
output_buffer.cbBuffer = cbMaxToken;
output_buffer.pvBuffer = malloc(output_buffer.cbBuffer);
status = credssp->table->InitializeSecurityContext(&credentials,
(have_context) ? &credssp->context : NULL,
credssp->ServicePrincipalName, fContextReq, 0,
SECURITY_NATIVE_DREP, (have_input_buffer) ? &input_buffer_desc : NULL,
0, &credssp->context, &output_buffer_desc, &pfContextAttr, &expiration);
if (input_buffer.pvBuffer != NULL)
{
free(input_buffer.pvBuffer);
input_buffer.pvBuffer = NULL;
}
if ((status == SEC_I_COMPLETE_AND_CONTINUE) || (status == SEC_I_COMPLETE_NEEDED) || (status == SEC_E_OK))
{
if (credssp->table->CompleteAuthToken != NULL)
credssp->table->CompleteAuthToken(&credssp->context, &output_buffer_desc);
have_pub_key_auth = true;
if (credssp->table->QueryContextAttributes(&credssp->context, SECPKG_ATTR_SIZES, &credssp->ContextSizes) != SEC_E_OK)
{
printf("QueryContextAttributes SECPKG_ATTR_SIZES failure\n");
return 0;
}
credssp_encrypt_public_key_echo(credssp);
if (status == SEC_I_COMPLETE_NEEDED)
status = SEC_E_OK;
else if (status == SEC_I_COMPLETE_AND_CONTINUE)
status = SEC_I_CONTINUE_NEEDED;
}
/* send authentication token to server */
if (output_buffer.cbBuffer > 0)
{
p_buffer = &output_buffer_desc.pBuffers[0];
credssp->negoToken.pvBuffer = p_buffer->pvBuffer;
credssp->negoToken.cbBuffer = p_buffer->cbBuffer;
#ifdef WITH_DEBUG_CREDSSP
printf("Sending Authentication Token\n");
winpr_HexDump(credssp->negoToken.pvBuffer, credssp->negoToken.cbBuffer);
#endif
credssp_send(credssp);
credssp_buffer_free(credssp);
}
if (status != SEC_I_CONTINUE_NEEDED)
break;
/* receive server response and place in input buffer */
input_buffer_desc.ulVersion = SECBUFFER_VERSION;
input_buffer_desc.cBuffers = 1;
input_buffer_desc.pBuffers = &input_buffer;
input_buffer.BufferType = SECBUFFER_TOKEN;
if (credssp_recv(credssp) < 0)
return -1;
#ifdef WITH_DEBUG_CREDSSP
printf("Receiving Authentication Token (%d)\n", (int) credssp->negoToken.cbBuffer);
winpr_HexDump(credssp->negoToken.pvBuffer, credssp->negoToken.cbBuffer);
#endif
p_buffer = &input_buffer_desc.pBuffers[0];
p_buffer->pvBuffer = credssp->negoToken.pvBuffer;
p_buffer->cbBuffer = credssp->negoToken.cbBuffer;
have_input_buffer = true;
have_context = true;
}
/* Encrypted Public Key +1 */
if (credssp_recv(credssp) < 0)
return -1;
/* Verify Server Public Key Echo */
status = credssp_decrypt_public_key_echo(credssp);
credssp_buffer_free(credssp);
if (status != SEC_E_OK)
{
printf("Could not verify public key echo!\n");
return -1;
}
/* Send encrypted credentials */
status = credssp_encrypt_ts_credentials(credssp);
if (status != SEC_E_OK)
{
printf("credssp_encrypt_ts_credentials status: 0x%08X\n", status);
return 0;
}
credssp_send(credssp);
credssp_buffer_free(credssp);
/* Free resources */
credssp->table->FreeCredentialsHandle(&credentials);
credssp->table->FreeContextBuffer(pPackageInfo);
return 1;
}
/**
* Authenticate with client using CredSSP (server).
* @param credssp
* @return 1 if authentication is successful
*/
int credssp_server_authenticate(rdpCredssp* credssp)
{
UINT32 cbMaxToken;
ULONG fContextReq;
ULONG pfContextAttr;
SECURITY_STATUS status;
CredHandle credentials;
TimeStamp expiration;
PSecPkgInfo pPackageInfo;
PSecBuffer p_buffer;
SecBuffer input_buffer;
SecBuffer output_buffer;
SecBufferDesc input_buffer_desc;
SecBufferDesc output_buffer_desc;
boolean have_context;
boolean have_input_buffer;
boolean have_pub_key_auth;
sspi_GlobalInit();
if (credssp_ntlm_server_init(credssp) == 0)
return 0;
#ifdef WITH_NATIVE_SSPI
{
HMODULE hSSPI;
INIT_SECURITY_INTERFACE pInitSecurityInterface;
hSSPI = LoadLibrary(_T("secur32.dll"));
#ifdef UNICODE
pInitSecurityInterface = (INIT_SECURITY_INTERFACE) GetProcAddress(hSSPI, "InitSecurityInterfaceW");
#else
pInitSecurityInterface = (INIT_SECURITY_INTERFACE) GetProcAddress(hSSPI, "InitSecurityInterfaceA");
#endif
credssp->table = (*pInitSecurityInterface)();
}
#else
if (credssp->SspiModule)
{
HMODULE hSSPI;
INIT_SECURITY_INTERFACE pInitSecurityInterface;
hSSPI = LoadLibrary(credssp->SspiModule);
if (!hSSPI)
{
_tprintf(_T("Failed to load SSPI module: %s\n"), credssp->SspiModule);
return 0;
}
#ifdef UNICODE
pInitSecurityInterface = (INIT_SECURITY_INTERFACE) GetProcAddress(hSSPI, "InitSecurityInterfaceW");
#else
pInitSecurityInterface = (INIT_SECURITY_INTERFACE) GetProcAddress(hSSPI, "InitSecurityInterfaceA");
#endif
credssp->table = (*pInitSecurityInterface)();
}
else
{
credssp->table = InitSecurityInterface();
}
#endif
status = credssp->table->QuerySecurityPackageInfo(NLA_PKG_NAME, &pPackageInfo);
if (status != SEC_E_OK)
{
printf("QuerySecurityPackageInfo status: 0x%08X\n", status);
return 0;
}
cbMaxToken = pPackageInfo->cbMaxToken;
status = credssp->table->AcquireCredentialsHandle(NULL, NLA_PKG_NAME,
SECPKG_CRED_INBOUND, NULL, NULL, NULL, NULL, &credentials, &expiration);
if (status != SEC_E_OK)
{
printf("AcquireCredentialsHandle status: 0x%08X\n", status);
return 0;
}
have_context = false;
have_input_buffer = false;
have_pub_key_auth = false;
ZeroMemory(&input_buffer, sizeof(SecBuffer));
ZeroMemory(&output_buffer, sizeof(SecBuffer));
ZeroMemory(&credssp->ContextSizes, sizeof(SecPkgContext_Sizes));
/*
* from tspkg.dll: 0x00000112
* ASC_REQ_MUTUAL_AUTH
* ASC_REQ_CONFIDENTIALITY
* ASC_REQ_ALLOCATE_MEMORY
*/
fContextReq = 0;
fContextReq |= ASC_REQ_MUTUAL_AUTH;
fContextReq |= ASC_REQ_CONFIDENTIALITY;
fContextReq |= ASC_REQ_CONNECTION;
fContextReq |= ASC_REQ_USE_SESSION_KEY;
fContextReq |= ASC_REQ_REPLAY_DETECT;
fContextReq |= ASC_REQ_SEQUENCE_DETECT;
fContextReq |= ASC_REQ_EXTENDED_ERROR;
while (true)
{
input_buffer_desc.ulVersion = SECBUFFER_VERSION;
input_buffer_desc.cBuffers = 1;
input_buffer_desc.pBuffers = &input_buffer;
input_buffer.BufferType = SECBUFFER_TOKEN;
/* receive authentication token */
input_buffer_desc.ulVersion = SECBUFFER_VERSION;
input_buffer_desc.cBuffers = 1;
input_buffer_desc.pBuffers = &input_buffer;
input_buffer.BufferType = SECBUFFER_TOKEN;
if (credssp_recv(credssp) < 0)
return -1;
#ifdef WITH_DEBUG_CREDSSP
printf("Receiving Authentication Token\n");
credssp_buffer_print(credssp);
#endif
p_buffer = &input_buffer_desc.pBuffers[0];
p_buffer->pvBuffer = credssp->negoToken.pvBuffer;
p_buffer->cbBuffer = credssp->negoToken.cbBuffer;
if (credssp->negoToken.cbBuffer < 1)
{
printf("CredSSP: invalid negoToken!\n");
return -1;
}
output_buffer_desc.ulVersion = SECBUFFER_VERSION;
output_buffer_desc.cBuffers = 1;
output_buffer_desc.pBuffers = &output_buffer;
output_buffer.BufferType = SECBUFFER_TOKEN;
output_buffer.cbBuffer = cbMaxToken;
output_buffer.pvBuffer = malloc(output_buffer.cbBuffer);
status = credssp->table->AcceptSecurityContext(&credentials,
have_context? &credssp->context: NULL,
&input_buffer_desc, fContextReq, SECURITY_NATIVE_DREP, &credssp->context,
&output_buffer_desc, &pfContextAttr, &expiration);
if (input_buffer.pvBuffer != NULL)
{
free(input_buffer.pvBuffer);
input_buffer.pvBuffer = NULL;
}
p_buffer = &output_buffer_desc.pBuffers[0];
credssp->negoToken.pvBuffer = p_buffer->pvBuffer;
credssp->negoToken.cbBuffer = p_buffer->cbBuffer;
if ((status == SEC_I_COMPLETE_AND_CONTINUE) || (status == SEC_I_COMPLETE_NEEDED))
{
if (credssp->table->CompleteAuthToken != NULL)
credssp->table->CompleteAuthToken(&credssp->context, &output_buffer_desc);
if (status == SEC_I_COMPLETE_NEEDED)
status = SEC_E_OK;
else if (status == SEC_I_COMPLETE_AND_CONTINUE)
status = SEC_I_CONTINUE_NEEDED;
}
if (status == SEC_E_OK)
{
have_pub_key_auth = true;
if (credssp->table->QueryContextAttributes(&credssp->context, SECPKG_ATTR_SIZES, &credssp->ContextSizes) != SEC_E_OK)
{
printf("QueryContextAttributes SECPKG_ATTR_SIZES failure\n");
return 0;
}
if (credssp_decrypt_public_key_echo(credssp) != SEC_E_OK)
{
printf("Error: could not verify client's public key echo\n");
return -1;
}
sspi_SecBufferFree(&credssp->negoToken);
credssp->negoToken.pvBuffer = NULL;
credssp->negoToken.cbBuffer = 0;
credssp_encrypt_public_key_echo(credssp);
}
if ((status != SEC_E_OK) && (status != SEC_I_CONTINUE_NEEDED))
{
printf("AcceptSecurityContext status: 0x%08X\n", status);
return -1;
}
/* send authentication token */
#ifdef WITH_DEBUG_CREDSSP
printf("Sending Authentication Token\n");
credssp_buffer_print(credssp);
#endif
credssp_send(credssp);
credssp_buffer_free(credssp);
if (status != SEC_I_CONTINUE_NEEDED)
break;
have_context = true;
}
/* Receive encrypted credentials */
if (credssp_recv(credssp) < 0)
return -1;
credssp_decrypt_ts_credentials(credssp);
if (status != SEC_E_OK)
{
printf("AcceptSecurityContext status: 0x%08X\n", status);
return 0;
}
status = credssp->table->ImpersonateSecurityContext(&credssp->context);
if (status != SEC_E_OK)
{
printf("ImpersonateSecurityContext status: 0x%08X\n", status);
return 0;
}
else
{
status = credssp->table->RevertSecurityContext(&credssp->context);
if (status != SEC_E_OK)
{
printf("RevertSecurityContext status: 0x%08X\n", status);
return 0;
}
}
credssp->table->FreeContextBuffer(pPackageInfo);
return 1;
}
/**
* Authenticate using CredSSP.
* @param credssp
* @return 1 if authentication is successful
*/
int credssp_authenticate(rdpCredssp* credssp)
{
if (credssp->server)
return credssp_server_authenticate(credssp);
else
return credssp_client_authenticate(credssp);
}
void ap_integer_increment_le(BYTE* number, int size)
{
int index;
for (index = 0; index < size; index++)
{
if (number[index] < 0xFF)
{
number[index]++;
break;
}
else
{
number[index] = 0;
continue;
}
}
}
void ap_integer_decrement_le(BYTE* number, int size)
{
int index;
for (index = 0; index < size; index++)
{
if (number[index] > 0)
{
number[index]--;
break;
}
else
{
number[index] = 0xFF;
continue;
}
}
}
SECURITY_STATUS credssp_encrypt_public_key_echo(rdpCredssp* credssp)
{
SecBuffer Buffers[2];
SecBufferDesc Message;
SECURITY_STATUS status;
int public_key_length;
public_key_length = credssp->PublicKey.cbBuffer;
Buffers[0].BufferType = SECBUFFER_TOKEN; /* Signature */
Buffers[1].BufferType = SECBUFFER_DATA; /* TLS Public Key */
sspi_SecBufferAlloc(&credssp->pubKeyAuth, credssp->ContextSizes.cbMaxSignature + public_key_length);
Buffers[0].cbBuffer = credssp->ContextSizes.cbMaxSignature;
Buffers[0].pvBuffer = credssp->pubKeyAuth.pvBuffer;
Buffers[1].cbBuffer = public_key_length;
Buffers[1].pvBuffer = ((BYTE*) credssp->pubKeyAuth.pvBuffer) + credssp->ContextSizes.cbMaxSignature;
CopyMemory(Buffers[1].pvBuffer, credssp->PublicKey.pvBuffer, Buffers[1].cbBuffer);
if (credssp->server)
{
/* server echos the public key +1 */
ap_integer_increment_le((BYTE*) Buffers[1].pvBuffer, Buffers[1].cbBuffer);
}
Message.cBuffers = 2;
Message.ulVersion = SECBUFFER_VERSION;
Message.pBuffers = (PSecBuffer) &Buffers;
status = credssp->table->EncryptMessage(&credssp->context, 0, &Message, credssp->send_seq_num++);
if (status != SEC_E_OK)
{
printf("EncryptMessage status: 0x%08X\n", status);
return status;
}
return status;
}
SECURITY_STATUS credssp_decrypt_public_key_echo(rdpCredssp* credssp)
{
int length;
BYTE* buffer;
ULONG pfQOP;
BYTE* public_key1;
BYTE* public_key2;
int public_key_length;
SecBuffer Buffers[2];
SecBufferDesc Message;
SECURITY_STATUS status;
if (credssp->PublicKey.cbBuffer + credssp->ContextSizes.cbMaxSignature != credssp->pubKeyAuth.cbBuffer)
{
printf("unexpected pubKeyAuth buffer size:%d\n", (int) credssp->pubKeyAuth.cbBuffer);
return SEC_E_INVALID_TOKEN;
}
length = credssp->pubKeyAuth.cbBuffer;
buffer = (BYTE*) malloc(length);
CopyMemory(buffer, credssp->pubKeyAuth.pvBuffer, length);
public_key_length = credssp->PublicKey.cbBuffer;
Buffers[0].BufferType = SECBUFFER_TOKEN; /* Signature */
Buffers[1].BufferType = SECBUFFER_DATA; /* Encrypted TLS Public Key */
Buffers[0].cbBuffer = credssp->ContextSizes.cbMaxSignature;
Buffers[0].pvBuffer = buffer;
Buffers[1].cbBuffer = length - credssp->ContextSizes.cbMaxSignature;
Buffers[1].pvBuffer = buffer + credssp->ContextSizes.cbMaxSignature;
Message.cBuffers = 2;
Message.ulVersion = SECBUFFER_VERSION;
Message.pBuffers = (PSecBuffer) &Buffers;
status = credssp->table->DecryptMessage(&credssp->context, &Message, credssp->recv_seq_num++, &pfQOP);
if (status != SEC_E_OK)
{
printf("DecryptMessage failure: 0x%08X\n", status);
return status;
}
public_key1 = (BYTE*) credssp->PublicKey.pvBuffer;
public_key2 = (BYTE*) Buffers[1].pvBuffer;
if (!credssp->server)
{
/* server echos the public key +1 */
ap_integer_decrement_le(public_key2, public_key_length);
}
if (memcmp(public_key1, public_key2, public_key_length) != 0)
{
printf("Could not verify server's public key echo\n");
printf("Expected (length = %d):\n", public_key_length);
winpr_HexDump(public_key1, public_key_length);
printf("Actual (length = %d):\n", public_key_length);
winpr_HexDump(public_key2, public_key_length);
return SEC_E_MESSAGE_ALTERED; /* DO NOT SEND CREDENTIALS! */
}
free(buffer);
return SEC_E_OK;
}
int credssp_skip_ts_password_creds(rdpCredssp* credssp)
{
int length;
int ts_password_creds_length = 0;
length = ber_skip_octet_string(credssp->identity.DomainLength * 2);
length += ber_skip_contextual_tag(length);
ts_password_creds_length += length;
length = ber_skip_octet_string(credssp->identity.UserLength * 2);
length += ber_skip_contextual_tag(length);
ts_password_creds_length += length;
length = ber_skip_octet_string(credssp->identity.PasswordLength * 2);
length += ber_skip_contextual_tag(length);
ts_password_creds_length += length;
length = ber_skip_sequence(ts_password_creds_length);
return length;
}
void credssp_read_ts_password_creds(rdpCredssp* credssp, STREAM* s)
{
int length;
/* TSPasswordCreds (SEQUENCE) */
ber_read_sequence_tag(s, &length);
/* [0] domainName (OCTET STRING) */
ber_read_contextual_tag(s, 0, &length, true);
ber_read_octet_string_tag(s, &length);
credssp->identity.DomainLength = (UINT32) length;
credssp->identity.Domain = (UINT16*) malloc(length);
CopyMemory(credssp->identity.Domain, s->p, credssp->identity.DomainLength);
stream_seek(s, credssp->identity.DomainLength);
credssp->identity.DomainLength /= 2;
/* [1] userName (OCTET STRING) */
ber_read_contextual_tag(s, 1, &length, true);
ber_read_octet_string_tag(s, &length);
credssp->identity.UserLength = (UINT32) length;
credssp->identity.User = (UINT16*) malloc(length);
CopyMemory(credssp->identity.User, s->p, credssp->identity.UserLength);
stream_seek(s, credssp->identity.UserLength);
credssp->identity.UserLength /= 2;
/* [2] password (OCTET STRING) */
ber_read_contextual_tag(s, 2, &length, true);
ber_read_octet_string_tag(s, &length);
credssp->identity.PasswordLength = (UINT32) length;
credssp->identity.Password = (UINT16*) malloc(length);
CopyMemory(credssp->identity.Password, s->p, credssp->identity.PasswordLength);
stream_seek(s, credssp->identity.PasswordLength);
credssp->identity.PasswordLength /= 2;
}
void credssp_write_ts_password_creds(rdpCredssp* credssp, STREAM* s)
{
int length;
length = credssp_skip_ts_password_creds(credssp);
/* TSPasswordCreds (SEQUENCE) */
length = ber_get_content_length(length);
ber_write_sequence_tag(s, length);
/* [0] domainName (OCTET STRING) */
ber_write_contextual_tag(s, 0, credssp->identity.DomainLength * 2 + 2, true);
ber_write_octet_string(s, (BYTE*) credssp->identity.Domain, credssp->identity.DomainLength * 2);
/* [1] userName (OCTET STRING) */
ber_write_contextual_tag(s, 1, credssp->identity.UserLength * 2 + 2, true);
ber_write_octet_string(s, (BYTE*) credssp->identity.User, credssp->identity.UserLength * 2);
/* [2] password (OCTET STRING) */
ber_write_contextual_tag(s, 2, credssp->identity.PasswordLength * 2 + 2, true);
ber_write_octet_string(s, (BYTE*) credssp->identity.Password, credssp->identity.PasswordLength * 2);
}
int credssp_skip_ts_credentials(rdpCredssp* credssp)
{
int length;
int ts_password_creds_length;
int ts_credentials_length = 0;
length = ber_skip_integer(0);
length += ber_skip_contextual_tag(length);
ts_credentials_length += length;
ts_password_creds_length = credssp_skip_ts_password_creds(credssp);
length = ber_skip_octet_string(ts_password_creds_length);
length += ber_skip_contextual_tag(length);
ts_credentials_length += length;
length = ber_skip_sequence(ts_credentials_length);
return length;
}
void credssp_read_ts_credentials(rdpCredssp* credssp, PSecBuffer ts_credentials)
{
STREAM* s;
int length;
int ts_password_creds_length;
s = stream_new(0);
stream_attach(s, ts_credentials->pvBuffer, ts_credentials->cbBuffer);
/* TSCredentials (SEQUENCE) */
ber_read_sequence_tag(s, &length);
/* [0] credType (INTEGER) */
ber_read_contextual_tag(s, 0, &length, true);
ber_read_integer(s, NULL);
/* [1] credentials (OCTET STRING) */
ber_read_contextual_tag(s, 1, &length, true);
ber_read_octet_string_tag(s, &ts_password_creds_length);
credssp_read_ts_password_creds(credssp, s);
stream_detach(s);
stream_free(s);
}
void credssp_write_ts_credentials(rdpCredssp* credssp, STREAM* s)
{
int length;
int ts_password_creds_length;
length = credssp_skip_ts_credentials(credssp);
ts_password_creds_length = credssp_skip_ts_password_creds(credssp);
/* TSCredentials (SEQUENCE) */
length = ber_get_content_length(length);
length -= ber_write_sequence_tag(s, length);
/* [0] credType (INTEGER) */
length -= ber_write_contextual_tag(s, 0, 3, true);
length -= ber_write_integer(s, 1);
/* [1] credentials (OCTET STRING) */
length -= 1;
length -= ber_write_contextual_tag(s, 1, length, true);
length -= ber_write_octet_string_tag(s, ts_password_creds_length);
credssp_write_ts_password_creds(credssp, s);
}
/**
* Encode TSCredentials structure.
* @param credssp
*/
void credssp_encode_ts_credentials(rdpCredssp* credssp)
{
STREAM* s;
int length;
s = stream_new(0);
length = credssp_skip_ts_credentials(credssp);
sspi_SecBufferAlloc(&credssp->ts_credentials, length);
stream_attach(s, credssp->ts_credentials.pvBuffer, length);
credssp_write_ts_credentials(credssp, s);
stream_detach(s);
stream_free(s);
}
SECURITY_STATUS credssp_encrypt_ts_credentials(rdpCredssp* credssp)
{
SecBuffer Buffers[2];
SecBufferDesc Message;
SECURITY_STATUS status;
credssp_encode_ts_credentials(credssp);
Buffers[0].BufferType = SECBUFFER_TOKEN; /* Signature */
Buffers[1].BufferType = SECBUFFER_DATA; /* TSCredentials */
sspi_SecBufferAlloc(&credssp->authInfo, credssp->ContextSizes.cbMaxSignature + credssp->ts_credentials.cbBuffer);
Buffers[0].cbBuffer = credssp->ContextSizes.cbMaxSignature;
Buffers[0].pvBuffer = credssp->authInfo.pvBuffer;
ZeroMemory(Buffers[0].pvBuffer, Buffers[0].cbBuffer);
Buffers[1].cbBuffer = credssp->ts_credentials.cbBuffer;
Buffers[1].pvBuffer = &((BYTE*) credssp->authInfo.pvBuffer)[Buffers[0].cbBuffer];
CopyMemory(Buffers[1].pvBuffer, credssp->ts_credentials.pvBuffer, Buffers[1].cbBuffer);
Message.cBuffers = 2;
Message.ulVersion = SECBUFFER_VERSION;
Message.pBuffers = (PSecBuffer) &Buffers;
status = credssp->table->EncryptMessage(&credssp->context, 0, &Message, credssp->send_seq_num++);
if (status != SEC_E_OK)
return status;
return SEC_E_OK;
}
SECURITY_STATUS credssp_decrypt_ts_credentials(rdpCredssp* credssp)
{
int length;
BYTE* buffer;
ULONG pfQOP;
SecBuffer Buffers[2];
SecBufferDesc Message;
SECURITY_STATUS status;
Buffers[0].BufferType = SECBUFFER_TOKEN; /* Signature */
Buffers[1].BufferType = SECBUFFER_DATA; /* TSCredentials */
if (credssp->authInfo.cbBuffer < 1)
{
printf("credssp_decrypt_ts_credentials missing authInfo buffer\n");
return SEC_E_INVALID_TOKEN;
}
length = credssp->authInfo.cbBuffer;
buffer = (BYTE*) malloc(length);
CopyMemory(buffer, credssp->authInfo.pvBuffer, length);
Buffers[0].cbBuffer = credssp->ContextSizes.cbMaxSignature;
Buffers[0].pvBuffer = buffer;
Buffers[1].cbBuffer = length - credssp->ContextSizes.cbMaxSignature;
Buffers[1].pvBuffer = &buffer[credssp->ContextSizes.cbMaxSignature];
Message.cBuffers = 2;
Message.ulVersion = SECBUFFER_VERSION;
Message.pBuffers = (PSecBuffer) &Buffers;
status = credssp->table->DecryptMessage(&credssp->context, &Message, credssp->recv_seq_num++, &pfQOP);
if (status != SEC_E_OK)
return status;
credssp_read_ts_credentials(credssp, &Buffers[1]);
free(buffer);
return SEC_E_OK;
}
int credssp_skip_nego_token(int length)
{
length = der_skip_octet_string(length);
length += der_skip_contextual_tag(length);
return length;
}
int credssp_skip_nego_tokens(int length)
{
length = credssp_skip_nego_token(length);
length += der_skip_sequence_tag(length);
length += der_skip_sequence_tag(length);
length += der_skip_contextual_tag(length);
return length;
}
int credssp_skip_pub_key_auth(int length)
{
length = ber_skip_octet_string(length);
length += ber_skip_contextual_tag(length);
return length;
}
int credssp_skip_auth_info(int length)
{
length = ber_skip_octet_string(length);
length += ber_skip_contextual_tag(length);
return length;
}
int credssp_skip_ts_request(int length)
{
length += ber_skip_integer(2);
length += ber_skip_contextual_tag(3);
length += der_skip_sequence_tag(length);
return length;
}
/**
* Send CredSSP message.
* @param credssp
*/
void credssp_send(rdpCredssp* credssp)
{
STREAM* s;
int length;
int ts_request_length;
int nego_tokens_length;
int pub_key_auth_length;
int auth_info_length;
nego_tokens_length = (credssp->negoToken.cbBuffer > 0) ? credssp_skip_nego_tokens(credssp->negoToken.cbBuffer) : 0;
pub_key_auth_length = (credssp->pubKeyAuth.cbBuffer > 0) ? credssp_skip_pub_key_auth(credssp->pubKeyAuth.cbBuffer) : 0;
auth_info_length = (credssp->authInfo.cbBuffer > 0) ? credssp_skip_auth_info(credssp->authInfo.cbBuffer) : 0;
length = nego_tokens_length + pub_key_auth_length + auth_info_length;
ts_request_length = credssp_skip_ts_request(length);
s = stream_new(ts_request_length);
/* TSRequest */
length = der_get_content_length(ts_request_length);
der_write_sequence_tag(s, length); /* SEQUENCE */
/* [0] version */
ber_write_contextual_tag(s, 0, 3, true);
ber_write_integer(s, 2); /* INTEGER */
/* [1] negoTokens (NegoData) */
if (nego_tokens_length > 0)
{
length = der_get_content_length(nego_tokens_length);
length -= der_write_contextual_tag(s, 1, length, true); /* NegoData */
length -= der_write_sequence_tag(s, length); /* SEQUENCE OF NegoDataItem */
length -= der_write_sequence_tag(s, length); /* NegoDataItem */
length -= der_write_contextual_tag(s, 0, length, true); /* [0] negoToken */
der_write_octet_string(s, (uint8*) credssp->negoToken.pvBuffer, length); /* OCTET STRING */
}
/* [2] authInfo (OCTET STRING) */
if (auth_info_length > 0)
{
length = ber_get_content_length(auth_info_length);
length -= ber_write_contextual_tag(s, 2, length, true);
ber_write_octet_string(s, credssp->authInfo.pvBuffer, credssp->authInfo.cbBuffer);
}
/* [3] pubKeyAuth (OCTET STRING) */
if (pub_key_auth_length > 0)
{
length = ber_get_content_length(pub_key_auth_length);
length -= ber_write_contextual_tag(s, 3, length, true);
ber_write_octet_string(s, credssp->pubKeyAuth.pvBuffer, length);
}
//printf("Sending TSRequest: (%d)\n", stream_get_length(s));
//freerdp_hexdump(s->data, stream_get_length(s));
tls_write(credssp->tls, s->data, stream_get_length(s));
stream_free(s);
}
/**
* Receive CredSSP message.
* @param credssp
* @return
*/
int credssp_recv(rdpCredssp* credssp)
{
STREAM* s;
int length;
int status;
UINT32 version;
s = stream_new(4096);
status = tls_read_all(credssp->tls, s->p, stream_get_left(s));
s->size = status;
if (status < 0)
{
printf("credssp_recv() error: %d\n", status);
stream_free(s);
return -1;
}
//printf("Receiving TSRequest: (%d)\n", s->size);
//freerdp_hexdump(s->data, s->size);
/* TSRequest */
ber_read_sequence_tag(s, &length);
ber_read_contextual_tag(s, 0, &length, true);
ber_read_integer(s, &version);
/* [1] negoTokens (NegoData) */
if (ber_read_contextual_tag(s, 1, &length, true) != false)
{
ber_read_sequence_tag(s, &length); /* SEQUENCE OF NegoDataItem */
ber_read_sequence_tag(s, &length); /* NegoDataItem */
ber_read_contextual_tag(s, 0, &length, true); /* [0] negoToken */
ber_read_octet_string_tag(s, &length); /* OCTET STRING */
sspi_SecBufferAlloc(&credssp->negoToken, length);
stream_read(s, credssp->negoToken.pvBuffer, length);
credssp->negoToken.cbBuffer = length;
}
/* [2] authInfo (OCTET STRING) */
if (ber_read_contextual_tag(s, 2, &length, true) != false)
{
ber_read_octet_string_tag(s, &length); /* OCTET STRING */
sspi_SecBufferAlloc(&credssp->authInfo, length);
stream_read(s, credssp->authInfo.pvBuffer, length);
credssp->authInfo.cbBuffer = length;
}
/* [3] pubKeyAuth (OCTET STRING) */
if (ber_read_contextual_tag(s, 3, &length, true) != false)
{
ber_read_octet_string_tag(s, &length); /* OCTET STRING */
sspi_SecBufferAlloc(&credssp->pubKeyAuth, length);
stream_read(s, credssp->pubKeyAuth.pvBuffer, length);
credssp->pubKeyAuth.cbBuffer = length;
}
stream_free(s);
return 0;
}
void credssp_buffer_print(rdpCredssp* credssp)
{
if (credssp->negoToken.cbBuffer > 0)
{
printf("CredSSP.negoToken (length = %d):\n", (int) credssp->negoToken.cbBuffer);
winpr_HexDump(credssp->negoToken.pvBuffer, credssp->negoToken.cbBuffer);
}
if (credssp->pubKeyAuth.cbBuffer > 0)
{
printf("CredSSP.pubKeyAuth (length = %d):\n", (int) credssp->pubKeyAuth.cbBuffer);
winpr_HexDump(credssp->pubKeyAuth.pvBuffer, credssp->pubKeyAuth.cbBuffer);
}
if (credssp->authInfo.cbBuffer > 0)
{
printf("CredSSP.authInfo (length = %d):\n", (int) credssp->authInfo.cbBuffer);
winpr_HexDump(credssp->authInfo.pvBuffer, credssp->authInfo.cbBuffer);
}
}
void credssp_buffer_free(rdpCredssp* credssp)
{
sspi_SecBufferFree(&credssp->negoToken);
sspi_SecBufferFree(&credssp->pubKeyAuth);
sspi_SecBufferFree(&credssp->authInfo);
}
/**
* Create new CredSSP state machine.
* @param transport
* @return new CredSSP state machine.
*/
rdpCredssp* credssp_new(freerdp* instance, rdpTls* tls, rdpSettings* settings)
{
rdpCredssp* credssp;
credssp = (rdpCredssp*) xzalloc(sizeof(rdpCredssp));
if (credssp != NULL)
{
HKEY hKey;
LONG status;
DWORD dwType;
DWORD dwSize;
credssp->instance = instance;
credssp->settings = settings;
credssp->server = settings->server_mode;
credssp->tls = tls;
credssp->send_seq_num = 0;
credssp->recv_seq_num = 0;
ZeroMemory(&credssp->negoToken, sizeof(SecBuffer));
ZeroMemory(&credssp->pubKeyAuth, sizeof(SecBuffer));
ZeroMemory(&credssp->authInfo, sizeof(SecBuffer));
status = RegOpenKeyEx(HKEY_LOCAL_MACHINE, _T("Software\\FreeRDP\\Server"),
0, KEY_READ | KEY_WOW64_64KEY, &hKey);
if (status == ERROR_SUCCESS)
{
status = RegQueryValueEx(hKey, _T("SspiModule"), NULL, &dwType, NULL, &dwSize);
if (status == ERROR_SUCCESS)
{
credssp->SspiModule = (LPTSTR) malloc(dwSize + sizeof(TCHAR));
status = RegQueryValueEx(hKey, _T("SspiModule"), NULL, &dwType,
(BYTE*) credssp->SspiModule, &dwSize);
if (status == ERROR_SUCCESS)
{
_tprintf(_T("Using SSPI Module: %s\n"), credssp->SspiModule);
RegCloseKey(hKey);
}
}
}
}
return credssp;
}
/**
* Free CredSSP state machine.
* @param credssp
*/
void credssp_free(rdpCredssp* credssp)
{
if (credssp != NULL)
{
if (credssp->table)
credssp->table->DeleteSecurityContext(&credssp->context);
sspi_SecBufferFree(&credssp->PublicKey);
sspi_SecBufferFree(&credssp->ts_credentials);
free(credssp->identity.User);
free(credssp->identity.Domain);
free(credssp->identity.Password);
free(credssp);
}
}