freerdp/libfreerdp/core/gateway/rdg.c

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2023-05-09 21:29:50 +00:00
/**
* FreeRDP: A Remote Desktop Protocol Implementation
* Remote Desktop Gateway (RDG)
*
* Copyright 2015 Denis Vincent <dvincent@devolutions.net>
*
* 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 <assert.h>
#include <winpr/crt.h>
#include <winpr/synch.h>
#include <winpr/print.h>
#include <winpr/stream.h>
#include <winpr/winsock.h>
#include <freerdp/log.h>
#include <freerdp/error.h>
#include <freerdp/utils/ringbuffer.h>
#include "rdg.h"
#include "../proxy.h"
#include "../rdp.h"
#include "../../crypto/opensslcompat.h"
#include "rpc_fault.h"
#define TAG FREERDP_TAG("core.gateway.rdg")
/* HTTP channel response fields present flags. */
#define HTTP_CHANNEL_RESPONSE_FIELD_CHANNELID 0x1
#define HTTP_CHANNEL_RESPONSE_OPTIONAL 0x2
#define HTTP_CHANNEL_RESPONSE_FIELD_UDPPORT 0x4
/* HTTP extended auth. */
#define HTTP_EXTENDED_AUTH_NONE 0x0
#define HTTP_EXTENDED_AUTH_SC 0x1 /* Smart card authentication. */
#define HTTP_EXTENDED_AUTH_PAA 0x02 /* Pluggable authentication. */
#define HTTP_EXTENDED_AUTH_SSPI_NTLM 0x04 /* NTLM extended authentication. */
/* HTTP packet types. */
#define PKT_TYPE_HANDSHAKE_REQUEST 0x1
#define PKT_TYPE_HANDSHAKE_RESPONSE 0x2
#define PKT_TYPE_EXTENDED_AUTH_MSG 0x3
#define PKT_TYPE_TUNNEL_CREATE 0x4
#define PKT_TYPE_TUNNEL_RESPONSE 0x5
#define PKT_TYPE_TUNNEL_AUTH 0x6
#define PKT_TYPE_TUNNEL_AUTH_RESPONSE 0x7
#define PKT_TYPE_CHANNEL_CREATE 0x8
#define PKT_TYPE_CHANNEL_RESPONSE 0x9
#define PKT_TYPE_DATA 0xA
#define PKT_TYPE_SERVICE_MESSAGE 0xB
#define PKT_TYPE_REAUTH_MESSAGE 0xC
#define PKT_TYPE_KEEPALIVE 0xD
#define PKT_TYPE_CLOSE_CHANNEL 0x10
#define PKT_TYPE_CLOSE_CHANNEL_RESPONSE 0x11
/* HTTP tunnel auth fields present flags. */
#define HTTP_TUNNEL_AUTH_FIELD_SOH 0x1
/* HTTP tunnel auth response fields present flags. */
#define HTTP_TUNNEL_AUTH_RESPONSE_FIELD_REDIR_FLAGS 0x1
#define HTTP_TUNNEL_AUTH_RESPONSE_FIELD_IDLE_TIMEOUT 0x2
#define HTTP_TUNNEL_AUTH_RESPONSE_FIELD_SOH_RESPONSE 0x4
/* HTTP tunnel packet fields present flags. */
#define HTTP_TUNNEL_PACKET_FIELD_PAA_COOKIE 0x1
#define HTTP_TUNNEL_PACKET_FIELD_REAUTH 0x2
/* HTTP tunnel redir flags. */
#define HTTP_TUNNEL_REDIR_ENABLE_ALL 0x80000000
#define HTTP_TUNNEL_REDIR_DISABLE_ALL 0x40000000
#define HTTP_TUNNEL_REDIR_DISABLE_DRIVE 0x1
#define HTTP_TUNNEL_REDIR_DISABLE_PRINTER 0x2
#define HTTP_TUNNEL_REDIR_DISABLE_PORT 0x4
#define HTTP_TUNNEL_REDIR_DISABLE_CLIPBOARD 0x8
#define HTTP_TUNNEL_REDIR_DISABLE_PNP 0x10
/* HTTP tunnel response fields present flags. */
#define HTTP_TUNNEL_RESPONSE_FIELD_TUNNEL_ID 0x1
#define HTTP_TUNNEL_RESPONSE_FIELD_CAPS 0x2
#define HTTP_TUNNEL_RESPONSE_FIELD_SOH_REQ 0x4
#define HTTP_TUNNEL_RESPONSE_FIELD_CONSENT_MSG 0x10
/* HTTP capability type enumeration. */
#define HTTP_CAPABILITY_TYPE_QUAR_SOH 0x1
#define HTTP_CAPABILITY_IDLE_TIMEOUT 0x2
#define HTTP_CAPABILITY_MESSAGING_CONSENT_SIGN 0x4
#define HTTP_CAPABILITY_MESSAGING_SERVICE_MSG 0x8
#define HTTP_CAPABILITY_REAUTH 0x10
#define HTTP_CAPABILITY_UDP_TRANSPORT 0x20
#define WEBSOCKET_MASK_BIT 0x80
#define WEBSOCKET_FIN_BIT 0x80
typedef enum _WEBSOCKET_OPCODE
{
WebsocketContinuationOpcode = 0x0,
WebsocketTextOpcode = 0x1,
WebsocketBinaryOpcode = 0x2,
WebsocketCloseOpcode = 0x8,
WebsocketPingOpcode = 0x9,
WebsocketPongOpcode = 0xa,
} WEBSOCKET_OPCODE;
typedef enum _WEBSOCKET_STATE
{
WebsocketStateOpcodeAndFin,
WebsocketStateLengthAndMasking,
WebsocketStateShortLength,
WebsocketStateLongLength,
WebSocketStateMaskingKey,
WebSocketStatePayload,
} WEBSOCKET_STATE;
typedef struct
{
size_t payloadLength;
uint32_t maskingKey;
BOOL masking;
BOOL closeSent;
BYTE opcode;
BYTE fragmentOriginalOpcode;
BYTE lengthAndMaskPosition;
WEBSOCKET_STATE state;
wStream* responseStreamBuffer;
} rdg_http_websocket_context;
typedef enum _CHUNK_STATE
{
ChunkStateLenghHeader,
ChunkStateData,
ChunkStateFooter
} CHUNK_STATE;
typedef struct
{
size_t nextOffset;
size_t headerFooterPos;
CHUNK_STATE state;
char lenBuffer[11];
} rdg_http_encoding_chunked_context;
typedef struct
{
TRANSFER_ENCODING httpTransferEncoding;
BOOL isWebsocketTransport;
union _context
{
rdg_http_encoding_chunked_context chunked;
rdg_http_websocket_context websocket;
} context;
} rdg_http_encoding_context;
struct rdp_rdg
{
rdpContext* context;
rdpSettings* settings;
BOOL attached;
BIO* frontBio;
rdpTls* tlsIn;
rdpTls* tlsOut;
rdpNtlm* ntlm;
HttpContext* http;
CRITICAL_SECTION writeSection;
UUID guid;
int state;
UINT16 packetRemainingCount;
UINT16 reserved1;
int timeout;
UINT16 extAuth;
UINT16 reserved2;
rdg_http_encoding_context transferEncoding;
};
enum
{
RDG_CLIENT_STATE_INITIAL,
RDG_CLIENT_STATE_HANDSHAKE,
RDG_CLIENT_STATE_TUNNEL_CREATE,
RDG_CLIENT_STATE_TUNNEL_AUTHORIZE,
RDG_CLIENT_STATE_CHANNEL_CREATE,
RDG_CLIENT_STATE_OPENED,
};
#pragma pack(push, 1)
typedef struct rdg_packet_header
{
UINT16 type;
UINT16 reserved;
UINT32 packetLength;
} RdgPacketHeader;
#pragma pack(pop)
typedef struct
{
UINT32 code;
const char* name;
} t_flag_mapping;
static const t_flag_mapping tunnel_response_fields_present[] = {
{ HTTP_TUNNEL_RESPONSE_FIELD_TUNNEL_ID, "HTTP_TUNNEL_RESPONSE_FIELD_TUNNEL_ID" },
{ HTTP_TUNNEL_RESPONSE_FIELD_CAPS, "HTTP_TUNNEL_RESPONSE_FIELD_CAPS" },
{ HTTP_TUNNEL_RESPONSE_FIELD_SOH_REQ, "HTTP_TUNNEL_RESPONSE_FIELD_SOH_REQ" },
{ HTTP_TUNNEL_RESPONSE_FIELD_CONSENT_MSG, "HTTP_TUNNEL_RESPONSE_FIELD_CONSENT_MSG" }
};
static const t_flag_mapping channel_response_fields_present[] = {
{ HTTP_CHANNEL_RESPONSE_FIELD_CHANNELID, "HTTP_CHANNEL_RESPONSE_FIELD_CHANNELID" },
{ HTTP_CHANNEL_RESPONSE_OPTIONAL, "HTTP_CHANNEL_RESPONSE_OPTIONAL" },
{ HTTP_CHANNEL_RESPONSE_FIELD_UDPPORT, "HTTP_CHANNEL_RESPONSE_FIELD_UDPPORT" }
};
static const t_flag_mapping tunnel_authorization_response_fields_present[] = {
{ HTTP_TUNNEL_AUTH_RESPONSE_FIELD_REDIR_FLAGS, "HTTP_TUNNEL_AUTH_RESPONSE_FIELD_REDIR_FLAGS" },
{ HTTP_TUNNEL_AUTH_RESPONSE_FIELD_IDLE_TIMEOUT,
"HTTP_TUNNEL_AUTH_RESPONSE_FIELD_IDLE_TIMEOUT" },
{ HTTP_TUNNEL_AUTH_RESPONSE_FIELD_SOH_RESPONSE,
"HTTP_TUNNEL_AUTH_RESPONSE_FIELD_SOH_RESPONSE" }
};
static const t_flag_mapping extended_auth[] = {
{ HTTP_EXTENDED_AUTH_NONE, "HTTP_EXTENDED_AUTH_NONE" },
{ HTTP_EXTENDED_AUTH_SC, "HTTP_EXTENDED_AUTH_SC" },
{ HTTP_EXTENDED_AUTH_PAA, "HTTP_EXTENDED_AUTH_PAA" },
{ HTTP_EXTENDED_AUTH_SSPI_NTLM, "HTTP_EXTENDED_AUTH_SSPI_NTLM" }
};
static const t_flag_mapping capabilities_enum[] = {
{ HTTP_CAPABILITY_TYPE_QUAR_SOH, "HTTP_CAPABILITY_TYPE_QUAR_SOH" },
{ HTTP_CAPABILITY_IDLE_TIMEOUT, "HTTP_CAPABILITY_IDLE_TIMEOUT" },
{ HTTP_CAPABILITY_MESSAGING_CONSENT_SIGN, "HTTP_CAPABILITY_MESSAGING_CONSENT_SIGN" },
{ HTTP_CAPABILITY_MESSAGING_SERVICE_MSG, "HTTP_CAPABILITY_MESSAGING_SERVICE_MSG" },
{ HTTP_CAPABILITY_REAUTH, "HTTP_CAPABILITY_REAUTH" },
{ HTTP_CAPABILITY_UDP_TRANSPORT, "HTTP_CAPABILITY_UDP_TRANSPORT" }
};
static const char* flags_to_string(UINT32 flags, const t_flag_mapping* map, size_t elements)
{
size_t x = 0;
static char buffer[1024] = { 0 };
char fields[12] = { 0 };
for (x = 0; x < elements; x++)
{
const t_flag_mapping* cur = &map[x];
if ((cur->code & flags) != 0)
winpr_str_append(cur->name, buffer, sizeof(buffer), "|");
}
sprintf_s(fields, ARRAYSIZE(fields), " [%04" PRIx32 "]", flags);
winpr_str_append(fields, buffer, sizeof(buffer), NULL);
return buffer;
}
static const char* channel_response_fields_present_to_string(UINT16 fieldsPresent)
{
return flags_to_string(fieldsPresent, channel_response_fields_present,
ARRAYSIZE(channel_response_fields_present));
}
static const char* tunnel_response_fields_present_to_string(UINT16 fieldsPresent)
{
return flags_to_string(fieldsPresent, tunnel_response_fields_present,
ARRAYSIZE(tunnel_response_fields_present));
}
static const char* tunnel_authorization_response_fields_present_to_string(UINT16 fieldsPresent)
{
return flags_to_string(fieldsPresent, tunnel_authorization_response_fields_present,
ARRAYSIZE(tunnel_authorization_response_fields_present));
}
static const char* extended_auth_to_string(UINT16 auth)
{
if (auth == HTTP_EXTENDED_AUTH_NONE)
return "HTTP_EXTENDED_AUTH_NONE [0x0000]";
return flags_to_string(auth, extended_auth, ARRAYSIZE(extended_auth));
}
static const char* capabilities_enum_to_string(UINT32 capabilities)
{
return flags_to_string(capabilities, capabilities_enum, ARRAYSIZE(capabilities_enum));
}
static BOOL rdg_read_http_unicode_string(wStream* s, const WCHAR** string, UINT16* lengthInBytes)
{
WCHAR* str;
UINT16 strLenBytes;
size_t rem = Stream_GetRemainingLength(s);
/* Read length of the string */
if (rem < 4)
{
WLog_ERR(TAG, "[%s]: Could not read stream length, only have % " PRIuz " bytes",
__FUNCTION__, rem);
return FALSE;
}
Stream_Read_UINT16(s, strLenBytes);
/* Remember position of our string */
str = (WCHAR*)Stream_Pointer(s);
/* seek past the string - if this fails something is wrong */
if (!Stream_SafeSeek(s, strLenBytes))
{
WLog_ERR(TAG,
"[%s]: Could not read stream data, only have % " PRIuz " bytes, expected %" PRIu16,
__FUNCTION__, rem - 4, strLenBytes);
return FALSE;
}
/* return the string data (if wanted) */
if (string)
*string = str;
if (lengthInBytes)
*lengthInBytes = strLenBytes;
return TRUE;
}
static BOOL rdg_write_chunked(BIO* bio, wStream* sPacket)
{
size_t len;
int status;
wStream* sChunk;
char chunkSize[11];
sprintf_s(chunkSize, sizeof(chunkSize), "%" PRIXz "\r\n", Stream_Length(sPacket));
sChunk = Stream_New(NULL, strnlen(chunkSize, sizeof(chunkSize)) + Stream_Length(sPacket) + 2);
if (!sChunk)
return FALSE;
Stream_Write(sChunk, chunkSize, strnlen(chunkSize, sizeof(chunkSize)));
Stream_Write(sChunk, Stream_Buffer(sPacket), Stream_Length(sPacket));
Stream_Write(sChunk, "\r\n", 2);
Stream_SealLength(sChunk);
len = Stream_Length(sChunk);
if (len > INT_MAX)
{
Stream_Free(sChunk, TRUE);
return FALSE;
}
status = BIO_write(bio, Stream_Buffer(sChunk), (int)len);
Stream_Free(sChunk, TRUE);
if (status != (SSIZE_T)len)
return FALSE;
return TRUE;
}
static BOOL rdg_write_websocket(BIO* bio, wStream* sPacket, WEBSOCKET_OPCODE opcode)
{
size_t len;
size_t fullLen;
int status;
wStream* sWS;
uint32_t maskingKey;
size_t streamPos;
len = Stream_Length(sPacket);
Stream_SetPosition(sPacket, 0);
if (len > INT_MAX)
return FALSE;
if (len < 126)
fullLen = len + 6; /* 2 byte "mini header" + 4 byte masking key */
else if (len < 0x10000)
fullLen = len + 8; /* 2 byte "mini header" + 2 byte length + 4 byte masking key */
else
fullLen = len + 14; /* 2 byte "mini header" + 8 byte length + 4 byte masking key */
sWS = Stream_New(NULL, fullLen);
if (!sWS)
return FALSE;
winpr_RAND((BYTE*)&maskingKey, 4);
Stream_Write_UINT8(sWS, WEBSOCKET_FIN_BIT | opcode);
if (len < 126)
Stream_Write_UINT8(sWS, len | WEBSOCKET_MASK_BIT);
else if (len < 0x10000)
{
Stream_Write_UINT8(sWS, 126 | WEBSOCKET_MASK_BIT);
Stream_Write_UINT16_BE(sWS, len);
}
else
{
Stream_Write_UINT8(sWS, 127 | WEBSOCKET_MASK_BIT);
Stream_Write_UINT32_BE(sWS, 0); /* payload is limited to INT_MAX */
Stream_Write_UINT32_BE(sWS, len);
}
Stream_Write_UINT32(sWS, maskingKey);
/* mask as much as possible with 32bit access */
for (streamPos = 0; streamPos + 4 <= len; streamPos += 4)
{
uint32_t data;
Stream_Read_UINT32(sPacket, data);
Stream_Write_UINT32(sWS, data ^ maskingKey);
}
/* mask the rest byte by byte */
for (; streamPos < len; streamPos++)
{
BYTE data;
BYTE* partialMask = ((BYTE*)&maskingKey) + (streamPos % 4);
Stream_Read_UINT8(sPacket, data);
Stream_Write_UINT8(sWS, data ^ *partialMask);
}
Stream_SealLength(sWS);
status = BIO_write(bio, Stream_Buffer(sWS), Stream_Length(sWS));
Stream_Free(sWS, TRUE);
if (status != (SSIZE_T)fullLen)
return FALSE;
return TRUE;
}
static BOOL rdg_write_packet(rdpRdg* rdg, wStream* sPacket)
{
if (rdg->transferEncoding.isWebsocketTransport)
{
if (rdg->transferEncoding.context.websocket.closeSent)
return FALSE;
return rdg_write_websocket(rdg->tlsOut->bio, sPacket, WebsocketBinaryOpcode);
}
return rdg_write_chunked(rdg->tlsIn->bio, sPacket);
}
static int rdg_websocket_read_data(BIO* bio, BYTE* pBuffer, size_t size,
rdg_http_websocket_context* encodingContext)
{
int status;
if (encodingContext->payloadLength == 0)
{
encodingContext->state = WebsocketStateOpcodeAndFin;
return 0;
}
status =
BIO_read(bio, pBuffer,
(encodingContext->payloadLength < size ? encodingContext->payloadLength : size));
if (status <= 0)
return status;
encodingContext->payloadLength -= status;
if (encodingContext->payloadLength == 0)
encodingContext->state = WebsocketStateOpcodeAndFin;
return status;
}
static int rdg_websocket_read_discard(BIO* bio, rdg_http_websocket_context* encodingContext)
{
char _dummy[256];
int status;
if (encodingContext->payloadLength == 0)
{
encodingContext->state = WebsocketStateOpcodeAndFin;
return 0;
}
status = BIO_read(bio, _dummy, sizeof(_dummy));
if (status <= 0)
return status;
encodingContext->payloadLength -= status;
if (encodingContext->payloadLength == 0)
encodingContext->state = WebsocketStateOpcodeAndFin;
return status;
}
static int rdg_websocket_read_wstream(BIO* bio, wStream* s,
rdg_http_websocket_context* encodingContext)
{
int status;
if (encodingContext->payloadLength == 0)
{
encodingContext->state = WebsocketStateOpcodeAndFin;
return 0;
}
if (s == NULL || Stream_GetRemainingCapacity(s) != encodingContext->payloadLength)
return -1;
status = BIO_read(bio, Stream_Pointer(s), encodingContext->payloadLength);
if (status <= 0)
return status;
Stream_Seek(s, status);
encodingContext->payloadLength -= status;
if (encodingContext->payloadLength == 0)
{
encodingContext->state = WebsocketStateOpcodeAndFin;
Stream_SealLength(s);
Stream_SetPosition(s, 0);
}
return status;
}
static BOOL rdg_websocket_reply_close(BIO* bio, wStream* s)
{
/* write back close */
wStream* closeFrame;
uint16_t maskingKey1;
uint16_t maskingKey2;
int status;
size_t closeDataLen;
closeDataLen = 0;
if (s != NULL && Stream_Length(s) >= 2)
closeDataLen = 2;
closeFrame = Stream_New(NULL, 6 + closeDataLen);
Stream_Write_UINT8(closeFrame, WEBSOCKET_FIN_BIT | WebsocketPongOpcode);
Stream_Write_UINT8(closeFrame, closeDataLen | WEBSOCKET_MASK_BIT); /* no payload */
winpr_RAND((BYTE*)&maskingKey1, 2);
winpr_RAND((BYTE*)&maskingKey2, 2);
Stream_Write_UINT16(closeFrame, maskingKey1);
Stream_Write_UINT16(closeFrame, maskingKey2); /* unused half, max 2 bytes of data */
if (closeDataLen == 2)
{
uint16_t data;
Stream_Read_UINT16(s, data);
Stream_Write_UINT16(closeFrame, data ^ maskingKey1);
}
Stream_SealLength(closeFrame);
status = BIO_write(bio, Stream_Buffer(closeFrame), Stream_Length(closeFrame));
Stream_Free(closeFrame, TRUE);
/* server MUST close socket now. The server is not allowed anymore to
* send frames but if he does, nothing bad would happen */
if (status < 0)
return FALSE;
return TRUE;
}
static BOOL rdg_websocket_reply_pong(BIO* bio, wStream* s)
{
wStream* closeFrame;
uint32_t maskingKey;
int status;
if (s != NULL)
return rdg_write_websocket(bio, s, WebsocketPongOpcode);
closeFrame = Stream_New(NULL, 6);
Stream_Write_UINT8(closeFrame, WEBSOCKET_FIN_BIT | WebsocketPongOpcode);
Stream_Write_UINT8(closeFrame, 0 | WEBSOCKET_MASK_BIT); /* no payload */
winpr_RAND((BYTE*)&maskingKey, 4);
Stream_Write_UINT32(closeFrame, maskingKey); /* dummy masking key. */
Stream_SealLength(closeFrame);
status = BIO_write(bio, Stream_Buffer(closeFrame), Stream_Length(closeFrame));
if (status < 0)
return FALSE;
return TRUE;
}
static int rdg_websocket_handle_payload(BIO* bio, BYTE* pBuffer, size_t size,
rdg_http_websocket_context* encodingContext)
{
int status;
BYTE effectiveOpcode = ((encodingContext->opcode & 0xf) == WebsocketContinuationOpcode
? encodingContext->fragmentOriginalOpcode & 0xf
: encodingContext->opcode & 0xf);
switch (effectiveOpcode)
{
case WebsocketBinaryOpcode:
{
status = rdg_websocket_read_data(bio, pBuffer, size, encodingContext);
if (status < 0)
return status;
return status;
}
break;
case WebsocketPingOpcode:
{
if (encodingContext->responseStreamBuffer == NULL)
encodingContext->responseStreamBuffer =
Stream_New(NULL, encodingContext->payloadLength);
status = rdg_websocket_read_wstream(bio, encodingContext->responseStreamBuffer,
encodingContext);
if (status < 0)
return status;
if (encodingContext->payloadLength == 0)
{
if (!encodingContext->closeSent)
rdg_websocket_reply_pong(bio, encodingContext->responseStreamBuffer);
if (encodingContext->responseStreamBuffer)
Stream_Free(encodingContext->responseStreamBuffer, TRUE);
encodingContext->responseStreamBuffer = NULL;
}
}
break;
case WebsocketCloseOpcode:
{
if (encodingContext->responseStreamBuffer == NULL)
encodingContext->responseStreamBuffer =
Stream_New(NULL, encodingContext->payloadLength);
status = rdg_websocket_read_wstream(bio, encodingContext->responseStreamBuffer,
encodingContext);
if (status < 0)
return status;
if (encodingContext->payloadLength == 0)
{
rdg_websocket_reply_close(bio, encodingContext->responseStreamBuffer);
encodingContext->closeSent = TRUE;
if (encodingContext->responseStreamBuffer)
Stream_Free(encodingContext->responseStreamBuffer, TRUE);
encodingContext->responseStreamBuffer = NULL;
}
}
break;
default:
WLog_WARN(TAG, "Unimplemented websocket opcode %x. Dropping", effectiveOpcode & 0xf);
status = rdg_websocket_read_discard(bio, encodingContext);
if (status < 0)
return status;
}
/* return how many bytes have been written to pBuffer.
* Only WebsocketBinaryOpcode writes into it and it returns directly */
return 0;
}
static int rdg_websocket_read(BIO* bio, BYTE* pBuffer, size_t size,
rdg_http_websocket_context* encodingContext)
{
int status;
int effectiveDataLen = 0;
assert(encodingContext != NULL);
while (TRUE)
{
switch (encodingContext->state)
{
case WebsocketStateOpcodeAndFin:
{
BYTE buffer[1];
status = BIO_read(bio, (char*)buffer, 1);
if (status <= 0)
return (effectiveDataLen > 0 ? effectiveDataLen : status);
encodingContext->opcode = buffer[0];
if (((encodingContext->opcode & 0xf) != WebsocketContinuationOpcode) &&
(encodingContext->opcode & 0xf) < 0x08)
encodingContext->fragmentOriginalOpcode = encodingContext->opcode;
encodingContext->state = WebsocketStateLengthAndMasking;
}
break;
case WebsocketStateLengthAndMasking:
{
BYTE buffer[1];
BYTE len;
status = BIO_read(bio, (char*)buffer, 1);
if (status <= 0)
return (effectiveDataLen > 0 ? effectiveDataLen : status);
encodingContext->masking = ((buffer[0] & WEBSOCKET_MASK_BIT) == WEBSOCKET_MASK_BIT);
encodingContext->lengthAndMaskPosition = 0;
encodingContext->payloadLength = 0;
len = buffer[0] & 0x7f;
if (len < 126)
{
encodingContext->payloadLength = len;
encodingContext->state = (encodingContext->masking ? WebSocketStateMaskingKey
: WebSocketStatePayload);
}
else if (len == 126)
encodingContext->state = WebsocketStateShortLength;
else
encodingContext->state = WebsocketStateLongLength;
}
break;
case WebsocketStateShortLength:
case WebsocketStateLongLength:
{
BYTE buffer[1];
BYTE lenLength = (encodingContext->state == WebsocketStateShortLength ? 2 : 8);
while (encodingContext->lengthAndMaskPosition < lenLength)
{
status = BIO_read(bio, (char*)buffer, 1);
if (status <= 0)
return (effectiveDataLen > 0 ? effectiveDataLen : status);
encodingContext->payloadLength =
(encodingContext->payloadLength) << 8 | buffer[0];
encodingContext->lengthAndMaskPosition += status;
}
encodingContext->state =
(encodingContext->masking ? WebSocketStateMaskingKey : WebSocketStatePayload);
}
break;
case WebSocketStateMaskingKey:
{
WLog_WARN(
TAG, "Websocket Server sends data with masking key. This is against RFC 6455.");
return -1;
}
case WebSocketStatePayload:
{
status = rdg_websocket_handle_payload(bio, pBuffer, size, encodingContext);
if (status < 0)
return (effectiveDataLen > 0 ? effectiveDataLen : status);
effectiveDataLen += status;
if ((size_t)status == size)
return effectiveDataLen;
pBuffer += status;
size -= status;
}
}
}
/* should be unreachable */
return -1;
}
static int rdg_chuncked_read(BIO* bio, BYTE* pBuffer, size_t size,
rdg_http_encoding_chunked_context* encodingContext)
{
int status;
int effectiveDataLen = 0;
assert(encodingContext != NULL);
while (TRUE)
{
switch (encodingContext->state)
{
case ChunkStateData:
{
status = BIO_read(
bio, pBuffer,
(size > encodingContext->nextOffset ? encodingContext->nextOffset : size));
if (status <= 0)
return (effectiveDataLen > 0 ? effectiveDataLen : status);
encodingContext->nextOffset -= status;
if (encodingContext->nextOffset == 0)
{
encodingContext->state = ChunkStateFooter;
encodingContext->headerFooterPos = 0;
}
effectiveDataLen += status;
if ((size_t)status == size)
return effectiveDataLen;
pBuffer += status;
size -= status;
}
break;
case ChunkStateFooter:
{
char _dummy[2];
assert(encodingContext->nextOffset == 0);
assert(encodingContext->headerFooterPos < 2);
status = BIO_read(bio, _dummy, 2 - encodingContext->headerFooterPos);
if (status >= 0)
{
encodingContext->headerFooterPos += status;
if (encodingContext->headerFooterPos == 2)
{
encodingContext->state = ChunkStateLenghHeader;
encodingContext->headerFooterPos = 0;
}
}
else
return (effectiveDataLen > 0 ? effectiveDataLen : status);
}
break;
case ChunkStateLenghHeader:
{
BOOL _haveNewLine = FALSE;
size_t tmp;
char* dst = &encodingContext->lenBuffer[encodingContext->headerFooterPos];
assert(encodingContext->nextOffset == 0);
while (encodingContext->headerFooterPos < 10 && !_haveNewLine)
{
status = BIO_read(bio, dst, 1);
if (status >= 0)
{
if (*dst == '\n')
_haveNewLine = TRUE;
encodingContext->headerFooterPos += status;
dst += status;
}
else
return (effectiveDataLen > 0 ? effectiveDataLen : status);
}
*dst = '\0';
/* strtoul is tricky, error are reported via errno, we also need
* to ensure the result does not overflow */
errno = 0;
tmp = strtoul(encodingContext->lenBuffer, NULL, 16);
if ((errno != 0) || (tmp > SIZE_MAX))
return -1;
encodingContext->nextOffset = tmp;
encodingContext->state = ChunkStateData;
if (encodingContext->nextOffset == 0)
{ /* end of stream */
int fd = BIO_get_fd(bio, NULL);
if (fd >= 0)
closesocket((SOCKET)fd);
WLog_WARN(TAG, "cunked encoding end of stream received");
encodingContext->headerFooterPos = 0;
encodingContext->state = ChunkStateFooter;
}
}
break;
default:
/* invalid state */
return -1;
}
}
return -1;
}
static int rdg_socket_read(BIO* bio, BYTE* pBuffer, size_t size,
rdg_http_encoding_context* encodingContext)
{
assert(encodingContext != NULL);
if (encodingContext->isWebsocketTransport)
{
return rdg_websocket_read(bio, pBuffer, size, &encodingContext->context.websocket);
}
switch (encodingContext->httpTransferEncoding)
{
case TransferEncodingIdentity:
return BIO_read(bio, pBuffer, size);
case TransferEncodingChunked:
return rdg_chuncked_read(bio, pBuffer, size, &encodingContext->context.chunked);
default:
return -1;
}
}
static BOOL rdg_read_all(rdpTls* tls, BYTE* buffer, size_t size,
rdg_http_encoding_context* transferEncoding)
{
size_t readCount = 0;
BYTE* pBuffer = buffer;
while (readCount < size)
{
int status = rdg_socket_read(tls->bio, pBuffer, size - readCount, transferEncoding);
if (status <= 0)
{
if (!BIO_should_retry(tls->bio))
return FALSE;
Sleep(10);
continue;
}
readCount += status;
pBuffer += status;
}
return TRUE;
}
static wStream* rdg_receive_packet(rdpRdg* rdg)
{
wStream* s;
const size_t header = sizeof(RdgPacketHeader);
size_t packetLength;
assert(header <= INT_MAX);
s = Stream_New(NULL, 1024);
if (!s)
return NULL;
if (!rdg_read_all(rdg->tlsOut, Stream_Buffer(s), header, &rdg->transferEncoding))
{
Stream_Free(s, TRUE);
return NULL;
}
Stream_Seek(s, 4);
Stream_Read_UINT32(s, packetLength);
if ((packetLength > INT_MAX) || !Stream_EnsureCapacity(s, packetLength) ||
(packetLength < header))
{
Stream_Free(s, TRUE);
return NULL;
}
if (!rdg_read_all(rdg->tlsOut, Stream_Buffer(s) + header, (int)packetLength - (int)header,
&rdg->transferEncoding))
{
Stream_Free(s, TRUE);
return NULL;
}
Stream_SetLength(s, packetLength);
return s;
}
static BOOL rdg_send_handshake(rdpRdg* rdg)
{
wStream* s;
BOOL status;
s = Stream_New(NULL, 14);
if (!s)
return FALSE;
Stream_Write_UINT16(s, PKT_TYPE_HANDSHAKE_REQUEST); /* Type (2 bytes) */
Stream_Write_UINT16(s, 0); /* Reserved (2 bytes) */
Stream_Write_UINT32(s, 14); /* PacketLength (4 bytes) */
Stream_Write_UINT8(s, 1); /* VersionMajor (1 byte) */
Stream_Write_UINT8(s, 0); /* VersionMinor (1 byte) */
Stream_Write_UINT16(s, 0); /* ClientVersion (2 bytes), must be 0 */
Stream_Write_UINT16(s, rdg->extAuth); /* ExtendedAuthentication (2 bytes) */
Stream_SealLength(s);
status = rdg_write_packet(rdg, s);
Stream_Free(s, TRUE);
if (status)
{
rdg->state = RDG_CLIENT_STATE_HANDSHAKE;
}
return status;
}
static BOOL rdg_send_tunnel_request(rdpRdg* rdg)
{
wStream* s;
BOOL status;
UINT32 packetSize = 16;
UINT16 fieldsPresent = 0;
WCHAR* PAACookie = NULL;
int PAACookieLen = 0;
const UINT32 capabilities = HTTP_CAPABILITY_TYPE_QUAR_SOH |
HTTP_CAPABILITY_MESSAGING_CONSENT_SIGN |
HTTP_CAPABILITY_MESSAGING_SERVICE_MSG;
if (rdg->extAuth == HTTP_EXTENDED_AUTH_PAA)
{
PAACookieLen =
ConvertToUnicode(CP_UTF8, 0, rdg->settings->GatewayAccessToken, -1, &PAACookie, 0);
if (!PAACookie || (PAACookieLen < 0) || (PAACookieLen > UINT16_MAX / 2))
{
free(PAACookie);
return FALSE;
}
packetSize += 2 + (UINT32)PAACookieLen * sizeof(WCHAR);
fieldsPresent = HTTP_TUNNEL_PACKET_FIELD_PAA_COOKIE;
}
s = Stream_New(NULL, packetSize);
if (!s)
{
free(PAACookie);
return FALSE;
}
Stream_Write_UINT16(s, PKT_TYPE_TUNNEL_CREATE); /* Type (2 bytes) */
Stream_Write_UINT16(s, 0); /* Reserved (2 bytes) */
Stream_Write_UINT32(s, packetSize); /* PacketLength (4 bytes) */
Stream_Write_UINT32(s, capabilities); /* CapabilityFlags (4 bytes) */
Stream_Write_UINT16(s, fieldsPresent); /* FieldsPresent (2 bytes) */
Stream_Write_UINT16(s, 0); /* Reserved (2 bytes), must be 0 */
if (PAACookie)
{
Stream_Write_UINT16(s, (UINT16)PAACookieLen * 2); /* PAA cookie string length */
Stream_Write_UTF16_String(s, PAACookie, (size_t)PAACookieLen);
}
Stream_SealLength(s);
status = rdg_write_packet(rdg, s);
Stream_Free(s, TRUE);
free(PAACookie);
if (status)
{
rdg->state = RDG_CLIENT_STATE_TUNNEL_CREATE;
}
return status;
}
static BOOL rdg_send_tunnel_authorization(rdpRdg* rdg)
{
wStream* s;
BOOL status;
WCHAR* clientName = NULL;
UINT32 packetSize;
int clientNameLen =
ConvertToUnicode(CP_UTF8, 0, rdg->settings->ClientHostname, -1, &clientName, 0);
if (!clientName || (clientNameLen < 0) || (clientNameLen > UINT16_MAX / 2))
{
free(clientName);
return FALSE;
}
packetSize = 12 + (UINT32)clientNameLen * sizeof(WCHAR);
s = Stream_New(NULL, packetSize);
if (!s)
{
free(clientName);
return FALSE;
}
Stream_Write_UINT16(s, PKT_TYPE_TUNNEL_AUTH); /* Type (2 bytes) */
Stream_Write_UINT16(s, 0); /* Reserved (2 bytes) */
Stream_Write_UINT32(s, packetSize); /* PacketLength (4 bytes) */
Stream_Write_UINT16(s, 0); /* FieldsPresent (2 bytes) */
Stream_Write_UINT16(s, (UINT16)clientNameLen * 2); /* Client name string length */
Stream_Write_UTF16_String(s, clientName, (size_t)clientNameLen);
Stream_SealLength(s);
status = rdg_write_packet(rdg, s);
Stream_Free(s, TRUE);
free(clientName);
if (status)
{
rdg->state = RDG_CLIENT_STATE_TUNNEL_AUTHORIZE;
}
return status;
}
static BOOL rdg_send_channel_create(rdpRdg* rdg)
{
wStream* s = NULL;
BOOL status = FALSE;
WCHAR* serverName = NULL;
int serverNameLen =
ConvertToUnicode(CP_UTF8, 0, rdg->settings->ServerHostname, -1, &serverName, 0);
UINT32 packetSize = 16 + ((UINT32)serverNameLen) * 2;
if ((serverNameLen < 0) || (serverNameLen > UINT16_MAX / 2))
goto fail;
s = Stream_New(NULL, packetSize);
if (!s)
goto fail;
Stream_Write_UINT16(s, PKT_TYPE_CHANNEL_CREATE); /* Type (2 bytes) */
Stream_Write_UINT16(s, 0); /* Reserved (2 bytes) */
Stream_Write_UINT32(s, packetSize); /* PacketLength (4 bytes) */
Stream_Write_UINT8(s, 1); /* Number of resources. (1 byte) */
Stream_Write_UINT8(s, 0); /* Number of alternative resources (1 byte) */
Stream_Write_UINT16(s, (UINT16)rdg->settings->ServerPort); /* Resource port (2 bytes) */
Stream_Write_UINT16(s, 3); /* Protocol number (2 bytes) */
Stream_Write_UINT16(s, (UINT16)serverNameLen * 2);
Stream_Write_UTF16_String(s, serverName, (size_t)serverNameLen);
Stream_SealLength(s);
status = rdg_write_packet(rdg, s);
fail:
free(serverName);
Stream_Free(s, TRUE);
if (status)
rdg->state = RDG_CLIENT_STATE_CHANNEL_CREATE;
return status;
}
static BOOL rdg_set_ntlm_auth_header(rdpNtlm* ntlm, HttpRequest* request)
{
const SecBuffer* ntlmToken = ntlm_client_get_output_buffer(ntlm);
char* base64NtlmToken = NULL;
if (ntlmToken)
{
if (ntlmToken->cbBuffer > INT_MAX)
return FALSE;
base64NtlmToken = crypto_base64_encode(ntlmToken->pvBuffer, (int)ntlmToken->cbBuffer);
}
if (base64NtlmToken)
{
BOOL rc = http_request_set_auth_scheme(request, "NTLM") &&
http_request_set_auth_param(request, base64NtlmToken);
free(base64NtlmToken);
if (!rc)
return FALSE;
}
return TRUE;
}
static wStream* rdg_build_http_request(rdpRdg* rdg, const char* method,
TRANSFER_ENCODING transferEncoding)
{
wStream* s = NULL;
HttpRequest* request = NULL;
const char* uri;
if (!rdg || !method)
return NULL;
uri = http_context_get_uri(rdg->http);
request = http_request_new();
if (!request)
return NULL;
if (!http_request_set_method(request, method) || !http_request_set_uri(request, uri))
goto out;
if (rdg->ntlm)
{
if (!rdg_set_ntlm_auth_header(rdg->ntlm, request))
goto out;
}
http_request_set_transfer_encoding(request, transferEncoding);
s = http_request_write(rdg->http, request);
out:
http_request_free(request);
if (s)
Stream_SealLength(s);
return s;
}
static BOOL rdg_handle_ntlm_challenge(rdpNtlm* ntlm, HttpResponse* response)
{
BOOL continueNeeded = FALSE;
size_t len;
const char* token64 = NULL;
int ntlmTokenLength = 0;
BYTE* ntlmTokenData = NULL;
long StatusCode;
if (!ntlm || !response)
return FALSE;
StatusCode = http_response_get_status_code(response);
if (StatusCode != HTTP_STATUS_DENIED)
{
WLog_DBG(TAG, "Unexpected NTLM challenge HTTP status: %ld", StatusCode);
return FALSE;
}
token64 = http_response_get_auth_token(response, "NTLM");
if (!token64)
return FALSE;
len = strlen(token64);
if (len > INT_MAX)
return FALSE;
crypto_base64_decode(token64, (int)len, &ntlmTokenData, &ntlmTokenLength);
if (ntlmTokenLength < 0)
{
free(ntlmTokenData);
return FALSE;
}
if (ntlmTokenData && ntlmTokenLength)
{
if (!ntlm_client_set_input_buffer(ntlm, FALSE, ntlmTokenData, (size_t)ntlmTokenLength))
return FALSE;
}
if (!ntlm_authenticate(ntlm, &continueNeeded))
return FALSE;
if (continueNeeded)
return FALSE;
return TRUE;
}
static BOOL rdg_skip_seed_payload(rdpTls* tls, SSIZE_T lastResponseLength,
rdg_http_encoding_context* transferEncoding)
{
BYTE seed_payload[10];
const size_t size = sizeof(seed_payload);
assert(size < SSIZE_MAX);
/* Per [MS-TSGU] 3.3.5.1 step 4, after final OK response RDG server sends
* random "seed" payload of limited size. In practice it's 10 bytes.
*/
if (lastResponseLength < (SSIZE_T)size)
{
if (!rdg_read_all(tls, seed_payload, size - lastResponseLength, transferEncoding))
{
return FALSE;
}
}
return TRUE;
}
static BOOL rdg_process_handshake_response(rdpRdg* rdg, wStream* s)
{
UINT32 errorCode;
UINT16 serverVersion, extendedAuth;
BYTE verMajor, verMinor;
const char* error;
WLog_DBG(TAG, "Handshake response received");
if (rdg->state != RDG_CLIENT_STATE_HANDSHAKE)
{
return FALSE;
}
if (Stream_GetRemainingLength(s) < 10)
{
WLog_ERR(TAG, "[%s] Short packet %" PRIuz ", expected 10", __FUNCTION__,
Stream_GetRemainingLength(s));
return FALSE;
}
Stream_Read_UINT32(s, errorCode);
Stream_Read_UINT8(s, verMajor);
Stream_Read_UINT8(s, verMinor);
Stream_Read_UINT16(s, serverVersion);
Stream_Read_UINT16(s, extendedAuth);
error = rpc_error_to_string(errorCode);
WLog_DBG(TAG,
"errorCode=%s, verMajor=%" PRId8 ", verMinor=%" PRId8 ", serverVersion=%" PRId16
", extendedAuth=%s",
error, verMajor, verMinor, serverVersion, extended_auth_to_string(extendedAuth));
if (FAILED(errorCode))
{
WLog_ERR(TAG, "Handshake error %s", error);
freerdp_set_last_error_log(rdg->context, errorCode);
return FALSE;
}
return rdg_send_tunnel_request(rdg);
}
static BOOL rdg_process_tunnel_response_optional(rdpRdg* rdg, wStream* s, UINT16 fieldsPresent)
{
if (fieldsPresent & HTTP_TUNNEL_RESPONSE_FIELD_TUNNEL_ID)
{
/* Seek over tunnelId (4 bytes) */
if (!Stream_SafeSeek(s, 4))
{
WLog_ERR(TAG, "[%s] Short tunnelId, got %" PRIuz ", expected 4", __FUNCTION__,
Stream_GetRemainingLength(s));
return FALSE;
}
}
if (fieldsPresent & HTTP_TUNNEL_RESPONSE_FIELD_CAPS)
{
UINT32 caps;
if (Stream_GetRemainingLength(s) < 4)
{
WLog_ERR(TAG, "[%s] Short capsFlags, got %" PRIuz ", expected 4", __FUNCTION__,
Stream_GetRemainingLength(s));
return FALSE;
}
Stream_Read_UINT32(s, caps);
WLog_DBG(TAG, "capabilities=%s", capabilities_enum_to_string(caps));
}
if (fieldsPresent & HTTP_TUNNEL_RESPONSE_FIELD_SOH_REQ)
{
/* Seek over nonce (20 bytes) */
if (!Stream_SafeSeek(s, 20))
{
WLog_ERR(TAG, "[%s] Short nonce, got %" PRIuz ", expected 20", __FUNCTION__,
Stream_GetRemainingLength(s));
return FALSE;
}
/* Read serverCert */
if (!rdg_read_http_unicode_string(s, NULL, NULL))
{
WLog_ERR(TAG, "[%s] Failed to read server certificate", __FUNCTION__);
return FALSE;
}
}
if (fieldsPresent & HTTP_TUNNEL_RESPONSE_FIELD_CONSENT_MSG)
{
const WCHAR* msg;
UINT16 msgLenBytes;
rdpContext* context = rdg->context;
assert(context);
assert(context->instance);
/* Read message string and invoke callback */
if (!rdg_read_http_unicode_string(s, &msg, &msgLenBytes))
{
WLog_ERR(TAG, "[%s] Failed to read consent message", __FUNCTION__);
return FALSE;
}
return IFCALLRESULT(TRUE, context->instance->PresentGatewayMessage, context->instance,
GATEWAY_MESSAGE_CONSENT, TRUE, TRUE, msgLenBytes, msg);
}
return TRUE;
}
static BOOL rdg_process_tunnel_response(rdpRdg* rdg, wStream* s)
{
UINT16 serverVersion, fieldsPresent;
UINT32 errorCode;
const char* error;
WLog_DBG(TAG, "Tunnel response received");
if (rdg->state != RDG_CLIENT_STATE_TUNNEL_CREATE)
{
return FALSE;
}
if (Stream_GetRemainingLength(s) < 10)
{
WLog_ERR(TAG, "[%s] Short packet %" PRIuz ", expected 10", __FUNCTION__,
Stream_GetRemainingLength(s));
return FALSE;
}
Stream_Read_UINT16(s, serverVersion);
Stream_Read_UINT32(s, errorCode);
Stream_Read_UINT16(s, fieldsPresent);
Stream_Seek_UINT16(s); /* reserved */
error = rpc_error_to_string(errorCode);
WLog_DBG(TAG, "serverVersion=%" PRId16 ", errorCode=%s, fieldsPresent=%s", serverVersion, error,
tunnel_response_fields_present_to_string(fieldsPresent));
if (FAILED(errorCode))
{
WLog_ERR(TAG, "Tunnel creation error %s", error);
freerdp_set_last_error_log(rdg->context, errorCode);
return FALSE;
}
if (!rdg_process_tunnel_response_optional(rdg, s, fieldsPresent))
return FALSE;
return rdg_send_tunnel_authorization(rdg);
}
static BOOL rdg_process_tunnel_authorization_response(rdpRdg* rdg, wStream* s)
{
UINT32 errorCode;
UINT16 fieldsPresent;
const char* error;
WLog_DBG(TAG, "Tunnel authorization received");
if (rdg->state != RDG_CLIENT_STATE_TUNNEL_AUTHORIZE)
{
return FALSE;
}
if (Stream_GetRemainingLength(s) < 8)
{
WLog_ERR(TAG, "[%s] Short packet %" PRIuz ", expected 8", __FUNCTION__,
Stream_GetRemainingLength(s));
return FALSE;
}
Stream_Read_UINT32(s, errorCode);
Stream_Read_UINT16(s, fieldsPresent);
Stream_Seek_UINT16(s); /* reserved */
error = rpc_error_to_string(errorCode);
WLog_DBG(TAG, "errorCode=%s, fieldsPresent=%s", error,
tunnel_authorization_response_fields_present_to_string(fieldsPresent));
if (FAILED(errorCode))
{
WLog_ERR(TAG, "Tunnel authorization error %s", error);
freerdp_set_last_error_log(rdg->context, errorCode);
return FALSE;
}
return rdg_send_channel_create(rdg);
}
static BOOL rdg_process_channel_response(rdpRdg* rdg, wStream* s)
{
UINT16 fieldsPresent;
UINT32 errorCode;
const char* error;
WLog_DBG(TAG, "Channel response received");
if (rdg->state != RDG_CLIENT_STATE_CHANNEL_CREATE)
{
return FALSE;
}
if (Stream_GetRemainingLength(s) < 8)
{
WLog_ERR(TAG, "[%s] Short packet %" PRIuz ", expected 8", __FUNCTION__,
Stream_GetRemainingLength(s));
return FALSE;
}
Stream_Read_UINT32(s, errorCode);
Stream_Read_UINT16(s, fieldsPresent);
Stream_Seek_UINT16(s); /* reserved */
error = rpc_error_to_string(errorCode);
WLog_DBG(TAG, "channel response errorCode=%s, fieldsPresent=%s", error,
channel_response_fields_present_to_string(fieldsPresent));
if (FAILED(errorCode))
{
WLog_ERR(TAG, "channel response errorCode=%s, fieldsPresent=%s", error,
channel_response_fields_present_to_string(fieldsPresent));
freerdp_set_last_error_log(rdg->context, errorCode);
return FALSE;
}
rdg->state = RDG_CLIENT_STATE_OPENED;
return TRUE;
}
static BOOL rdg_process_packet(rdpRdg* rdg, wStream* s)
{
BOOL status = TRUE;
UINT16 type;
UINT32 packetLength;
Stream_SetPosition(s, 0);
if (Stream_GetRemainingLength(s) < 8)
{
WLog_ERR(TAG, "[%s] Short packet %" PRIuz ", expected 8", __FUNCTION__,
Stream_GetRemainingLength(s));
return FALSE;
}
Stream_Read_UINT16(s, type);
Stream_Seek_UINT16(s); /* reserved */
Stream_Read_UINT32(s, packetLength);
if (Stream_Length(s) < packetLength)
{
WLog_ERR(TAG, "[%s] Short packet %" PRIuz ", expected %" PRIuz, __FUNCTION__,
Stream_Length(s), packetLength);
return FALSE;
}
switch (type)
{
case PKT_TYPE_HANDSHAKE_RESPONSE:
status = rdg_process_handshake_response(rdg, s);
break;
case PKT_TYPE_TUNNEL_RESPONSE:
status = rdg_process_tunnel_response(rdg, s);
break;
case PKT_TYPE_TUNNEL_AUTH_RESPONSE:
status = rdg_process_tunnel_authorization_response(rdg, s);
break;
case PKT_TYPE_CHANNEL_RESPONSE:
status = rdg_process_channel_response(rdg, s);
break;
case PKT_TYPE_DATA:
WLog_ERR(TAG, "[%s] Unexpected packet type DATA", __FUNCTION__);
return FALSE;
}
return status;
}
DWORD rdg_get_event_handles(rdpRdg* rdg, HANDLE* events, DWORD count)
{
DWORD nCount = 0;
assert(rdg != NULL);
if (rdg->tlsOut && rdg->tlsOut->bio)
{
if (events && (nCount < count))
{
BIO_get_event(rdg->tlsOut->bio, &events[nCount]);
nCount++;
}
else
return 0;
}
if (!rdg->transferEncoding.isWebsocketTransport && rdg->tlsIn && rdg->tlsIn->bio)
{
if (events && (nCount < count))
{
BIO_get_event(rdg->tlsIn->bio, &events[nCount]);
nCount++;
}
else
return 0;
}
return nCount;
}
static BOOL rdg_get_gateway_credentials(rdpContext* context)
{
rdpSettings* settings = context->settings;
freerdp* instance = context->instance;
if (!settings->GatewayPassword || !settings->GatewayUsername ||
!strlen(settings->GatewayPassword) || !strlen(settings->GatewayUsername))
{
if (freerdp_shall_disconnect(instance))
return FALSE;
if (!instance->GatewayAuthenticate)
{
freerdp_set_last_error_log(context, FREERDP_ERROR_CONNECT_NO_OR_MISSING_CREDENTIALS);
return FALSE;
}
else
{
BOOL proceed =
instance->GatewayAuthenticate(instance, &settings->GatewayUsername,
&settings->GatewayPassword, &settings->GatewayDomain);
if (!proceed)
{
freerdp_set_last_error_log(context,
FREERDP_ERROR_CONNECT_NO_OR_MISSING_CREDENTIALS);
return FALSE;
}
if (settings->GatewayUseSameCredentials)
{
if (settings->GatewayUsername)
{
free(settings->Username);
if (!(settings->Username = _strdup(settings->GatewayUsername)))
return FALSE;
}
if (settings->GatewayDomain)
{
free(settings->Domain);
if (!(settings->Domain = _strdup(settings->GatewayDomain)))
return FALSE;
}
if (settings->GatewayPassword)
{
free(settings->Password);
if (!(settings->Password = _strdup(settings->GatewayPassword)))
return FALSE;
}
}
}
}
return TRUE;
}
static BOOL rdg_ntlm_init(rdpRdg* rdg, rdpTls* tls)
{
BOOL continueNeeded = FALSE;
rdpContext* context = rdg->context;
rdpSettings* settings = context->settings;
rdg->ntlm = ntlm_new();
if (!rdg->ntlm)
return FALSE;
if (!rdg_get_gateway_credentials(context))
return FALSE;
if (!ntlm_client_init(rdg->ntlm, TRUE, settings->GatewayUsername, settings->GatewayDomain,
settings->GatewayPassword, tls->Bindings))
return FALSE;
if (!ntlm_client_make_spn(rdg->ntlm, _T("HTTP"), settings->GatewayHostname))
return FALSE;
if (!ntlm_authenticate(rdg->ntlm, &continueNeeded))
return FALSE;
return continueNeeded;
}
static BOOL rdg_send_http_request(rdpRdg* rdg, rdpTls* tls, const char* method,
TRANSFER_ENCODING transferEncoding)
{
size_t sz;
wStream* s = NULL;
int status = -1;
s = rdg_build_http_request(rdg, method, transferEncoding);
if (!s)
return FALSE;
sz = Stream_Length(s);
if (sz <= INT_MAX)
status = tls_write_all(tls, Stream_Buffer(s), (int)sz);
Stream_Free(s, TRUE);
return (status >= 0);
}
static BOOL rdg_tls_connect(rdpRdg* rdg, rdpTls* tls, const char* peerAddress, int timeout)
{
int sockfd = 0;
long status = 0;
BIO* socketBio = NULL;
BIO* bufferedBio = NULL;
rdpSettings* settings = rdg->settings;
const char* peerHostname = settings->GatewayHostname;
UINT16 peerPort = (UINT16)settings->GatewayPort;
const char *proxyUsername, *proxyPassword;
BOOL isProxyConnection =
proxy_prepare(settings, &peerHostname, &peerPort, &proxyUsername, &proxyPassword);
if (settings->GatewayPort > UINT16_MAX)
return FALSE;
sockfd = freerdp_tcp_connect(rdg->context, settings, peerAddress ? peerAddress : peerHostname,
peerPort, timeout);
if (sockfd < 0)
{
return FALSE;
}
socketBio = BIO_new(BIO_s_simple_socket());
if (!socketBio)
{
closesocket((SOCKET)sockfd);
return FALSE;
}
BIO_set_fd(socketBio, sockfd, BIO_CLOSE);
bufferedBio = BIO_new(BIO_s_buffered_socket());
if (!bufferedBio)
{
BIO_free_all(socketBio);
return FALSE;
}
bufferedBio = BIO_push(bufferedBio, socketBio);
status = BIO_set_nonblock(bufferedBio, TRUE);
if (isProxyConnection)
{
if (!proxy_connect(settings, bufferedBio, proxyUsername, proxyPassword,
settings->GatewayHostname, (UINT16)settings->GatewayPort))
{
BIO_free_all(bufferedBio);
return FALSE;
}
}
if (!status)
{
BIO_free_all(bufferedBio);
return FALSE;
}
tls->hostname = settings->GatewayHostname;
tls->port = (int)settings->GatewayPort;
tls->isGatewayTransport = TRUE;
status = tls_connect(tls, bufferedBio);
if (status < 1)
{
rdpContext* context = rdg->context;
if (status < 0)
{
freerdp_set_last_error_if_not(context, FREERDP_ERROR_TLS_CONNECT_FAILED);
}
else
{
freerdp_set_last_error_if_not(context, FREERDP_ERROR_CONNECT_CANCELLED);
}
return FALSE;
}
return (status >= 1);
}
static BOOL rdg_establish_data_connection(rdpRdg* rdg, rdpTls* tls, const char* method,
const char* peerAddress, int timeout, BOOL* rpcFallback)
{
HttpResponse* response = NULL;
long statusCode;
SSIZE_T bodyLength;
long StatusCode;
TRANSFER_ENCODING encoding;
BOOL isWebsocket;
if (!rdg_tls_connect(rdg, tls, peerAddress, timeout))
return FALSE;
if (rdg->extAuth == HTTP_EXTENDED_AUTH_NONE)
{
if (!rdg_ntlm_init(rdg, tls))
return FALSE;
if (!rdg_send_http_request(rdg, tls, method, TransferEncodingIdentity))
return FALSE;
response = http_response_recv(tls, TRUE);
if (!response)
return FALSE;
StatusCode = http_response_get_status_code(response);
switch (StatusCode)
{
case HTTP_STATUS_NOT_FOUND:
{
WLog_INFO(TAG, "RD Gateway does not support HTTP transport.");
http_context_enable_websocket_upgrade(rdg->http, FALSE);
if (rpcFallback)
*rpcFallback = TRUE;
http_response_free(response);
return FALSE;
}
default:
break;
}
if (!rdg_handle_ntlm_challenge(rdg->ntlm, response))
{
http_response_free(response);
return FALSE;
}
http_response_free(response);
}
if (!rdg_send_http_request(rdg, tls, method, TransferEncodingIdentity))
return FALSE;
ntlm_free(rdg->ntlm);
rdg->ntlm = NULL;
response = http_response_recv(tls, TRUE);
if (!response)
return FALSE;
statusCode = http_response_get_status_code(response);
bodyLength = http_response_get_body_length(response);
encoding = http_response_get_transfer_encoding(response);
isWebsocket = http_response_is_websocket(rdg->http, response);
http_response_free(response);
WLog_DBG(TAG, "%s authorization result: %d", method, statusCode);
switch (statusCode)
{
case HTTP_STATUS_OK:
/* old rdg endpoint without websocket support, don't request websocket for RDG_IN_DATA
*/
http_context_enable_websocket_upgrade(rdg->http, FALSE);
break;
case HTTP_STATUS_DENIED:
freerdp_set_last_error_log(rdg->context, FREERDP_ERROR_CONNECT_ACCESS_DENIED);
return FALSE;
case HTTP_STATUS_SWITCH_PROTOCOLS:
if (!isWebsocket)
{
/*
* webserver is broken, a fallback may be possible here
* but only if already tested with oppurtonistic upgrade
*/
if (http_context_is_websocket_upgrade_enabled(rdg->http))
{
int fd = BIO_get_fd(tls->bio, NULL);
if (fd >= 0)
closesocket((SOCKET)fd);
http_context_enable_websocket_upgrade(rdg->http, FALSE);
return rdg_establish_data_connection(rdg, tls, method, peerAddress, timeout,
rpcFallback);
}
return FALSE;
}
rdg->transferEncoding.isWebsocketTransport = TRUE;
rdg->transferEncoding.context.websocket.state = WebsocketStateOpcodeAndFin;
rdg->transferEncoding.context.websocket.responseStreamBuffer = NULL;
return TRUE;
default:
return FALSE;
}
if (strcmp(method, "RDG_OUT_DATA") == 0)
{
if (encoding == TransferEncodingChunked)
{
rdg->transferEncoding.httpTransferEncoding = TransferEncodingChunked;
rdg->transferEncoding.context.chunked.nextOffset = 0;
rdg->transferEncoding.context.chunked.headerFooterPos = 0;
rdg->transferEncoding.context.chunked.state = ChunkStateLenghHeader;
}
if (!rdg_skip_seed_payload(tls, bodyLength, &rdg->transferEncoding))
{
return FALSE;
}
}
else
{
if (!rdg_send_http_request(rdg, tls, method, TransferEncodingChunked))
return FALSE;
}
return TRUE;
}
static BOOL rdg_tunnel_connect(rdpRdg* rdg)
{
BOOL status;
wStream* s;
rdg_send_handshake(rdg);
while (rdg->state < RDG_CLIENT_STATE_OPENED)
{
status = FALSE;
s = rdg_receive_packet(rdg);
if (s)
{
status = rdg_process_packet(rdg, s);
Stream_Free(s, TRUE);
}
if (!status)
{
assert(rdg);
assert(rdg->context);
assert(rdg->context->rdp);
rdg->context->rdp->transport->layer = TRANSPORT_LAYER_CLOSED;
return FALSE;
}
}
return TRUE;
}
BOOL rdg_connect(rdpRdg* rdg, DWORD timeout, BOOL* rpcFallback)
{
BOOL status;
SOCKET outConnSocket = 0;
char* peerAddress = NULL;
assert(rdg != NULL);
status =
rdg_establish_data_connection(rdg, rdg->tlsOut, "RDG_OUT_DATA", NULL, timeout, rpcFallback);
if (status)
{
if (rdg->transferEncoding.isWebsocketTransport)
{
WLog_DBG(TAG, "Upgraded to websocket. RDG_IN_DATA not required");
}
else
{
/* Establish IN connection with the same peer/server as OUT connection,
* even when server hostname resolves to different IP addresses.
*/
BIO_get_socket(rdg->tlsOut->underlying, &outConnSocket);
peerAddress = freerdp_tcp_get_peer_address(outConnSocket);
status = rdg_establish_data_connection(rdg, rdg->tlsIn, "RDG_IN_DATA", peerAddress,
timeout, NULL);
free(peerAddress);
}
}
if (!status)
{
assert(rdg);
assert(rdg->context);
assert(rdg->context->rdp);
rdg->context->rdp->transport->layer = TRANSPORT_LAYER_CLOSED;
return FALSE;
}
status = rdg_tunnel_connect(rdg);
if (!status)
return FALSE;
return TRUE;
}
static int rdg_write_websocket_data_packet(rdpRdg* rdg, const BYTE* buf, int isize)
{
size_t payloadSize;
size_t fullLen;
int status;
wStream* sWS;
uint32_t maskingKey;
BYTE* maskingKeyByte1 = (BYTE*)&maskingKey;
BYTE* maskingKeyByte2 = maskingKeyByte1 + 1;
BYTE* maskingKeyByte3 = maskingKeyByte1 + 2;
BYTE* maskingKeyByte4 = maskingKeyByte1 + 3;
int streamPos;
winpr_RAND((BYTE*)&maskingKey, 4);
payloadSize = isize + 10;
if ((isize < 0) || (isize > UINT16_MAX))
return -1;
if (payloadSize < 1)
return 0;
if (payloadSize < 126)
fullLen = payloadSize + 6; /* 2 byte "mini header" + 4 byte masking key */
else if (payloadSize < 0x10000)
fullLen = payloadSize + 8; /* 2 byte "mini header" + 2 byte length + 4 byte masking key */
else
fullLen = payloadSize + 14; /* 2 byte "mini header" + 8 byte length + 4 byte masking key */
sWS = Stream_New(NULL, fullLen);
if (!sWS)
return FALSE;
Stream_Write_UINT8(sWS, WEBSOCKET_FIN_BIT | WebsocketBinaryOpcode);
if (payloadSize < 126)
Stream_Write_UINT8(sWS, payloadSize | WEBSOCKET_MASK_BIT);
else if (payloadSize < 0x10000)
{
Stream_Write_UINT8(sWS, 126 | WEBSOCKET_MASK_BIT);
Stream_Write_UINT16_BE(sWS, payloadSize);
}
else
{
Stream_Write_UINT8(sWS, 127 | WEBSOCKET_MASK_BIT);
/* biggest packet possible is 0xffff + 0xa, so 32bit is always enough */
Stream_Write_UINT32_BE(sWS, 0);
Stream_Write_UINT32_BE(sWS, payloadSize);
}
Stream_Write_UINT32(sWS, maskingKey);
Stream_Write_UINT16(sWS, PKT_TYPE_DATA ^ (*maskingKeyByte1 | *maskingKeyByte2 << 8)); /* Type */
Stream_Write_UINT16(sWS, 0 ^ (*maskingKeyByte3 | *maskingKeyByte4 << 8)); /* Reserved */
Stream_Write_UINT32(sWS, (UINT32)payloadSize ^ maskingKey); /* Packet length */
Stream_Write_UINT16(sWS,
(UINT16)isize ^ (*maskingKeyByte1 | *maskingKeyByte2 << 8)); /* Data size */
/* masking key is now off by 2 bytes. fix that */
maskingKey = (maskingKey & 0xffff) << 16 | (maskingKey >> 16);
/* mask as much as possible with 32bit access */
for (streamPos = 0; streamPos + 4 <= isize; streamPos += 4)
{
uint32_t masked = *((const uint32_t*)((const BYTE*)buf + streamPos)) ^ maskingKey;
Stream_Write_UINT32(sWS, masked);
}
/* mask the rest byte by byte */
for (; streamPos < isize; streamPos++)
{
BYTE* partialMask = (BYTE*)(&maskingKey) + streamPos % 4;
BYTE masked = *((const BYTE*)((const BYTE*)buf + streamPos)) ^ *partialMask;
Stream_Write_UINT8(sWS, masked);
}
Stream_SealLength(sWS);
status = tls_write_all(rdg->tlsOut, Stream_Buffer(sWS), Stream_Length(sWS));
Stream_Free(sWS, TRUE);
if (status < 0)
return status;
return isize;
}
static int rdg_write_chunked_data_packet(rdpRdg* rdg, const BYTE* buf, int isize)
{
int status;
size_t len;
wStream* sChunk;
size_t size = (size_t)isize;
size_t packetSize = size + 10;
char chunkSize[11];
if ((isize < 0) || (isize > UINT16_MAX))
return -1;
if (size < 1)
return 0;
sprintf_s(chunkSize, sizeof(chunkSize), "%" PRIxz "\r\n", packetSize);
sChunk = Stream_New(NULL, strnlen(chunkSize, sizeof(chunkSize)) + packetSize + 2);
if (!sChunk)
return -1;
Stream_Write(sChunk, chunkSize, strnlen(chunkSize, sizeof(chunkSize)));
Stream_Write_UINT16(sChunk, PKT_TYPE_DATA); /* Type */
Stream_Write_UINT16(sChunk, 0); /* Reserved */
Stream_Write_UINT32(sChunk, (UINT32)packetSize); /* Packet length */
Stream_Write_UINT16(sChunk, (UINT16)size); /* Data size */
Stream_Write(sChunk, buf, size); /* Data */
Stream_Write(sChunk, "\r\n", 2);
Stream_SealLength(sChunk);
len = Stream_Length(sChunk);
if (len > INT_MAX)
{
Stream_Free(sChunk, TRUE);
return -1;
}
status = tls_write_all(rdg->tlsIn, Stream_Buffer(sChunk), (int)len);
Stream_Free(sChunk, TRUE);
if (status < 0)
return -1;
return (int)size;
}
static int rdg_write_data_packet(rdpRdg* rdg, const BYTE* buf, int isize)
{
if (rdg->transferEncoding.isWebsocketTransport)
{
if (rdg->transferEncoding.context.websocket.closeSent == TRUE)
return -1;
return rdg_write_websocket_data_packet(rdg, buf, isize);
}
else
return rdg_write_chunked_data_packet(rdg, buf, isize);
}
static BOOL rdg_process_close_packet(rdpRdg* rdg, wStream* s)
{
int status = -1;
wStream* sClose;
UINT32 errorCode;
UINT32 packetSize = 12;
/* Read error code */
if (Stream_GetRemainingLength(s) < 4)
return FALSE;
Stream_Read_UINT32(s, errorCode);
if (errorCode != 0)
freerdp_set_last_error_log(rdg->context, errorCode);
sClose = Stream_New(NULL, packetSize);
if (!sClose)
return FALSE;
Stream_Write_UINT16(sClose, PKT_TYPE_CLOSE_CHANNEL_RESPONSE); /* Type */
Stream_Write_UINT16(sClose, 0); /* Reserved */
Stream_Write_UINT32(sClose, packetSize); /* Packet length */
Stream_Write_UINT32(sClose, 0); /* Status code */
Stream_SealLength(sClose);
status = rdg_write_packet(rdg, sClose);
Stream_Free(sClose, TRUE);
return (status < 0 ? FALSE : TRUE);
}
static BOOL rdg_process_keep_alive_packet(rdpRdg* rdg)
{
int status = -1;
wStream* sKeepAlive;
size_t packetSize = 8;
sKeepAlive = Stream_New(NULL, packetSize);
if (!sKeepAlive)
return FALSE;
Stream_Write_UINT16(sKeepAlive, PKT_TYPE_KEEPALIVE); /* Type */
Stream_Write_UINT16(sKeepAlive, 0); /* Reserved */
Stream_Write_UINT32(sKeepAlive, (UINT32)packetSize); /* Packet length */
Stream_SealLength(sKeepAlive);
status = rdg_write_packet(rdg, sKeepAlive);
Stream_Free(sKeepAlive, TRUE);
return (status < 0 ? FALSE : TRUE);
}
static BOOL rdg_process_service_message(rdpRdg* rdg, wStream* s)
{
const WCHAR* msg;
UINT16 msgLenBytes;
rdpContext* context = rdg->context;
assert(context);
assert(context->instance);
/* Read message string */
if (!rdg_read_http_unicode_string(s, &msg, &msgLenBytes))
{
WLog_ERR(TAG, "[%s] Failed to read string", __FUNCTION__);
return FALSE;
}
return IFCALLRESULT(TRUE, context->instance->PresentGatewayMessage, context->instance,
GATEWAY_MESSAGE_SERVICE, TRUE, FALSE, msgLenBytes, msg);
}
static BOOL rdg_process_unknown_packet(rdpRdg* rdg, int type)
{
WINPR_UNUSED(rdg);
WINPR_UNUSED(type);
WLog_WARN(TAG, "Unknown Control Packet received: %X", type);
return TRUE;
}
static BOOL rdg_process_control_packet(rdpRdg* rdg, int type, size_t packetLength)
{
wStream* s = NULL;
size_t readCount = 0;
int status;
size_t payloadSize = packetLength - sizeof(RdgPacketHeader);
if (packetLength < sizeof(RdgPacketHeader))
return FALSE;
assert(sizeof(RdgPacketHeader) < INT_MAX);
if (payloadSize)
{
s = Stream_New(NULL, payloadSize);
if (!s)
return FALSE;
while (readCount < payloadSize)
{
status = rdg_socket_read(rdg->tlsOut->bio, Stream_Pointer(s), payloadSize - readCount,
&rdg->transferEncoding);
if (status <= 0)
{
if (!BIO_should_retry(rdg->tlsOut->bio))
{
Stream_Free(s, TRUE);
return FALSE;
}
continue;
}
Stream_Seek(s, (size_t)status);
readCount += (size_t)status;
if (readCount > INT_MAX)
{
Stream_Free(s, TRUE);
return FALSE;
}
}
Stream_SetPosition(s, 0);
}
switch (type)
{
case PKT_TYPE_CLOSE_CHANNEL:
EnterCriticalSection(&rdg->writeSection);
status = rdg_process_close_packet(rdg, s);
LeaveCriticalSection(&rdg->writeSection);
break;
case PKT_TYPE_KEEPALIVE:
EnterCriticalSection(&rdg->writeSection);
status = rdg_process_keep_alive_packet(rdg);
LeaveCriticalSection(&rdg->writeSection);
break;
case PKT_TYPE_SERVICE_MESSAGE:
if (!s)
{
WLog_ERR(TAG, "[%s] PKT_TYPE_SERVICE_MESSAGE requires payload but none was sent",
__FUNCTION__);
return FALSE;
}
status = rdg_process_service_message(rdg, s);
break;
default:
status = rdg_process_unknown_packet(rdg, type);
break;
}
Stream_Free(s, TRUE);
return status;
}
static int rdg_read_data_packet(rdpRdg* rdg, BYTE* buffer, int size)
{
RdgPacketHeader header;
size_t readCount = 0;
size_t readSize;
int status;
if (!rdg->packetRemainingCount)
{
assert(sizeof(RdgPacketHeader) < INT_MAX);
while (readCount < sizeof(RdgPacketHeader))
{
status = rdg_socket_read(rdg->tlsOut->bio, (BYTE*)(&header) + readCount,
(int)sizeof(RdgPacketHeader) - (int)readCount,
&rdg->transferEncoding);
if (status <= 0)
{
if (!BIO_should_retry(rdg->tlsOut->bio))
return -1;
if (!readCount)
return 0;
BIO_wait_read(rdg->tlsOut->bio, 50);
continue;
}
readCount += (size_t)status;
if (readCount > INT_MAX)
return -1;
}
if (header.type != PKT_TYPE_DATA)
{
status = rdg_process_control_packet(rdg, header.type, header.packetLength);
if (!status)
return -1;
return 0;
}
readCount = 0;
while (readCount < 2)
{
status =
rdg_socket_read(rdg->tlsOut->bio, (BYTE*)(&rdg->packetRemainingCount) + readCount,
2 - (int)readCount, &rdg->transferEncoding);
if (status < 0)
{
if (!BIO_should_retry(rdg->tlsOut->bio))
return -1;
BIO_wait_read(rdg->tlsOut->bio, 50);
continue;
}
readCount += (size_t)status;
}
}
readSize = (rdg->packetRemainingCount < size) ? rdg->packetRemainingCount : size;
status = rdg_socket_read(rdg->tlsOut->bio, buffer, readSize, &rdg->transferEncoding);
if (status <= 0)
{
if (!BIO_should_retry(rdg->tlsOut->bio))
{
return -1;
}
return 0;
}
rdg->packetRemainingCount -= status;
return status;
}
static int rdg_bio_write(BIO* bio, const char* buf, int num)
{
int status;
rdpRdg* rdg = (rdpRdg*)BIO_get_data(bio);
BIO_clear_flags(bio, BIO_FLAGS_WRITE);
EnterCriticalSection(&rdg->writeSection);
status = rdg_write_data_packet(rdg, (const BYTE*)buf, num);
LeaveCriticalSection(&rdg->writeSection);
if (status < 0)
{
BIO_clear_flags(bio, BIO_FLAGS_SHOULD_RETRY);
return -1;
}
else if (status < num)
{
BIO_set_flags(bio, BIO_FLAGS_WRITE);
WSASetLastError(WSAEWOULDBLOCK);
}
else
{
BIO_set_flags(bio, BIO_FLAGS_WRITE);
}
return status;
}
static int rdg_bio_read(BIO* bio, char* buf, int size)
{
int status;
rdpRdg* rdg = (rdpRdg*)BIO_get_data(bio);
status = rdg_read_data_packet(rdg, (BYTE*)buf, size);
if (status < 0)
{
BIO_clear_retry_flags(bio);
return -1;
}
else if (status == 0)
{
BIO_set_retry_read(bio);
WSASetLastError(WSAEWOULDBLOCK);
return -1;
}
else
{
BIO_set_flags(bio, BIO_FLAGS_READ);
}
return status;
}
static int rdg_bio_puts(BIO* bio, const char* str)
{
WINPR_UNUSED(bio);
WINPR_UNUSED(str);
return -2;
}
static int rdg_bio_gets(BIO* bio, char* str, int size)
{
WINPR_UNUSED(bio);
WINPR_UNUSED(str);
WINPR_UNUSED(size);
return -2;
}
static long rdg_bio_ctrl(BIO* in_bio, int cmd, long arg1, void* arg2)
{
long status = -1;
rdpRdg* rdg = (rdpRdg*)BIO_get_data(in_bio);
rdpTls* tlsOut = rdg->tlsOut;
rdpTls* tlsIn = rdg->tlsIn;
if (cmd == BIO_CTRL_FLUSH)
{
(void)BIO_flush(tlsOut->bio);
if (!rdg->transferEncoding.isWebsocketTransport)
(void)BIO_flush(tlsIn->bio);
status = 1;
}
else if (cmd == BIO_C_SET_NONBLOCK)
{
status = 1;
}
else if (cmd == BIO_C_READ_BLOCKED)
{
BIO* cbio = tlsOut->bio;
status = BIO_read_blocked(cbio);
}
else if (cmd == BIO_C_WRITE_BLOCKED)
{
BIO* cbio = tlsIn->bio;
if (rdg->transferEncoding.isWebsocketTransport)
cbio = tlsOut->bio;
status = BIO_write_blocked(cbio);
}
else if (cmd == BIO_C_WAIT_READ)
{
int timeout = (int)arg1;
BIO* cbio = tlsOut->bio;
if (BIO_read_blocked(cbio))
return BIO_wait_read(cbio, timeout);
else if (BIO_write_blocked(cbio))
return BIO_wait_write(cbio, timeout);
else
status = 1;
}
else if (cmd == BIO_C_WAIT_WRITE)
{
int timeout = (int)arg1;
BIO* cbio = tlsIn->bio;
if (rdg->transferEncoding.isWebsocketTransport)
cbio = tlsOut->bio;
if (BIO_write_blocked(cbio))
status = BIO_wait_write(cbio, timeout);
else if (BIO_read_blocked(cbio))
status = BIO_wait_read(cbio, timeout);
else
status = 1;
}
else if (cmd == BIO_C_GET_EVENT || cmd == BIO_C_GET_FD)
{
/*
* A note about BIO_C_GET_FD:
* Even if two FDs are part of RDG, only one FD can be returned here.
*
* In FreeRDP, BIO FDs are only used for polling, so it is safe to use the outgoing FD only
*
* See issue #3602
*/
status = BIO_ctrl(tlsOut->bio, cmd, arg1, arg2);
}
#if OPENSSL_VERSION_NUMBER >= 0x30000000L
else if (cmd == BIO_CTRL_GET_KTLS_SEND)
{
/* Even though BIO_get_ktls_send says that returning negative values is valid
* openssl internal sources are full of if(!BIO_get_ktls_send && ) stuff. This has some
* nasty sideeffects. return 0 as proper no KTLS offloading flag
*/
status = 0;
}
else if (cmd == BIO_CTRL_GET_KTLS_RECV)
{
/* Even though BIO_get_ktls_recv says that returning negative values is valid
* there is no reason to trust trust negative values are implemented right everywhere
*/
status = 0;
}
#endif
return status;
}
static int rdg_bio_new(BIO* bio)
{
BIO_set_init(bio, 1);
BIO_set_flags(bio, BIO_FLAGS_SHOULD_RETRY);
return 1;
}
static int rdg_bio_free(BIO* bio)
{
WINPR_UNUSED(bio);
return 1;
}
static BIO_METHOD* BIO_s_rdg(void)
{
static BIO_METHOD* bio_methods = NULL;
if (bio_methods == NULL)
{
if (!(bio_methods = BIO_meth_new(BIO_TYPE_TSG, "RDGateway")))
return NULL;
BIO_meth_set_write(bio_methods, rdg_bio_write);
BIO_meth_set_read(bio_methods, rdg_bio_read);
BIO_meth_set_puts(bio_methods, rdg_bio_puts);
BIO_meth_set_gets(bio_methods, rdg_bio_gets);
BIO_meth_set_ctrl(bio_methods, rdg_bio_ctrl);
BIO_meth_set_create(bio_methods, rdg_bio_new);
BIO_meth_set_destroy(bio_methods, rdg_bio_free);
}
return bio_methods;
}
rdpRdg* rdg_new(rdpContext* context)
{
rdpRdg* rdg;
RPC_CSTR stringUuid;
char bracedUuid[40];
RPC_STATUS rpcStatus;
if (!context)
return NULL;
rdg = (rdpRdg*)calloc(1, sizeof(rdpRdg));
if (rdg)
{
rdg->state = RDG_CLIENT_STATE_INITIAL;
rdg->context = context;
rdg->settings = rdg->context->settings;
rdg->extAuth = HTTP_EXTENDED_AUTH_NONE;
if (rdg->settings->GatewayAccessToken)
rdg->extAuth = HTTP_EXTENDED_AUTH_PAA;
UuidCreate(&rdg->guid);
rpcStatus = UuidToStringA(&rdg->guid, &stringUuid);
if (rpcStatus == RPC_S_OUT_OF_MEMORY)
goto rdg_alloc_error;
sprintf_s(bracedUuid, sizeof(bracedUuid), "{%s}", stringUuid);
RpcStringFreeA(&stringUuid);
rdg->tlsOut = tls_new(rdg->settings);
if (!rdg->tlsOut)
goto rdg_alloc_error;
rdg->tlsIn = tls_new(rdg->settings);
if (!rdg->tlsIn)
goto rdg_alloc_error;
rdg->http = http_context_new();
if (!rdg->http)
goto rdg_alloc_error;
if (!http_context_set_uri(rdg->http, "/remoteDesktopGateway/") ||
!http_context_set_accept(rdg->http, "*/*") ||
!http_context_set_cache_control(rdg->http, "no-cache") ||
!http_context_set_pragma(rdg->http, "no-cache") ||
!http_context_set_connection(rdg->http, "Keep-Alive") ||
!http_context_set_user_agent(rdg->http, "MS-RDGateway/1.0") ||
!http_context_set_host(rdg->http, rdg->settings->GatewayHostname) ||
!http_context_set_rdg_connection_id(rdg->http, bracedUuid) ||
!http_context_enable_websocket_upgrade(
rdg->http,
freerdp_settings_get_bool(rdg->settings, FreeRDP_GatewayHttpUseWebsockets)))
{
goto rdg_alloc_error;
}
if (rdg->extAuth != HTTP_EXTENDED_AUTH_NONE)
{
switch (rdg->extAuth)
{
case HTTP_EXTENDED_AUTH_PAA:
if (!http_context_set_rdg_auth_scheme(rdg->http, "PAA"))
goto rdg_alloc_error;
break;
default:
WLog_DBG(TAG, "RDG extended authentication method %d not supported",
rdg->extAuth);
}
}
rdg->frontBio = BIO_new(BIO_s_rdg());
if (!rdg->frontBio)
goto rdg_alloc_error;
BIO_set_data(rdg->frontBio, rdg);
InitializeCriticalSection(&rdg->writeSection);
rdg->transferEncoding.httpTransferEncoding = TransferEncodingIdentity;
rdg->transferEncoding.isWebsocketTransport = FALSE;
}
return rdg;
rdg_alloc_error:
rdg_free(rdg);
return NULL;
}
void rdg_free(rdpRdg* rdg)
{
if (!rdg)
return;
tls_free(rdg->tlsOut);
tls_free(rdg->tlsIn);
http_context_free(rdg->http);
ntlm_free(rdg->ntlm);
if (!rdg->attached)
BIO_free_all(rdg->frontBio);
DeleteCriticalSection(&rdg->writeSection);
if (rdg->transferEncoding.isWebsocketTransport)
{
if (rdg->transferEncoding.context.websocket.responseStreamBuffer != NULL)
Stream_Free(rdg->transferEncoding.context.websocket.responseStreamBuffer, TRUE);
}
free(rdg);
}
BIO* rdg_get_front_bio_and_take_ownership(rdpRdg* rdg)
{
if (!rdg)
return NULL;
rdg->attached = TRUE;
return rdg->frontBio;
}