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|
// SoftEther VPN Source Code - Stable Edition Repository
// Cedar Communication Module
//
// SoftEther VPN Server, Client and Bridge are free software under the Apache License, Version 2.0.
//
// Copyright (c) Daiyuu Nobori.
// Copyright (c) SoftEther VPN Project, University of Tsukuba, Japan.
// Copyright (c) SoftEther Corporation.
// Copyright (c) all contributors on SoftEther VPN project in GitHub.
//
// All Rights Reserved.
//
// http://www.softether.org/
//
// This stable branch is officially managed by Daiyuu Nobori, the owner of SoftEther VPN Project.
// Pull requests should be sent to the Developer Edition Master Repository on https://github.com/SoftEtherVPN/SoftEtherVPN
//
// License: The Apache License, Version 2.0
// https://www.apache.org/licenses/LICENSE-2.0
//
// DISCLAIMER
// ==========
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//
// THIS SOFTWARE IS DEVELOPED IN JAPAN, AND DISTRIBUTED FROM JAPAN, UNDER
// JAPANESE LAWS. YOU MUST AGREE IN ADVANCE TO USE, COPY, MODIFY, MERGE, PUBLISH,
// DISTRIBUTE, SUBLICENSE, AND/OR SELL COPIES OF THIS SOFTWARE, THAT ANY
// JURIDICAL DISPUTES WHICH ARE CONCERNED TO THIS SOFTWARE OR ITS CONTENTS,
// AGAINST US (SOFTETHER PROJECT, SOFTETHER CORPORATION, DAIYUU NOBORI OR OTHER
// SUPPLIERS), OR ANY JURIDICAL DISPUTES AGAINST US WHICH ARE CAUSED BY ANY KIND
// OF USING, COPYING, MODIFYING, MERGING, PUBLISHING, DISTRIBUTING, SUBLICENSING,
// AND/OR SELLING COPIES OF THIS SOFTWARE SHALL BE REGARDED AS BE CONSTRUED AND
// CONTROLLED BY JAPANESE LAWS, AND YOU MUST FURTHER CONSENT TO EXCLUSIVE
// JURISDICTION AND VENUE IN THE COURTS SITTING IN TOKYO, JAPAN. YOU MUST WAIVE
// ALL DEFENSES OF LACK OF PERSONAL JURISDICTION AND FORUM NON CONVENIENS.
// PROCESS MAY BE SERVED ON EITHER PARTY IN THE MANNER AUTHORIZED BY APPLICABLE
// LAW OR COURT RULE.
//
// USE ONLY IN JAPAN. DO NOT USE THIS SOFTWARE IN ANOTHER COUNTRY UNLESS YOU HAVE
// A CONFIRMATION THAT THIS SOFTWARE DOES NOT VIOLATE ANY CRIMINAL LAWS OR CIVIL
// RIGHTS IN THAT PARTICULAR COUNTRY. USING THIS SOFTWARE IN OTHER COUNTRIES IS
// COMPLETELY AT YOUR OWN RISK. THE SOFTETHER VPN PROJECT HAS DEVELOPED AND
// DISTRIBUTED THIS SOFTWARE TO COMPLY ONLY WITH THE JAPANESE LAWS AND EXISTING
// CIVIL RIGHTS INCLUDING PATENTS WHICH ARE SUBJECTS APPLY IN JAPAN. OTHER
// COUNTRIES' LAWS OR CIVIL RIGHTS ARE NONE OF OUR CONCERNS NOR RESPONSIBILITIES.
// WE HAVE NEVER INVESTIGATED ANY CRIMINAL REGULATIONS, CIVIL LAWS OR
// INTELLECTUAL PROPERTY RIGHTS INCLUDING PATENTS IN ANY OF OTHER 200+ COUNTRIES
// AND TERRITORIES. BY NATURE, THERE ARE 200+ REGIONS IN THE WORLD, WITH
// DIFFERENT LAWS. IT IS IMPOSSIBLE TO VERIFY EVERY COUNTRIES' LAWS, REGULATIONS
// AND CIVIL RIGHTS TO MAKE THE SOFTWARE COMPLY WITH ALL COUNTRIES' LAWS BY THE
// PROJECT. EVEN IF YOU WILL BE SUED BY A PRIVATE ENTITY OR BE DAMAGED BY A
// PUBLIC SERVANT IN YOUR COUNTRY, THE DEVELOPERS OF THIS SOFTWARE WILL NEVER BE
// LIABLE TO RECOVER OR COMPENSATE SUCH DAMAGES, CRIMINAL OR CIVIL
// RESPONSIBILITIES. NOTE THAT THIS LINE IS NOT LICENSE RESTRICTION BUT JUST A
// STATEMENT FOR WARNING AND DISCLAIMER.
//
// READ AND UNDERSTAND THE 'WARNING.TXT' FILE BEFORE USING THIS SOFTWARE.
// SOME SOFTWARE PROGRAMS FROM THIRD PARTIES ARE INCLUDED ON THIS SOFTWARE WITH
// LICENSE CONDITIONS WHICH ARE DESCRIBED ON THE 'THIRD_PARTY.TXT' FILE.
//
//
// SOURCE CODE CONTRIBUTION
// ------------------------
//
// Your contribution to SoftEther VPN Project is much appreciated.
// Please send patches to us through GitHub.
// Read the SoftEther VPN Patch Acceptance Policy in advance:
// http://www.softether.org/5-download/src/9.patch
//
//
// DEAR SECURITY EXPERTS
// ---------------------
//
// If you find a bug or a security vulnerability please kindly inform us
// about the problem immediately so that we can fix the security problem
// to protect a lot of users around the world as soon as possible.
//
// Our e-mail address for security reports is:
// softether-vpn-security [at] softether.org
//
// Please note that the above e-mail address is not a technical support
// inquiry address. If you need technical assistance, please visit
// http://www.softether.org/ and ask your question on the users forum.
//
// Thank you for your cooperation.
//
//
// NO MEMORY OR RESOURCE LEAKS
// ---------------------------
//
// The memory-leaks and resource-leaks verification under the stress
// test has been passed before release this source code.
// Interop_SSTP.c
// SSTP (Microsoft Secure Socket Tunneling Protocol) protocol stack
#include "CedarPch.h"
static bool g_no_sstp = false;
// Get the SSTP disabling flag
bool GetNoSstp()
{
return g_no_sstp;
}
// Set the SSTP disabling flag
void SetNoSstp(bool b)
{
g_no_sstp = b;
}
// Process the SSTP control packet reception
void SstpProcessControlPacket(SSTP_SERVER *s, SSTP_PACKET *p)
{
// Validate arguments
if (s == NULL || p == NULL || p->IsControl == false)
{
return;
}
Debug("SSTP Control Packet Recv: Msg = %u, Num = %u\n", p->MessageType, LIST_NUM(p->AttibuteList));
switch (p->MessageType)
{
case SSTP_MSG_CALL_CONNECT_REQUEST: // Receive a connection request from a client
if (s->Aborting == false && s->Disconnecting == false)
{
if (s->Status == SSTP_SERVER_STATUS_REQUEST_PENGING)
{
SSTP_ATTRIBUTE *protocol_id = SstpFindAttribute(p, SSTP_ATTRIB_ENCAPSULATED_PROTOCOL_ID);
if (protocol_id != NULL && protocol_id->DataSize == 2 &&
READ_USHORT(protocol_id->Data) == SSTP_ENCAPSULATED_PROTOCOL_PPP)
{
// Accept the connection request by the PPP protocol
SSTP_PACKET *ret;
// Generation of random numbers
Rand(s->SentNonce, SSTP_NONCE_SIZE);
ret = SstpNewControlPacketWithAnAttribute(SSTP_MSG_CALL_CONNECT_ACK,
SstpNewCryptoBindingRequestAttribute(CERT_HASH_PROTOCOL_SHA256, s->SentNonce));
SstpSendPacket(s, ret);
SstpFreePacket(ret);
s->Status = SSTP_SERVER_STATUS_CONNECTED_PENDING;
s->EstablishedCount++;
}
else
{
// Refuse to accept for a connection request other than the PPP protocol
SSTP_PACKET *ret = SstpNewControlPacketWithAnAttribute(SSTP_MSG_CALL_CONNECT_NAK,
SstpNewStatusInfoAttribute(SSTP_ATTRIB_ENCAPSULATED_PROTOCOL_ID, ATTRIB_STATUS_VALUE_NOT_SUPPORTED));
SstpSendPacket(s, ret);
SstpFreePacket(ret);
}
}
}
break;
case SSTP_MSG_CALL_CONNECTED: // Connection from the client complete
if (s->Aborting == false && s->Disconnecting == false)
{
if (s->Status == SSTP_SERVER_STATUS_CONNECTED_PENDING)
{
s->Status = SSTP_SERVER_STATUS_ESTABLISHED;
Debug("SSTP Connected.\n");
}
}
break;
case SSTP_MSG_CALL_DISCONNECT: // Receive a disconnect request from the client
case SSTP_MSG_CALL_DISCONNECT_ACK:
s->DisconnectRecved = true;
SstpDisconnect(s);
break;
case SSTP_MSG_CALL_ABORT: // Receive a disconnect request from the client
s->AbortReceived = true;
SstpAbort(s);
break;
}
}
// Process the SSTP received data packet
void SstpProcessDataPacket(SSTP_SERVER *s, SSTP_PACKET *p)
{
// Validate arguments
if (s == NULL || p == NULL || p->IsControl)
{
return;
}
//Debug("SSTP Data Packet Recv: Size = %u\n", p->DataSize);
if (s->PPPThread == NULL)
{
// Create a thread to initialize the new PPP module
s->PPPThread = NewPPPSession(s->Cedar, &s->ClientIp, s->ClientPort, &s->ServerIp, s->ServerPort,
s->TubeSend, s->TubeRecv, SSTP_IPC_POSTFIX, SSTP_IPC_CLIENT_NAME,
s->ClientHostName, s->ClientCipherName, 0);
}
// Pass the received data to the PPP module
TubeSendEx(s->TubeRecv, p->Data, p->DataSize, NULL, true);
s->FlushRecvTube = true;
}
// Process the SSTP received packet
void SstpProcessPacket(SSTP_SERVER *s, SSTP_PACKET *p)
{
// Validate arguments
if (s == NULL || p == NULL)
{
return;
}
s->LastRecvTick = s->Now;
if (p->IsControl)
{
// Control packet
SstpProcessControlPacket(s, p);
}
else
{
// Data packet
SstpProcessDataPacket(s, p);
}
}
// Send a SSTP packet
void SstpSendPacket(SSTP_SERVER *s, SSTP_PACKET *p)
{
BUF *b;
BLOCK *block;
// Validate arguments
if (s == NULL || p == NULL)
{
return;
}
if (p->IsControl)
{
Debug("SSTP Control Packet Send: Msg = %u, Num = %u\n", p->MessageType, LIST_NUM(p->AttibuteList));
}
else
{
//Debug("SSTP Data Packet Send: Size=%u\n", p->DataSize);
}
b = SstpBuildPacket(p);
if (b == NULL)
{
return;
}
block = NewBlock(b->Buf, b->Size, 0);
block->PriorityQoS = p->IsControl;
Free(b);
InsertQueue(s->SendQueue, block);
}
// Process the timer interrupt
void SstpProcessInterrupt(SSTP_SERVER *s)
{
// Validate arguments
if (s == NULL)
{
return;
}
s->Now = Tick64();
s->FlushRecvTube = false;
// Process the received packet
while (true)
{
BLOCK *b = GetNext(s->RecvQueue);
SSTP_PACKET *p;
if (b == NULL)
{
break;
}
p = SstpParsePacket(b->Buf, b->Size);
if (p == NULL)
{
// Disconnect the SSTP since a bad packet received
SstpAbort(s);
}
else
{
// Process the received packet
SstpProcessPacket(s, p);
SstpFreePacket(p);
}
FreeBlock(b);
}
if (s->FlushRecvTube)
{
TubeFlush(s->TubeRecv);
}
// Transmit a packet that the PPP module is trying to send via the SSTP
while (true)
{
TUBEDATA *d = TubeRecvAsync(s->TubeSend);
SSTP_PACKET *p;
if (d == NULL)
{
break;
}
p = SstpNewDataPacket(d->Data, d->DataSize);
SstpSendPacket(s, p);
SstpFreePacket(p);
FreeTubeData(d);
}
if (s->Status == SSTP_SERVER_STATUS_ESTABLISHED)
{
if (s->Disconnecting == false && s->Aborting == false)
{
// Periodic transmission of Echo Request
if (s->NextSendEchoRequestTick == 0 || s->NextSendEchoRequestTick <= s->Now)
{
UINT64 next_interval = (UINT64)(SSTP_ECHO_SEND_INTERVAL_MIN + Rand32() % (SSTP_ECHO_SEND_INTERVAL_MAX - SSTP_ECHO_SEND_INTERVAL_MIN));
SSTP_PACKET *p;
s->NextSendEchoRequestTick = s->Now + next_interval;
AddInterrupt(s->Interrupt, s->NextSendEchoRequestTick);
p = SstpNewControlPacket(SSTP_MSG_ECHO_REQUEST);
SstpSendPacket(s, p);
SstpFreePacket(p);
}
}
}
if ((s->LastRecvTick + (UINT64)SSTP_TIMEOUT) <= s->Now)
{
// Disconnect the SSTP because a timeout occurred
SstpAbort(s);
s->Disconnected = true;
}
if (IsTubeConnected(s->TubeRecv) == false || IsTubeConnected(s->TubeSend) == false)
{
// Disconnect the SSTP since the PPP module is disconnected
SstpDisconnect(s);
}
if (s->Disconnecting)
{
// Normal disconnection process
if (s->DisconnectSent == false)
{
// Send a Disconnect
SSTP_PACKET *ret = SstpNewControlPacket(s->DisconnectRecved ? SSTP_MSG_CALL_DISCONNECT_ACK : SSTP_MSG_CALL_DISCONNECT);
SstpSendPacket(s, ret);
SstpFreePacket(ret);
s->DisconnectSent = true;
}
}
if (s->Aborting)
{
// Abnormal disconnection processing
if (s->AbortSent == false)
{
// Send the Abort
SSTP_PACKET *ret = SstpNewControlPacket(SSTP_MSG_CALL_ABORT);
SstpSendPacket(s, ret);
SstpFreePacket(ret);
s->AbortSent = true;
}
}
if (s->DisconnectSent && s->DisconnectRecved)
{
// Disconnect after exchanging the Disconnect each other
s->Disconnected = true;
}
if (s->AbortSent && s->AbortReceived)
{
// Disconnect after exchanging the Abort each other
s->Disconnected = true;
}
}
// Create a new SSTP control packet with an Attribute
SSTP_PACKET *SstpNewControlPacketWithAnAttribute(USHORT message_type, SSTP_ATTRIBUTE *a)
{
SSTP_PACKET *p = SstpNewControlPacket(message_type);
if (a != NULL)
{
Add(p->AttibuteList, a);
}
return p;
}
// Create a new SSTP control packet
SSTP_PACKET *SstpNewControlPacket(USHORT message_type)
{
SSTP_PACKET *p = ZeroMalloc(sizeof(SSTP_PACKET));
p->IsControl = true;
p->MessageType = message_type;
p->Version = SSTP_VERSION_1;
p->AttibuteList = NewListFast(NULL);
return p;
}
// Create a new SSTP data packet
SSTP_PACKET *SstpNewDataPacket(UCHAR *data, UINT size)
{
SSTP_PACKET *p = ZeroMalloc(sizeof(SSTP_PACKET));
p->IsControl = false;
p->Data = Clone(data, size);
p->DataSize = size;
return p;
}
// Get the Attibute with the specified ID from SSTP packet
SSTP_ATTRIBUTE *SstpFindAttribute(SSTP_PACKET *p, UCHAR attribute_id)
{
UINT i;
// Validate arguments
if (p == NULL)
{
return NULL;
}
for (i = 0;i < LIST_NUM(p->AttibuteList);i++)
{
SSTP_ATTRIBUTE *a = LIST_DATA(p->AttibuteList, i);
if (a->AttributeId == attribute_id)
{
return a;
}
}
return NULL;
}
// Disconnect the SSTP normally
void SstpDisconnect(SSTP_SERVER *s)
{
// Validate arguments
if (s == NULL)
{
return;
}
s->Disconnecting = true;
}
// Disconnect the SSTP abnormally
void SstpAbort(SSTP_SERVER *s)
{
// Validate arguments
if (s == NULL)
{
return;
}
s->Aborting = true;
}
// Create a Crypto Binding Request Attribute
SSTP_ATTRIBUTE *SstpNewCryptoBindingRequestAttribute(UCHAR hash_protocol_bitmask, UCHAR *nonce_32bytes)
{
SSTP_ATTRIBUTE *a;
UCHAR uc;
BUF *b = NewBuf();
uc = 0;
WriteBuf(b, &uc, 1);
WriteBuf(b, &uc, 1);
WriteBuf(b, &uc, 1);
WriteBuf(b, &hash_protocol_bitmask, 1);
WriteBuf(b, nonce_32bytes, SSTP_NONCE_SIZE);
a = SstpNewAttribute(SSTP_ATTRIB_CRYPTO_BINDING_REQ, b->Buf, b->Size);
FreeBuf(b);
return a;
}
// Create a Status Info Attribute
SSTP_ATTRIBUTE *SstpNewStatusInfoAttribute(UCHAR attrib_id, UINT status)
{
SSTP_ATTRIBUTE *a;
UCHAR uc;
BUF *b = NewBuf();
uc = 0;
WriteBuf(b, &uc, 1);
WriteBuf(b, &uc, 1);
WriteBuf(b, &uc, 1);
WriteBuf(b, &attrib_id, 1);
WriteBufInt(b, status);
a = SstpNewAttribute(SSTP_ATTRIB_STATUS_INFO, b->Buf, b->Size);
FreeBuf(b);
return a;
}
// Create a New Attribute
SSTP_ATTRIBUTE *SstpNewAttribute(UCHAR attribute_id, UCHAR *data, UINT data_size)
{
SSTP_ATTRIBUTE *a = ZeroMalloc(sizeof(SSTP_ATTRIBUTE));
a->AttributeId = attribute_id;
a->Data = Clone(data, data_size);
a->DataSize = data_size;
return a;
}
// Build the Attribute
BUF *SstpBuildAttribute(SSTP_ATTRIBUTE *a)
{
UCHAR uc;
USHORT us;
BUF *b;
// Validate arguments
if (a == NULL)
{
return NULL;
}
b = NewBuf();
// Reserved
uc = 0;
WriteBuf(b, &uc, sizeof(UCHAR));
// Attribute ID
uc = a->AttributeId;
WriteBuf(b, &uc, sizeof(UCHAR));
// LengthPacket
a->TotalLength = a->DataSize + 4;
us = (USHORT)a->TotalLength;
us = Endian16(us);
WriteBuf(b, &us, sizeof(USHORT));
// Data
WriteBuf(b, a->Data, a->DataSize);
return b;
}
// Build the Attribute list
BUF *SstpBuildAttributeList(LIST *o, USHORT message_type)
{
UINT i;
BUF *b;
USHORT us;
// Validate arguments
if (o == NULL)
{
return NULL;
}
b = NewBuf();
us = Endian16(message_type);
WriteBuf(b, &us, sizeof(USHORT));
us = Endian16((USHORT)LIST_NUM(o));
WriteBuf(b, &us, sizeof(USHORT));
for (i = 0;i < LIST_NUM(o);i++)
{
SSTP_ATTRIBUTE *a = LIST_DATA(o, i);
BUF *ab = SstpBuildAttribute(a);
if (ab != NULL)
{
WriteBufBuf(b, ab);
FreeBuf(ab);
}
}
return b;
}
// Building the SSTP packet
BUF *SstpBuildPacket(SSTP_PACKET *p)
{
BUF *b;
UCHAR uc;
USHORT us;
// Validate arguments
if (p == NULL)
{
return NULL;
}
b = NewBuf();
if (p->IsControl)
{
BUF *ab;
if (p->Data != NULL)
{
Free(p->Data);
}
ab = SstpBuildAttributeList(p->AttibuteList, p->MessageType);
p->Data = ab->Buf;
p->DataSize = ab->Size;
Free(ab);
}
// Version
uc = SSTP_VERSION_1;
WriteBuf(b, &uc, sizeof(UCHAR));
// Flag
uc = p->IsControl ? 1 : 0;
WriteBuf(b, &uc, sizeof(UCHAR));
// Length Packet
us = Endian16(p->DataSize + 4);
WriteBuf(b, &us, sizeof(USHORT));
// Data
WriteBuf(b, p->Data, p->DataSize);
return b;
}
// Parse the SSTP packet
SSTP_PACKET *SstpParsePacket(UCHAR *data, UINT size)
{
SSTP_PACKET *p;
USHORT len;
// Validate arguments
if (data == NULL || size == 0)
{
return NULL;
}
if (size < 4)
{
return NULL;
}
p = ZeroMalloc(sizeof(SSTP_PACKET));
// Version
p->Version = *((UCHAR *)data);
data++;
size--;
if (p->Version != SSTP_VERSION_1)
{
// Invalid version
SstpFreePacket(p);
return NULL;
}
// Flag
if ((*((UCHAR *)data)) & 0x01)
{
p->IsControl = true;
}
data++;
size--;
// Length
len = READ_USHORT(data) & 0xFFF;
data += sizeof(USHORT);
size -= sizeof(USHORT);
if (len < 4)
{
// Invalid size
SstpFreePacket(p);
return NULL;
}
if (((UINT)(len - 4)) > size)
{
// Oversized
SstpFreePacket(p);
return NULL;
}
// Data
p->DataSize = len - 4;
p->Data = Clone(data, p->DataSize);
if (p->IsControl)
{
// Parse the Attribute list
p->AttibuteList = SstpParseAttributeList(p->Data, p->DataSize, p);
if (p->AttibuteList == NULL)
{
// Failure of parsing list
SstpFreePacket(p);
return NULL;
}
}
return p;
}
// Parse the Attribute list
LIST *SstpParseAttributeList(UCHAR *data, UINT size, SSTP_PACKET *p)
{
LIST *o;
USHORT us;
UINT num;
// Validate arguments
if (size == 0 || data == NULL || p == NULL)
{
return NULL;
}
if (size < 4)
{
return NULL;
}
// Message Type
us = READ_USHORT(data);
p->MessageType = us;
data += sizeof(USHORT);
size -= sizeof(USHORT);
// Num Attributes
num = READ_USHORT(data);
data += sizeof(USHORT);
size -= sizeof(USHORT);
// Attibutes List
o = NewListFast(NULL);
while (LIST_NUM(o) < num)
{
SSTP_ATTRIBUTE *a = SstpParseAttribute(data, size);
if (a == NULL)
{
SstpFreeAttributeList(o);
return NULL;
}
if (a->TotalLength > size)
{
SstpFreeAttribute(a);
SstpFreeAttributeList(o);
return NULL;
}
Add(o, a);
data += a->TotalLength;
size -= a->TotalLength;
}
return o;
}
// Parse the Attribute
SSTP_ATTRIBUTE *SstpParseAttribute(UCHAR *data, UINT size)
{
SSTP_ATTRIBUTE *a;
// Validate arguments
if (data == NULL || size == 0)
{
return NULL;
}
a = ZeroMalloc(sizeof(SSTP_ATTRIBUTE));
if (size < 4)
{
SstpFreeAttribute(a);
return NULL;
}
data++;
size--;
// Attribute ID
a->AttributeId = *((UCHAR *)data);
data++;
size--;
// Length
a->TotalLength = READ_USHORT(data) & 0xFFF;
data += sizeof(USHORT);
size -= sizeof(USHORT);
if (a->TotalLength < 4)
{
// Length fraud
SstpFreeAttribute(a);
return NULL;
}
a->DataSize = a->TotalLength - 4;
if (a->DataSize > size)
{
// Length excess
SstpFreeAttribute(a);
return NULL;
}
a->Data = Clone(data, a->DataSize);
return a;
}
// Release the Attibute
void SstpFreeAttribute(SSTP_ATTRIBUTE *a)
{
// Validate arguments
if (a == NULL)
{
return;
}
Free(a->Data);
Free(a);
}
// Release the Attribute list
void SstpFreeAttributeList(LIST *o)
{
UINT i;
// Validate arguments
if (o == NULL)
{
return;
}
for (i = 0;i < LIST_NUM(o);i++)
{
SSTP_ATTRIBUTE *a = LIST_DATA(o, i);
SstpFreeAttribute(a);
}
ReleaseList(o);
}
// Release the SSTP packet
void SstpFreePacket(SSTP_PACKET *p)
{
// Validate arguments
if (p == NULL)
{
return;
}
if (p->AttibuteList != NULL)
{
SstpFreeAttributeList(p->AttibuteList);
}
if (p->Data != NULL)
{
Free(p->Data);
}
Free(p);
}
// Create a SSTP server
SSTP_SERVER *NewSstpServer(CEDAR *cedar, IP *client_ip, UINT client_port, IP *server_ip,
UINT server_port, SOCK_EVENT *se,
char *client_host_name, char *crypt_name)
{
SSTP_SERVER *s = ZeroMalloc(sizeof(SSTP_SERVER));
s->LastRecvTick = Tick64();
StrCpy(s->ClientHostName, sizeof(s->ClientHostName), client_host_name);
StrCpy(s->ClientCipherName, sizeof(s->ClientCipherName), crypt_name);
s->Cedar = cedar;
AddRef(s->Cedar->ref);
NewTubePair(&s->TubeSend, &s->TubeRecv, 0);
SetTubeSockEvent(s->TubeSend, se);
s->Now = Tick64();
Copy(&s->ClientIp, client_ip, sizeof(IP));
s->ClientPort = client_port;
Copy(&s->ServerIp, server_ip, sizeof(IP));
s->ServerPort = server_port;
s->SockEvent = se;
AddRef(s->SockEvent->ref);
s->RecvQueue = NewQueueFast();
s->SendQueue = NewQueueFast();
s->Interrupt = NewInterruptManager();
return s;
}
// Release the SSTP server
void FreeSstpServer(SSTP_SERVER *s)
{
// Validate arguments
if (s == NULL)
{
return;
}
TubeDisconnect(s->TubeRecv);
TubeDisconnect(s->TubeSend);
WaitThread(s->PPPThread, INFINITE);
ReleaseThread(s->PPPThread);
while (true)
{
BLOCK *b = GetNext(s->RecvQueue);
if (b == NULL)
{
break;
}
FreeBlock(b);
}
while (true)
{
BLOCK *b = GetNext(s->SendQueue);
if (b == NULL)
{
break;
}
FreeBlock(b);
}
ReleaseQueue(s->RecvQueue);
ReleaseQueue(s->SendQueue);
ReleaseSockEvent(s->SockEvent);
FreeInterruptManager(s->Interrupt);
ReleaseCedar(s->Cedar);
ReleaseTube(s->TubeSend);
ReleaseTube(s->TubeRecv);
Free(s);
}
// Handle the communication of SSTP protocol
bool ProcessSstpHttps(CEDAR *cedar, SOCK *s, SOCK_EVENT *se)
{
UINT tmp_size = 65536;
UCHAR *tmp_buf;
FIFO *recv_fifo;
FIFO *send_fifo;
SSTP_SERVER *sstp;
bool ret = false;
// Validate arguments
if (cedar == NULL || s == NULL || se == NULL)
{
return false;
}
tmp_buf = Malloc(tmp_size);
recv_fifo = NewFifo();
send_fifo = NewFifo();
sstp = NewSstpServer(cedar, &s->RemoteIP, s->RemotePort, &s->LocalIP, s->LocalPort, se,
s->RemoteHostname, s->CipherName);
while (true)
{
UINT r;
bool is_disconnected = false;
bool state_changed = false;
// Receive data over SSL
while (true)
{
r = Recv(s, tmp_buf, tmp_size, true);
if (r == 0)
{
// SSL is disconnected
is_disconnected = true;
break;
}
else if (r == SOCK_LATER)
{
// Data is not received any more
break;
}
else
{
// Queue the received data
WriteFifo(recv_fifo, tmp_buf, r);
state_changed = true;
}
}
while (recv_fifo->size >= 4)
{
UCHAR *first4;
UINT read_size = 0;
bool ok = false;
// Read 4 bytes from the beginning of the receive queue
first4 = ((UCHAR *)recv_fifo->p) + recv_fifo->pos;
if (first4[0] == SSTP_VERSION_1)
{
USHORT len = READ_USHORT(first4 + 2) & 0xFFF;
if (len >= 4)
{
ok = true;
if (recv_fifo->size >= len)
{
UCHAR *data;
BLOCK *b;
read_size = len;
data = Malloc(read_size);
ReadFifo(recv_fifo, data, read_size);
b = NewBlock(data, read_size, 0);
InsertQueue(sstp->RecvQueue, b);
}
}
}
if (read_size == 0)
{
break;
}
if (ok == false)
{
// Disconnect the connection since a bad packet received
is_disconnected = true;
break;
}
}
// Process the timer interrupt
SstpProcessInterrupt(sstp);
if (sstp->Disconnected)
{
is_disconnected = true;
}
// Put the transmission data that SSTP module has generated into the transmission queue
while (true)
{
BLOCK *b = GetNext(sstp->SendQueue);
if (b == NULL)
{
break;
}
// When transmit a data packet, If there are packets of more than about
// 2.5 MB in the transmission queue of the TCP, discard without transmission
if (b->PriorityQoS || (send_fifo->size <= MAX_BUFFERING_PACKET_SIZE))
{
WriteFifo(send_fifo, b->Buf, b->Size);
}
FreeBlock(b);
}
// Data is transmitted over SSL
while (send_fifo->size != 0)
{
r = Send(s, ((UCHAR *)send_fifo->p) + send_fifo->pos, send_fifo->size, true);
if (r == 0)
{
// SSL is disconnected
is_disconnected = true;
break;
}
else if (r == SOCK_LATER)
{
// Can not send any more
break;
}
else
{
// Advance the transmission queue by the amount of the transmitted
ReadFifo(send_fifo, NULL, r);
state_changed = true;
}
}
if (is_disconnected)
{
// Disconnected
break;
}
// Wait for the next state change
if (state_changed == false)
{
UINT select_time = SELECT_TIME;
UINT r = GetNextIntervalForInterrupt(sstp->Interrupt);
WaitSockEvent(se, MIN(r, select_time));
}
}
if (sstp != NULL && sstp->EstablishedCount >= 1)
{
ret = true;
}
FreeSstpServer(sstp);
ReleaseFifo(recv_fifo);
ReleaseFifo(send_fifo);
Free(tmp_buf);
YieldCpu();
Disconnect(s);
return ret;
}
// Accept the SSTP connection
bool AcceptSstp(CONNECTION *c)
{
SOCK *s;
HTTP_HEADER *h;
char date_str[MAX_SIZE];
bool ret;
bool ret2 = false;
SOCK_EVENT *se;
// Validate arguments
if (c == NULL)
{
return false;
}
s = c->FirstSock;
GetHttpDateStr(date_str, sizeof(date_str), SystemTime64());
// Return a response
h = NewHttpHeader("HTTP/1.1", "200", "OK");
AddHttpValue(h, NewHttpValue("Content-Length", "18446744073709551615"));
AddHttpValue(h, NewHttpValue("Server", "Microsoft-HTTPAPI/2.0"));
AddHttpValue(h, NewHttpValue("Date", date_str));
ret = PostHttp(s, h, NULL, 0);
FreeHttpHeader(h);
if (ret)
{
SetTimeout(s, INFINITE);
se = NewSockEvent();
JoinSockToSockEvent(s, se);
Debug("ProcessSstpHttps Start.\n");
ret2 = ProcessSstpHttps(c->Cedar, s, se);
Debug("ProcessSstpHttps End.\n");
ReleaseSockEvent(se);
}
Disconnect(s);
return ret2;
}
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