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mirror of https://github.com/SoftEtherVPN/SoftEtherVPN.git synced 2024-11-22 17:39:53 +03:00

Adding timeout propagation from user policy in PPP sessions (including L2TP and SSTP).

This commit is contained in:
Evengard 2020-04-27 21:43:40 +03:00
parent 039cd8edf0
commit 1bdd9a92bc
6 changed files with 79 additions and 14 deletions

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@ -1995,6 +1995,7 @@ UINT CalcL2TPMss(L2TP_SERVER *l2tp, L2TP_TUNNEL *t, L2TP_SESSION *s)
// Start the L2TP thread // Start the L2TP thread
void StartL2TPThread(L2TP_SERVER *l2tp, L2TP_TUNNEL *t, L2TP_SESSION *s) void StartL2TPThread(L2TP_SERVER *l2tp, L2TP_TUNNEL *t, L2TP_SESSION *s)
{ {
PPP_SESSION* underlyingSession;
// Validate arguments // Validate arguments
if (l2tp == NULL || t == NULL || s == NULL) if (l2tp == NULL || t == NULL || s == NULL)
{ {
@ -2023,9 +2024,11 @@ void StartL2TPThread(L2TP_SERVER *l2tp, L2TP_TUNNEL *t, L2TP_SESSION *s)
} }
// Create a PPP thread // Create a PPP thread
s->Thread = NewPPPSession(l2tp->Cedar, &t->ClientIp, t->ClientPort, &t->ServerIp, t->ServerPort, underlyingSession = NewPPPSession(l2tp->Cedar, &t->ClientIp, t->ClientPort, &t->ServerIp, t->ServerPort,
s->TubeSend, s->TubeRecv, L2TP_IPC_POSTFIX, tmp, t->HostName, l2tp->CryptName, s->TubeSend, s->TubeRecv, L2TP_IPC_POSTFIX, tmp, t->HostName, l2tp->CryptName,
CalcL2TPMss(l2tp, t, s)); CalcL2TPMss(l2tp, t, s));
s->Thread = underlyingSession->SessionThread;
s->PPPSession = underlyingSession;
} }
} }
@ -2122,8 +2125,21 @@ void L2TPProcessInterrupts(L2TP_SERVER *l2tp)
{ {
L2TP_TUNNEL *t = LIST_DATA(l2tp->TunnelList, i); L2TP_TUNNEL *t = LIST_DATA(l2tp->TunnelList, i);
LIST *delete_session_list = NULL; LIST *delete_session_list = NULL;
UINT64 l2tpTimeout = L2TP_TUNNEL_TIMEOUT;
if ((l2tp->Now >= (t->LastRecvTick + (UINT64)L2TP_TUNNEL_TIMEOUT)) && t->Timedout == false) // If we got on ANY session a higher timeout than the default L2TP tunnel timeout, increase it
for (i = 0; i < LIST_NUM(t->SessionList); i++)
{
L2TP_SESSION* s = LIST_DATA(t->SessionList, i);
if (s->PPPSession != NULL && s->PPPSession->DataTimeout > l2tpTimeout)
{
l2tpTimeout = s->PPPSession->DataTimeout;
}
}
if ((l2tp->Now >= (t->LastRecvTick + (UINT64)l2tpTimeout)) && t->Timedout == false)
{ {
// Disconnect the tunnel forcibly if data can not be received for a certain period of time // Disconnect the tunnel forcibly if data can not be received for a certain period of time
t->Timedout = true; t->Timedout = true;

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@ -169,6 +169,7 @@ struct L2TP_SESSION
UINT64 DisconnectTimeout; // Disconnection completion time-out UINT64 DisconnectTimeout; // Disconnection completion time-out
bool HasThread; // Whether have a thread bool HasThread; // Whether have a thread
THREAD *Thread; // Thread THREAD *Thread; // Thread
PPP_SESSION* PPPSession; // Underlying PPP session
TUBE *TubeSend; // Tube of PPP to L2TP direction TUBE *TubeSend; // Tube of PPP to L2TP direction
TUBE *TubeRecv; // Tube of L2TP to PPP direction TUBE *TubeRecv; // Tube of L2TP to PPP direction
UINT PseudowireType; // Type of L2TPv3 virtual line UINT PseudowireType; // Type of L2TPv3 virtual line

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@ -386,13 +386,22 @@ void PPPThread(THREAD *thread, void *param)
} }
// Time-out inspection // Time-out inspection
if ((p->LastRecvTime + (UINT64)PPP_DATA_TIMEOUT) <= now) if ((p->LastRecvTime + (UINT64)p->DataTimeout) <= now)
{ {
// Communication time-out occurs // Communication time-out occurs
PPPLog(p, "LP_DATA_TIMEOUT"); PPPLog(p, "LP_DATA_TIMEOUT");
break; break;
} }
// Maximum PPP session time of the user reached inspection
if (p->UserConnectionTick != 0 && p->UserConnectionTimeout != 0 &&
p->UserConnectionTick + p->UserConnectionTimeout <= now)
{
// User connection time-out occurs
PPPLog(p, "LP_USER_TIMEOUT");
break;
}
// Terminate if the PPP disconnected // Terminate if the PPP disconnected
if (p->IsTerminateReceived) if (p->IsTerminateReceived)
{ {
@ -444,7 +453,7 @@ void PPPThread(THREAD *thread, void *param)
// Entry point // Entry point
// Create a new PPP session // Create a new PPP session
THREAD *NewPPPSession(CEDAR *cedar, IP *client_ip, UINT client_port, IP *server_ip, UINT server_port, TUBE *send_tube, TUBE *recv_tube, char *postfix, char *client_software_name, char *client_hostname, char *crypt_name, UINT adjust_mss) PPP_SESSION *NewPPPSession(CEDAR *cedar, IP *client_ip, UINT client_port, IP *server_ip, UINT server_port, TUBE *send_tube, TUBE *recv_tube, char *postfix, char *client_software_name, char *client_hostname, char *crypt_name, UINT adjust_mss)
{ {
PPP_SESSION *p; PPP_SESSION *p;
THREAD *t; THREAD *t;
@ -474,6 +483,10 @@ THREAD *NewPPPSession(CEDAR *cedar, IP *client_ip, UINT client_port, IP *server_
p->MsChapV2_ErrorCode = 691; p->MsChapV2_ErrorCode = 691;
p->EapClient = NULL; p->EapClient = NULL;
p->DataTimeout = PPP_DATA_TIMEOUT;
p->PacketRecvTimeout = PPP_PACKET_RECV_TIMEOUT;
p->UserConnectionTimeout = 0;
p->Cedar = cedar; p->Cedar = cedar;
AddRef(cedar->ref); AddRef(cedar->ref);
@ -510,7 +523,9 @@ THREAD *NewPPPSession(CEDAR *cedar, IP *client_ip, UINT client_port, IP *server_
// Thread creation // Thread creation
t = NewThread(PPPThread, p); t = NewThread(PPPThread, p);
return t; p->SessionThread = t;
return p;
} }
// PPP processing functions // PPP processing functions
@ -1292,6 +1307,13 @@ bool PPPProcessPAPRequestPacket(PPP_SESSION *p, PPP_PACKET* pp)
if (ipc != NULL) if (ipc != NULL)
{ {
p->Ipc = ipc; p->Ipc = ipc;
// Setting user timeouts
p->PacketRecvTimeout = (UINT64)p->Ipc->Policy->TimeOut * 1000 * 3 / 4; // setting to 3/4 of the user timeout
p->DataTimeout = (UINT64)p->Ipc->Policy->TimeOut * 1000;
p->UserConnectionTimeout = (UINT64)p->Ipc->Policy->AutoDisconnect * 1000;
p->UserConnectionTick = Tick64();
p->AuthOk = true; p->AuthOk = true;
} }
else else
@ -1889,7 +1911,7 @@ bool PPPSendAndRetransmitRequest(PPP_SESSION *p, USHORT protocol, PPP_LCP *c)
resend->Id = pp->Lcp->Id; resend->Id = pp->Lcp->Id;
resend->Packet = pp; resend->Packet = pp;
resend->ResendTime = now + PPP_PACKET_RESEND_INTERVAL; resend->ResendTime = now + PPP_PACKET_RESEND_INTERVAL;
resend->TimeoutTime = now + PPP_PACKET_RECV_TIMEOUT; resend->TimeoutTime = now + p->PacketRecvTimeout;
Add(p->SentReqPacketList, resend); Add(p->SentReqPacketList, resend);
@ -1946,7 +1968,7 @@ LABEL_LOOP:
if (async == false) if (async == false)
{ {
d = TubeRecvSync(p->TubeRecv, PPP_PACKET_RECV_TIMEOUT); d = TubeRecvSync(p->TubeRecv, p->PacketRecvTimeout);
} }
else else
{ {
@ -2499,9 +2521,17 @@ bool PPPParseMSCHAP2ResponsePacket(PPP_SESSION* p, PPP_PACKET* pp)
{ {
p->Ipc = ipc; p->Ipc = ipc;
// Setting user timeouts
p->PacketRecvTimeout = (UINT64)p->Ipc->Policy->TimeOut * 1000 * 3 / 4; // setting to 3/4 of the user timeout
p->DataTimeout = (UINT64)p->Ipc->Policy->TimeOut * 1000;
p->UserConnectionTimeout = (UINT64)p->Ipc->Policy->AutoDisconnect * 1000;
p->UserConnectionTick = Tick64();
Copy(p->MsChapV2_ServerResponse, ipc->MsChapV2_ServerResponse, 20); Copy(p->MsChapV2_ServerResponse, ipc->MsChapV2_ServerResponse, 20);
ok = true; ok = true;
p->AuthOk = true;
} }
} }
else else

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@ -32,11 +32,11 @@
//// Constants //// Constants
// Time-out value // Time-out value
#define PPP_PACKET_RECV_TIMEOUT (30 * 1000) // Timeout until the next packet is received #define PPP_PACKET_RECV_TIMEOUT (15 * 1000) // Timeout until the next packet is received (3/4 of default policy)
#define PPP_PACKET_RESEND_INTERVAL (5 * 1000) // Retransmission interval of the last packet #define PPP_PACKET_RESEND_INTERVAL (3 * 1000) // Retransmission interval of the last packet
#define PPP_TERMINATE_TIMEOUT 2000 // Timeout value to complete disconnection after requesting to disconnect in the PPP #define PPP_TERMINATE_TIMEOUT 2000 // Timeout value to complete disconnection after requesting to disconnect in the PPP
#define PPP_ECHO_SEND_INTERVAL 4792 // Transmission interval of PPP Echo Request #define PPP_ECHO_SEND_INTERVAL 4792 // Transmission interval of PPP Echo Request
#define PPP_DATA_TIMEOUT (60 * 1000) // Communication time-out #define PPP_DATA_TIMEOUT (20 * 1000) // Communication time-out (from default policy)
// MRU // MRU
#define PPP_MRU_DEFAULT 1500 // Default value #define PPP_MRU_DEFAULT 1500 // Default value
@ -238,6 +238,13 @@ struct PPP_SESSION
PPP_PACKET *CurrentPacket; PPP_PACKET *CurrentPacket;
LIST *DelayedPackets; LIST *DelayedPackets;
UINT64 PacketRecvTimeout;
UINT64 DataTimeout;
UINT64 UserConnectionTimeout;
UINT64 UserConnectionTick;
THREAD* SessionThread; // Thread of the PPP session
}; };
@ -248,7 +255,7 @@ struct PPP_SESSION
void PPPThread(THREAD *thread, void *param); void PPPThread(THREAD *thread, void *param);
// Entry point // Entry point
THREAD *NewPPPSession(CEDAR *cedar, IP *client_ip, UINT client_port, IP *server_ip, UINT server_port, TUBE *send_tube, TUBE *recv_tube, char *postfix, char *client_software_name, char *client_hostname, char *crypt_name, UINT adjust_mss); PPP_SESSION *NewPPPSession(CEDAR *cedar, IP *client_ip, UINT client_port, IP *server_ip, UINT server_port, TUBE *send_tube, TUBE *recv_tube, char *postfix, char *client_software_name, char *client_hostname, char *crypt_name, UINT adjust_mss);
// PPP processing functions // PPP processing functions
bool PPPRejectUnsupportedPacket(PPP_SESSION *p, PPP_PACKET *pp); bool PPPRejectUnsupportedPacket(PPP_SESSION *p, PPP_PACKET *pp);

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@ -97,6 +97,8 @@ void SstpProcessControlPacket(SSTP_SERVER *s, SSTP_PACKET *p)
// Process the SSTP received data packet // Process the SSTP received data packet
void SstpProcessDataPacket(SSTP_SERVER *s, SSTP_PACKET *p) void SstpProcessDataPacket(SSTP_SERVER *s, SSTP_PACKET *p)
{ {
PPP_SESSION* underlyingSession;
// Validate arguments // Validate arguments
if (s == NULL || p == NULL || p->IsControl) if (s == NULL || p == NULL || p->IsControl)
{ {
@ -108,9 +110,11 @@ void SstpProcessDataPacket(SSTP_SERVER *s, SSTP_PACKET *p)
if (s->PPPThread == NULL) if (s->PPPThread == NULL)
{ {
// Create a thread to initialize the new PPP module // Create a thread to initialize the new PPP module
s->PPPThread = NewPPPSession(s->Cedar, &s->ClientIp, s->ClientPort, &s->ServerIp, s->ServerPort, underlyingSession = NewPPPSession(s->Cedar, &s->ClientIp, s->ClientPort, &s->ServerIp, s->ServerPort,
s->TubeSend, s->TubeRecv, SSTP_IPC_POSTFIX, SSTP_IPC_CLIENT_NAME, s->TubeSend, s->TubeRecv, SSTP_IPC_POSTFIX, SSTP_IPC_CLIENT_NAME,
s->ClientHostName, s->ClientCipherName, 0); s->ClientHostName, s->ClientCipherName, 0);
s->PPPSession = underlyingSession;
s->PPPThread = underlyingSession->SessionThread;
} }
// Pass the received data to the PPP module // Pass the received data to the PPP module
@ -177,6 +181,7 @@ void SstpSendPacket(SSTP_SERVER *s, SSTP_PACKET *p)
// Process the timer interrupt // Process the timer interrupt
void SstpProcessInterrupt(SSTP_SERVER *s) void SstpProcessInterrupt(SSTP_SERVER *s)
{ {
UINT64 sstpTimeout = SSTP_TIMEOUT;
// Validate arguments // Validate arguments
if (s == NULL) if (s == NULL)
{ {
@ -261,7 +266,12 @@ void SstpProcessInterrupt(SSTP_SERVER *s)
} }
} }
if ((s->LastRecvTick + (UINT64)SSTP_TIMEOUT) <= s->Now) if (s->PPPSession != NULL && s->PPPSession->DataTimeout > sstpTimeout)
{
sstpTimeout = s->PPPSession->DataTimeout;
}
if ((s->LastRecvTick + sstpTimeout) <= s->Now)
{ {
// Disconnect the SSTP because a timeout occurred // Disconnect the SSTP because a timeout occurred
SstpAbort(s); SstpAbort(s);

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@ -16,7 +16,7 @@
#define SSTP_IPC_POSTFIX "SSTP" #define SSTP_IPC_POSTFIX "SSTP"
#define SSTP_ECHO_SEND_INTERVAL_MIN 2500 // Transmission interval of Echo Request (minimum) #define SSTP_ECHO_SEND_INTERVAL_MIN 2500 // Transmission interval of Echo Request (minimum)
#define SSTP_ECHO_SEND_INTERVAL_MAX 4792 // Transmission interval of Echo Request (maximum) #define SSTP_ECHO_SEND_INTERVAL_MAX 4792 // Transmission interval of Echo Request (maximum)
#define SSTP_TIMEOUT 10000 // Communication time-out of SSTP #define SSTP_TIMEOUT 20 * 1000 // Communication time-out of SSTP (from default policy)
// SSTP Message Type // SSTP Message Type
#define SSTP_MSG_CALL_CONNECT_REQUEST 0x0001 #define SSTP_MSG_CALL_CONNECT_REQUEST 0x0001
@ -116,6 +116,7 @@ struct SSTP_SERVER
UINT64 LastRecvTick; // Tick when some data has received at the end UINT64 LastRecvTick; // Tick when some data has received at the end
bool FlushRecvTube; // Flag whether to flush the reception tube bool FlushRecvTube; // Flag whether to flush the reception tube
UINT EstablishedCount; // Number of session establishment UINT EstablishedCount; // Number of session establishment
PPP_SESSION* PPPSession; // Underlying PPP Session
}; };