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mirror of https://github.com/SoftEtherVPN/SoftEtherVPN.git synced 2024-11-23 01:49:53 +03:00

Merge PR #957: Add interface for easy protocol implementation

This commit is contained in:
Davide Beatrici 2019-07-29 03:33:48 +02:00 committed by GitHub
commit 7dff0dce17
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
12 changed files with 638 additions and 391 deletions

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@ -1606,6 +1606,9 @@ void InitCedar()
// Initialize protocol module
InitProtocol();
// Initialize third-party protocol interface
ProtoInit();
}
// Free Cedar communication module
@ -1616,6 +1619,9 @@ void FreeCedar()
return;
}
// Free third-party protocol interface
ProtoFree();
// Free protocol module
FreeProtocol();
}

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@ -305,8 +305,7 @@
#define CONNECTION_TYPE_ADMIN_RPC 5 // RPC for Management
#define CONNECTION_TYPE_ENUM_HUB 6 // HUB enumeration
#define CONNECTION_TYPE_PASSWORD 7 // Password change
#define CONNECTION_TYPE_SSTP 8 // SSTP
#define CONNECTION_TYPE_OPENVPN 9 // OpenVPN
#define CONNECTION_TYPE_OTHER 0xffffffff // E.g. Third-party protocol
// Protocol
#define CONNECTION_TCP 0 // TCP protocol
@ -1031,6 +1030,7 @@ typedef struct CEDAR
// Layer-2/Layer-3 converter
#include <Cedar/IPC.h>
// Third party protocols
#include <Cedar/Proto.h>
#include <Cedar/Proto_IPsec.h>
#include <Cedar/Proto_EtherIP.h>
#include <Cedar/Proto_IkePacket.h>

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@ -650,6 +650,10 @@
RelativePath=".\NullLan.c"
>
</File>
<File
RelativePath=".\Proto.c"
>
</File>
<File
RelativePath=".\Proto_EtherIP.c"
>
@ -1280,6 +1284,10 @@
RelativePath=".\NullLan.h"
>
</File>
<File
RelativePath=".\Proto.h"
>
</File>
<File
RelativePath=".\Proto_EtherIP.h"
>

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@ -2901,21 +2901,8 @@ void ConnectionAccept(CONNECTION *c)
X *x;
K *k;
char tmp[128];
UCHAR openssl_check_buf[2];
char *error_details = NULL;
SERVER *server;
UCHAR *peek_buf = NULL;
UINT peek_buf_size = 1500;
char sni[256] = {0};
bool native1 = false;
bool native2 = false;
bool native3 = false;
bool no_native = false;
UINT peek_size = 0;
UINT initial_timeout = CONNECTING_TIMEOUT;
bool no_peek_log = false;
UCHAR ctoken_hash[SHA1_SIZE];
bool no_write_ctoken_log = false;
// Validate arguments
if (c == NULL)
@ -2925,13 +2912,7 @@ void ConnectionAccept(CONNECTION *c)
Zero(ctoken_hash, sizeof(ctoken_hash));
peek_buf = ZeroMalloc(peek_buf_size);
Debug("ConnectionAccept()\n");
server = c->Cedar->Server;
// get a socket
// Get a socket
s = c->FirstSock;
AddRef(s->ref);
@ -2945,37 +2926,18 @@ void ConnectionAccept(CONNECTION *c)
initial_timeout += GetMachineRand() % (CONNECTING_TIMEOUT / 2);
SetTimeout(s, initial_timeout);
// Peek whether OpenSSL packet
if (s->IsReverseAcceptedSocket == false)
// Handle third-party protocols
if (s->IsReverseAcceptedSocket == false && s->Type == SOCK_TCP)
{
if (s->Type == SOCK_TCP && (c->Cedar != NULL && c->Cedar->Server != NULL && c->Cedar->Server->DisableOpenVPNServer == false))
if (c->Cedar != NULL && c->Cedar->Server != NULL)
{
if (Peek(s, openssl_check_buf, sizeof(openssl_check_buf)) == sizeof(openssl_check_buf))
c->Type = CONNECTION_TYPE_OTHER;
if (ProtoHandleConnection(c->Cedar, s) == true)
{
if (OvsCheckTcpRecvBufIfOpenVPNProtocol(openssl_check_buf, sizeof(openssl_check_buf)))
{
// Detect OpenSSL packet
Debug("Detect OpenSSL on TCP!\n");
no_native = true;
if (OvsGetNoOpenVpnTcp() == false)
{
// Do OpenSSL processing
c->Type = CONNECTION_TYPE_OPENVPN;
if (OvsPerformTcpServer(c->Cedar, s) == false)
{
error_details = "OpenVPN_TCP_Aborted";
}
}
goto ERROR;
}
goto FINAL;
}
}
}
// Specify the encryption algorithm
@ -2992,22 +2954,18 @@ void ConnectionAccept(CONNECTION *c)
Unlock(c->Cedar->lock);
// Start the SSL communication
Debug("StartSSL()\n");
Copy(&s->SslAcceptSettings, &c->Cedar->SslAcceptSettings, sizeof(SSL_ACCEPT_SETTINGS));
if (StartSSL(s, x, k) == false)
{
// Failed
AddNoSsl(c->Cedar, &s->RemoteIP);
Debug("Failed to StartSSL.\n");
Debug("ConnectionAccept(): StartSSL() failed\n");
FreeX(x);
FreeK(k);
error_details = "StartSSL";
goto ERROR;
goto FINAL;
}
FreeX(x);
FreeK(k);
@ -3019,29 +2977,18 @@ void ConnectionAccept(CONNECTION *c)
if (ServerAccept(c) == false)
{
// Failed
Debug("ServerAccept Failed. Err = %u\n", c->Err);
goto ERROR;
Debug("ConnectionAccept(): ServerAccept() failed with error %u\n", c->Err);
}
FINAL:
if (c->flag1 == false)
{
Debug("%s %u c->flag1 == false\n", __FILE__, __LINE__);
Disconnect(s);
}
DelConnection(c->Cedar, c);
ReleaseSock(s);
Free(peek_buf);
return;
ERROR:
Debug("ConnectionAccept() Error.\n");
Disconnect(s);
DelConnection(c->Cedar, c);
ReleaseSock(s);
Free(peek_buf);
}
// Stop the threads putting additional connection of all that are currently running

271
src/Cedar/Proto.c Normal file
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@ -0,0 +1,271 @@
#include "CedarPch.h"
#include "Proto_OpenVPN.h"
static LIST *protocols = NULL;
int ProtoCompare(void *p1, void *p2)
{
PROTO *proto_1, *proto_2;
if (p1 == NULL || p2 == NULL)
{
return 0;
}
proto_1 = (PROTO *)p1;
proto_2 = (PROTO *)p2;
if (StrCmp(proto_1->impl->Name(), proto_2->impl->Name()) == 0)
{
return true;
}
return false;
}
void ProtoInit()
{
if (protocols != NULL)
{
ProtoFree();
}
protocols = NewList(ProtoCompare);
// OpenVPN
ProtoAdd(OvsGetProtoImpl());
}
void ProtoFree()
{
UINT i;
PROTO_IMPL *impl;
for (i = 0; i < ProtoNum(); ++i)
{
PROTO *proto = ProtoGet(i);
impl = proto->impl;
Free(proto);
}
ReleaseList(protocols);
protocols = NULL;
}
bool ProtoAdd(PROTO_IMPL *impl)
{
PROTO *proto;
if (protocols == NULL || impl == NULL)
{
return false;
}
proto = Malloc(sizeof(PROTO));
proto->impl = impl;
Add(protocols, proto);
Debug("ProtoAdd(): added %s\n", proto->impl->Name());
return true;
}
UINT ProtoNum()
{
return LIST_NUM(protocols);
}
PROTO *ProtoGet(const UINT index)
{
return LIST_DATA(protocols, index);
}
PROTO *ProtoDetect(SOCK *sock)
{
UCHAR buf[PROTO_CHECK_BUFFER_SIZE];
UINT i;
if (sock == NULL)
{
return NULL;
}
if (Peek(sock, buf, sizeof(buf)) == 0)
{
return false;
}
for (i = 0; i < ProtoNum(); ++i)
{
PROTO *p = ProtoGet(i);
if (p->impl->IsPacketForMe(buf, sizeof(buf)))
{
Debug("ProtoDetect(): %s detected\n", p->impl->Name());
return p;
}
}
return NULL;
}
bool ProtoHandleConnection(CEDAR *cedar, SOCK *sock)
{
void *impl_data;
const PROTO_IMPL *impl;
const PROTO *proto;
UCHAR *buf;
TCP_RAW_DATA *recv_raw_data;
FIFO *send_fifo;
INTERRUPT_MANAGER *im;
SOCK_EVENT *se;
const UINT64 giveup = Tick64() + (UINT64)OPENVPN_NEW_SESSION_DEADLINE_TIMEOUT;
if (cedar == NULL || sock == NULL)
{
return false;
}
proto = ProtoDetect(sock);
if (proto == NULL)
{
Debug("ProtoHandleConnection(): unrecognized protocol\n");
return false;
}
impl = proto->impl;
if (StrCmp(impl->Name(), "OpenVPN") == 0 && cedar->Server->DisableOpenVPNServer == true)
{
Debug("ProtoHandleConnection(): OpenVPN detected, but it's disabled\n");
return false;
}
if ((impl->SupportedModes() & PROTO_MODE_TCP) == false)
{
return false;
}
im = NewInterruptManager();
se = NewSockEvent();
if (impl->Init != NULL && impl->Init(&impl_data, cedar, im, se) == false)
{
Debug("ProtoHandleConnection(): failed to initialize %s\n", impl->Name());
FreeInterruptManager(im);
ReleaseSockEvent(se);
return false;
}
SetTimeout(sock, TIMEOUT_INFINITE);
JoinSockToSockEvent(sock, se);
recv_raw_data = NewTcpRawData(&sock->RemoteIP, sock->RemotePort, &sock->LocalIP, sock->LocalPort);
send_fifo = NewFifoFast();
buf = Malloc(PROTO_TCP_BUFFER_SIZE);
Debug("ProtoHandleConnection(): entering main loop\n");
// Receive data from the TCP socket
while (true)
{
UINT next_interval;
bool stop = false;
while (true)
{
const UINT ret = Recv(sock, buf, PROTO_TCP_BUFFER_SIZE, false);
if (ret == SOCK_LATER)
{
// No more data to read
break;
}
else if (ret == 0)
{
// Disconnected
stop = true;
break;
}
else
{
// Write the received data into the FIFO
WriteFifo(recv_raw_data->Data, buf, ret);
}
}
if (impl->ProcessData(impl_data, recv_raw_data, send_fifo) == false)
{
stop = true;
}
// Send data to the TCP socket
while (FifoSize(send_fifo) >= 1)
{
const UINT ret = Send(sock, FifoPtr(send_fifo), FifoSize(send_fifo), false);
if (ret == SOCK_LATER)
{
// Can not write anymore
break;
}
else if (ret == 0)
{
// Disconnected
stop = true;
break;
}
else
{
// Remove data that has been sent from the FIFO
ReadFifo(send_fifo, NULL, ret);
}
}
impl->BufferLimit(impl_data, FifoSize(send_fifo) > MAX_BUFFERING_PACKET_SIZE);
if (impl->IsOk(impl_data) == false)
{
if (impl->EstablishedSessions(impl_data) == 0)
{
if (Tick64() >= giveup)
{
Debug("ProtoHandleConnection(): I waited too much for the session to start, I give up!\n");
stop = true;
}
}
else
{
Debug("ProtoHandleConnection(): implementation not OK, stopping the server\n");
stop = true;
}
}
if (stop)
{
// Error or disconnection occurs
Debug("ProtoHandleConnection(): breaking main loop\n");
break;
}
// Wait until the next event occurs
next_interval = GetNextIntervalForInterrupt(im);
next_interval = MIN(next_interval, UDPLISTENER_WAIT_INTERVAL);
WaitSockEvent(se, next_interval);
}
impl->Free(impl_data);
FreeInterruptManager(im);
ReleaseSockEvent(se);
FreeTcpRawData(recv_raw_data);
ReleaseFifo(send_fifo);
Free(buf);
return true;
}

44
src/Cedar/Proto.h Normal file
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@ -0,0 +1,44 @@
#ifndef PROTO_H
#define PROTO_H
// OpenVPN sends 2 bytes, thus this is the buffer size.
// If another protocol requires more bytes to be detected, the buffer size must be increased.
#define PROTO_CHECK_BUFFER_SIZE 2
#define PROTO_TCP_BUFFER_SIZE (128 * 1024)
#define PROTO_MODE_TCP 1
#define PROTO_MODE_UDP 2
typedef struct PROTO_IMPL
{
bool (*Init)(void **param, CEDAR *cedar, INTERRUPT_MANAGER *im, SOCK_EVENT *se);
void (*Free)(void *param);
char *(*Name)();
UINT (*SupportedModes)();
bool (*IsPacketForMe)(const UCHAR *data, const UINT size);
bool (*ProcessData)(void *param, TCP_RAW_DATA *received_data, FIFO *data_to_send);
void (*BufferLimit)(void *param, const bool reached);
bool (*IsOk)(void *param);
UINT (*EstablishedSessions)(void *param);
} PROTO_IMPL;
typedef struct PROTO
{
PROTO_IMPL *impl;
} PROTO;
int ProtoCompare(void *p1, void *p2);
void ProtoInit();
void ProtoFree();
bool ProtoAdd(PROTO_IMPL *impl);
UINT ProtoNum();
PROTO *ProtoGet(const UINT index);
PROTO *ProtoDetect(SOCK *sock);
bool ProtoHandleConnection(CEDAR *cedar, SOCK *sock);
#endif

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@ -7,10 +7,6 @@
#include "CedarPch.h"
static bool g_no_openvpn_tcp = false;
static bool g_no_openvpn_udp = false;
// Ping signature of the OpenVPN protocol
static UCHAR ping_signature[] =
{
@ -18,18 +14,213 @@ static UCHAR ping_signature[] =
0x07, 0xed, 0x2d, 0x0a, 0x98, 0x1f, 0xc7, 0x48
};
// Get the OpenVPN over TCP disabling flag
bool OvsGetNoOpenVpnTcp()
PROTO_IMPL *OvsGetProtoImpl()
{
return g_no_openvpn_tcp;
static PROTO_IMPL impl =
{
OvsInit,
OvsFree,
OvsName,
OvsSupportedModes,
OvsIsPacketForMe,
OvsProcessData,
OvsBufferLimit,
OvsIsOk,
OvsEstablishedSessions
};
return &impl;
}
// Get the OpenVPN over UDP disabling flag
bool OvsGetNoOpenVpnUdp()
bool OvsInit(void **param, CEDAR *cedar, INTERRUPT_MANAGER *im, SOCK_EVENT *se)
{
return g_no_openvpn_udp;
if (param == NULL || cedar == NULL || im == NULL || se == NULL)
{
return false;
}
*param = NewOpenVpnServer(cedar, im, se);
return true;
}
void OvsFree(void *param)
{
FreeOpenVpnServer(param);
}
// Return the protocol name
char *OvsName()
{
return "OpenVPN";
}
// Return the supported modes (TCP & UDP)
UINT OvsSupportedModes()
{
return PROTO_MODE_TCP | PROTO_MODE_UDP;
}
// Check whether it's an OpenVPN packet
bool OvsIsPacketForMe(const UCHAR *buf, const UINT size)
{
if (buf == NULL || size != 2)
{
return false;
}
if (buf[0] == 0x00 && buf[1] == 0x0E)
{
return true;
}
return false;
}
bool OvsProcessData(void *param, TCP_RAW_DATA *received_data, FIFO *data_to_send)
{
bool ret = true;
UINT i;
OPENVPN_SERVER *server;
UCHAR buf[OPENVPN_TCP_MAX_PACKET_SIZE];
if (param == NULL || received_data == NULL || data_to_send == NULL)
{
return false;
}
server = param;
// Separate to a list of datagrams by interpreting the data received from the TCP socket
while (true)
{
UDPPACKET *packet;
UCHAR *packet_ptr;
UINT packet_size, total_packet_size;
FIFO *recv_fifo = received_data->Data;
const UINT data_size = FifoSize(recv_fifo);
if (data_size < sizeof(USHORT))
{
// Corrupt data
break;
}
packet_size = READ_USHORT(FifoPtr(recv_fifo));
if (packet_size == 0 || packet_size > sizeof(buf))
{
// Invalid packet size
ret = false;
break;
}
total_packet_size = packet_size + sizeof(USHORT);
if (data_size < total_packet_size)
{
// Corrupt data
break;
}
if (ReadFifo(recv_fifo, buf, total_packet_size) != total_packet_size)
{
// Mismatch
ret = false;
break;
}
// Read one packet and put it in the list
packet_ptr = buf + sizeof(USHORT);
packet = NewUdpPacket(&received_data->SrcIP, received_data->SrcPort, &received_data->DstIP, received_data->DstPort, Clone(packet_ptr, packet_size), packet_size);
packet->Type = OPENVPN_PROTOCOL_TCP;
Add(server->RecvPacketList, packet);
}
// Process the list of received datagrams
OvsRecvPacket(server, server->RecvPacketList);
// Release the received packet list
for (i = 0; i < LIST_NUM(server->RecvPacketList); ++i)
{
UDPPACKET *p = LIST_DATA(server->RecvPacketList, i);
FreeUdpPacket(p);
}
DeleteAll(server->RecvPacketList);
// Store in the queue by getting a list of the datagrams to be transmitted from the OpenVPN server
for (i = 0; i < LIST_NUM(server->SendPacketList); ++i)
{
UDPPACKET *p = LIST_DATA(server->SendPacketList, i);
// Store the size in the TCP send queue first
USHORT us = Endian16((USHORT)p->Size);
WriteFifo(data_to_send, &us, sizeof(USHORT));
// Write the data body
WriteFifo(data_to_send, p->Data, p->Size);
// Packet release
FreeUdpPacket(p);
}
DeleteAll(server->SendPacketList);
return ret;
}
void OvsBufferLimit(void *param, const bool reached)
{
if (param == NULL)
{
return;
}
((OPENVPN_SERVER *)param)->SupressSendPacket = reached;
}
bool OvsIsOk(void *param)
{
OPENVPN_SERVER *s;
if (param == NULL)
{
return false;
}
s = param;
return (s->DisconnectCount < 1) && (s->SessionEstablishedCount > 0);
}
UINT OvsEstablishedSessions(void *param)
{
LIST *sessions;
UINT i;
UINT established_sessions = 0;
if (param == NULL)
{
return 0;
}
sessions = ((OPENVPN_SERVER *)param)->SessionList;
for (i = 0;i < LIST_NUM(sessions);i++)
{
OPENVPN_SESSION *se = LIST_DATA(sessions, i);
if (se->Established)
{
++established_sessions;
}
}
return established_sessions;
}
// Write the OpenVPN log
void OvsLog(OPENVPN_SERVER *s, OPENVPN_SESSION *se, OPENVPN_CHANNEL *c, char *name, ...)
@ -341,7 +532,7 @@ final:
}
// Process the received packet
void OvsProceccRecvPacket(OPENVPN_SERVER *s, UDPPACKET *p, UINT protocol)
void OvsProceccRecvPacket(OPENVPN_SERVER *s, UDPPACKET *p)
{
OPENVPN_CHANNEL *c;
OPENVPN_SESSION *se;
@ -353,7 +544,7 @@ void OvsProceccRecvPacket(OPENVPN_SERVER *s, UDPPACKET *p, UINT protocol)
}
// Search for the session
se = OvsFindOrCreateSession(s, &p->DstIP, p->DestPort, &p->SrcIP, p->SrcPort, protocol);
se = OvsFindOrCreateSession(s, &p->DstIP, p->DestPort, &p->SrcIP, p->SrcPort, p->Type);
if (se == NULL)
{
return;
@ -1989,7 +2180,7 @@ OPENVPN_SESSION *OvsSearchSession(OPENVPN_SERVER *s, IP *server_ip, UINT server_
}
// Receive packets in the OpenVPN server
void OvsRecvPacket(OPENVPN_SERVER *s, LIST *recv_packet_list, UINT protocol)
void OvsRecvPacket(OPENVPN_SERVER *s, LIST *recv_packet_list)
{
UINT i, j;
LIST *delete_session_list = NULL;
@ -2021,7 +2212,7 @@ void OvsRecvPacket(OPENVPN_SERVER *s, LIST *recv_packet_list, UINT protocol)
{
UDPPACKET *p = LIST_DATA(recv_packet_list, i);
OvsProceccRecvPacket(s, p, protocol);
OvsProceccRecvPacket(s, p);
}
// Treat for all sessions and all channels
@ -2702,24 +2893,17 @@ OPENVPN_SERVER *NewOpenVpnServer(CEDAR *cedar, INTERRUPT_MANAGER *interrupt, SOC
s = ZeroMalloc(sizeof(OPENVPN_SERVER));
s->Cedar = cedar;
AddRef(s->Cedar->ref);
s->Interrupt = interrupt;
s->SockEvent = sock_event;
s->SessionList = NewList(OvsCompareSessionList);
s->RecvPacketList = NewListFast(NULL);
s->SendPacketList = NewListFast(NULL);
s->Now = Tick64();
s->NextSessionId = 1;
if (sock_event != NULL)
{
s->SockEvent = sock_event;
AddRef(s->SockEvent->ref);
}
OvsLog(s, NULL, NULL, "LO_START");
s->Dh = DhNewFromBits(DH_PARAM_BITS_DEFAULT);
@ -2739,33 +2923,33 @@ void FreeOpenVpnServer(OPENVPN_SERVER *s)
OvsLog(s, NULL, NULL, "LO_STOP");
// Release the session list
for (i = 0;i < LIST_NUM(s->SessionList);i++)
// Release the sessions list
for (i = 0; i < LIST_NUM(s->SessionList); ++i)
{
OPENVPN_SESSION *se = LIST_DATA(s->SessionList, i);
OvsFreeSession(se);
}
ReleaseList(s->SessionList);
// Release the packet which is attempting to send
for (i = 0;i < LIST_NUM(s->SendPacketList);i++)
// Release the incoming packets list
for (i = 0; i < LIST_NUM(s->RecvPacketList); ++i)
{
UDPPACKET *p = LIST_DATA(s->RecvPacketList, i);
FreeUdpPacket(p);
}
ReleaseList(s->RecvPacketList);
// Release the outgoing packets list
for (i = 0; i < LIST_NUM(s->SendPacketList); ++i)
{
UDPPACKET *p = LIST_DATA(s->SendPacketList, i);
FreeUdpPacket(p);
}
ReleaseList(s->SendPacketList);
ReleaseCedar(s->Cedar);
if (s->SockEvent != NULL)
{
ReleaseSockEvent(s->SockEvent);
}
DhFree(s->Dh);
Free(s);
@ -2783,12 +2967,6 @@ void OpenVpnServerUdpListenerProc(UDPLISTENER *u, LIST *packet_list)
us = (OPENVPN_SERVER_UDP *)u->Param;
if (OvsGetNoOpenVpnUdp())
{
// OpenVPN over UDP is disabled
return;
}
if (us->OpenVpnServer != NULL)
{
{
@ -2797,7 +2975,7 @@ void OpenVpnServerUdpListenerProc(UDPLISTENER *u, LIST *packet_list)
ClearStr(us->Cedar->OpenVPNPublicPorts, sizeof(us->Cedar->OpenVPNPublicPorts));
}
OvsRecvPacket(us->OpenVpnServer, packet_list, OPENVPN_PROTOCOL_UDP);
OvsRecvPacket(us->OpenVpnServer, packet_list);
UdpListenerSendPackets(u, us->OpenVpnServer->SendPacketList);
DeleteAll(us->OpenVpnServer->SendPacketList);
@ -2821,7 +2999,7 @@ OPENVPN_SERVER_UDP *NewOpenVpnServerUdp(CEDAR *cedar)
AddRef(u->Cedar->ref);
// Create a UDP listener
u->UdpListener = NewUdpListener(OpenVpnServerUdpListenerProc, u, &cedar->Server->ListenIP);
u->UdpListener = NewUdpListenerEx(OpenVpnServerUdpListenerProc, u, &cedar->Server->ListenIP, OPENVPN_PROTOCOL_UDP);
// Create an OpenVPN server
u->OpenVpnServer = NewOpenVpnServer(cedar, u->UdpListener->Interrupts, u->UdpListener->Event);
@ -2896,269 +3074,3 @@ void FreeOpenVpnServerUdp(OPENVPN_SERVER_UDP *u)
Free(u);
}
// Check whether it's OpenSSL protocol by looking the first receive buffer of the TCP
bool OvsCheckTcpRecvBufIfOpenVPNProtocol(UCHAR *buf, UINT size)
{
if (buf == NULL || size != 2)
{
return false;
}
if (buf[0] == 0x00 && buf[1] == 0x0E)
{
return true;
}
return false;
}
// Run the OpenVPN server in TCP mode
bool OvsPerformTcpServer(CEDAR *cedar, SOCK *sock)
{
OPENVPN_SERVER *s;
INTERRUPT_MANAGER *im;
SOCK_EVENT *se;
FIFO *tcp_recv_fifo;
FIFO *tcp_send_fifo;
UINT buf_size = (128 * 1024);
UCHAR *buf;
UINT64 giveup_time = Tick64() + (UINT64)OPENVPN_NEW_SESSION_DEADLINE_TIMEOUT;
LIST *ovs_recv_packet;
UINT i;
bool ret = false;
// Validate arguments
if (cedar == NULL || sock == NULL)
{
return false;
}
// Initialize
buf = Malloc(buf_size);
im = NewInterruptManager();
se = NewSockEvent();
SetTimeout(sock, TIMEOUT_INFINITE);
JoinSockToSockEvent(sock, se);
tcp_recv_fifo = NewFifoFast();
tcp_send_fifo = NewFifoFast();
ovs_recv_packet = NewListFast(NULL);
// Create an OpenVPN server
s = NewOpenVpnServer(cedar, im, se);
// Main loop
Debug("Entering OpenVPN TCP Server Main Loop.\n");
while (true)
{
UINT next_interval;
bool disconnected = false;
UINT64 now = Tick64();
// Receive data from a TCP socket
while (true)
{
UINT r = Recv(sock, buf, buf_size, false);
if (r == SOCK_LATER)
{
// Can not read any more
break;
}
else if (r == 0)
{
// Disconnected
disconnected = true;
break;
}
else
{
// Read
WriteFifo(tcp_recv_fifo, buf, r);
}
}
// Separate to a list of datagrams by interpreting the data received from the TCP socket
while (true)
{
UINT r = FifoSize(tcp_recv_fifo);
if (r >= sizeof(USHORT))
{
void *ptr = FifoPtr(tcp_recv_fifo);
USHORT packet_size = READ_USHORT(ptr);
if (packet_size != 0 && packet_size <= OPENVPN_TCP_MAX_PACKET_SIZE)
{
UINT total_len = (UINT)packet_size + sizeof(USHORT);
if (r >= total_len)
{
if (ReadFifo(tcp_recv_fifo, buf, total_len) != total_len)
{
// Mismatch
disconnected = true;
break;
}
else
{
// Read one packet
UINT payload_len = packet_size;
UCHAR *payload_ptr = buf + sizeof(USHORT);
// Pass the packet to the OpenVPN server
Add(ovs_recv_packet, NewUdpPacket(&sock->RemoteIP, sock->RemotePort,
&sock->LocalIP, sock->LocalPort,
Clone(payload_ptr, payload_len), payload_len));
}
}
else
{
// Non-arrival
break;
}
}
else
{
// Invalid packet size
disconnected = true;
break;
}
}
else
{
// Non-arrival
break;
}
}
// Pass a list of received datagrams to the OpenVPN server
OvsRecvPacket(s, ovs_recv_packet, OPENVPN_PROTOCOL_TCP);
// Release the received packet list
for (i = 0;i < LIST_NUM(ovs_recv_packet);i++)
{
UDPPACKET *p = LIST_DATA(ovs_recv_packet, i);
FreeUdpPacket(p);
}
DeleteAll(ovs_recv_packet);
// Store in the queue by getting a list of the datagrams to be transmitted from the OpenVPN server
for (i = 0;i < LIST_NUM(s->SendPacketList);i++)
{
UDPPACKET *p = LIST_DATA(s->SendPacketList, i);
// Store the size to the TCP send queue first
USHORT us = (USHORT)p->Size;
//Debug(" *** TCP SEND %u\n", us);
us = Endian16(us);
WriteFifo(tcp_send_fifo, &us, sizeof(USHORT));
// Write the data body
WriteFifo(tcp_send_fifo, p->Data, p->Size);
// Packet release
FreeUdpPacket(p);
}
DeleteAll(s->SendPacketList);
// Send data to the TCP socket
while (FifoSize(tcp_send_fifo) >= 1)
{
UINT r = Send(sock, FifoPtr(tcp_send_fifo), FifoSize(tcp_send_fifo), false);
if (r == SOCK_LATER)
{
// Can not write any more
break;
}
else if (r == 0)
{
// Disconnected
disconnected = true;
break;
}
else
{
// Wrote out
ReadFifo(tcp_send_fifo, NULL, r);
}
}
if (FifoSize(tcp_send_fifo) > MAX_BUFFERING_PACKET_SIZE)
{
s->SupressSendPacket = true;
}
else
{
s->SupressSendPacket = false;
}
if (s->DisconnectCount >= 1)
{
// Session disconnection has occurred on OpenVPN server-side
disconnected = true;
}
if (giveup_time <= now)
{
UINT i;
UINT num_established_sessions = 0;
for (i = 0;i < LIST_NUM(s->SessionList);i++)
{
OPENVPN_SESSION *se = LIST_DATA(s->SessionList, i);
if (se->Established)
{
num_established_sessions++;
}
}
if (num_established_sessions == 0)
{
// If the number of sessions is 0 even if wait a certain period of time after the start of server, abort
disconnected = true;
}
}
if (disconnected)
{
// Error or disconnect occurs
Debug("Breaking OpenVPN TCP Server Main Loop.\n");
break;
}
// Wait until the next event occurs
next_interval = GetNextIntervalForInterrupt(im);
next_interval = MIN(next_interval, UDPLISTENER_WAIT_INTERVAL);
WaitSockEvent(se, next_interval);
}
if (s != NULL && s->SessionEstablishedCount != 0)
{
ret = true;
}
// Release the OpenVPN server
FreeOpenVpnServer(s);
// Release object
FreeInterruptManager(im);
ReleaseSockEvent(se);
ReleaseFifo(tcp_recv_fifo);
ReleaseFifo(tcp_send_fifo);
Free(buf);
// Release the received packet list
for (i = 0;i < LIST_NUM(ovs_recv_packet);i++)
{
UDPPACKET *p = LIST_DATA(ovs_recv_packet, i);
FreeUdpPacket(p);
}
ReleaseList(ovs_recv_packet);
return ret;
}

View File

@ -188,6 +188,7 @@ struct OPENVPN_SERVER
{
CEDAR *Cedar;
INTERRUPT_MANAGER *Interrupt; // Interrupt manager
LIST *RecvPacketList; // Received packets list
LIST *SendPacketList; // Transmission packet list
LIST *SessionList; // Session list
UINT64 Now; // Current time
@ -212,8 +213,18 @@ struct OPENVPN_SERVER_UDP
// OpenVPN Default Client Option String
#define OVPN_DEF_CLIENT_OPTION_STRING "dev-type tun,link-mtu 1500,tun-mtu 1500,cipher AES-128-CBC,auth SHA1,keysize 128,key-method 2,tls-client"
//// Function prototype
PROTO_IMPL *OvsGetProtoImpl();
bool OvsInit(void **param, CEDAR *cedar, INTERRUPT_MANAGER *im, SOCK_EVENT *se);
void OvsFree(void *param);
char *OvsName();
UINT OvsSupportedModes();
bool OvsIsPacketForMe(const UCHAR *buf, const UINT size);
bool OvsProcessData(void *param, TCP_RAW_DATA *received_data, FIFO *data_to_send);
void OvsBufferLimit(void *param, const bool reached);
bool OvsIsOk(void *param);
UINT OvsEstablishedSessions(void *param);
OPENVPN_SERVER_UDP *NewOpenVpnServerUdp(CEDAR *cedar);
void FreeOpenVpnServerUdp(OPENVPN_SERVER_UDP *u);
void OpenVpnServerUdpListenerProc(UDPLISTENER *u, LIST *packet_list);
@ -221,8 +232,8 @@ void OvsApplyUdpPortList(OPENVPN_SERVER_UDP *u, char *port_list, IP *listen_ip);
OPENVPN_SERVER *NewOpenVpnServer(CEDAR *cedar, INTERRUPT_MANAGER *interrupt, SOCK_EVENT *sock_event);
void FreeOpenVpnServer(OPENVPN_SERVER *s);
void OvsRecvPacket(OPENVPN_SERVER *s, LIST *recv_packet_list, UINT protocol);
void OvsProceccRecvPacket(OPENVPN_SERVER *s, UDPPACKET *p, UINT protocol);
void OvsRecvPacket(OPENVPN_SERVER *s, LIST *recv_packet_list);
void OvsProceccRecvPacket(OPENVPN_SERVER *s, UDPPACKET *p);
int OvsCompareSessionList(void *p1, void *p2);
OPENVPN_SESSION *OvsSearchSession(OPENVPN_SERVER *s, IP *server_ip, UINT server_port, IP *client_ip, UINT client_port, UINT protocol);
OPENVPN_SESSION *OvsNewSession(OPENVPN_SERVER *s, IP *server_ip, UINT server_port, IP *client_ip, UINT client_port, UINT protocol);
@ -264,16 +275,7 @@ UINT OvsCalcTcpMss(OPENVPN_SERVER *s, OPENVPN_SESSION *se, OPENVPN_CHANNEL *c);
CIPHER *OvsGetCipher(char *name);
MD *OvsGetMd(char *name);
bool OvsCheckTcpRecvBufIfOpenVPNProtocol(UCHAR *buf, UINT size);
bool OvsPerformTcpServer(CEDAR *cedar, SOCK *sock);
void OvsSetReplyForVgsPollEnable(bool b);
bool OvsGetNoOpenVpnTcp();
void OpenVpnServerUdpSetDhParam(OPENVPN_SERVER_UDP *u, DH_CTX *dh);
#endif // PROTO_OPENVPN_H

View File

@ -6412,7 +6412,7 @@ bool ServerDownloadSignature(CONNECTION *c, char **error_detail_str)
{
bool sstp_ret;
// Accept the SSTP connection
c->Type = CONNECTION_TYPE_SSTP;
c->Type = CONNECTION_TYPE_OTHER;
sstp_ret = AcceptSstp(c);

View File

@ -421,6 +421,7 @@ typedef struct TUBEPAIR_DATA TUBEPAIR_DATA;
typedef struct UDPLISTENER UDPLISTENER;
typedef struct UDPLISTENER_SOCK UDPLISTENER_SOCK;
typedef struct UDPPACKET UDPPACKET;
typedef struct TCP_RAW_DATA TCP_RAW_DATA;
typedef struct INTERRUPT_MANAGER INTERRUPT_MANAGER;
typedef struct TUBE_FLUSH_LIST TUBE_FLUSH_LIST;
typedef struct ICMP_RESULT ICMP_RESULT;

View File

@ -18792,6 +18792,8 @@ LABEL_FATAL_ERROR:
p->SrcPort = p->DestPort = MAKE_SPECIAL_PORT(50);
}
p->Type = u->PacketType;
Add(recv_list, p);
}
@ -18980,6 +18982,40 @@ UDPLISTENER_SOCK *DetermineUdpSocketForSending(UDPLISTENER *u, UDPPACKET *p)
return NULL;
}
void FreeTcpRawData(TCP_RAW_DATA *trd)
{
// Validate arguments
if (trd == NULL)
{
return;
}
ReleaseFifo(trd->Data);
Free(trd);
}
TCP_RAW_DATA *NewTcpRawData(IP *src_ip, UINT src_port, IP *dst_ip, UINT dst_port)
{
TCP_RAW_DATA *trd;
// Validate arguments
if (dst_ip == NULL || dst_port == 0)
{
return NULL;
}
trd = ZeroMalloc(sizeof(TCP_RAW_DATA));
Copy(&trd->SrcIP, src_ip, sizeof(IP));
trd->SrcPort = src_port;
Copy(&trd->DstIP, dst_ip, sizeof(IP));
trd->DstPort = dst_port;
trd->Data = NewFifoFast();
return trd;
}
// Release of the UDP packet
void FreeUdpPacket(UDPPACKET *p)
{
@ -19050,6 +19086,11 @@ void UdpListenerSendPackets(UDPLISTENER *u, LIST *packet_list)
// Creating a UDP listener
UDPLISTENER *NewUdpListener(UDPLISTENER_RECV_PROC *recv_proc, void *param, IP *listen_ip)
{
return NewUdpListenerEx(recv_proc, param, listen_ip, INFINITE);
}
UDPLISTENER *NewUdpListenerEx(UDPLISTENER_RECV_PROC *recv_proc, void *param, IP *listen_ip, UINT packet_type)
{
UDPLISTENER *u;
// Validate arguments
@ -19061,6 +19102,7 @@ UDPLISTENER *NewUdpListener(UDPLISTENER_RECV_PROC *recv_proc, void *param, IP *l
u = ZeroMalloc(sizeof(UDPLISTENER));
u->Param = param;
u->PacketType = packet_type;
u->PortList = NewList(NULL);
u->Event = NewSockEvent();

View File

@ -456,6 +456,16 @@ struct TUBEPAIR_DATA
SOCK_EVENT *SockEvent1, *SockEvent2; // SockEvent
};
// TCP raw data
struct TCP_RAW_DATA
{
IP SrcIP; // Source IP address
IP DstIP; // Destination IP address
UINT SrcPort; // Source port
UINT DstPort; // Destination port
FIFO *Data; // Data body
};
// UDP listener socket entry
struct UDPLISTENER_SOCK
{
@ -496,6 +506,7 @@ struct UDPLISTENER
UINT64 LastCheckTick; // Time which the socket list was checked last
UDPLISTENER_RECV_PROC *RecvProc; // Receive procedure
LIST *SendPacketList; // Transmission packet list
UINT PacketType; // The type to set when creating an UDPPACKET
void *Param; // Parameters
INTERRUPT_MANAGER *Interrupts; // Interrupt manager
bool HostIPAddressListChanged; // IP address list of the host has changed
@ -1405,12 +1416,15 @@ int CmpIpAddressList(void *p1, void *p2);
UINT64 GetHostIPAddressListHash();
UDPLISTENER *NewUdpListener(UDPLISTENER_RECV_PROC *recv_proc, void *param, IP *listen_ip);
UDPLISTENER *NewUdpListenerEx(UDPLISTENER_RECV_PROC *recv_proc, void *param, IP *listen_ip, UINT packet_type);
void UdpListenerThread(THREAD *thread, void *param);
void FreeUdpListener(UDPLISTENER *u);
void AddPortToUdpListener(UDPLISTENER *u, UINT port);
void DeletePortFromUdpListener(UDPLISTENER *u, UINT port);
void DeleteAllPortFromUdpListener(UDPLISTENER *u);
void UdpListenerSendPackets(UDPLISTENER *u, LIST *packet_list);
TCP_RAW_DATA *NewTcpRawData(IP *src_ip, UINT src_port, IP *dst_ip, UINT dst_port);
void FreeTcpRawData(TCP_RAW_DATA *trd);
UDPPACKET *NewUdpPacket(IP *src_ip, UINT src_port, IP *dst_ip, UINT dst_port, void *data, UINT size);
void FreeUdpPacket(UDPPACKET *p);
UDPLISTENER_SOCK *DetermineUdpSocketForSending(UDPLISTENER *u, UDPPACKET *p);