// SoftEther VPN Source Code - Developer Edition Master Branch // Cedar Communication Module // Proto_L2TP.h // Header of Proto_L2TP.c #ifndef PROTO_L2TP_H #define PROTO_L2TP_H #include "CedarType.h" #include "Mayaqua/Network.h" // Check the sequence number #define L2TP_SEQ_LT(a, b) (((USHORT)(((USHORT)(a)) - ((USHORT)(b)))) & 0x8000) #define L2TP_SEQ_EQ(a, b) ((USHORT)(a) == (USHORT)(b)) //// Constants // Client string #define L2TP_IPC_CLIENT_NAME_TAG "L2TP VPN Client - %s" #define L2TP_IPC_CLIENT_NAME_NO_TAG "L2TP VPN Client" #define L2TP_IPC_POSTFIX "L2TP" // L2TP vendor name #define L2TP_VENDOR_NAME "L2TP" // L2TP packet retransmission interval #define L2TP_PACKET_RESEND_INTERVAL 500 // Timeout for L2TP tunnel disconnecting completion #define L2TP_TUNNEL_DISCONNECT_TIMEOUT 3000 // Timeout for L2TP session disconnection completion #define L2TP_SESSION_DISCONNECT_TIMEOUT 3000 // Time-out interval of L2TP tunnel #define L2TP_TUNNEL_TIMEOUT (60 * 1000) // Transmission interval of L2TP Hello #define L2TP_HELLO_INTERVAL (8801) // Threshold number of registered items in the transmission queue for suppressing the L2TP Hello transmission #define L2TP_HELLO_SUPRESS_MAX_THRETHORD_NUM_SEND_QUEUE 32 // Quota #define L2TP_QUOTA_MAX_NUM_TUNNELS_PER_IP 1000 // Number of L2TP sessions per IP address #define L2TP_QUOTA_MAX_NUM_TUNNELS 30000 // Limit of the number of sessions #define L2TP_QUOTA_MAX_NUM_SESSIONS_PER_TUNNEL 1024 // Max sessions in a tunnel // L2TP window size #define L2TP_WINDOW_SIZE 16 // L2TP packet header bit mask #define L2TP_HEADER_BIT_TYPE 0x80 // Type #define L2TP_HEADER_BIT_LENGTH 0x40 // Length #define L2TP_HEADER_BIT_SEQUENCE 0x08 // Sequence #define L2TP_HEADER_BIT_OFFSET 0x02 // Offset #define L2TP_HEADER_BIT_PRIORITY 0x01 // Priority #define L2TP_HEADER_BIT_VER 0x0F // Version // L2TP AVP header bit mask #define L2TP_AVP_BIT_MANDATORY 0x80 // Mandatory #define L2TP_AVP_BIT_HIDDEN 0x40 // Hidden #define L2TP_AVP_LENGTH 0x3FF // Length // AVP value #define L2TP_AVP_TYPE_MESSAGE_TYPE 0 // Message Type #define L2TP_AVP_TYPE_RESULT_CODE 1 // Result Code #define L2TP_AVP_TYPE_PROTOCOL_VERSION 2 // Protocol Version #define L2TP_AVP_TYPE_FRAME_CAP 3 // Framing Capabilities #define L2TP_AVP_TYPE_BEARER_CAP 4 // Bearer Capabilities #define L2TP_AVP_TYPE_TIE_BREAKER 5 // Tie Breaker #define L2TP_AVP_TYPE_HOST_NAME 7 // Host Name #define L2TP_AVP_TYPE_VENDOR_NAME 8 // Vendor Name #define L2TP_AVP_TYPE_ASSIGNED_TUNNEL 9 // Assigned Tunnel #define L2TP_AVP_TYPE_RECV_WINDOW_SIZE 10 // Receive Window Size #define L2TP_AVP_TYPE_ASSIGNED_SESSION 14 // Assigned Session ID #define L2TP_AVP_TYPE_CALL_SERIAL 15 // Call Serial Number #define L2TP_AVP_TYPE_PPP_DISCONNECT_CAUSE 46 // PPP Disconnect Cause Code #define L2TP_AVP_TYPE_V3_ROUTER_ID 60 // Router ID #define L2TP_AVP_TYPE_V3_TUNNEL_ID 61 // Assigned Control Connection ID #define L2TP_AVP_TYPE_V3_PW_CAP_LIST 62 // Pseudowire Capabilities List #define L2TP_AVP_TYPE_V3_SESSION_ID_LOCAL 63 // Local Session ID #define L2TP_AVP_TYPE_V3_SESSION_ID_REMOTE 64 // Remote Session ID #define L2TP_AVP_TYPE_V3_PW_TYPE 68 // Pseudowire Type #define L2TP_AVP_TYPE_V3_CIRCUIT_STATUS 71 // Message Type value #define L2TP_MESSAGE_TYPE_SCCRQ 1 // Start-Control-Connection-Request #define L2TP_MESSAGE_TYPE_SCCRP 2 // Start-Control-Connection-Reply #define L2TP_MESSAGE_TYPE_SCCCN 3 // Start-Control-Connection-Connected #define L2TP_MESSAGE_TYPE_STOPCCN 4 // Stop-Control-Connection-Notification #define L2TP_MESSAGE_TYPE_HELLO 6 // Hello #define L2TP_MESSAGE_TYPE_ICRQ 10 // Incoming-Call-Request #define L2TP_MESSAGE_TYPE_ICRP 11 // Incoming-Call-Reply #define L2TP_MESSAGE_TYPE_ICCN 12 // Incoming-Call-Connected #define L2TP_MESSAGE_TYPE_CDN 14 // Call-Disconnect-Notify // Type of L2TPv3 virtual network #define L2TPV3_PW_TYPE_ETHERNET 5 // Ethernet #define L2TPV3_PW_TYPE_ETHERNET_VLAN 4 // Ethernet VLAN // L2TPv3 vendor unique value #define L2TP_AVP_VENDOR_ID_CISCO 9 // Cisco Systems #define L2TPV3_CISCO_AVP_TUNNEL_ID 1 // Assigned Connection ID #define L2TPV3_CISCO_AVP_PW_CAP_LIST 2 // Pseudowire Capabilities List #define L2TPV3_CISCO_AVP_SESSION_ID_LOCAL 3 // Local Session ID #define L2TPV3_CISCO_AVP_SESSION_ID_REMOTE 4 // Remote Session ID #define L2TPV3_CISCO_AVP_PW_TYPE 7 // Pseudowire Type #define L2TPV3_CISCO_AVP_DRAFT_AVP_VERSION 10 // Draft AVP Version //// Types // L2TP queue struct L2TP_QUEUE { BUF *Buf; // Data USHORT Ns; // Sequence number UINT64 NextSendTick; // Scheduled time to be sent next L2TP_PACKET *L2TPPacket; // L2TP packet data }; // L2TP AVP value struct L2TP_AVP { bool Mandatory; // Force bit UINT Length; // Overall length USHORT VendorID; // Vendor ID USHORT Type; // Type UINT DataSize; // Data size void *Data; // Data body }; // L2TP packet struct L2TP_PACKET { bool IsControl; // Whether it's a control message bool HasLength; // Whether there is length bit bool HasSequence; // Whether there is sequence bit bool HasOffset; // Whether there is offset bit bool IsPriority; // Whether priority packet bool IsZLB; // Zero Length Bit bool IsYamahaV3; // L2TPv3 on YAMAHA UINT Ver; // Version UINT Length; // Length UINT TunnelId; // Tunnel ID UINT SessionId; // Session ID USHORT Ns, Nr; // Sequence number UINT OffsetSize; // Offset size UINT DataSize; // Data size void *Data; // Data body LIST *AvpList; // AVP list UINT MessageType; // Message type }; // L2TP session struct L2TP_SESSION { L2TP_TUNNEL *Tunnel; // Parent L2TP tunnel bool IsV3; // L2TPv3 bool IsCiscoV3; // L2TPv3 for Cisco UINT SessionId1; // Session ID (server -> client direction) UINT SessionId2; // Session ID (client -> server direction) bool Established; // Established bool WantToDisconnect; // Whether to want to disconnect bool Disconnecting; // Whether disconnected UINT64 DisconnectTimeout; // Disconnection completion time-out bool HasThread; // Whether have a thread THREAD *Thread; // Thread TUBE *TubeSend; // Tube of PPP to L2TP direction TUBE *TubeRecv; // Tube of L2TP to PPP direction UINT PseudowireType; // Type of L2TPv3 virtual line ETHERIP_SERVER *EtherIP; // EtherIP server }; // L2TP tunnel struct L2TP_TUNNEL { bool IsV3; // L2TPv3 bool IsCiscoV3; // L2TPv3 for Cisco bool IsYamahaV3; // L2TPv3 for YAMAHA IP ClientIp; // Client IP address UINT ClientPort; // Client port number IP ServerIp; // Server IP address UINT ServerPort; // Server port number UINT TunnelId1; // Tunnel ID (server -> client direction) UINT TunnelId2; // Tunnel ID (client -> server direction) char HostName[MAX_SIZE]; // Destination host name char VendorName[MAX_SIZE]; // Destination vendor name LIST *SessionList; // L2TP session list LIST *SendQueue; // Transmission queue LIST *RecvQueue; // Reception queue USHORT NextNs; // Value of Ns of the packet to be sent next USHORT LastNr; // Value of NR received in the last bool Established; // Whether the tunnel is established bool StateChanged; // Whether the state have changed bool WantToDisconnect; // Whether to want to disconnect bool Disconnecting; // Whether disconnected UINT64 DisconnectTimeout; // Disconnection completion time-out UINT64 LastRecvTick; // Time which the data has been received at last bool Timedout; // Whether the time-out UINT64 LastHelloSent; // Time which the data has been sent at last }; // L2TP server struct L2TP_SERVER { CEDAR *Cedar; UINT64 Now; // Current time LIST *SendPacketList; // Transmission packet LIST *TunnelList; // Tunnel list INTERRUPT_MANAGER *Interrupts; // Interrupt manager SOCK_EVENT *SockEvent; // SockEvent bool Halt; // Start the shutdown bool Halting; // During shutdown bool HaltCompleted; // Shutdown is complete EVENT *HaltCompletedEvent; // Stopping completion event LIST *ThreadList; // Thread list char CryptName[MAX_SIZE]; // Cipher algorithm name IKE_SERVER *IkeServer; // IKE server (Only if associated) IKE_CLIENT *IkeClient; // IKE client (Only if associated) bool IsIPsecIPv6; // Whether it's IPv6 UINT CryptBlockSize; // Cipher block size of the upper layer TUBE_FLUSH_LIST *FlushList; // Tube Flush List }; //// Function prototype L2TP_SERVER *NewL2TPServer(CEDAR *cedar); L2TP_SERVER *NewL2TPServerEx(CEDAR *cedar, IKE_SERVER *ike, bool is_ipv6, UINT crypt_block_size); UINT GetNumL2TPTunnelsByClientIP(L2TP_SERVER *l2tp, IP *client_ip); void SetL2TPServerSockEvent(L2TP_SERVER *l2tp, SOCK_EVENT *e); void FreeL2TPServer(L2TP_SERVER *l2tp); void StopL2TPServer(L2TP_SERVER *l2tp, bool no_wait); void ProcL2TPPacketRecv(L2TP_SERVER *l2tp, UDPPACKET *p); L2TP_PACKET *ParseL2TPPacket(UDPPACKET *p); BUF *BuildL2TPPacketData(L2TP_PACKET *pp, L2TP_TUNNEL *t); L2TP_AVP *GetAVPValue(L2TP_PACKET *p, UINT type); L2TP_AVP *GetAVPValueEx(L2TP_PACKET *p, UINT type, UINT vendor_id); L2TP_TUNNEL *NewL2TPTunnel(L2TP_SERVER *l2tp, L2TP_PACKET *p, UDPPACKET *udp); UINT GenerateNewTunnelId(L2TP_SERVER *l2tp, IP *client_ip); UINT GenerateNewTunnelIdEx(L2TP_SERVER *l2tp, IP *client_ip, bool is_32bit); void FreeL2TPTunnel(L2TP_TUNNEL *t); L2TP_TUNNEL *GetTunnelFromId(L2TP_SERVER *l2tp, IP *client_ip, UINT tunnel_id, bool is_v3); L2TP_TUNNEL *GetTunnelFromIdOfAssignedByClient(L2TP_SERVER *l2tp, IP *client_ip, UINT tunnel_id); L2TP_TUNNEL *GetTunnelFromIdOfAssignedByClientEx(L2TP_SERVER *l2tp, IP *client_ip, UINT tunnel_id, bool is_v3); void SendL2TPControlPacket(L2TP_SERVER *l2tp, L2TP_TUNNEL *t, UINT session_id, L2TP_PACKET *p); void SendL2TPControlPacketMain(L2TP_SERVER *l2tp, L2TP_TUNNEL *t, L2TP_QUEUE *q); void SendL2TPDataPacket(L2TP_SERVER *l2tp, L2TP_TUNNEL *t, L2TP_SESSION *s, void *data, UINT size); void FreeL2TPQueue(L2TP_QUEUE *q); void L2TPAddInterrupt(L2TP_SERVER *l2tp, UINT64 next_tick); void L2TPSendUDP(L2TP_SERVER *l2tp, UDPPACKET *p); void L2TPProcessInterrupts(L2TP_SERVER *l2tp); L2TP_PACKET *NewL2TPControlPacket(UINT message_type, bool is_v3); L2TP_AVP *NewAVP(USHORT type, bool mandatory, USHORT vendor_id, void *data, UINT data_size); int CmpL2TPQueueForRecv(void *p1, void *p2); void L2TPProcessRecvControlPacket(L2TP_SERVER *l2tp, L2TP_TUNNEL *t, L2TP_PACKET *p); L2TP_SESSION *GetSessionFromId(L2TP_TUNNEL *t, UINT session_id); L2TP_SESSION *GetSessionFromIdAssignedByClient(L2TP_TUNNEL *t, UINT session_id); L2TP_SESSION *NewL2TPSession(L2TP_SERVER *l2tp, L2TP_TUNNEL *t, UINT session_id_by_client); UINT GenerateNewSessionId(L2TP_TUNNEL *t); UINT GenerateNewSessionIdEx(L2TP_TUNNEL *t, bool is_32bit); void FreeL2TPSession(L2TP_SESSION *s); void DisconnectL2TPSession(L2TP_TUNNEL *t, L2TP_SESSION *s); void DisconnectL2TPTunnel(L2TP_TUNNEL *t); void StartL2TPThread(L2TP_SERVER *l2tp, L2TP_TUNNEL *t, L2TP_SESSION *s); void StopL2TPThread(L2TP_SERVER *l2tp, L2TP_TUNNEL *t, L2TP_SESSION *s); UINT CalcL2TPMss(L2TP_SERVER *l2tp, L2TP_TUNNEL *t, L2TP_SESSION *s); UINT GenerateNewSessionIdForL2TPv3(L2TP_SERVER *l2tp); L2TP_SESSION *SearchL2TPSessionById(L2TP_SERVER *l2tp, bool is_v3, UINT id); void L2TPSessionManageEtherIPServer(L2TP_SERVER *l2tp, L2TP_SESSION *s); #endif // PROTO_L2TP_H