SoftEtherVPN/src/Cedar/UdpAccel.h

// SoftEther VPN Source Code - Developer Edition Master Branch
// Cedar Communication Module


// UdpAccel.h
// Header of UdpAccel.c

#ifndef	UDPACCEL_H
#define	UDPACCEL_H

// Constants
#define	UDP_ACCELERATION_COMMON_KEY_SIZE	20			// Common key size
#define	UDP_ACCELERATION_PACKET_KEY_SIZE	20			// Key size for the packet
#define	UDP_ACCELERATION_PACKET_IV_SIZE		20			// IV size for the packet
#define	UDP_ACCELERATION_TMP_BUF_SIZE		2048		// Temporary buffer size
#define	UDP_ACCELERATION_WINDOW_SIZE_MSEC	(30 * 1000)	// Receive window size (in milliseconds)

#define	UDP_ACCELERATION_SUPPORTED_MAX_PAYLOAD_SIZE	1600	// Maximum supported payload size
#define	UDP_ACCELERATION_MAX_PADDING_SIZE	32			// Maximum padding size

#define	UDP_ACCELERATION_REQUIRE_CONTINUOUS	(10 * 1000)	// Not to use if stable communication is not continued at least for this time

// Time constant for Build 8534 or earlier
#define	UDP_ACCELERATION_KEEPALIVE_INTERVAL_MIN	(1 * 1000)	// Keep Alive Interval (minimum)
#define	UDP_ACCELERATION_KEEPALIVE_INTERVAL_MAX	(3 * 1000)	// Keep Alive Interval (maximum)
#define	UDP_ACCELERATION_KEEPALIVE_TIMEOUT		(9 * 1000)	// Time to disconnect time by non-communication

// Time constant for Build 8535 or later
#define	UDP_ACCELERATION_KEEPALIVE_INTERVAL_MIN_FAST	(500)	// Keep Alive Interval (minimum)
#define	UDP_ACCELERATION_KEEPALIVE_INTERVAL_MAX_FAST	(1000)	// Keep Alive Interval (maximum)
#define	UDP_ACCELERATION_KEEPALIVE_TIMEOUT_FAST			(2100)	// Time to disconnect time by non-communication

// Range of port numbers
#define	UDP_SERVER_PORT_LOWER				40000		// Minimum port
#define	UDP_SERVER_PORT_HIGHER				44999		// Maximum port

// NAT-T port signature to be embedded in the Keep Alive of the session
#define	UDP_NAT_T_PORT_SIGNATURE_IN_KEEP_ALIVE			"NATT_MY_PORT"

// UDP Acceleration Mode
struct UDP_ACCEL
{
	CEDAR *Cedar;										// Cedar
	bool NoNatT;										// Not to communicate with the NAT-T server (To communicate with the query server instead)
	bool ClientMode;									// Whether client mode
	bool IsInCedarPortList;								// Whether included in the port list of the Cedar
	UINT64 Now;											// Current time
	UCHAR MyKey[UDP_ACCELERATION_COMMON_KEY_SIZE];		// Submit-direction common key
	UCHAR YourKey[UDP_ACCELERATION_COMMON_KEY_SIZE];	// Receiving-direction common key
	SOCK *UdpSock;										// UDP socket
	UINT MyPort;										// My port number
	UINT YourPort;										// Port number of the other party
	IP MyIp;											// My IP address
	IP YourIp;											// IP address of the other party
	IP YourIp2;											// IP address of the other party (second)
	bool IsIPv6;										// Whether it's an IPv6
	UCHAR TmpBuf[UDP_ACCELERATION_TMP_BUF_SIZE];		// Temporary buffer
	UINT64 LastRecvYourTick;							// Opponent's tick value of the last reception
	UINT64 LastRecvMyTick;								// My tick value of the last reception
	QUEUE *RecvBlockQueue;								// Reception block queue
	bool UseHMac;										// Flag to use the HMAC
	bool PlainTextMode;									// No encryption
	UINT64 LastSetSrcIpAndPortTick;						// Opponent's tick ??value at the time of storing the IP address and port number of the opponent at the end
	UINT64 LastRecvTick;								// Tick when data has received at the end
	UINT64 NextSendKeepAlive;							// Next time to send a KeepAlive packet
	UCHAR NextIv[UDP_ACCELERATION_PACKET_IV_SIZE];		// IV to be used next
	UINT MyCookie;										// My cookie
	UINT YourCookie;									// Cookie of the other party
	bool Inited;										// Initialized flag
	UINT Mss;											// Optimal MSS
	UINT MaxUdpPacketSize;								// Get the maximum transmittable UDP size
	LOCK *NatT_Lock;									// Lock the IP address field of NAT-T server
	IP NatT_IP;											// IP address of the NAT-T server
	THREAD *NatT_GetIpThread;							// IP address acquisition thread of NAT-T server
	bool NatT_Halt;										// Halting flag of IP address acquisition thread of NAT-T server
	EVENT *NatT_HaltEvent;								// Halting event of IP address acquisition thread of NAT-T server
	UINT64 NextPerformNatTTick;							// Time to communicate with NAT-T server next time
	UINT CommToNatT_NumFail;							// Number of failures to communicate with NAT-T server
	UINT MyPortByNatTServer;							// Self port number which is received from the NAT-T server
	bool MyPortByNatTServerChanged;						// The self port number which is received from the NAT-T server changes
	UINT YourPortByNatTServer;							// Port number of the opponent that was found via the NAT-T server
	bool YourPortByNatTServerChanged;					// Port number of the opponent that was found via the NAT-T server has been changed
	bool FatalError;									// A fatal error occurred
	bool NatT_IP_Changed;								// IP address of the NAT-T server has changed
	UINT64 NatT_TranId;									// Transaction ID to be exchanged with the NAT-T server
	bool IsReachedOnce;									// It is true if it succeeds in mutual transmission and reception of packets at least once
	UINT64 CreatedTick;									// Object creation time
	bool FastDetect;									// Fast disconnection detection mode
	UINT64 FirstStableReceiveTick;						// Start time of current stable continued receivable period
	bool UseSuperRelayQuery;							// Use the super relay query
	bool UseUdpIpQuery;									// Use the self IP address query by UDP
	IP UdpIpQueryHost;									// Host for the self IP address query by UDP
	UINT UdpIpQueryPort;								// Port number for self IP address for query by UDP
	UCHAR UdpIpQueryPacketData[16];						// Query packet data (final transmission)
	UINT UdpIpQueryPacketSize;							// Query packet data size (final transmission)
	UCHAR UdpHostUniqueKey[SHA1_SIZE];					// Unique key for UDP self endpoint query
};

// Function prototype
UDP_ACCEL *NewUdpAccel(CEDAR *cedar, IP *ip, bool client_mode, bool random_port, bool no_nat_t);
void FreeUdpAccel(UDP_ACCEL *a);
bool UdpAccelInitClient(UDP_ACCEL *a, UCHAR *server_key, IP *server_ip, UINT server_port, UINT server_cookie, UINT client_cookie, IP *server_ip_2);
bool UdpAccelInitServer(UDP_ACCEL *a, UCHAR *client_key, IP *client_ip, UINT client_port, IP *client_ip_2);
void UdpAccelPoll(UDP_ACCEL *a);
void UdpAccelSetTick(UDP_ACCEL *a, UINT64 tick64);
BLOCK *UdpAccelProcessRecvPacket(UDP_ACCEL *a, UCHAR *buf, UINT size, IP *src_ip, UINT src_port);
void UdpAccelCalcKey(UCHAR *key, UCHAR *common_key, UCHAR *iv);
bool UdpAccelIsSendReady(UDP_ACCEL *a, bool check_keepalive);
void UdpAccelSend(UDP_ACCEL *a, UCHAR *data, UINT data_size, bool compressed, UINT max_size, bool high_priority);
void UdpAccelSendBlock(UDP_ACCEL *a, BLOCK *b);
UINT UdpAccelCalcMss(UDP_ACCEL *a);
void NatT_GetIpThread(THREAD *thread, void *param);

#endif	// UDPACCEL_H
Preparing the development branch 2017-10-19 05:48:23 +03:00			`// SoftEther VPN Source Code - Developer Edition Master Branch`
v4.03-9408-rtm 2014-01-04 17:00:08 +04:00			`// Cedar Communication Module`


			`// UdpAccel.h`
			`// Header of UdpAccel.c`

			`#ifndef UDPACCEL_H`
			`#define UDPACCEL_H`

			`// Constants`
			`#define UDP_ACCELERATION_COMMON_KEY_SIZE 20 // Common key size`
			`#define UDP_ACCELERATION_PACKET_KEY_SIZE 20 // Key size for the packet`
			`#define UDP_ACCELERATION_PACKET_IV_SIZE 20 // IV size for the packet`
			`#define UDP_ACCELERATION_TMP_BUF_SIZE 2048 // Temporary buffer size`
			`#define UDP_ACCELERATION_WINDOW_SIZE_MSEC (30 * 1000) // Receive window size (in milliseconds)`

			`#define UDP_ACCELERATION_SUPPORTED_MAX_PAYLOAD_SIZE 1600 // Maximum supported payload size`
			`#define UDP_ACCELERATION_MAX_PADDING_SIZE 32 // Maximum padding size`

			`#define UDP_ACCELERATION_REQUIRE_CONTINUOUS (10 * 1000) // Not to use if stable communication is not continued at least for this time`

			`// Time constant for Build 8534 or earlier`
			`#define UDP_ACCELERATION_KEEPALIVE_INTERVAL_MIN (1 * 1000) // Keep Alive Interval (minimum)`
			`#define UDP_ACCELERATION_KEEPALIVE_INTERVAL_MAX (3 * 1000) // Keep Alive Interval (maximum)`
			`#define UDP_ACCELERATION_KEEPALIVE_TIMEOUT (9 * 1000) // Time to disconnect time by non-communication`

			`// Time constant for Build 8535 or later`
			`#define UDP_ACCELERATION_KEEPALIVE_INTERVAL_MIN_FAST (500) // Keep Alive Interval (minimum)`
			`#define UDP_ACCELERATION_KEEPALIVE_INTERVAL_MAX_FAST (1000) // Keep Alive Interval (maximum)`
			`#define UDP_ACCELERATION_KEEPALIVE_TIMEOUT_FAST (2100) // Time to disconnect time by non-communication`

			`// Range of port numbers`
			`#define UDP_SERVER_PORT_LOWER 40000 // Minimum port`
			`#define UDP_SERVER_PORT_HIGHER 44999 // Maximum port`

			`// NAT-T port signature to be embedded in the Keep Alive of the session`
			`#define UDP_NAT_T_PORT_SIGNATURE_IN_KEEP_ALIVE "NATT_MY_PORT"`

			`// UDP Acceleration Mode`
			`struct UDP_ACCEL`
			`{`
			`CEDAR *Cedar; // Cedar`
			`bool NoNatT; // Not to communicate with the NAT-T server (To communicate with the query server instead)`
			`bool ClientMode; // Whether client mode`
			`bool IsInCedarPortList; // Whether included in the port list of the Cedar`
			`UINT64 Now; // Current time`
			`UCHAR MyKey[UDP_ACCELERATION_COMMON_KEY_SIZE]; // Submit-direction common key`
			`UCHAR YourKey[UDP_ACCELERATION_COMMON_KEY_SIZE]; // Receiving-direction common key`
			`SOCK *UdpSock; // UDP socket`
			`UINT MyPort; // My port number`
			`UINT YourPort; // Port number of the other party`
			`IP MyIp; // My IP address`
			`IP YourIp; // IP address of the other party`
			`IP YourIp2; // IP address of the other party (second)`
			`bool IsIPv6; // Whether it's an IPv6`
			`UCHAR TmpBuf[UDP_ACCELERATION_TMP_BUF_SIZE]; // Temporary buffer`
			`UINT64 LastRecvYourTick; // Opponent's tick value of the last reception`
			`UINT64 LastRecvMyTick; // My tick value of the last reception`
			`QUEUE *RecvBlockQueue; // Reception block queue`
			`bool UseHMac; // Flag to use the HMAC`
			`bool PlainTextMode; // No encryption`
			`UINT64 LastSetSrcIpAndPortTick; // Opponent's tick ??value at the time of storing the IP address and port number of the opponent at the end`
			`UINT64 LastRecvTick; // Tick when data has received at the end`
			`UINT64 NextSendKeepAlive; // Next time to send a KeepAlive packet`
			`UCHAR NextIv[UDP_ACCELERATION_PACKET_IV_SIZE]; // IV to be used next`
			`UINT MyCookie; // My cookie`
			`UINT YourCookie; // Cookie of the other party`
			`bool Inited; // Initialized flag`
			`UINT Mss; // Optimal MSS`
			`UINT MaxUdpPacketSize; // Get the maximum transmittable UDP size`
			`LOCK *NatT_Lock; // Lock the IP address field of NAT-T server`
			`IP NatT_IP; // IP address of the NAT-T server`
			`THREAD *NatT_GetIpThread; // IP address acquisition thread of NAT-T server`
			`bool NatT_Halt; // Halting flag of IP address acquisition thread of NAT-T server`
			`EVENT *NatT_HaltEvent; // Halting event of IP address acquisition thread of NAT-T server`
			`UINT64 NextPerformNatTTick; // Time to communicate with NAT-T server next time`
			`UINT CommToNatT_NumFail; // Number of failures to communicate with NAT-T server`
			`UINT MyPortByNatTServer; // Self port number which is received from the NAT-T server`
			`bool MyPortByNatTServerChanged; // The self port number which is received from the NAT-T server changes`
			`UINT YourPortByNatTServer; // Port number of the opponent that was found via the NAT-T server`
			`bool YourPortByNatTServerChanged; // Port number of the opponent that was found via the NAT-T server has been changed`
			`bool FatalError; // A fatal error occurred`
			`bool NatT_IP_Changed; // IP address of the NAT-T server has changed`
			`UINT64 NatT_TranId; // Transaction ID to be exchanged with the NAT-T server`
			`bool IsReachedOnce; // It is true if it succeeds in mutual transmission and reception of packets at least once`
			`UINT64 CreatedTick; // Object creation time`
			`bool FastDetect; // Fast disconnection detection mode`
			`UINT64 FirstStableReceiveTick; // Start time of current stable continued receivable period`
v4.13-9522-beta 2015-01-30 16:30:34 +03:00			`bool UseSuperRelayQuery; // Use the super relay query`
v4.03-9408-rtm 2014-01-04 17:00:08 +04:00			`bool UseUdpIpQuery; // Use the self IP address query by UDP`
			`IP UdpIpQueryHost; // Host for the self IP address query by UDP`
			`UINT UdpIpQueryPort; // Port number for self IP address for query by UDP`
			`UCHAR UdpIpQueryPacketData[16]; // Query packet data (final transmission)`
			`UINT UdpIpQueryPacketSize; // Query packet data size (final transmission)`
			`UCHAR UdpHostUniqueKey[SHA1_SIZE]; // Unique key for UDP self endpoint query`
			`};`

			`// Function prototype`
			`UDP_ACCEL NewUdpAccel(CEDAR cedar, IP *ip, bool client_mode, bool random_port, bool no_nat_t);`
			`void FreeUdpAccel(UDP_ACCEL *a);`
			`bool UdpAccelInitClient(UDP_ACCEL a, UCHAR server_key, IP server_ip, UINT server_port, UINT server_cookie, UINT client_cookie, IP server_ip_2);`
			`bool UdpAccelInitServer(UDP_ACCEL a, UCHAR client_key, IP client_ip, UINT client_port, IP client_ip_2);`
			`void UdpAccelPoll(UDP_ACCEL *a);`
			`void UdpAccelSetTick(UDP_ACCEL *a, UINT64 tick64);`
			`BLOCK UdpAccelProcessRecvPacket(UDP_ACCEL a, UCHAR buf, UINT size, IP src_ip, UINT src_port);`
			`void UdpAccelCalcKey(UCHAR key, UCHAR common_key, UCHAR *iv);`
			`bool UdpAccelIsSendReady(UDP_ACCEL *a, bool check_keepalive);`
			`void UdpAccelSend(UDP_ACCEL a, UCHAR data, UINT data_size, bool compressed, UINT max_size, bool high_priority);`
			`void UdpAccelSendBlock(UDP_ACCEL a, BLOCK b);`
			`UINT UdpAccelCalcMss(UDP_ACCEL *a);`
			`void NatT_GetIpThread(THREAD thread, void param);`

			`#endif // UDPACCEL_H`