/usr/include/ptclib/pnat.h is in libpt2.4.5-dev 2.4.5-2build1.
This file is owned by root:root, with mode 0o644.
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* pnat.h
*
* NAT Strategy support for Portable Windows Library.
*
* Virteos is a Trade Mark of ISVO (Asia) Pte Ltd.
*
* Copyright (c) 2004 ISVO (Asia) Pte Ltd. All Rights Reserved.
*
* The contents of this file are subject to the Mozilla Public License
* Version 1.0 (the "License"); you may not use this file except in
* compliance with the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS"
* basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
* the License for the specific language governing rights and limitations
* under the License.
*
*
* The Original Code is derived from and used in conjunction with the
* OpenH323 Project (www.openh323.org/)
*
* The Initial Developer of the Original Code is ISVO (Asia) Pte Ltd.
*
*
* Contributor(s): ______________________________________.
*
* $Revision: 20766 $
* $Author: rjongbloed $
* $Date: 2008-08-29 06:41:59 +0000 (Fri, 29 Aug 2008) $
*/
#ifndef _PTLIB_H
#include <ptlib.h>
#endif
#include <ptlib/sockets.h>
#ifndef P_NATMETHOD
#define P_NATMETHOD
#include <ptlib/plugin.h>
#include <ptlib/pluginmgr.h>
/** PNatMethod
Base Network Address Traversal Method class
All NAT Traversal Methods are derived off this class.
There are quite a few methods of NAT Traversal. The
only purpose of this class is to provide a common
interface. It is intentionally minimalistic.
*/
class PNatMethod : public PObject
{
PCLASSINFO(PNatMethod,PObject);
public:
/**@name Construction */
//@{
/** Default Contructor
*/
PNatMethod();
/** Deconstructor
*/
~PNatMethod();
//@}
/**@name Overrides from PObject */
//@{
virtual void PrintOn(
ostream & strm
) const;
//@}
/**@name General Functions */
//@{
/** Factory Create
*/
static PNatMethod * Create(
const PString & name, ///< Feature Name Expression
PPluginManager * pluginMgr = NULL ///< Plugin Manager
);
/** Get the NAT traversal method Name
*/
virtual PString GetName() const = 0;
/**Get the current server address name.
Defaults to be "address:port" string form.
*/
virtual PString GetServer() const;
/**Get the current server address and port being used.
*/
virtual bool GetServerAddress(
PIPSocket::Address & address, ///< Address of server
WORD & port ///< Port server is using.
) const = 0;
/** GetExternalAddress
Get the acquired External IP Address.
*/
virtual PBoolean GetExternalAddress(
PIPSocket::Address & externalAddress, /// External address of router
const PTimeInterval & maxAge = 1000 /// Maximum age for caching
) = 0;
/**Return the interface NAT router is using.
*/
virtual bool GetInterfaceAddress(
PIPSocket::Address & internalAddress
) const = 0;
/**Create a single socket.
The NAT traversal protocol is used to create a socket for which the
external IP address and port numbers are known. A PUDPSocket descendant
is returned which will, in response to GetLocalAddress() return the
externally visible IP and port rather than the local machines IP and
socket.
The will create a new socket pointer. It is up to the caller to make
sure the socket is deleted to avoid memory leaks.
The socket pointer is set to NULL if the function fails and returns
PFalse.
*/
virtual PBoolean CreateSocket(
PUDPSocket * & socket,
const PIPSocket::Address & binding = PIPSocket::GetDefaultIpAny(),
WORD localPort = 0
) = 0;
/**Create a socket pair.
The NAT traversal protocol is used to create a pair of sockets with
adjacent port numbers for which the external IP address and port
numbers are known. PUDPSocket descendants are returned which will, in
response to GetLocalAddress() return the externally visible IP and port
rather than the local machines IP and socket.
The will create new socket pointers. It is up to the caller to make
sure the sockets are deleted to avoid memory leaks.
The socket pointers are set to NULL if the function fails and returns
PFalse.
*/
virtual PBoolean CreateSocketPair(
PUDPSocket * & socket1,
PUDPSocket * & socket2,
const PIPSocket::Address & binding = PIPSocket::GetDefaultIpAny()
) = 0;
/**Returns whether the Nat Method is ready and available in
assisting in NAT Traversal. The principal is function is
to allow the EP to detect various methods and if a method
is detected then this method is available for NAT traversal
The Order of adding to the PNstStrategy determines which method
is used
*/
virtual bool IsAvailable(
const PIPSocket::Address & binding = PIPSocket::GetDefaultIpAny() ///< Interface to see if NAT is available on
) = 0;
enum RTPSupportTypes {
RTPSupported,
RTPIfSendMedia,
RTPUnsupported,
RTPUnknown,
NumRTPSupportTypes
};
/**Return an indication if the current STUN type supports RTP
Use the force variable to guarantee an up to date test
*/
virtual RTPSupportTypes GetRTPSupport(
PBoolean force = PFalse ///< Force a new check
) = 0;
/**Set the port ranges to be used on local machine.
Note that the ports used on the NAT router may not be the same unless
some form of port forwarding is present.
If the port base is zero then standard operating system port allocation
method is used.
If the max port is zero then it will be automatically set to the port
base + 99.
*/
virtual void SetPortRanges(
WORD portBase, /// Single socket port number base
WORD portMax = 0, /// Single socket port number max
WORD portPairBase = 0, /// Socket pair port number base
WORD portPairMax = 0 /// Socket pair port number max
);
//@}
protected:
struct PortInfo {
PortInfo(WORD port = 0)
: basePort(port)
, maxPort(port)
, currentPort(port)
{
}
PMutex mutex;
WORD basePort;
WORD maxPort;
WORD currentPort;
} singlePortInfo, pairedPortInfo;
};
/////////////////////////////////////////////////////////////
PLIST(PNatList, PNatMethod);
/////////////////////////////////////////////////////////////
/** PNatStrategy
The main container for all
NAT traversal Strategies.
*/
class PNatStrategy : public PObject
{
PCLASSINFO(PNatStrategy,PObject);
public :
/**@name Construction */
//@{
/** Default Contructor
*/
PNatStrategy();
/** Deconstructor
*/
~PNatStrategy();
//@}
/**@name Method Handling */
//@{
/** AddMethod
This function is used to add the required NAT
Traversal Method. The Order of Loading is important
The first added has the highest priority.
*/
void AddMethod(PNatMethod * method);
/** GetMethod
This function retrieves the first available NAT
Traversal Method. If no available NAT Method is found
then NULL is returned.
*/
PNatMethod * GetMethod();
/** RemoveMethod
This function removes a NAT method from the NATlist matching the supplied method name
*/
PBoolean RemoveMethod(const PString & meth);
/**Set the port ranges to be used on local machine.
Note that the ports used on the NAT router may not be the same unless
some form of port forwarding is present.
If the port base is zero then standard operating system port allocation
method is used.
If the max port is zero then it will be automatically set to the port
base + 99.
*/
void SetPortRanges(
WORD portBase, /// Single socket port number base
WORD portMax = 0, /// Single socket port number max
WORD portPairBase = 0, /// Socket pair port number base
WORD portPairMax = 0 /// Socket pair port number max
);
/** Get Loaded NAT Method List
*/
PNatList GetNATList() { return natlist; };
PNatMethod * LoadNatMethod(const PString & name);
PStringList GetRegisteredList();
//@}
private:
PNatList natlist;
};
////////////////////////////////////////////////////////
//
// declare macros and structures needed for NAT plugins
//
typedef PFactory<PNatMethod> NatFactory;
template <class className> class PNatMethodServiceDescriptor : public PDevicePluginServiceDescriptor
{
public:
virtual PObject * CreateInstance(int /*userData*/) const { return new className; }
virtual PStringArray GetDeviceNames(int /*userData*/) const { return className::GetNatMethodName(); }
};
#define PCREATE_NAT_PLUGIN(name) \
static PNatMethodServiceDescriptor<PNatMethod_##name> PNatMethod_##name##_descriptor; \
PCREATE_PLUGIN(name, PNatMethod, &PNatMethod_##name##_descriptor)
#endif
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