164 lines
6.4 KiB
C
164 lines
6.4 KiB
C
/* $Id$ */
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/*
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* Copyright (C) 2008-2011 Teluu Inc. (http://www.teluu.com)
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*/
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/**
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@defgroup PJNATH_TURN TURN: Traversal Using Relays around NAT
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@brief TURN protocol implementation
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@ingroup PJNATH
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\section turn_intro_sec Introduction to TURN
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When a direct communication path cannot be found, it is necessary to
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use the services of an intermediate host that acts as a relay for the
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packets. This relay typically sits in the public Internet and relays
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packets between two hosts that both sit behind NATs.
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TURN allows a host behind a NAT (called the TURN client) to request that
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another host (called the TURN server) act as a relay. The client can
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arrange for the server to relay packets to and from certain other hosts
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(called peers) and can control aspects of how the relaying is done.
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The client does this by obtaining an IP address and port on the
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server, called the relayed-transport-address. When a peer sends a
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packet to the relayed-transport-address, the server relays the packet
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to the client. When the client sends a data packet to the server,
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the server relays it to the appropriate peer using the relayed-
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transport-address as the source.
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\section turn_op_sec Overview of TURN operations
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<b>Discovering TURN server</b>.\n
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Client learns the IP address of the TURN
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server either through some privisioning or by querying DNS SRV records
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for TURN service for the specified domain. Client may use UDP or TCP (or
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TLS) to connect to the TURN server.
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<b>Authentication</b>.\n
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All TURN operations requires the use of authentication
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(it uses STUN long term autentication method), hence client must be
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configured with the correct credential to use the service.
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<b>Allocation</b>.\n
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Client creates one "relay port" (or called <b>relayed-transport-address</b>
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in TURN terminology) in the TURN server by sending TURN \a Allocate request,
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hence this process is called creating allocation. Once the allocation is
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successful, client will be given the IP address and port of the "relay
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port" in the Allocate response.
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<b>Sending data through the relay</b>.\n
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Once allocation has been created, client may send data to any remote
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endpoints (called peers in TURN terminology) via the "relay port". It does
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so by sending Send Indication to the TURN server, giving the peer address
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in the indication message. But note that at this point peers are not allowed
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to send data towards the client (via the "relay port") before permission is
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installed for that peer.
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<b>Creating permissions</b>.\n
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Permission needs to be created in the TURN server so that a peer can send
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data to the client via the relay port (a peer in this case is identified by
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its IP address). Without this, when the TURN server receives data from the
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peer in the "relay port", it will drop this data.
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<b>Receiving data from peers</b>.\n
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Once permission has been installed for the peer, any data received by the
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TURN server (from that peer) in the "relay port" will be relayed back to
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client by using Data Indication.
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<b>Using ChannelData</b>.\n
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TURN provides optimized framing to the data by using ChannelData
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packetization. The client activates this format by sending ChannelBind
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request to the TURN server, which provides (channel) binding which maps a
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particular peer address with a channel number. Data sent or received to/for
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this peer will then use ChannelData format instead of Send or Data
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Indications.
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<b>Refreshing the allocation, permissions, and channel bindings</b>.\n
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Allocations, permissions, and channel bindings need to be refreshed
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periodically by client, or otherwise they will expire.
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<b>Destroying the allocation</b>.\n
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Once the "relay port" is no longer needed, client destroys the allocation
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by sending Refresh request with LIFETIME attribute set to zero.
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\section turn_org_sec Library organizations
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The TURN functionalities in PJNATH primarily consist of
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\ref PJNATH_TURN_SOCK and \ref PJNATH_TURN_SESSION. Please see more
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below.
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\section turn_using_sec Using TURN transport
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The \ref PJNATH_TURN_SOCK is a ready to use object for relaying
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application data via a TURN server, by managing all the operations
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above.
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Among other things it provides the following features:
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- resolution of the TURN server with DNS SRV
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- interface to create allocation, permissions, and channel
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bindings
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- interface to send and receive packets through the relay
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- provides callback to notify the application about incoming data
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- managing the allocation, permissions, and channel bindings
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Please see \ref PJNATH_TURN_SOCK for more documentation about and
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on how to use this object.
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\section turn_owntransport_sec Creating custom TURN transport
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The \ref PJNATH_TURN_SESSION is a transport-independent object to
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manage a client TURN session. It contains the core logic for managing
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the TURN client session as listed in TURN operations above, but
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in transport-independent manner (i.e. it doesn't have a socket), so
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that developer can integrate TURN client functionality into existing
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framework that already has its own means to send and receive data,
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or to support new transport types to TURN, such as TLS.
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You can create your own (custom) TURN transport by wrapping this
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into your own object, and provide it with the means to send and
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receive packets.
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Please see \ref PJNATH_TURN_SESSION for more information.
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\section turn_samples_sec Samples
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The \ref turn_client_sample is a sample application to use the
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\ref PJNATH_TURN_SOCK. Also there is a sample TURN server in
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the distribution as well.
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Also see <b>\ref samples_page</b> for other samples.
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*/
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/**
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* @defgroup PJNATH_TURN_SOCK TURN client transport
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* @brief Client transport utilizing TURN relay
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* @ingroup PJNATH_TURN
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*/
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/**
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* @defgroup PJNATH_TURN_SESSION TURN client session
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* @brief Transport independent TURN client session
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* @ingroup PJNATH_TURN
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*/
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