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-/*
- *  OpenVPN -- An application to securely tunnel IP networks
- *             over a single TCP/UDP port, with support for SSL/TLS-based
- *             session authentication and key exchange,
- *             packet encryption, packet authentication, and
- *             packet compression.
- *
- *  Copyright (C) 2010-2018 Fox Crypto B.V. <openvpn@fox-it.com>
- *
- *
- *  This program is free software; you can redistribute it and/or modify
- *  it under the terms of the GNU General Public License version 2
- *  as published by the Free Software Foundation.
- *
- *  This program is distributed in the hope that it will be useful,
- *  but WITHOUT ANY WARRANTY; without even the implied warranty of
- *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
- *  GNU General Public License for more details.
- *
- *  You should have received a copy of the GNU General Public License along
- *  with this program; if not, write to the Free Software Foundation, Inc.,
- *  51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
- */
-
-/**
- * @file Network protocol overview documentation file.
- */
-
-/**
- * @page network_protocol OpenVPN's network protocol
- *
- * Description of packet structure in OpenVPN's network protocol.
- *
- * This document describes the structure of packets exchanged between
- * OpenVPN peers.  It is based on the protocol description in the \c ssl.h
- * file.
- *
- * @section network_protocol_external Outer structure of packets exchanged between OpenVPN peers
- *
- * VPN tunnel packets are transported between OpenVPN peers using the UDP
- * or TCP protocols.  Their structure is described below.
- *
- * @subsection network_protocol_external_structure External packet structure
- *
- *  - packet length (16 bits, unsigned) [TCP-mode only]: always sent as
- *    plain text.  Since TCP is a stream protocol, this packet length
- *    defines the packetization of the stream.
- *  - packet opcode and key_id (8 bits) [TLS-mode only]:
- *     - package message type (high 5 bits)
- *     - key_id (low 3 bits): the key_id refers to an already negotiated
- *       TLS session.  OpenVPN seamlessly renegotiates the TLS session by
- *       using a new key_id for the new session.  Overlap (controlled by
- *       user definable parameters) between old and new TLS sessions is
- *       allowed, providing a seamless transition during tunnel operation.
- *  - payload (n bytes)
- *
- * @subsection network_protocol_external_types Message types
- *
- * The type of a VPN tunnel packet is indicated by its opcode.  The
- * following describes the various opcodes available.
- *
- *  - Control channel messages:
- *     - \ref P_CONTROL_HARD_RESET_CLIENT_V1 -- %Key method 1, initial %key
- *       from client, forget previous state.
- *     - \ref P_CONTROL_HARD_RESET_SERVER_V1 -- %Key method 1, initial %key
- *       from server, forget previous state.
- *     - \ref P_CONTROL_HARD_RESET_CLIENT_V2 -- %Key method 2, initial %key
- *       from client, forget previous state.
- *     - \ref P_CONTROL_HARD_RESET_SERVER_V2 -- %Key method 2, initial %key
- *       from server, forget previous state.
- *     - \ref P_CONTROL_SOFT_RESET_V1 -- New %key, with a graceful
- *       transition from old to new %key in the sense that a transition
- *       window exists where both the old or new key_id can be used.
- *     - \ref P_CONTROL_V1 -- Control channel packet (usually TLS
- *       ciphertext).
- *     - \ref P_ACK_V1 -- Acknowledgement for control channel packets
- *       received.
- *  - Data channel messages:
- *     - \ref P_DATA_V1 -- Data channel packet containing data channel
- *       ciphertext.
- *     - \ref P_DATA_V2 -- Data channel packet containing peer-id and data
- *       channel ciphertext.
- *
- * @subsection network_protocol_external_key_id Session IDs and Key IDs
- *
- * OpenVPN uses two different forms of packet identifiers:
- *  - The first form is 64 bits and is used for all control channel
- *    messages.  This form is referred to as a \c session_id.
- *  - Data channel messages on the other hand use a shortened form of 3
- *    bits for efficiency reasons since the vast majority of OpenVPN
- *    packets in an active tunnel will be data channel messages.  This
- *    form is referred to as a \c key_id.
- *
- * The control and data channels use independent packet-id sequences,
- * because the data channel is an unreliable channel while the control
- * channel is a %reliable channel.  Each use their own independent HMAC
- * keys.
- *
- * @subsection network_protocol_external_reliable Control channel reliability layer
- *
- * Control channel messages (\c P_CONTROL_* and \c P_ACK_* message types)
- * are TLS ciphertext packets which have been encapsulated inside of a
- * reliability layer.  The reliability layer is implemented as a
- * straightforward acknowledge and retransmit model.
- *
- * Acknowledgments of received messages can be encoded in either the
- * dedicated \c P_ACK_* record or they can be prepended to a \c
- * P_CONTROL_* message.
- *
- * See the \link reliable Reliability Layer\endlink module for a detailed
- * description.
- *
- * @section network_protocol_control Structure of control channel messages
- *
- * @subsection network_protocol_control_ciphertext Structure of ciphertext control channel messages
- *
- * Control channel packets in ciphertext form consist of the following
- * parts:
- *
- *  - local \c session_id (random 64 bit value to identify TLS session).
- *  - HMAC signature of entire encapsulation header for HMAC firewall
- *    [only if \c --tls-auth is specified] (usually 16 or 20 bytes).
- *  - packet-id for replay protection (4 or 8 bytes, includes sequence
- *    number and optional \c time_t timestamp).
- *  - acknowledgment packet-id array length (1 byte).
- *  - acknowledgment packet-id array (if length > 0).
- *  - acknowledgment remote session-id (if length > 0).
- *  - packet-id of this message (4 bytes).
- *  - TLS payload ciphertext (n bytes) (only for \c P_CONTROL_V1).
- *
- * Note that when \c --tls-auth is used, all message types are protected
- * with an HMAC signature, even the initial packets of the TLS handshake.
- * This makes it easy for OpenVPN to throw away bogus packets quickly,
- * without wasting resources on attempting a TLS handshake which will
- * ultimately fail.
- *
- * @subsection network_protocol_control_key_methods Control channel key methods
- *
- * Once the TLS session has been initialized and authenticated, the TLS
- * channel is used to exchange random %key material for bidirectional
- * cipher and HMAC keys which will be used to secure data channel packets.
- * OpenVPN currently implements two %key methods.  %Key method 1 directly
- * derives keys using random bits obtained from the \c rand_bytes() function.
- * %Key method 2 mixes random %key material from both sides of the connection
- * using the TLS PRF mixing function.  %Key method 2 is the preferred method and
- * is the default for OpenVPN 2.0+.
- *
- * The @ref key_generation "Data channel key generation" related page
- * describes the %key methods in more detail.
- *
- * @subsection network_protocol_control_plaintext Structure of plaintext control channel messages
- *
- *  - %Key method 1 (support removed in OpenVPN 2.5):
- *     - Cipher %key length in bytes (1 byte).
- *     - Cipher %key (n bytes).
- *     - HMAC %key length in bytes (1 byte).
- *     - HMAC %key (n bytes).
- *     - %Options string (n bytes, null terminated, client/server %options
- *       string should match).
- *  - %Key method 2:
- *     - Literal 0 (4 bytes).
- *     - %Key method (1 byte).
- *     - \c key_source structure (\c key_source.pre_master only defined
- *       for client -> server).
- *     - %Options string length, including null (2 bytes).
- *     - %Options string (n bytes, null terminated, client/server %options
- *       string must match).
- *     - [The username/password data below is optional, record can end at
- *       this point.]
- *     - Username string length, including null (2 bytes).
- *     - Username string (n bytes, null terminated).
- *     - Password string length, including null (2 bytes).
- *     - Password string (n bytes, null terminated).
- *
- * @section network_protocol_data Structure of data channel messages
- *
- * The P_DATA_* payload represents encapsulated tunnel packets which tend to be
- * either IP packets or Ethernet frames. This is essentially the "payload" of
- * the VPN. Data channel packets consist of a data channel header, and a
- * payload. There are two possible formats:
- *
- * @par P_DATA_V1
- * P_DATA_V1 packets have a 1-byte header, carrying the \ref P_DATA_V1 \c opcode
- * and \c key_id, followed by the payload:\n
- * <tt> [ 5-bit opcode | 3-bit key_id ] [ payload ] </tt>
- *
- * @par P_DATA_V2
- * P_DATA_V2 packets have the same 1-byte opcode/key_id, but carrying the \ref
- * P_DATA_V2 opcode, followed by a 3-byte peer-id, which uniquely identifies
- * the peer:\n
- * <tt> [ 5-bit opcode | 3-bit key_id ] [ 24-bit peer-id ] [ payload ] </tt>
- *
- * See @ref data_crypto for details on the data channel payload format.
- *
- */